nasm/asm/nasm.c
H. Peter Anvin (Intel) 283bc92a92 nasm.c: correctly print errors once committed; assert errhold_stack empty
Properly format the error messages when we print them (oops!)

The errhold_stack should be empty after each pass. It may even be
worthwhile to make sure it is empty after each *line*, but do this
for now.

Signed-off-by: H. Peter Anvin (Intel) <hpa@zytor.com>
2020-06-04 16:19:51 -07:00

2263 lines
65 KiB
C

/* ----------------------------------------------------------------------- *
*
* Copyright 1996-2020 The NASM Authors - All Rights Reserved
* See the file AUTHORS included with the NASM distribution for
* the specific copyright holders.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following
* conditions are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
* CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* ----------------------------------------------------------------------- */
/*
* The Netwide Assembler main program module
*/
#include "compiler.h"
#include "nasm.h"
#include "nasmlib.h"
#include "nctype.h"
#include "error.h"
#include "saa.h"
#include "raa.h"
#include "float.h"
#include "stdscan.h"
#include "insns.h"
#include "preproc.h"
#include "parser.h"
#include "eval.h"
#include "assemble.h"
#include "labels.h"
#include "outform.h"
#include "listing.h"
#include "iflag.h"
#include "ver.h"
/*
* This is the maximum number of optimization passes to do. If we ever
* find a case where the optimizer doesn't naturally converge, we might
* have to drop this value so the assembler doesn't appear to just hang.
*/
#define MAX_OPTIMIZE (INT_MAX >> 1)
struct forwrefinfo { /* info held on forward refs. */
int lineno;
int operand;
};
const char *_progname;
static void parse_cmdline(int, char **, int);
static void assemble_file(const char *, struct strlist *);
static bool skip_this_pass(errflags severity);
static void usage(void);
static void help(FILE *);
struct error_format {
const char *beforeline; /* Before line number, if present */
const char *afterline; /* After line number, if present */
const char *beforemsg; /* Before actual message */
};
static const struct error_format errfmt_gnu = { ":", "", ": " };
static const struct error_format errfmt_msvc = { "(", ")", " : " };
static const struct error_format *errfmt = &errfmt_gnu;
static struct strlist *warn_list;
static struct nasm_errhold *errhold_stack;
unsigned int debug_nasm; /* Debugging messages? */
static bool using_debug_info, opt_verbose_info;
static const char *debug_format;
#ifndef ABORT_ON_PANIC
# define ABORT_ON_PANIC 0
#endif
static bool abort_on_panic = ABORT_ON_PANIC;
static bool keep_all;
bool tasm_compatible_mode = false;
enum pass_type _pass_type;
const char * const _pass_types[] =
{
"init", "first", "optimize", "stabilize", "final"
};
int64_t _passn;
int globalrel = 0;
int globalbnd = 0;
struct compile_time official_compile_time;
const char *inname;
const char *outname;
static const char *listname;
static const char *errname;
static int64_t globallineno; /* for forward-reference tracking */
const struct ofmt *ofmt = &OF_DEFAULT;
const struct ofmt_alias *ofmt_alias = NULL;
const struct dfmt *dfmt;
FILE *error_file; /* Where to write error messages */
FILE *ofile = NULL;
struct optimization optimizing =
{ MAX_OPTIMIZE, OPTIM_ALL_ENABLED }; /* number of optimization passes to take */
static int cmd_sb = 16; /* by default */
iflag_t cpu;
static iflag_t cmd_cpu;
struct location location;
bool in_absolute; /* Flag we are in ABSOLUTE seg */
struct location absolute; /* Segment/offset inside ABSOLUTE */
static struct RAA *offsets;
static struct SAA *forwrefs; /* keep track of forward references */
static const struct forwrefinfo *forwref;
static const struct preproc_ops *preproc;
static struct strlist *include_path;
bool pp_noline; /* Ignore %line directives */
#define OP_NORMAL (1U << 0)
#define OP_PREPROCESS (1U << 1)
#define OP_DEPEND (1U << 2)
static unsigned int operating_mode;
/* Dependency flags */
static bool depend_emit_phony = false;
static bool depend_missing_ok = false;
static const char *depend_target = NULL;
static const char *depend_file = NULL;
struct strlist *depend_list;
static bool want_usage;
static bool terminate_after_phase;
bool user_nolist = false;
static char *quote_for_pmake(const char *str);
static char *quote_for_wmake(const char *str);
static char *(*quote_for_make)(const char *) = quote_for_pmake;
/*
* Execution limits that can be set via a command-line option or %pragma
*/
/*
* This is really unlimited; it would take far longer than the
* current age of the universe for this limit to be reached even on
* much faster CPUs than currently exist.
*/
#define LIMIT_MAX_VAL (INT64_MAX >> 1)
int64_t nasm_limit[LIMIT_MAX+1];
struct limit_info {
const char *name;
const char *help;
int64_t default_val;
};
/* The order here must match enum nasm_limit in nasm.h */
static const struct limit_info limit_info[LIMIT_MAX+1] = {
{ "passes", "total number of passes", LIMIT_MAX_VAL },
{ "stalled-passes", "number of passes without forward progress", 1000 },
{ "macro-levels", "levels of macro expansion", 10000 },
{ "macro-tokens", "tokens processed during single-lime macro expansion", 10000000 },
{ "mmacros", "multi-line macros before final return", 100000 },
{ "rep", "%rep count", 1000000 },
{ "eval", "expression evaluation descent", 8192 },
{ "lines", "total source lines processed", 2000000000 }
};
static void set_default_limits(void)
{
int i;
size_t rl;
int64_t new_limit;
for (i = 0; i <= LIMIT_MAX; i++)
nasm_limit[i] = limit_info[i].default_val;
/*
* Try to set a sensible default value for the eval depth based
* on the limit of the stack size, if knowable...
*/
rl = nasm_get_stack_size_limit();
new_limit = rl / (128 * sizeof(void *)); /* Sensible heuristic */
if (new_limit < nasm_limit[LIMIT_EVAL])
nasm_limit[LIMIT_EVAL] = new_limit;
}
enum directive_result
nasm_set_limit(const char *limit, const char *valstr)
{
int i;
int64_t val;
bool rn_error;
int errlevel;
if (!limit)
limit = "";
if (!valstr)
valstr = "";
for (i = 0; i <= LIMIT_MAX; i++) {
if (!nasm_stricmp(limit, limit_info[i].name))
break;
}
if (i > LIMIT_MAX) {
if (not_started())
errlevel = ERR_WARNING|WARN_OTHER|ERR_USAGE;
else
errlevel = ERR_WARNING|WARN_PRAGMA_UNKNOWN;
nasm_error(errlevel, "unknown limit: `%s'", limit);
return DIRR_ERROR;
}
if (!nasm_stricmp(valstr, "unlimited")) {
val = LIMIT_MAX_VAL;
} else {
val = readnum(valstr, &rn_error);
if (rn_error || val < 0) {
if (not_started())
errlevel = ERR_WARNING|WARN_OTHER|ERR_USAGE;
else
errlevel = ERR_WARNING|WARN_PRAGMA_BAD;
nasm_error(errlevel, "invalid limit value: `%s'", valstr);
return DIRR_ERROR;
}
if (val > LIMIT_MAX_VAL)
val = LIMIT_MAX_VAL;
}
nasm_limit[i] = val;
return DIRR_OK;
}
int64_t switch_segment(int32_t segment)
{
location.segment = segment;
if (segment == NO_SEG) {
location.offset = absolute.offset;
in_absolute = true;
} else {
location.offset = raa_read(offsets, segment);
in_absolute = false;
}
return location.offset;
}
static void set_curr_offs(int64_t l_off)
{
if (in_absolute)
absolute.offset = l_off;
else
offsets = raa_write(offsets, location.segment, l_off);
}
static void increment_offset(int64_t delta)
{
if (unlikely(delta == 0))
return;
location.offset += delta;
set_curr_offs(location.offset);
}
static void nasm_fputs(const char *line, FILE * outfile)
{
if (outfile) {
fputs(line, outfile);
putc('\n', outfile);
} else
puts(line);
}
/*
* Define system-defined macros that are not part of
* macros/standard.mac.
*/
static void define_macros(void)
{
const struct compile_time * const oct = &official_compile_time;
char temp[128];
if (oct->have_local) {
strftime(temp, sizeof temp, "__?DATE?__=\"%Y-%m-%d\"", &oct->local);
preproc->pre_define(temp);
strftime(temp, sizeof temp, "__?DATE_NUM?__=%Y%m%d", &oct->local);
preproc->pre_define(temp);
strftime(temp, sizeof temp, "__?TIME?__=\"%H:%M:%S\"", &oct->local);
preproc->pre_define(temp);
strftime(temp, sizeof temp, "__?TIME_NUM?__=%H%M%S", &oct->local);
preproc->pre_define(temp);
}
if (oct->have_gm) {
strftime(temp, sizeof temp, "__?UTC_DATE?__=\"%Y-%m-%d\"", &oct->gm);
preproc->pre_define(temp);
strftime(temp, sizeof temp, "__?UTC_DATE_NUM?__=%Y%m%d", &oct->gm);
preproc->pre_define(temp);
strftime(temp, sizeof temp, "__?UTC_TIME?__=\"%H:%M:%S\"", &oct->gm);
preproc->pre_define(temp);
strftime(temp, sizeof temp, "__?UTC_TIME_NUM?__=%H%M%S", &oct->gm);
preproc->pre_define(temp);
}
if (oct->have_posix) {
snprintf(temp, sizeof temp, "__?POSIX_TIME?__=%"PRId64, oct->posix);
preproc->pre_define(temp);
}
/*
* In case if output format is defined by alias
* we have to put shortname of the alias itself here
* otherwise ABI backward compatibility gets broken.
*/
snprintf(temp, sizeof(temp), "__?OUTPUT_FORMAT?__=%s",
ofmt_alias ? ofmt_alias->shortname : ofmt->shortname);
preproc->pre_define(temp);
/*
* Output-format specific macros.
*/
if (ofmt->stdmac)
preproc->extra_stdmac(ofmt->stdmac);
/*
* Debug format, if any
*/
if (dfmt != &null_debug_form) {
snprintf(temp, sizeof(temp), "__?DEBUG_FORMAT?__=%s", dfmt->shortname);
preproc->pre_define(temp);
}
}
/*
* Initialize the preprocessor, set up the include path, and define
* the system-included macros. This is called between passes 1 and 2
* of parsing the command options; ofmt and dfmt are defined at this
* point.
*
* Command-line specified preprocessor directives (-p, -d, -u,
* --pragma, --before) are processed after this function.
*/
static void preproc_init(struct strlist *ipath)
{
preproc->init();
define_macros();
preproc->include_path(ipath);
}
static void emit_dependencies(struct strlist *list)
{
FILE *deps;
int linepos, len;
bool wmake = (quote_for_make == quote_for_wmake);
const char *wrapstr, *nulltarget;
const struct strlist_entry *l;
if (!list)
return;
wrapstr = wmake ? " &\n " : " \\\n ";
nulltarget = wmake ? "\t%null\n" : "";
if (depend_file && strcmp(depend_file, "-")) {
deps = nasm_open_write(depend_file, NF_TEXT);
if (!deps) {
nasm_nonfatal("unable to write dependency file `%s'", depend_file);
return;
}
} else {
deps = stdout;
}
linepos = fprintf(deps, "%s :", depend_target);
strlist_for_each(l, list) {
char *file = quote_for_make(l->str);
len = strlen(file);
if (linepos + len > 62 && linepos > 1) {
fputs(wrapstr, deps);
linepos = 1;
}
fprintf(deps, " %s", file);
linepos += len+1;
nasm_free(file);
}
fputs("\n\n", deps);
strlist_for_each(l, list) {
if (depend_emit_phony) {
char *file = quote_for_make(l->str);
fprintf(deps, "%s :\n%s\n", file, nulltarget);
nasm_free(file);
}
}
strlist_free(&list);
if (deps != stdout)
fclose(deps);
}
/* Convert a struct tm to a POSIX-style time constant */
static int64_t make_posix_time(const struct tm *tm)
{
int64_t t;
int64_t y = tm->tm_year;
/* See IEEE 1003.1:2004, section 4.14 */
t = (y-70)*365 + (y-69)/4 - (y-1)/100 + (y+299)/400;
t += tm->tm_yday;
t *= 24;
t += tm->tm_hour;
t *= 60;
t += tm->tm_min;
t *= 60;
t += tm->tm_sec;
return t;
}
static void timestamp(void)
{
struct compile_time * const oct = &official_compile_time;
const struct tm *tp, *best_gm;
time(&oct->t);
best_gm = NULL;
tp = localtime(&oct->t);
if (tp) {
oct->local = *tp;
best_gm = &oct->local;
oct->have_local = true;
}
tp = gmtime(&oct->t);
if (tp) {
oct->gm = *tp;
best_gm = &oct->gm;
oct->have_gm = true;
if (!oct->have_local)
oct->local = oct->gm;
} else {
oct->gm = oct->local;
}
if (best_gm) {
oct->posix = make_posix_time(best_gm);
oct->have_posix = true;
}
}
int main(int argc, char **argv)
{
/* Do these as early as possible */
error_file = stderr;
_progname = argv[0];
if (!_progname || !_progname[0])
_progname = "nasm";
timestamp();
iflag_set_default_cpu(&cpu);
iflag_set_default_cpu(&cmd_cpu);
set_default_limits();
include_path = strlist_alloc(true);
_pass_type = PASS_INIT;
_passn = 0;
want_usage = terminate_after_phase = false;
nasm_ctype_init();
src_init();
/*
* We must call init_labels() before the command line parsing,
* because we may be setting prefixes/suffixes from the command
* line.
*/
init_labels();
offsets = raa_init();
forwrefs = saa_init((int32_t)sizeof(struct forwrefinfo));
preproc = &nasmpp;
operating_mode = OP_NORMAL;
parse_cmdline(argc, argv, 1);
if (terminate_after_phase) {
if (want_usage)
usage();
return 1;
}
/* At this point we have ofmt and the name of the desired debug format */
if (!using_debug_info) {
/* No debug info, redirect to the null backend (empty stubs) */
dfmt = &null_debug_form;
} else if (!debug_format) {
/* Default debug format for this backend */
dfmt = ofmt->default_dfmt;
} else {
dfmt = dfmt_find(ofmt, debug_format);
if (!dfmt) {
nasm_fatalf(ERR_USAGE, "unrecognized debug format `%s' for output format `%s'",
debug_format, ofmt->shortname);
}
}
preproc_init(include_path);
parse_cmdline(argc, argv, 2);
if (terminate_after_phase) {
if (want_usage)
usage();
return 1;
}
/* Save away the default state of warnings */
init_warnings();
/* Dependency filename if we are also doing other things */
if (!depend_file && (operating_mode & ~OP_DEPEND)) {
if (outname)
depend_file = nasm_strcat(outname, ".d");
else
depend_file = filename_set_extension(inname, ".d");
}
/*
* If no output file name provided and this
* is preprocess mode, we're perfectly
* fine to output into stdout.
*/
if (!outname && !(operating_mode & OP_PREPROCESS)) {
outname = filename_set_extension(inname, ofmt->extension);
if (!strcmp(outname, inname)) {
outname = "nasm.out";
nasm_warn(WARN_OTHER, "default output file same as input, using `%s' for output\n", outname);
}
}
depend_list = (operating_mode & OP_DEPEND) ? strlist_alloc(true) : NULL;
if (!depend_target)
depend_target = quote_for_make(outname);
if (!(operating_mode & (OP_PREPROCESS|OP_NORMAL))) {
char *line;
if (depend_missing_ok)
preproc->include_path(NULL); /* "assume generated" */
preproc->reset(inname, PP_DEPS, depend_list);
ofile = NULL;
while ((line = preproc->getline()))
nasm_free(line);
preproc->cleanup_pass();
reset_warnings();
} else if (operating_mode & OP_PREPROCESS) {
char *line;
const char *file_name = NULL;
int32_t prior_linnum = 0;
int lineinc = 0;
if (outname) {
ofile = nasm_open_write(outname, NF_TEXT);
if (!ofile)
nasm_fatal("unable to open output file `%s'", outname);
} else
ofile = NULL;
location.known = false;
_pass_type = PASS_FIRST; /* We emulate this assembly pass */
preproc->reset(inname, PP_PREPROC, depend_list);
while ((line = preproc->getline())) {
/*
* We generate %line directives if needed for later programs
*/
int32_t linnum = prior_linnum += lineinc;
int altline = src_get(&linnum, &file_name);
if (altline) {
if (altline == 1 && lineinc == 1)
nasm_fputs("", ofile);
else {
lineinc = (altline != -1 || lineinc != 1);
fprintf(ofile ? ofile : stdout,
"%%line %"PRId32"+%d %s\n", linnum, lineinc,
file_name);
}
prior_linnum = linnum;
}
nasm_fputs(line, ofile);
nasm_free(line);
}
preproc->cleanup_pass();
reset_warnings();
if (ofile)
fclose(ofile);
if (ofile && terminate_after_phase && !keep_all)
remove(outname);
ofile = NULL;
}
if (operating_mode & OP_NORMAL) {
ofile = nasm_open_write(outname, (ofmt->flags & OFMT_TEXT) ? NF_TEXT : NF_BINARY);
if (!ofile)
nasm_fatal("unable to open output file `%s'", outname);
ofmt->init();
dfmt->init();
assemble_file(inname, depend_list);
if (!terminate_after_phase) {
ofmt->cleanup();
cleanup_labels();
fflush(ofile);
if (ferror(ofile))
nasm_nonfatal("write error on output file `%s'", outname);
}
if (ofile) {
fclose(ofile);
if (terminate_after_phase && !keep_all)
remove(outname);
ofile = NULL;
}
}
preproc->cleanup_session();
if (depend_list && !terminate_after_phase)
emit_dependencies(depend_list);
if (want_usage)
usage();
raa_free(offsets);
saa_free(forwrefs);
eval_cleanup();
stdscan_cleanup();
src_free();
strlist_free(&include_path);
return terminate_after_phase;
}
/*
* Get a parameter for a command line option.
* First arg must be in the form of e.g. -f...
*/
static char *get_param(char *p, char *q, bool *advance)
{
*advance = false;
if (p[2]) /* the parameter's in the option */
return nasm_skip_spaces(p + 2);
if (q && q[0]) {
*advance = true;
return q;
}
nasm_nonfatalf(ERR_USAGE, "option `-%c' requires an argument", p[1]);
return NULL;
}
/*
* Copy a filename
*/
static void copy_filename(const char **dst, const char *src, const char *what)
{
if (*dst)
nasm_fatal("more than one %s file specified: %s\n", what, src);
*dst = nasm_strdup(src);
}
/*
* Convert a string to a POSIX make-safe form
*/
static char *quote_for_pmake(const char *str)
{
const char *p;
char *os, *q;
size_t n = 1; /* Terminating zero */
size_t nbs = 0;
if (!str)
return NULL;
for (p = str; *p; p++) {
switch (*p) {
case ' ':
case '\t':
/* Convert N backslashes + ws -> 2N+1 backslashes + ws */
n += nbs + 2;
nbs = 0;
break;
case '$':
case '#':
nbs = 0;
n += 2;
break;
case '\\':
nbs++;
n++;
break;
default:
nbs = 0;
n++;
break;
}
}
/* Convert N backslashes at the end of filename to 2N backslashes */
if (nbs)
n += nbs;
os = q = nasm_malloc(n);
nbs = 0;
for (p = str; *p; p++) {
switch (*p) {
case ' ':
case '\t':
while (nbs--)
*q++ = '\\';
*q++ = '\\';
*q++ = *p;
break;
case '$':
*q++ = *p;
*q++ = *p;
nbs = 0;
break;
case '#':
*q++ = '\\';
*q++ = *p;
nbs = 0;
break;
case '\\':
*q++ = *p;
nbs++;
break;
default:
*q++ = *p;
nbs = 0;
break;
}
}
while (nbs--)
*q++ = '\\';
*q = '\0';
return os;
}
/*
* Convert a string to a Watcom make-safe form
*/
static char *quote_for_wmake(const char *str)
{
const char *p;
char *os, *q;
bool quote = false;
size_t n = 1; /* Terminating zero */
if (!str)
return NULL;
for (p = str; *p; p++) {
switch (*p) {
case ' ':
case '\t':
case '&':
quote = true;
n++;
break;
case '\"':
quote = true;
n += 2;
break;
case '$':
case '#':
n += 2;
break;
default:
n++;
break;
}
}
if (quote)
n += 2;
os = q = nasm_malloc(n);
if (quote)
*q++ = '\"';
for (p = str; *p; p++) {
switch (*p) {
case '$':
case '#':
*q++ = '$';
*q++ = *p;
break;
case '\"':
*q++ = *p;
*q++ = *p;
break;
default:
*q++ = *p;
break;
}
}
if (quote)
*q++ = '\"';
*q = '\0';
return os;
}
enum text_options {
OPT_BOGUS,
OPT_VERSION,
OPT_HELP,
OPT_ABORT_ON_PANIC,
OPT_MANGLE,
OPT_INCLUDE,
OPT_PRAGMA,
OPT_BEFORE,
OPT_LIMIT,
OPT_KEEP_ALL,
OPT_NO_LINE,
OPT_DEBUG
};
enum need_arg {
ARG_NO,
ARG_YES,
ARG_MAYBE
};
struct textargs {
const char *label;
enum text_options opt;
enum need_arg need_arg;
int pvt;
};
static const struct textargs textopts[] = {
{"v", OPT_VERSION, ARG_NO, 0},
{"version", OPT_VERSION, ARG_NO, 0},
{"help", OPT_HELP, ARG_NO, 0},
{"abort-on-panic", OPT_ABORT_ON_PANIC, ARG_NO, 0},
{"prefix", OPT_MANGLE, ARG_YES, LM_GPREFIX},
{"postfix", OPT_MANGLE, ARG_YES, LM_GSUFFIX},
{"gprefix", OPT_MANGLE, ARG_YES, LM_GPREFIX},
{"gpostfix", OPT_MANGLE, ARG_YES, LM_GSUFFIX},
{"lprefix", OPT_MANGLE, ARG_YES, LM_LPREFIX},
{"lpostfix", OPT_MANGLE, ARG_YES, LM_LSUFFIX},
{"include", OPT_INCLUDE, ARG_YES, 0},
{"pragma", OPT_PRAGMA, ARG_YES, 0},
{"before", OPT_BEFORE, ARG_YES, 0},
{"limit-", OPT_LIMIT, ARG_YES, 0},
{"keep-all", OPT_KEEP_ALL, ARG_NO, 0},
{"no-line", OPT_NO_LINE, ARG_NO, 0},
{"debug", OPT_DEBUG, ARG_MAYBE, 0},
{NULL, OPT_BOGUS, ARG_NO, 0}
};
static void show_version(void)
{
printf("NASM version %s compiled on %s%s\n",
nasm_version, nasm_date, nasm_compile_options);
exit(0);
}
static bool stopoptions = false;
static bool process_arg(char *p, char *q, int pass)
{
char *param;
bool advance = false;
if (!p || !p[0])
return false;
if (p[0] == '-' && !stopoptions) {
if (strchr("oOfpPdDiIlLFXuUZwW", p[1])) {
/* These parameters take values */
if (!(param = get_param(p, q, &advance)))
return advance;
}
switch (p[1]) {
case 's':
if (pass == 1)
error_file = stdout;
break;
case 'o': /* output file */
if (pass == 2)
copy_filename(&outname, param, "output");
break;
case 'f': /* output format */
if (pass == 1) {
ofmt = ofmt_find(param, &ofmt_alias);
if (!ofmt) {
nasm_fatalf(ERR_USAGE, "unrecognised output format `%s' - use -hf for a list", param);
}
}
break;
case 'O': /* Optimization level */
if (pass == 1) {
int opt;
if (!*param) {
/* Naked -O == -Ox */
optimizing.level = MAX_OPTIMIZE;
} else {
while (*param) {
switch (*param) {
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
opt = strtoul(param, &param, 10);
/* -O0 -> optimizing.level == -1, 0.98 behaviour */
/* -O1 -> optimizing.level == 0, 0.98.09 behaviour */
if (opt < 2)
optimizing.level = opt - 1;
else
optimizing.level = opt;
break;
case 'v':
case '+':
param++;
opt_verbose_info = true;
break;
case 'x':
param++;
optimizing.level = MAX_OPTIMIZE;
break;
default:
nasm_fatal("unknown optimization option -O%c\n",
*param);
break;
}
}
if (optimizing.level > MAX_OPTIMIZE)
optimizing.level = MAX_OPTIMIZE;
}
}
break;
case 'p': /* pre-include */
case 'P':
if (pass == 2)
preproc->pre_include(param);
break;
case 'd': /* pre-define */
case 'D':
if (pass == 2)
preproc->pre_define(param);
break;
case 'u': /* un-define */
case 'U':
if (pass == 2)
preproc->pre_undefine(param);
break;
case 'i': /* include search path */
case 'I':
if (pass == 1)
strlist_add(include_path, param);
break;
case 'l': /* listing file */
if (pass == 2)
copy_filename(&listname, param, "listing");
break;
case 'L': /* listing options */
if (pass == 2) {
while (*param)
list_options |= list_option_mask(*param++);
}
break;
case 'Z': /* error messages file */
if (pass == 1)
copy_filename(&errname, param, "error");
break;
case 'F': /* specify debug format */
if (pass == 1) {
using_debug_info = true;
debug_format = param;
}
break;
case 'X': /* specify error reporting format */
if (pass == 1) {
if (!nasm_stricmp("vc", param) || !nasm_stricmp("msvc", param) || !nasm_stricmp("ms", param))
errfmt = &errfmt_msvc;
else if (!nasm_stricmp("gnu", param) || !nasm_stricmp("gcc", param))
errfmt = &errfmt_gnu;
else
nasm_fatalf(ERR_USAGE, "unrecognized error reporting format `%s'", param);
}
break;
case 'g':
if (pass == 1) {
using_debug_info = true;
if (p[2])
debug_format = nasm_skip_spaces(p + 2);
}
break;
case 'h':
help(stdout);
exit(0); /* never need usage message here */
break;
case 'y':
/* legacy option */
dfmt_list(stdout);
exit(0);
break;
case 't':
if (pass == 2) {
tasm_compatible_mode = true;
nasm_ctype_tasm_mode();
}
break;
case 'v':
show_version();
break;
case 'e': /* preprocess only */
case 'E':
if (pass == 1)
operating_mode = OP_PREPROCESS;
break;
case 'a': /* assemble only - don't preprocess */
if (pass == 1)
preproc = &preproc_nop;
break;
case 'w':
case 'W':
if (pass == 2)
set_warning_status(param);
break;
case 'M':
if (pass == 1) {
switch (p[2]) {
case 'W':
quote_for_make = quote_for_wmake;
break;
case 'D':
case 'F':
case 'T':
case 'Q':
advance = true;
break;
default:
break;
}
} else {
switch (p[2]) {
case 0:
operating_mode = OP_DEPEND;
break;
case 'G':
operating_mode = OP_DEPEND;
depend_missing_ok = true;
break;
case 'P':
depend_emit_phony = true;
break;
case 'D':
operating_mode |= OP_DEPEND;
if (q && (q[0] != '-' || q[1] == '\0')) {
depend_file = q;
advance = true;
}
break;
case 'F':
depend_file = q;
advance = true;
break;
case 'T':
depend_target = q;
advance = true;
break;
case 'Q':
depend_target = quote_for_make(q);
advance = true;
break;
case 'W':
/* handled in pass 1 */
break;
default:
nasm_nonfatalf(ERR_USAGE, "unknown dependency option `-M%c'", p[2]);
break;
}
}
if (advance && (!q || !q[0])) {
nasm_nonfatalf(ERR_USAGE, "option `-M%c' requires a parameter", p[2]);
break;
}
break;
case '-':
{
const struct textargs *tx;
size_t olen, plen;
char *eqsave;
enum text_options opt;
p += 2;
if (!*p) { /* -- => stop processing options */
stopoptions = true;
break;
}
olen = 0; /* Placate gcc at lower optimization levels */
plen = strlen(p);
for (tx = textopts; tx->label; tx++) {
olen = strlen(tx->label);
if (olen > plen)
continue;
if (nasm_memicmp(p, tx->label, olen))
continue;
if (tx->label[olen-1] == '-')
break; /* Incomplete option */
if (!p[olen] || p[olen] == '=')
break; /* Complete option */
}
if (!tx->label) {
nasm_nonfatalf(ERR_USAGE, "unrecognized option `--%s'", p);
}
opt = tx->opt;
eqsave = param = strchr(p+olen, '=');
if (param)
*param++ = '\0';
switch (tx->need_arg) {
case ARG_YES: /* Argument required, and may be standalone */
if (!param) {
param = q;
advance = true;
}
/* Note: a null string is a valid parameter */
if (!param) {
nasm_nonfatalf(ERR_USAGE, "option `--%s' requires an argument", p);
opt = OPT_BOGUS;
}
break;
case ARG_NO: /* Argument prohibited */
if (param) {
nasm_nonfatalf(ERR_USAGE, "option `--%s' does not take an argument", p);
opt = OPT_BOGUS;
}
break;
case ARG_MAYBE: /* Argument permitted, but must be attached with = */
break;
}
switch (opt) {
case OPT_BOGUS:
break; /* We have already errored out */
case OPT_VERSION:
show_version();
break;
case OPT_ABORT_ON_PANIC:
abort_on_panic = true;
break;
case OPT_MANGLE:
if (pass == 2)
set_label_mangle(tx->pvt, param);
break;
case OPT_INCLUDE:
if (pass == 2)
preproc->pre_include(q);
break;
case OPT_PRAGMA:
if (pass == 2)
preproc->pre_command("pragma", param);
break;
case OPT_BEFORE:
if (pass == 2)
preproc->pre_command(NULL, param);
break;
case OPT_LIMIT:
if (pass == 1)
nasm_set_limit(p+olen, param);
break;
case OPT_KEEP_ALL:
keep_all = true;
break;
case OPT_NO_LINE:
pp_noline = true;
break;
case OPT_DEBUG:
debug_nasm = param ? strtoul(param, NULL, 10) : debug_nasm+1;
break;
case OPT_HELP:
help(stdout);
exit(0);
default:
panic();
}
if (eqsave)
*eqsave = '='; /* Restore = argument separator */
break;
}
default:
nasm_nonfatalf(ERR_USAGE, "unrecognised option `-%c'", p[1]);
break;
}
} else if (pass == 2) {
/* In theory we could allow multiple input files... */
copy_filename(&inname, p, "input");
}
return advance;
}
#define ARG_BUF_DELTA 128
static void process_respfile(FILE * rfile, int pass)
{
char *buffer, *p, *q, *prevarg;
int bufsize, prevargsize;
bufsize = prevargsize = ARG_BUF_DELTA;
buffer = nasm_malloc(ARG_BUF_DELTA);
prevarg = nasm_malloc(ARG_BUF_DELTA);
prevarg[0] = '\0';
while (1) { /* Loop to handle all lines in file */
p = buffer;
while (1) { /* Loop to handle long lines */
q = fgets(p, bufsize - (p - buffer), rfile);
if (!q)
break;
p += strlen(p);
if (p > buffer && p[-1] == '\n')
break;
if (p - buffer > bufsize - 10) {
int offset;
offset = p - buffer;
bufsize += ARG_BUF_DELTA;
buffer = nasm_realloc(buffer, bufsize);
p = buffer + offset;
}
}
if (!q && p == buffer) {
if (prevarg[0])
process_arg(prevarg, NULL, pass);
nasm_free(buffer);
nasm_free(prevarg);
return;
}
/*
* Play safe: remove CRs, LFs and any spurious ^Zs, if any of
* them are present at the end of the line.
*/
*(p = &buffer[strcspn(buffer, "\r\n\032")]) = '\0';
while (p > buffer && nasm_isspace(p[-1]))
*--p = '\0';
p = nasm_skip_spaces(buffer);
if (process_arg(prevarg, p, pass))
*p = '\0';
if ((int) strlen(p) > prevargsize - 10) {
prevargsize += ARG_BUF_DELTA;
prevarg = nasm_realloc(prevarg, prevargsize);
}
strncpy(prevarg, p, prevargsize);
}
}
/* Function to process args from a string of args, rather than the
* argv array. Used by the environment variable and response file
* processing.
*/
static void process_args(char *args, int pass)
{
char *p, *q, *arg, *prevarg;
char separator = ' ';
p = args;
if (*p && *p != '-')
separator = *p++;
arg = NULL;
while (*p) {
q = p;
while (*p && *p != separator)
p++;
while (*p == separator)
*p++ = '\0';
prevarg = arg;
arg = q;
if (process_arg(prevarg, arg, pass))
arg = NULL;
}
if (arg)
process_arg(arg, NULL, pass);
}
static void process_response_file(const char *file, int pass)
{
char str[2048];
FILE *f = nasm_open_read(file, NF_TEXT);
if (!f) {
perror(file);
exit(-1);
}
while (fgets(str, sizeof str, f)) {
process_args(str, pass);
}
fclose(f);
}
static void parse_cmdline(int argc, char **argv, int pass)
{
FILE *rfile;
char *envreal, *envcopy = NULL, *p;
/*
* Initialize all the warnings to their default state, including
* warning index 0 used for "always on".
*/
memcpy(warning_state, warning_default, sizeof warning_state);
/*
* First, process the NASMENV environment variable.
*/
envreal = getenv("NASMENV");
if (envreal) {
envcopy = nasm_strdup(envreal);
process_args(envcopy, pass);
nasm_free(envcopy);
}
/*
* Now process the actual command line.
*/
while (--argc) {
bool advance;
argv++;
if (argv[0][0] == '@') {
/*
* We have a response file, so process this as a set of
* arguments like the environment variable. This allows us
* to have multiple arguments on a single line, which is
* different to the -@resp file processing below for regular
* NASM.
*/
process_response_file(argv[0]+1, pass);
argc--;
argv++;
}
if (!stopoptions && argv[0][0] == '-' && argv[0][1] == '@') {
p = get_param(argv[0], argc > 1 ? argv[1] : NULL, &advance);
if (p) {
rfile = nasm_open_read(p, NF_TEXT);
if (rfile) {
process_respfile(rfile, pass);
fclose(rfile);
} else {
nasm_nonfatalf(ERR_USAGE, "unable to open response file `%s'", p);
}
}
} else
advance = process_arg(argv[0], argc > 1 ? argv[1] : NULL, pass);
argv += advance, argc -= advance;
}
/*
* Look for basic command line typos. This definitely doesn't
* catch all errors, but it might help cases of fumbled fingers.
*/
if (pass != 2)
return;
if (!inname)
nasm_fatalf(ERR_USAGE, "no input file specified");
else if ((errname && !strcmp(inname, errname)) ||
(outname && !strcmp(inname, outname)) ||
(listname && !strcmp(inname, listname)) ||
(depend_file && !strcmp(inname, depend_file)))
nasm_fatalf(ERR_USAGE, "will not overwrite input file");
if (errname) {
error_file = nasm_open_write(errname, NF_TEXT);
if (!error_file) {
error_file = stderr; /* Revert to default! */
nasm_fatalf(ERR_USAGE, "cannot open file `%s' for error messages", errname);
}
}
}
static void forward_refs(insn *instruction)
{
int i;
struct forwrefinfo *fwinf;
instruction->forw_ref = false;
if (!optimizing.level)
return; /* For -O0 don't bother */
if (!forwref)
return;
if (forwref->lineno != globallineno)
return;
instruction->forw_ref = true;
do {
instruction->oprs[forwref->operand].opflags |= OPFLAG_FORWARD;
forwref = saa_rstruct(forwrefs);
} while (forwref && forwref->lineno == globallineno);
if (!pass_first())
return;
for (i = 0; i < instruction->operands; i++) {
if (instruction->oprs[i].opflags & OPFLAG_FORWARD) {
fwinf = saa_wstruct(forwrefs);
fwinf->lineno = globallineno;
fwinf->operand = i;
}
}
}
static void process_insn(insn *instruction)
{
int32_t n;
int64_t l;
if (!instruction->times)
return; /* Nothing to do... */
nasm_assert(instruction->times > 0);
/*
* NOTE: insn_size() can change instruction->times
* (usually to 1) when called.
*/
if (!pass_final()) {
int64_t start = location.offset;
for (n = 1; n <= instruction->times; n++) {
l = insn_size(location.segment, location.offset,
globalbits, instruction);
/* l == -1 -> invalid instruction */
if (l != -1)
increment_offset(l);
}
if (list_option('p')) {
struct out_data dummy;
memset(&dummy, 0, sizeof dummy);
dummy.type = OUT_RAWDATA; /* Handled specially with .data NULL */
dummy.offset = start;
dummy.size = location.offset - start;
lfmt->output(&dummy);
}
} else {
l = assemble(location.segment, location.offset,
globalbits, instruction);
/* We can't get an invalid instruction here */
increment_offset(l);
if (instruction->times > 1) {
lfmt->uplevel(LIST_TIMES, instruction->times);
for (n = 2; n <= instruction->times; n++) {
l = assemble(location.segment, location.offset,
globalbits, instruction);
increment_offset(l);
}
lfmt->downlevel(LIST_TIMES);
}
}
}
static void assemble_file(const char *fname, struct strlist *depend_list)
{
char *line;
insn output_ins;
uint64_t prev_offset_changed;
int64_t stall_count = 0; /* Make sure we make forward progress... */
switch (cmd_sb) {
case 16:
break;
case 32:
if (!iflag_cpu_level_ok(&cmd_cpu, IF_386))
nasm_fatal("command line: 32-bit segment size requires a higher cpu");
break;
case 64:
if (!iflag_cpu_level_ok(&cmd_cpu, IF_X86_64))
nasm_fatal("command line: 64-bit segment size requires a higher cpu");
break;
default:
panic();
break;
}
prev_offset_changed = INT64_MAX;
if (listname && !keep_all) {
/* Remove the list file in case we die before the output pass */
remove(listname);
}
while (!terminate_after_phase && !pass_final()) {
_passn++;
if (pass_type() != PASS_OPT || !global_offset_changed)
_pass_type++;
global_offset_changed = 0;
/*
* Create a warning buffer list unless we are in
* pass 2 (everything will be emitted immediately in pass 2.)
*/
if (warn_list) {
if (warn_list->nstr || pass_final())
strlist_free(&warn_list);
}
if (!pass_final() && !warn_list)
warn_list = strlist_alloc(false);
globalbits = cmd_sb; /* set 'bits' to command line default */
cpu = cmd_cpu;
if (listname) {
if (pass_final() || list_on_every_pass()) {
active_list_options = list_options;
lfmt->init(listname);
} else if (active_list_options) {
/*
* Looks like we used the list engine on a previous pass,
* but now it is turned off, presumably via %pragma -p
*/
lfmt->cleanup();
if (!keep_all)
remove(listname);
active_list_options = 0;
}
}
in_absolute = false;
if (!pass_first()) {
saa_rewind(forwrefs);
forwref = saa_rstruct(forwrefs);
raa_free(offsets);
offsets = raa_init();
}
location.segment = NO_SEG;
location.offset = 0;
if (pass_first())
location.known = true;
ofmt->reset();
switch_segment(ofmt->section(NULL, &globalbits));
preproc->reset(fname, PP_NORMAL, pass_final() ? depend_list : NULL);
globallineno = 0;
while ((line = preproc->getline())) {
if (++globallineno > nasm_limit[LIMIT_LINES])
nasm_fatal("overall line count exceeds the maximum %"PRId64"\n",
nasm_limit[LIMIT_LINES]);
/*
* Here we parse our directives; this is not handled by the
* main parser.
*/
if (process_directives(line))
goto end_of_line; /* Just do final cleanup */
/* Not a directive, or even something that starts with [ */
parse_line(line, &output_ins);
forward_refs(&output_ins);
process_insn(&output_ins);
cleanup_insn(&output_ins);
end_of_line:
nasm_free(line);
} /* end while (line = preproc->getline... */
preproc->cleanup_pass();
/* We better not be having an error hold still... */
nasm_assert(!errhold_stack);
if (global_offset_changed) {
switch (pass_type()) {
case PASS_OPT:
/*
* This is the only pass type that can be executed more
* than once, and therefore has the ability to stall.
*/
if (global_offset_changed < prev_offset_changed) {
prev_offset_changed = global_offset_changed;
stall_count = 0;
} else {
stall_count++;
}
if (stall_count > nasm_limit[LIMIT_STALLED] ||
pass_count() >= nasm_limit[LIMIT_PASSES]) {
/* No convergence, almost certainly dead */
nasm_nonfatalf(ERR_UNDEAD,
"unable to find valid values for all labels "
"after %"PRId64" passes; "
"stalled for %"PRId64", giving up.",
pass_count(), stall_count);
nasm_nonfatalf(ERR_UNDEAD,
"Possible causes: recursive EQUs, macro abuse.");
}
break;
case PASS_STAB:
/*!
*!phase [off] phase error during stabilization
*! warns about symbols having changed values during
*! the second-to-last assembly pass. This is not
*! inherently fatal, but may be a source of bugs.
*/
nasm_warn(WARN_PHASE|ERR_UNDEAD,
"phase error during stabilization "
"pass, hoping for the best");
break;
case PASS_FINAL:
nasm_nonfatalf(ERR_UNDEAD,
"phase error during code generation pass");
break;
default:
/* This is normal, we'll keep going... */
break;
}
}
reset_warnings();
}
if (opt_verbose_info && pass_final()) {
/* -On and -Ov switches */
nasm_info("assembly required 1+%"PRId64"+2 passes\n", pass_count()-3);
}
lfmt->cleanup();
strlist_free(&warn_list);
}
/**
* get warning index; 0 if this is non-suppressible.
*/
static size_t warn_index(errflags severity)
{
size_t index;
if ((severity & ERR_MASK) >= ERR_FATAL)
return 0; /* Fatal errors are never suppressible */
/* Warnings MUST HAVE a warning category specifier! */
nasm_assert((severity & (ERR_MASK|WARN_MASK)) != ERR_WARNING);
index = WARN_IDX(severity);
nasm_assert(index < WARN_IDX_ALL);
return index;
}
static bool skip_this_pass(errflags severity)
{
errflags type = severity & ERR_MASK;
/*
* See if it's a pass-specific error or warning which should be skipped.
* We can never skip fatal errors as by definition they cannot be
* resumed from.
*/
if (type >= ERR_FATAL)
return false;
/*
* ERR_LISTMSG messages are always skipped; the list file
* receives them anyway as this function is not consulted
* for sending to the list file.
*/
if (type == ERR_LISTMSG)
return true;
/* This message not applicable unless pass_final */
return (severity & ERR_PASS2) && !pass_final();
}
/**
* check for suppressed message (usually warnings or notes)
*
* @param severity the severity of the warning or error
* @return true if we should abort error/warning printing
*/
static bool is_suppressed(errflags severity)
{
/* Fatal errors must never be suppressed */
if ((severity & ERR_MASK) >= ERR_FATAL)
return false;
/* This error/warning is pointless if we are dead anyway */
if ((severity & ERR_UNDEAD) && terminate_after_phase)
return true;
if (!(warning_state[warn_index(severity)] & WARN_ST_ENABLED))
return true;
if (preproc && !(severity & ERR_PP_LISTMACRO))
return preproc->suppress_error(severity);
return false;
}
/**
* Return the true error type (the ERR_MASK part) of the given
* severity, accounting for warnings that may need to be promoted to
* error.
*
* @param severity the severity of the warning or error
* @return true if we should error out
*/
static errflags true_error_type(errflags severity)
{
const uint8_t warn_is_err = WARN_ST_ENABLED|WARN_ST_ERROR;
int type;
type = severity & ERR_MASK;
/* Promote warning to error? */
if (type == ERR_WARNING) {
uint8_t state = warning_state[warn_index(severity)];
if ((state & warn_is_err) == warn_is_err)
type = ERR_NONFATAL;
}
return type;
}
/*
* The various error type prefixes
*/
static const char * const error_pfx_table[ERR_MASK+1] = {
";;; ", "debug: ", "info: ", "warning: ",
"error: ", "fatal: ", "critical: ", "panic: "
};
static const char no_file_name[] = "nasm"; /* What to print if no file name */
/*
* For fatal/critical/panic errors, kill this process.
*/
static fatal_func die_hard(errflags true_type, errflags severity)
{
fflush(NULL);
if (true_type == ERR_PANIC && abort_on_panic)
abort();
if (ofile) {
fclose(ofile);
if (!keep_all)
remove(outname);
ofile = NULL;
}
if (severity & ERR_USAGE)
usage();
/* Terminate immediately */
exit(true_type - ERR_FATAL + 1);
}
/*
* error reporting for critical and panic errors: minimize
* the amount of system dependencies for getting a message out,
* and in particular try to avoid memory allocations.
*/
fatal_func nasm_verror_critical(errflags severity, const char *fmt, va_list args)
{
const char *currentfile = no_file_name;
int32_t lineno = 0;
errflags true_type = severity & ERR_MASK;
static bool been_here = false;
if (unlikely(been_here))
abort(); /* Recursive error... just die */
been_here = true;
if (!(severity & ERR_NOFILE)) {
src_get(&lineno, &currentfile);
if (!currentfile) {
currentfile =
inname && inname[0] ? inname :
outname && outname[0] ? outname :
no_file_name;
lineno = 0;
}
}
fputs(error_pfx_table[severity], error_file);
fputs(currentfile, error_file);
if (lineno) {
fprintf(error_file, "%s%"PRId32"%s",
errfmt->beforeline, lineno, errfmt->afterline);
}
fputs(errfmt->beforemsg, error_file);
vfprintf(error_file, fmt, args);
fputc('\n', error_file);
die_hard(true_type, severity);
}
/**
* Stack of tentative error hold lists.
*/
struct nasm_errtext {
struct nasm_errtext *next;
const char *currentfile; /* Owned by the filename system */
char *msg; /* Owned by this structure */
errflags severity;
errflags true_type;
int32_t lineno;
};
struct nasm_errhold {
struct nasm_errhold *up;
struct nasm_errtext *head, **tail;
};
static void nasm_free_error(struct nasm_errtext *et)
{
nasm_free(et->msg);
nasm_free(et);
}
static void nasm_issue_error(struct nasm_errtext *et);
struct nasm_errhold *nasm_error_hold_push(void)
{
struct nasm_errhold *eh;
nasm_new(eh);
eh->up = errhold_stack;
eh->tail = &eh->head;
errhold_stack = eh;
return eh;
}
void nasm_error_hold_pop(struct nasm_errhold *eh, bool issue)
{
struct nasm_errtext *et, *etmp;
/* Allow calling with a null argument saying no hold in the first place */
if (!eh)
return;
/* This *must* be the current top of the errhold stack */
nasm_assert(eh == errhold_stack);
if (eh->head) {
if (issue) {
if (eh->up) {
/* Commit the current hold list to the previous level */
*eh->up->tail = eh->head;
eh->up->tail = eh->tail;
} else {
/* Issue errors */
list_for_each_safe(et, etmp, eh->head)
nasm_issue_error(et);
}
} else {
/* Free the list, drop errors */
list_for_each_safe(et, etmp, eh->head)
nasm_free_error(et);
}
}
errhold_stack = eh->up;
nasm_free(eh);
}
/**
* common error reporting
* This is the common back end of the error reporting schemes currently
* implemented. It prints the nature of the warning and then the
* specific error message to error_file and may or may not return. It
* doesn't return if the error severity is a "panic" or "debug" type.
*
* @param severity the severity of the warning or error
* @param fmt the printf style format string
*/
void nasm_verror(errflags severity, const char *fmt, va_list args)
{
struct nasm_errtext *et;
errflags true_type = true_error_type(severity);
if (true_type >= ERR_CRITICAL)
nasm_verror_critical(severity, fmt, args);
if (is_suppressed(severity))
return;
nasm_new(et);
et->severity = severity;
et->true_type = true_type;
et->msg = nasm_vasprintf(fmt, args);
if (!(severity & ERR_NOFILE)) {
src_get(&et->lineno, &et->currentfile);
if (!et->currentfile) {
et->currentfile =
inname && inname[0] ? inname :
outname && outname[0] ? outname :
NULL;
et->lineno = 0;
}
}
if (errhold_stack && true_type <= ERR_NONFATAL) {
/* It is a tentative error */
*errhold_stack->tail = et;
errhold_stack->tail = &et->next;
} else {
nasm_issue_error(et);
}
/*
* Don't do this before then, if we do, we lose messages in the list
* file, as the list file is only generated in the last pass.
*/
if (skip_this_pass(severity))
return;
if (!(severity & (ERR_HERE|ERR_PP_LISTMACRO)))
if (preproc)
preproc->error_list_macros(severity);
}
/*
* Actually print, list and take action on an error
*/
static void nasm_issue_error(struct nasm_errtext *et)
{
const char *pfx;
char warnsuf[64]; /* Warning suffix */
char linestr[64]; /* Formatted line number if applicable */
const errflags severity = et->severity;
const errflags true_type = et->true_type;
const char * const currentfile = et->currentfile;
const uint32_t lineno = et->lineno;
if (severity & ERR_NO_SEVERITY)
pfx = "";
else
pfx = error_pfx_table[true_type];
*warnsuf = 0;
if ((severity & (ERR_MASK|ERR_HERE|ERR_PP_LISTMACRO)) == ERR_WARNING) {
/*
* It's a warning without ERR_HERE defined, and we are not already
* unwinding the macros that led us here.
*/
snprintf(warnsuf, sizeof warnsuf, " [-w+%s%s]",
(true_type >= ERR_NONFATAL) ? "error=" : "",
warning_name[warn_index(severity)]);
}
*linestr = 0;
if (lineno) {
snprintf(linestr, sizeof linestr, "%s%"PRId32"%s",
errfmt->beforeline, lineno, errfmt->afterline);
}
if (!skip_this_pass(severity)) {
const char *file = currentfile ? currentfile : no_file_name;
const char *here = "";
if (warn_list && true_type < ERR_NONFATAL &&
!(pass_first() && (severity & ERR_PASS1))) {
/*
* Buffer up warnings until we either get an error
* or we are on the code-generation pass.
*/
strlist_printf(warn_list, "%s%s%s%s%s%s%s",
file, linestr, errfmt->beforemsg,
pfx, et->msg, here, warnsuf);
} else {
/*
* Actually output an error. If we have buffered
* warnings, and this is a non-warning, output them now.
*/
if (true_type >= ERR_NONFATAL && warn_list) {
strlist_write(warn_list, "\n", error_file);
strlist_free(&warn_list);
}
fprintf(error_file, "%s%s%s%s%s%s%s\n",
file, linestr, errfmt->beforemsg,
pfx, et->msg, here, warnsuf);
}
}
/* Are we recursing from error_list_macros? */
if (severity & ERR_PP_LISTMACRO)
goto done;
/*
* Don't suppress this with skip_this_pass(), or we don't get
* pass1 or preprocessor warnings in the list file
*/
if (severity & ERR_HERE) {
if (lineno)
lfmt->error(severity, "%s%s at %s:%"PRId32"%s",
pfx, et->msg, currentfile, lineno, warnsuf);
else if (currentfile)
lfmt->error(severity, "%s%s in file %s%s",
pfx, et->msg, currentfile, warnsuf);
else
lfmt->error(severity, "%s%s in an unknown location%s",
pfx, et->msg, warnsuf);
} else {
lfmt->error(severity, "%s%s%s", pfx, et->msg, warnsuf);
}
if (skip_this_pass(severity))
goto done;
if (true_type >= ERR_FATAL)
die_hard(true_type, severity);
else if (true_type >= ERR_NONFATAL)
terminate_after_phase = true;
done:
nasm_free_error(et);
}
static void usage(void)
{
fprintf(error_file, "Type %s -h for help.\n", _progname);
}
static void help(FILE *out)
{
int i;
fprintf(out,
"Usage: %s [-@ response_file] [options...] [--] filename\n"
" %s -v (or --v)\n",
_progname, _progname);
fputs(
"\n"
"Options (values in brackets indicate defaults):\n"
"\n"
" -h show this text and exit (also --help)\n"
" -v (or --v) print the NASM version number and exit\n"
" -@ file response file; one command line option per line\n"
"\n"
" -o outfile write output to outfile\n"
" --keep-all output files will not be removed even if an error happens\n"
"\n"
" -Xformat specifiy error reporting format (gnu or vc)\n"
" -s redirect error messages to stdout\n"
" -Zfile redirect error messages to file\n"
"\n"
" -M generate Makefile dependencies on stdout\n"
" -MG d:o, missing files assumed generated\n"
" -MF file set Makefile dependency file\n"
" -MD file assemble and generate dependencies\n"
" -MT file dependency target name\n"
" -MQ file dependency target name (quoted)\n"
" -MP emit phony targets\n"
"\n"
" -f format select output file format\n"
, out);
ofmt_list(ofmt, out);
fputs(
"\n"
" -g generate debugging information\n"
" -F format select a debugging format (output format dependent)\n"
" -gformat same as -g -F format\n"
, out);
dfmt_list(out);
fputs(
"\n"
" -l listfile write listing to a list file\n"
" -Lflags... add optional information to the list file\n"
" -Lb show builtin macro packages (standard and %use)\n"
" -Ld show byte and repeat counts in decimal, not hex\n"
" -Le show the preprocessed output\n"
" -Lf ignore .nolist (force output)\n"
" -Lm show multi-line macro calls with expanded parmeters\n"
" -Lp output a list file every pass, in case of errors\n"
" -Ls show all single-line macro definitions\n"
" -Lw flush the output after every line\n"
" -L+ enable all listing options (very verbose!)\n"
"\n"
" -Oflags... optimize opcodes, immediates and branch offsets\n"
" -O0 no optimization\n"
" -O1 minimal optimization\n"
" -Ox multipass optimization (default)\n"
" -Ov display the number of passes executed at the end\n"
" -t assemble in limited SciTech TASM compatible mode\n"
"\n"
" -E (or -e) preprocess only (writes output to stdout by default)\n"
" -a don't preprocess (assemble only)\n"
" -Ipath add a pathname to the include file path\n"
" -Pfile pre-include a file (also --include)\n"
" -Dmacro[=str] pre-define a macro\n"
" -Umacro undefine a macro\n"
" --pragma str pre-executes a specific %%pragma\n"
" --before str add line (usually a preprocessor statement) before the input\n"
" --no-line ignore %line directives in input\n"
"\n"
" --prefix str prepend the given string to the names of all extern,\n"
" common and global symbols (also --gprefix)\n"
" --suffix str append the given string to the names of all extern,\n"
" common and global symbols (also --gprefix)\n"
" --lprefix str prepend the given string to local symbols\n"
" --lpostfix str append the given string to local symbols\n"
"\n"
" -w+x enable warning x (also -Wx)\n"
" -w-x disable warning x (also -Wno-x)\n"
" -w[+-]error promote all warnings to errors (also -Werror)\n"
" -w[+-]error=x promote warning x to errors (also -Werror=x)\n"
, out);
fprintf(out, " %-20s %s\n",
warning_name[WARN_IDX_ALL], warning_help[WARN_IDX_ALL]);
for (i = 1; i < WARN_IDX_ALL; i++) {
const char *me = warning_name[i];
const char *prev = warning_name[i-1];
const char *next = warning_name[i+1];
if (prev) {
int prev_len = strlen(prev);
const char *dash = me;
while ((dash = strchr(dash+1, '-'))) {
int prefix_len = dash - me; /* Not including final dash */
if (strncmp(next, me, prefix_len+1)) {
/* Only one or last option with this prefix */
break;
}
if (prefix_len >= prev_len ||
strncmp(prev, me, prefix_len) ||
(prev[prefix_len] != '-' && prev[prefix_len] != '\0')) {
/* This prefix is different from the previous option */
fprintf(out, " %-20.*s all warnings prefixed with \"%.*s\"\n",
prefix_len, me, prefix_len+1, me);
}
}
}
fprintf(out, " %-20s %s%s\n",
warning_name[i], warning_help[i],
(warning_default[i] & WARN_ST_ERROR) ? " [error]" :
(warning_default[i] & WARN_ST_ENABLED) ? " [on]" : " [off]");
}
fputs(
"\n"
" --limit-X val set execution limit X\n"
, out);
for (i = 0; i <= LIMIT_MAX; i++) {
fprintf(out, " %-20s %s [",
limit_info[i].name, limit_info[i].help);
if (nasm_limit[i] < LIMIT_MAX_VAL) {
fprintf(out, "%"PRId64"]\n", nasm_limit[i]);
} else {
fputs("unlimited]\n", out);
}
}
}