nasm/nasm.h

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/* nasm.h main header file for the Netwide Assembler: inter-module interface
*
* The Netwide Assembler is copyright (C) 1996 Simon Tatham and
* Julian Hall. All rights reserved. The software is
* redistributable under the licence given in the file "Licence"
* distributed in the NASM archive.
*
* initial version: 27/iii/95 by Simon Tatham
*/
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#ifndef NASM_NASM_H
#define NASM_NASM_H
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#include <stdio.h>
#include <inttypes.h>
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#include "version.h" /* generated NASM version macros */
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#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
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#ifndef NULL
#define NULL 0
#endif
#ifndef FALSE
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#define FALSE 0 /* comes in handy */
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#endif
#ifndef TRUE
#define TRUE 1
#endif
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#define NO_SEG -1L /* null segment value */
#define SEG_ABS 0x40000000L /* mask for far-absolute segments */
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#ifndef FILENAME_MAX
#define FILENAME_MAX 256
#endif
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#ifndef PREFIX_MAX
#define PREFIX_MAX 10
#endif
#ifndef POSTFIX_MAX
#define POSTFIX_MAX 10
#endif
#define IDLEN_MAX 4096
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/*
* Name pollution problems: <time.h> on Digital UNIX pulls in some
* strange hardware header file which sees fit to define R_SP. We
* undefine it here so as not to break the enum below.
*/
#ifdef R_SP
#undef R_SP
#endif
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/*
* We must declare the existence of this structure type up here,
* since we have to reference it before we define it...
*/
struct ofmt;
/*
* -------------------------
* Error reporting functions
* -------------------------
*/
/*
* An error reporting function should look like this.
*/
typedef void (*efunc) (int severity, const char *fmt, ...);
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/*
* These are the error severity codes which get passed as the first
* argument to an efunc.
*/
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#define ERR_DEBUG 0x00000008 /* put out debugging message */
#define ERR_WARNING 0x00000000 /* warn only: no further action */
#define ERR_NONFATAL 0x00000001 /* terminate assembly after phase */
#define ERR_FATAL 0x00000002 /* instantly fatal: exit with error */
#define ERR_PANIC 0x00000003 /* internal error: panic instantly
* and dump core for reference */
#define ERR_MASK 0x0000000F /* mask off the above codes */
#define ERR_NOFILE 0x00000010 /* don't give source file name/line */
#define ERR_USAGE 0x00000020 /* print a usage message */
#define ERR_PASS1 0x00000040 /* only print this error on pass one */
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/*
* These codes define specific types of suppressible warning.
*/
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#define ERR_WARN_MASK 0x0000FF00 /* the mask for this feature */
#define ERR_WARN_SHR 8 /* how far to shift right */
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#define ERR_WARN_MNP 0x00000100 /* macro-num-parameters warning */
#define ERR_WARN_MSR 0x00000200 /* macro self-reference */
#define ERR_WARN_OL 0x00000300 /* orphan label (no colon, and
* alone on line) */
#define ERR_WARN_NOV 0x00000400 /* numeric overflow */
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#define ERR_WARN_GNUELF 0x00000500 /* using GNU ELF extensions */
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#define ERR_WARN_MAX 5 /* the highest numbered one */
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/*
* -----------------------
* Other function typedefs
* -----------------------
*/
/*
* A label-lookup function should look like this.
*/
typedef int (*lfunc) (char *label, int32_t *segment, int32_t *offset);
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/*
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* And a label-definition function like this. The boolean parameter
* `is_norm' states whether the label is a `normal' label (which
* should affect the local-label system), or something odder like
* an EQU or a segment-base symbol, which shouldn't.
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*/
typedef void (*ldfunc) (char *label, int32_t segment, int32_t offset,
char *special, int is_norm, int isextrn,
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struct ofmt * ofmt, efunc error);
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/*
* List-file generators should look like this:
*/
typedef struct {
/*
* Called to initialize the listing file generator. Before this
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* is called, the other routines will silently do nothing when
* called. The `char *' parameter is the file name to write the
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* listing to.
*/
void (*init) (char *, efunc);
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/*
* Called to clear stuff up and close the listing file.
*/
void (*cleanup) (void);
/*
* Called to output binary data. Parameters are: the offset;
* the data; the data type. Data types are similar to the
* output-format interface, only OUT_ADDRESS will _always_ be
* displayed as if it's relocatable, so ensure that any non-
* relocatable address has been converted to OUT_RAWDATA by
* then. Note that OUT_RAWDATA+0 is a valid data type, and is a
* dummy call used to give the listing generator an offset to
* work with when doing things like uplevel(LIST_TIMES) or
* uplevel(LIST_INCBIN).
*/
void (*output) (int32_t, const void *, uint32_t);
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/*
* Called to send a text line to the listing generator. The
* `int' parameter is LIST_READ or LIST_MACRO depending on
* whether the line came directly from an input file or is the
* result of a multi-line macro expansion.
*/
void (*line) (int, char *);
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/*
* Called to change one of the various levelled mechanisms in
* the listing generator. LIST_INCLUDE and LIST_MACRO can be
* used to increase the nesting level of include files and
* macro expansions; LIST_TIMES and LIST_INCBIN switch on the
* two binary-output-suppression mechanisms for large-scale
* pseudo-instructions.
*
* LIST_MACRO_NOLIST is synonymous with LIST_MACRO except that
* it indicates the beginning of the expansion of a `nolist'
* macro, so anything under that level won't be expanded unless
* it includes another file.
*/
void (*uplevel) (int);
/*
* Reverse the effects of uplevel.
*/
void (*downlevel) (int);
} ListGen;
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/*
* The expression evaluator must be passed a scanner function; a
* standard scanner is provided as part of nasmlib.c. The
* preprocessor will use a different one. Scanners, and the
* token-value structures they return, look like this.
*
* The return value from the scanner is always a copy of the
* `t_type' field in the structure.
*/
struct tokenval {
int t_type;
int64_t t_integer, t_inttwo;
char *t_charptr;
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};
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typedef int (*scanner) (void *private_data, struct tokenval * tv);
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/*
* Token types returned by the scanner, in addition to ordinary
* ASCII character values, and zero for end-of-string.
*/
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enum { /* token types, other than chars */
TOKEN_INVALID = -1, /* a placeholder value */
TOKEN_EOS = 0, /* end of string */
TOKEN_EQ = '=', TOKEN_GT = '>', TOKEN_LT = '<', /* aliases */
TOKEN_ID = 256, TOKEN_NUM, TOKEN_REG, TOKEN_INSN, /* major token types */
TOKEN_ERRNUM, /* numeric constant with error in */
TOKEN_HERE, TOKEN_BASE, /* $ and $$ */
TOKEN_SPECIAL, /* BYTE, WORD, DWORD, QWORD, FAR, NEAR, etc */
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TOKEN_PREFIX, /* A32, O16, LOCK, REPNZ, TIMES, etc */
TOKEN_SHL, TOKEN_SHR, /* << and >> */
TOKEN_SDIV, TOKEN_SMOD, /* // and %% */
TOKEN_GE, TOKEN_LE, TOKEN_NE, /* >=, <= and <> (!= is same as <>) */
TOKEN_DBL_AND, TOKEN_DBL_OR, TOKEN_DBL_XOR, /* &&, || and ^^ */
TOKEN_SEG, TOKEN_WRT, /* SEG and WRT */
TOKEN_FLOAT /* floating-point constant */
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};
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typedef struct {
int32_t segment;
int64_t offset;
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int known;
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} loc_t;
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/*
* Expression-evaluator datatype. Expressions, within the
* evaluator, are stored as an array of these beasts, terminated by
* a record with type==0. Mostly, it's a vector type: each type
* denotes some kind of a component, and the value denotes the
* multiple of that component present in the expression. The
* exception is the WRT type, whose `value' field denotes the
* segment to which the expression is relative. These segments will
* be segment-base types, i.e. either odd segment values or SEG_ABS
* types. So it is still valid to assume that anything with a
* `value' field of zero is insignificant.
*/
typedef struct {
int32_t type; /* a register, or EXPR_xxx */
int64_t value; /* must be >= 32 bits */
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} expr;
/*
* The evaluator can also return hints about which of two registers
* used in an expression should be the base register. See also the
* `operand' structure.
*/
struct eval_hints {
int64_t base;
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int type;
};
/*
* The actual expression evaluator function looks like this. When
* called, it expects the first token of its expression to already
* be in `*tv'; if it is not, set tv->t_type to TOKEN_INVALID and
* it will start by calling the scanner.
*
* If a forward reference happens during evaluation, the evaluator
* must set `*fwref' to TRUE if `fwref' is non-NULL.
*
* `critical' is non-zero if the expression may not contain forward
* references. The evaluator will report its own error if this
* occurs; if `critical' is 1, the error will be "symbol not
* defined before use", whereas if `critical' is 2, the error will
* be "symbol undefined".
*
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* If `critical' has bit 8 set (in addition to its main value: 0x101
* and 0x102 correspond to 1 and 2) then an extended expression
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* syntax is recognised, in which relational operators such as =, <
* and >= are accepted, as well as low-precedence logical operators
* &&, ^^ and ||.
*
* If `hints' is non-NULL, it gets filled in with some hints as to
* the base register in complex effective addresses.
*/
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#define CRITICAL 0x100
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typedef expr *(*evalfunc) (scanner sc, void *scprivate,
struct tokenval * tv, int *fwref, int critical,
efunc error, struct eval_hints * hints);
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/*
* Special values for expr->type. ASSUMPTION MADE HERE: the number
* of distinct register names (i.e. possible "type" fields for an
* expr structure) does not exceed 124 (EXPR_REG_START through
* EXPR_REG_END).
*/
#define EXPR_REG_START 1
#define EXPR_REG_END 124
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#define EXPR_UNKNOWN 125L /* for forward references */
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#define EXPR_SIMPLE 126L
#define EXPR_WRT 127L
#define EXPR_SEGBASE 128L
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/*
* Preprocessors ought to look like this:
*/
typedef struct {
/*
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* Called at the start of a pass; given a file name, the number
* of the pass, an error reporting function, an evaluator
* function, and a listing generator to talk to.
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*/
void (*reset) (char *, int, efunc, evalfunc, ListGen *);
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/*
* Called to fetch a line of preprocessed source. The line
* returned has been malloc'ed, and so should be freed after
* use.
*/
char *(*getline) (void);
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/*
* Called at the end of a pass.
*/
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void (*cleanup) (int);
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} Preproc;
/*
* ----------------------------------------------------------------
* Some lexical properties of the NASM source language, included
* here because they are shared between the parser and preprocessor
* ----------------------------------------------------------------
*/
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/*
* isidstart matches any character that may start an identifier, and isidchar
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* matches any character that may appear at places other than the start of an
* identifier. E.g. a period may only appear at the start of an identifier
* (for local labels), whereas a number may appear anywhere *but* at the
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* start.
*/
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#define isidstart(c) ( isalpha(c) || (c)=='_' || (c)=='.' || (c)=='?' \
|| (c)=='@' )
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#define isidchar(c) ( isidstart(c) || isdigit(c) || (c)=='$' || (c)=='#' \
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|| (c)=='~' )
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/* Ditto for numeric constants. */
#define isnumstart(c) ( isdigit(c) || (c)=='$' )
#define isnumchar(c) ( isalnum(c) )
/* This returns the numeric value of a given 'digit'. */
#define numvalue(c) ((c)>='a' ? (c)-'a'+10 : (c)>='A' ? (c)-'A'+10 : (c)-'0')
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/*
* Data-type flags that get passed to listing-file routines.
*/
enum {
LIST_READ, LIST_MACRO, LIST_MACRO_NOLIST, LIST_INCLUDE,
LIST_INCBIN, LIST_TIMES
};
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/*
* -----------------------------------------------------------
* Format of the `insn' structure returned from `parser.c' and
* passed into `assemble.c'
* -----------------------------------------------------------
*/
/*
* Here we define the operand types. These are implemented as bit
* masks, since some are subsets of others; e.g. AX in a MOV
* instruction is a special operand type, whereas AX in other
* contexts is just another 16-bit register. (Also, consider CL in
* shift instructions, DX in OUT, etc.)
*
* The basic concept here is that
* (class & ~operand) == 0
*
* if and only if "operand" belongs to class type "class".
*
* The bits are assigned as follows:
*
* Bits 0-7: sizes
* 0: 8 bits (BYTE)
* 1: 16 bits (WORD)
* 2: 32 bits (DWORD)
* 3: 64 bits (QWORD)
* 4: 80 bits (TWORD)
* 5: FAR
* 6: NEAR
* 7: SHORT
*
* Bits 8-11: modifiers
* 8: TO
* 9: COLON
* 10: STRICT
* 11: (reserved)
*
* Bits 12-15: type of operand
* 12: REGISTER
* 13: IMMEDIATE
* 14: MEMORY (always has REGMEM attribute as well)
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* 15: REGMEM (valid EA operand)
*
* Bits 16-19: subclasses
* With REG_CDT:
* 16: REG_CREG (CRx)
* 17: REG_DREG (DRx)
* 18: REG_TREG (TRx)
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* With REG_GPR:
* 16: REG_ACCUM (AL, AX, EAX, RAX)
* 17: REG_COUNT (CL, CX, ECX, RCX)
* 18: REG_DATA (DL, DX, EDX, RDX)
* 19: REG_HIGH (AH, CH, DH, BH)
*
* With REG_SREG:
* 16: REG_CS
* 17: REG_DESS (DS, ES, SS)
* 18: REG_FSGS
* 19: REG_SEG67
*
* With FPUREG:
* 16: FPU0
*
* With MEMORY:
* 16: MEM_OFFS (this is a simple offset)
*
* With IMMEDIATE:
* 16: UNITY (1)
* 17: BYTENESS (-128..127)
*
* Bits 20-26: register classes
* 20: REG_CDT (CRx, DRx, TRx)
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* 21: REG_GPR (integer register)
* 22: REG_SREG
* 23: IP_REG (RIP or EIP)
* 24: FPUREG
* 25: MMXREG
* 26: XMMREG
*
* Bits 27-31 are currently unallocated.
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*/
/* Size, and other attributes, of the operand */
#define BITS8 0x00000001L
#define BITS16 0x00000002L
#define BITS32 0x00000004L
#define BITS64 0x00000008L /* x64 and FPU only */
#define BITS80 0x00000010L /* FPU only */
#define FAR 0x00000020L /* grotty: this means 16:16 or */
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/* 16:32, like in CALL/JMP */
#define NEAR 0x00000040L
#define SHORT 0x00000080L /* and this means what it says :) */
#define SIZE_MASK 0x000000FFL /* all the size attributes */
/* Modifiers */
#define MODIFIER_MASK 0x00000f00L
#define TO 0x00000100L /* reverse effect in FADD, FSUB &c */
#define COLON 0x00000200L /* operand is followed by a colon */
#define STRICT 0x00000400L /* do not optimize this operand */
/* Type of operand: memory reference, register, etc. */
#define OPTYPE_MASK 0x0000f000L
#define REGISTER 0x00001000L /* register number in 'basereg' */
#define IMMEDIATE 0x00002000L
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#define MEMORY 0x0000c000L
#define REGMEM 0x00008000L /* for r/m, ie EA, operands */
/* Register classes */
#define REG_EA 0x00009000L /* 'normal' reg, qualifies as EA */
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#define REG_GPR 0x00209000L /* integer register */
#define REG8 0x00209001L /* 8-bit GPR */
#define REG16 0x00209002L /* 16-bit GPR */
#define REG32 0x00209004L /* 32-bit GPR */
#define REG64 0x00209008L /* 64-bit GPR */
#define IP_REG 0x00801000L /* RIP or EIP register */
#define RIPREG 0x00801008L /* RIP */
#define EIPREG 0x00801004L /* EIP */
#define FPUREG 0x01001000L /* floating point stack registers */
#define FPU0 0x01011000L /* FPU stack register zero */
#define MMXREG 0x02009008L /* MMX registers */
#define XMMREG 0x04009001L /* XMM Katmai reg */
#define REG_CDT 0x00101004L /* CRn, DRn and TRn */
#define REG_CREG 0x00111004L /* CRn */
#define REG_DREG 0x00121004L /* DRn */
#define REG_TREG 0x00141004L /* TRn */
#define REG_SREG 0x00401002L /* any segment register */
#define REG_CS 0x00411002L /* CS */
#define REG_DESS 0x00421002L /* DS, ES, SS */
#define REG_FSGS 0x00441002L /* FS, GS */
#define REG_SEG67 0x00481002L /* Unimplemented segment registers */
#define REG_RIP 0x00801008L /* RIP relative addressing */
#define REG_EIP 0x00801004L /* EIP relative addressing */
/* Special GPRs */
#define REG_SMASK 0x000f0000L /* a mask for the following */
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#define REG_ACCUM 0x00219000L /* accumulator: AL, AX, EAX, RAX */
#define REG_AL 0x00219001L
#define REG_AX 0x00219002L
#define REG_EAX 0x00219004L
#define REG_RAX 0x00219008L
#define REG_COUNT 0x00229000L /* counter: CL, CX, ECX, RCX */
#define REG_CL 0x00229001L
#define REG_CX 0x00229002L
#define REG_ECX 0x00229004L
#define REG_RCX 0x00229008L
#define REG_DL 0x00249001L /* data: DL, DX, EDX, RDX */
#define REG_DX 0x00249002L
#define REG_EDX 0x00249004L
#define REG_RDX 0x00249008L
#define REG_HIGH 0x00289001L /* high regs: AH, CH, DH, BH */
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/* special type of EA */
#define MEM_OFFS 0x00214000L /* simple [address] offset */
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/* special type of immediate operand */
#define UNITY 0x00012000L /* for shift/rotate instructions */
#define SBYTE 0x00022000L /* for op r16/32,immediate instrs. */
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/* Register names automatically generated from regs.dat */
#include "regs.h"
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enum { /* condition code names */
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C_A, C_AE, C_B, C_BE, C_C, C_E, C_G, C_GE, C_L, C_LE, C_NA, C_NAE,
C_NB, C_NBE, C_NC, C_NE, C_NG, C_NGE, C_NL, C_NLE, C_NO, C_NP,
C_NS, C_NZ, C_O, C_P, C_PE, C_PO, C_S, C_Z
};
/*
* REX flags
*/
#define REX_H 0x80 /* High register present, REX forbidden */
#define REX_P 0x40 /* REX prefix present/required */
#define REX_L 0x20 /* Use LOCK prefix instead of REX.R */
#define REX_W 0x08 /* 64-bit operand size */
#define REX_R 0x04 /* ModRM reg extension */
#define REX_X 0x02 /* SIB index extension */
#define REX_B 0x01 /* ModRM r/m extension */
#define REX_REAL 0x4f /* Actual REX prefix bits */
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/*
* Note that because segment registers may be used as instruction
* prefixes, we must ensure the enumerations for prefixes and
* register names do not overlap.
*/
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enum { /* instruction prefixes */
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PREFIX_ENUM_START = REG_ENUM_LIMIT,
P_A16 = PREFIX_ENUM_START, P_A32, P_LOCK, P_O16, P_O32,
P_REP, P_REPE, P_REPNE, P_REPNZ, P_REPZ, P_TIMES
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};
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enum { /* extended operand types */
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EOT_NOTHING, EOT_DB_STRING, EOT_DB_NUMBER
};
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enum { /* special EA flags */
EAF_BYTEOFFS = 1, /* force offset part to byte size */
EAF_WORDOFFS = 2, /* force offset part to [d]word size */
EAF_TIMESTWO = 4 /* really do EAX*2 not EAX+EAX */
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};
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enum { /* values for `hinttype' */
EAH_NOHINT = 0, /* no hint at all - our discretion */
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EAH_MAKEBASE = 1, /* try to make given reg the base */
EAH_NOTBASE = 2 /* try _not_ to make reg the base */
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};
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typedef struct { /* operand to an instruction */
int32_t type; /* type of operand */
int addr_size; /* 0 means default; 16; 32; 64 */
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int basereg, indexreg, scale; /* registers and scale involved */
int hintbase, hinttype; /* hint as to real base register */
int32_t segment; /* immediate segment, if needed */
int64_t offset; /* any immediate number */
int32_t wrt; /* segment base it's relative to */
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int eaflags; /* special EA flags */
int opflags; /* see OPFLAG_* defines below */
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} operand;
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#define OPFLAG_FORWARD 1 /* operand is a forward reference */
#define OPFLAG_EXTERN 2 /* operand is an external reference */
typedef struct extop { /* extended operand */
struct extop *next; /* linked list */
int32_t type; /* defined above */
char *stringval; /* if it's a string, then here it is */
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int stringlen; /* ... and here's how long it is */
int32_t segment; /* if it's a number/address, then... */
int64_t offset; /* ... it's given here ... */
int32_t wrt; /* ... and here */
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} extop;
#define MAXPREFIX 4
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typedef struct { /* an instruction itself */
char *label; /* the label defined, or NULL */
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int prefixes[MAXPREFIX]; /* instruction prefixes, if any */
int nprefix; /* number of entries in above */
int opcode; /* the opcode - not just the string */
int condition; /* the condition code, if Jcc/SETcc */
int operands; /* how many operands? 0-3
* (more if db et al) */
operand oprs[3]; /* the operands, defined as above */
extop *eops; /* extended operands */
int eops_float; /* true if DD and floating */
int32_t times; /* repeat count (TIMES prefix) */
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int forw_ref; /* is there a forward reference? */
uint8_t rex; /* Special REX Prefix */
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} insn;
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enum geninfo { GI_SWITCH };
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/*
* ------------------------------------------------------------
* The data structure defining an output format driver, and the
* interfaces to the functions therein.
* ------------------------------------------------------------
*/
struct ofmt {
/*
* This is a short (one-liner) description of the type of
* output generated by the driver.
*/
const char *fullname;
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/*
* This is a single keyword used to select the driver.
*/
const char *shortname;
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/*
* this is reserved for out module specific help.
* It is set to NULL in all the out modules and is not implemented
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* in the main program
*/
const char *helpstring;
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/*
* this is a pointer to the first element of the debug information
*/
struct dfmt **debug_formats;
/*
* and a pointer to the element that is being used
* note: this is set to the default at compile time and changed if the
* -F option is selected. If developing a set of new debug formats for
* an output format, be sure to set this to whatever default you want
*
*/
struct dfmt *current_dfmt;
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/*
* This, if non-NULL, is a NULL-terminated list of `char *'s
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* pointing to extra standard macros supplied by the object
* format (e.g. a sensible initial default value of __SECT__,
* and user-level equivalents for any format-specific
* directives).
*/
const char **stdmac;
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/*
* This procedure is called at the start of an output session.
* It tells the output format what file it will be writing to,
* what routine to report errors through, and how to interface
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* to the label manager and expression evaluator if necessary.
* It also gives it a chance to do other initialisation.
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*/
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void (*init) (FILE * fp, efunc error, ldfunc ldef, evalfunc eval);
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/*
* This procedure is called to pass generic information to the
* object file. The first parameter gives the information type
* (currently only command line switches)
* and the second parameter gives the value. This function returns
* 1 if recognized, 0 if unrecognized
*/
int (*setinfo) (enum geninfo type, char **string);
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/*
* This procedure is called by assemble() to write actual
* generated code or data to the object file. Typically it
* doesn't have to actually _write_ it, just store it for
* later.
*
* The `type' argument specifies the type of output data, and
* usually the size as well: its contents are described below.
*/
void (*output) (int32_t segto, const void *data, uint32_t type,
int32_t segment, int32_t wrt);
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/*
* This procedure is called once for every symbol defined in
* the module being assembled. It gives the name and value of
* the symbol, in NASM's terms, and indicates whether it has
* been declared to be global. Note that the parameter "name",
* when passed, will point to a piece of static storage
* allocated inside the label manager - it's safe to keep using
* that pointer, because the label manager doesn't clean up
* until after the output driver has.
*
* Values of `is_global' are: 0 means the symbol is local; 1
* means the symbol is global; 2 means the symbol is common (in
* which case `offset' holds the _size_ of the variable).
* Anything else is available for the output driver to use
* internally.
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*
* This routine explicitly _is_ allowed to call the label
* manager to define further symbols, if it wants to, even
* though it's been called _from_ the label manager. That much
* re-entrancy is guaranteed in the label manager. However, the
* label manager will in turn call this routine, so it should
* be prepared to be re-entrant itself.
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*
* The `special' parameter contains special information passed
* through from the command that defined the label: it may have
* been an EXTERN, a COMMON or a GLOBAL. The distinction should
* be obvious to the output format from the other parameters.
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*/
void (*symdef) (char *name, int32_t segment, int32_t offset, int is_global,
char *special);
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/*
* This procedure is called when the source code requests a
* segment change. It should return the corresponding segment
* _number_ for the name, or NO_SEG if the name is not a valid
* segment name.
*
* It may also be called with NULL, in which case it is to
* return the _default_ section number for starting assembly in.
*
* It is allowed to modify the string it is given a pointer to.
*
* It is also allowed to specify a default instruction size for
* the segment, by setting `*bits' to 16 or 32. Or, if it
* doesn't wish to define a default, it can leave `bits' alone.
*/
int32_t (*section) (char *name, int pass, int *bits);
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/*
* This procedure is called to modify the segment base values
* returned from the SEG operator. It is given a segment base
* value (i.e. a segment value with the low bit set), and is
* required to produce in return a segment value which may be
* different. It can map segment bases to absolute numbers by
* means of returning SEG_ABS types.
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*
* It should return NO_SEG if the segment base cannot be
* determined; the evaluator (which calls this routine) is
* responsible for throwing an error condition if that occurs
* in pass two or in a critical expression.
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*/
int32_t (*segbase) (int32_t segment);
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/*
* This procedure is called to allow the output driver to
* process its own specific directives. When called, it has the
* directive word in `directive' and the parameter string in
* `value'. It is called in both assembly passes, and `pass'
* will be either 1 or 2.
*
* This procedure should return zero if it does not _recognise_
* the directive, so that the main program can report an error.
* If it recognises the directive but then has its own errors,
* it should report them itself and then return non-zero. It
* should also return non-zero if it correctly processes the
* directive.
*/
int (*directive) (char *directive, char *value, int pass);
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/*
* This procedure is called before anything else - even before
* the "init" routine - and is passed the name of the input
* file from which this output file is being generated. It
* should return its preferred name for the output file in
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* `outname', if outname[0] is not '\0', and do nothing to
* `outname' otherwise. Since it is called before the driver is
* properly initialized, it has to be passed its error handler
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* separately.
*
* This procedure may also take its own copy of the input file
* name for use in writing the output file: it is _guaranteed_
* that it will be called before the "init" routine.
*
* The parameter `outname' points to an area of storage
* guaranteed to be at least FILENAME_MAX in size.
*/
void (*filename) (char *inname, char *outname, efunc error);
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/*
* This procedure is called after assembly finishes, to allow
* the output driver to clean itself up and free its memory.
* Typically, it will also be the point at which the object
* file actually gets _written_.
*
* One thing the cleanup routine should always do is to close
* the output file pointer.
*/
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void (*cleanup) (int debuginfo);
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};
/*
* values for the `type' parameter to an output function. Each one
* must have the actual number of _bytes_ added to it.
*
* Exceptions are OUT_RELxADR, which denote an x-byte relocation
* which will be a relative jump. For this we need to know the
* distance in bytes from the start of the relocated record until
* the end of the containing instruction. _This_ is what is stored
* in the size part of the parameter, in this case.
*
* Also OUT_RESERVE denotes reservation of N bytes of BSS space,
* and the contents of the "data" parameter is irrelevant.
*
* The "data" parameter for the output function points to a "int32_t",
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* containing the address in question, unless the type is
* OUT_RAWDATA, in which case it points to an "uint8_t"
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* array.
*/
#define OUT_RAWDATA 0x00000000UL
#define OUT_ADDRESS 0x10000000UL
#define OUT_REL2ADR 0x20000000UL
#define OUT_REL4ADR 0x30000000UL
#define OUT_RESERVE 0x40000000UL
#define OUT_TYPMASK 0xF0000000UL
#define OUT_SIZMASK 0x0FFFFFFFUL
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/*
* ------------------------------------------------------------
* The data structure defining a debug format driver, and the
* interfaces to the functions therein.
* ------------------------------------------------------------
*/
struct dfmt {
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/*
* This is a short (one-liner) description of the type of
* output generated by the driver.
*/
const char *fullname;
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/*
* This is a single keyword used to select the driver.
*/
const char *shortname;
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/*
* init - called initially to set up local pointer to object format,
* void pointer to implementation defined data, file pointer (which
* probably won't be used, but who knows?), and error function.
*/
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void (*init) (struct ofmt * of, void *id, FILE * fp, efunc error);
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/*
* linenum - called any time there is output with a change of
* line number or file.
*/
void (*linenum) (const char *filename, int32_t linenumber, int32_t segto);
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/*
* debug_deflabel - called whenever a label is defined. Parameters
* are the same as to 'symdef()' in the output format. This function
* would be called before the output format version.
*/
void (*debug_deflabel) (char *name, int32_t segment, int32_t offset,
int is_global, char *special);
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/*
* debug_directive - called whenever a DEBUG directive other than 'LINE'
* is encountered. 'directive' contains the first parameter to the
* DEBUG directive, and params contains the rest. For example,
* 'DEBUG VAR _somevar:int' would translate to a call to this
* function with 'directive' equal to "VAR" and 'params' equal to
* "_somevar:int".
*/
void (*debug_directive) (const char *directive, const char *params);
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/*
* typevalue - called whenever the assembler wishes to register a type
* for the last defined label. This routine MUST detect if a type was
* already registered and not re-register it.
*/
void (*debug_typevalue) (int32_t type);
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/*
* debug_output - called whenever output is required
* 'type' is the type of info required, and this is format-specific
*/
void (*debug_output) (int type, void *param);
/*
* cleanup - called after processing of file is complete
*/
void (*cleanup) (void);
};
/*
* The type definition macros
* for debugging
*
* low 3 bits: reserved
* next 5 bits: type
* next 24 bits: number of elements for arrays (0 for labels)
*/
#define TY_UNKNOWN 0x00
#define TY_LABEL 0x08
#define TY_BYTE 0x10
#define TY_WORD 0x18
#define TY_DWORD 0x20
#define TY_FLOAT 0x28
#define TY_QWORD 0x30
#define TY_TBYTE 0x38
#define TY_COMMON 0xE0
#define TY_SEG 0xE8
#define TY_EXTERN 0xF0
#define TY_EQU 0xF8
#define TYM_TYPE(x) ((x) & 0xF8)
#define TYM_ELEMENTS(x) (((x) & 0xFFFFFF00) >> 8)
#define TYS_ELEMENTS(x) ((x) << 8)
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/*
* -----
* Other
* -----
*/
/*
* This is a useful #define which I keep meaning to use more often:
* the number of elements of a statically defined array.
*/
#define elements(x) ( sizeof(x) / sizeof(*(x)) )
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extern int tasm_compatible_mode;
/*
* This declaration passes the "pass" number to all other modules
* "pass0" assumes the values: 0, 0, ..., 0, 1, 2
* where 0 = optimizing pass
* 1 = pass 1
* 2 = pass 2
*/
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extern int pass0; /* this is globally known */
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extern int optimizing;
extern int globalbits; /* this is globally known */
extern int maxbits; /* this is globally known */
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#endif