/* ----------------------------------------------------------------------- * * * Copyright 1996-2013 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 #include #include #include #include #include #include #include #include "nasm.h" #include "nasmlib.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 "output/outform.h" #include "listing.h" #include "iflag.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; }; static int get_bits(char *value); static iflag_t get_cpu(char *cpu_str); static void parse_cmdline(int, char **); static void assemble_file(char *, StrList **); static void nasm_verror_gnu(int severity, const char *fmt, va_list args); static void nasm_verror_vc(int severity, const char *fmt, va_list args); static void nasm_verror_common(int severity, const char *fmt, va_list args); static bool is_suppressed_warning(int severity); static void usage(void); static int using_debug_info, opt_verbose_info; bool tasm_compatible_mode = false; int pass0, passn; int maxbits = 0; int globalrel = 0; static time_t official_compile_time; static char inname[FILENAME_MAX]; static char outname[FILENAME_MAX]; static char listname[FILENAME_MAX]; static char errname[FILENAME_MAX]; static int globallineno; /* for forward-reference tracking */ /* static int pass = 0; */ struct ofmt *ofmt = &OF_DEFAULT; struct ofmt_alias *ofmt_alias = NULL; const struct dfmt *dfmt; static FILE *error_file; /* Where to write error messages */ FILE *ofile = NULL; int optimizing = MAX_OPTIMIZE; /* number of optimization passes to take */ static int sb, cmd_sb = 16; /* by default */ static iflag_t cpu; static iflag_t cmd_cpu; int64_t global_offset_changed; /* referenced in labels.c */ int64_t prev_offset_changed; int32_t stall_count; static struct location location; int in_abs_seg; /* Flag we are in ABSOLUTE seg */ int32_t abs_seg; /* ABSOLUTE segment basis */ int32_t abs_offset; /* ABSOLUTE offset */ static struct RAA *offsets; static struct SAA *forwrefs; /* keep track of forward references */ static const struct forwrefinfo *forwref; static struct preproc_ops *preproc; enum op_type { op_normal, /* Preprocess and assemble */ op_preprocess, /* Preprocess only */ op_depend, /* Generate dependencies */ }; static enum op_type 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; /* * Which of the suppressible warnings are suppressed. Entry zero * isn't an actual warning, but it used for -w+error/-Werror. */ static bool warning_on[ERR_WARN_MAX+1]; /* Current state */ static bool warning_on_global[ERR_WARN_MAX+1]; /* Command-line state */ static const struct warning { const char *name; const char *help; bool enabled; } warnings[ERR_WARN_MAX+1] = { {"error", "treat warnings as errors", false}, {"macro-params", "macro calls with wrong parameter count", true}, {"macro-selfref", "cyclic macro references", false}, {"macro-defaults", "macros with more default than optional parameters", true}, {"orphan-labels", "labels alone on lines without trailing `:'", true}, {"number-overflow", "numeric constant does not fit", true}, {"gnu-elf-extensions", "using 8- or 16-bit relocation in ELF32, a GNU extension", false}, {"float-overflow", "floating point overflow", true}, {"float-denorm", "floating point denormal", false}, {"float-underflow", "floating point underflow", false}, {"float-toolong", "too many digits in floating-point number", true}, {"user", "%warning directives", true}, {"lock", "lock prefix on unlockable instructions", true}, {"hle", "invalid hle prefixes", true}, {"bnd", "invalid bnd prefixes", true}, }; static bool want_usage; static bool terminate_after_phase; int user_nolist = 0; /* fbk 9/2/00 */ static char *quote_for_make(const char *str); static int64_t get_curr_offs(void) { return in_abs_seg ? abs_offset : raa_read(offsets, location.segment); } static void set_curr_offs(int64_t l_off) { if (in_abs_seg) abs_offset = l_off; else offsets = raa_write(offsets, location.segment, l_off); } static void nasm_fputs(const char *line, FILE * outfile) { if (outfile) { fputs(line, outfile); putc('\n', outfile); } else puts(line); } /* Convert a struct tm to a POSIX-style time constant */ static int64_t posix_mktime(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 define_macros_early(void) { char temp[128]; struct tm lt, *lt_p, gm, *gm_p; int64_t posix_time; lt_p = localtime(&official_compile_time); if (lt_p) { lt = *lt_p; strftime(temp, sizeof temp, "__DATE__=\"%Y-%m-%d\"", <); preproc->pre_define(temp); strftime(temp, sizeof temp, "__DATE_NUM__=%Y%m%d", <); preproc->pre_define(temp); strftime(temp, sizeof temp, "__TIME__=\"%H:%M:%S\"", <); preproc->pre_define(temp); strftime(temp, sizeof temp, "__TIME_NUM__=%H%M%S", <); preproc->pre_define(temp); } gm_p = gmtime(&official_compile_time); if (gm_p) { gm = *gm_p; strftime(temp, sizeof temp, "__UTC_DATE__=\"%Y-%m-%d\"", &gm); preproc->pre_define(temp); strftime(temp, sizeof temp, "__UTC_DATE_NUM__=%Y%m%d", &gm); preproc->pre_define(temp); strftime(temp, sizeof temp, "__UTC_TIME__=\"%H:%M:%S\"", &gm); preproc->pre_define(temp); strftime(temp, sizeof temp, "__UTC_TIME_NUM__=%H%M%S", &gm); preproc->pre_define(temp); } if (gm_p) posix_time = posix_mktime(&gm); else if (lt_p) posix_time = posix_mktime(<); else posix_time = 0; if (posix_time) { snprintf(temp, sizeof temp, "__POSIX_TIME__=%"PRId64, posix_time); preproc->pre_define(temp); } } static void define_macros_late(void) { char temp[128]; /* * 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); } static void emit_dependencies(StrList *list) { FILE *deps; int linepos, len; StrList *l, *nl; if (depend_file && strcmp(depend_file, "-")) { deps = fopen(depend_file, "w"); if (!deps) { nasm_error(ERR_NONFATAL|ERR_NOFILE|ERR_USAGE, "unable to write dependency file `%s'", depend_file); return; } } else { deps = stdout; } linepos = fprintf(deps, "%s:", depend_target); list_for_each(l, list) { char *file = quote_for_make(l->str); len = strlen(file); if (linepos + len > 62 && linepos > 1) { fprintf(deps, " \\\n "); linepos = 1; } fprintf(deps, " %s", file); linepos += len+1; nasm_free(file); } fprintf(deps, "\n\n"); list_for_each_safe(l, nl, list) { if (depend_emit_phony) fprintf(deps, "%s:\n\n", l->str); nasm_free(l); } if (deps != stdout) fclose(deps); } int main(int argc, char **argv) { StrList *depend_list = NULL, **depend_ptr; time(&official_compile_time); iflag_set(&cpu, IF_PLEVEL); iflag_set(&cmd_cpu, IF_PLEVEL); pass0 = 0; want_usage = terminate_after_phase = false; nasm_set_verror(nasm_verror_gnu); error_file = stderr; tolower_init(); nasm_init_malloc_error(); offsets = raa_init(); forwrefs = saa_init((int32_t)sizeof(struct forwrefinfo)); preproc = &nasmpp; operating_mode = op_normal; seg_init(); /* Define some macros dependent on the runtime, but not on the command line. */ define_macros_early(); parse_cmdline(argc, argv); if (terminate_after_phase) { if (want_usage) usage(); return 1; } /* If debugging info is disabled, suppress any debug calls */ if (!using_debug_info) ofmt->current_dfmt = &null_debug_form; if (ofmt->stdmac) preproc->extra_stdmac(ofmt->stdmac); parser_global_info(&location); eval_global_info(ofmt, lookup_label, &location); /* define some macros dependent of command-line */ define_macros_late(); depend_ptr = (depend_file || (operating_mode == op_depend)) ? &depend_list : NULL; if (!depend_target) depend_target = quote_for_make(outname); switch (operating_mode) { case op_depend: { char *line; if (depend_missing_ok) preproc->include_path(NULL); /* "assume generated" */ preproc->reset(inname, 0, &nasmlist, depend_ptr); if (outname[0] == '\0') ofmt->filename(inname, outname); ofile = NULL; while ((line = preproc->getline())) nasm_free(line); preproc->cleanup(0); } break; case op_preprocess: { char *line; char *file_name = NULL; int32_t prior_linnum = 0; int lineinc = 0; if (*outname) { ofile = fopen(outname, "w"); if (!ofile) nasm_error(ERR_FATAL | ERR_NOFILE, "unable to open output file `%s'", outname); } else ofile = NULL; location.known = false; /* pass = 1; */ preproc->reset(inname, 3, &nasmlist, depend_ptr); memcpy(warning_on, warning_on_global, (ERR_WARN_MAX+1) * sizeof(bool)); 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); } nasm_free(file_name); preproc->cleanup(0); if (ofile) fclose(ofile); if (ofile && terminate_after_phase) remove(outname); ofile = NULL; } break; case op_normal: { /* * We must call ofmt->filename _anyway_, even if the user * has specified their own output file, because some * formats (eg OBJ and COFF) use ofmt->filename to find out * the name of the input file and then put that inside the * file. */ ofmt->filename(inname, outname); ofile = fopen(outname, (ofmt->flags & OFMT_TEXT) ? "w" : "wb"); if (!ofile) { nasm_error(ERR_FATAL | ERR_NOFILE, "unable to open output file `%s'", outname); } /* * We must call init_labels() before ofmt->init() since * some object formats will want to define labels in their * init routines. (eg OS/2 defines the FLAT group) */ init_labels(); ofmt->init(); dfmt = ofmt->current_dfmt; dfmt->init(); assemble_file(inname, depend_ptr); if (!terminate_after_phase) { ofmt->cleanup(using_debug_info); cleanup_labels(); fflush(ofile); if (ferror(ofile)) { nasm_error(ERR_NONFATAL|ERR_NOFILE, "write error on output file `%s'", outname); } } if (ofile) { fclose(ofile); if (terminate_after_phase) remove(outname); ofile = NULL; } } break; } if (depend_list && !terminate_after_phase) emit_dependencies(depend_list); if (want_usage) usage(); raa_free(offsets); saa_free(forwrefs); eval_cleanup(); stdscan_cleanup(); 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_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "option `-%c' requires an argument", p[1]); return NULL; } /* * Copy a filename */ static void copy_filename(char *dst, const char *src) { size_t len = strlen(src); if (len >= (size_t)FILENAME_MAX) { nasm_error(ERR_FATAL | ERR_NOFILE, "file name too long"); return; } strncpy(dst, src, FILENAME_MAX); } /* * Convert a string to Make-safe form */ static char *quote_for_make(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; } struct textargs { const char *label; int value; }; #define OPT_PREFIX 0 #define OPT_POSTFIX 1 struct textargs textopts[] = { {"prefix", OPT_PREFIX}, {"postfix", OPT_POSTFIX}, {NULL, 0} }; static bool stopoptions = false; static bool process_arg(char *p, char *q) { char *param; int i; bool advance = false; bool do_warn; if (!p || !p[0]) return false; if (p[0] == '-' && !stopoptions) { if (strchr("oOfpPdDiIlFXuUZwW", p[1])) { /* These parameters take values */ if (!(param = get_param(p, q, &advance))) return advance; } switch (p[1]) { case 's': error_file = stdout; break; case 'o': /* output file */ copy_filename(outname, param); break; case 'f': /* output format */ ofmt = ofmt_find(param, &ofmt_alias); if (!ofmt) { nasm_error(ERR_FATAL | ERR_NOFILE | ERR_USAGE, "unrecognised output format `%s' - " "use -hf for a list", param); } break; case 'O': /* Optimization level */ { int opt; if (!*param) { /* Naked -O == -Ox */ optimizing = 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, ¶m, 10); /* -O0 -> optimizing == -1, 0.98 behaviour */ /* -O1 -> optimizing == 0, 0.98.09 behaviour */ if (opt < 2) optimizing = opt - 1; else optimizing = opt; break; case 'v': case '+': param++; opt_verbose_info = true; break; case 'x': param++; optimizing = MAX_OPTIMIZE; break; default: nasm_error(ERR_FATAL, "unknown optimization option -O%c\n", *param); break; } } if (optimizing > MAX_OPTIMIZE) optimizing = MAX_OPTIMIZE; } break; } case 'p': /* pre-include */ case 'P': preproc->pre_include(param); break; case 'd': /* pre-define */ case 'D': preproc->pre_define(param); break; case 'u': /* un-define */ case 'U': preproc->pre_undefine(param); break; case 'i': /* include search path */ case 'I': preproc->include_path(param); break; case 'l': /* listing file */ copy_filename(listname, param); break; case 'Z': /* error messages file */ copy_filename(errname, param); break; case 'F': /* specify debug format */ ofmt->current_dfmt = dfmt_find(ofmt, param); if (!ofmt->current_dfmt) { nasm_error(ERR_FATAL | ERR_NOFILE | ERR_USAGE, "unrecognized debug format `%s' for" " output format `%s'", param, ofmt->shortname); } using_debug_info = true; break; case 'X': /* specify error reporting format */ if (nasm_stricmp("vc", param) == 0) nasm_set_verror(nasm_verror_vc); else if (nasm_stricmp("gnu", param) == 0) nasm_set_verror(nasm_verror_gnu); else nasm_error(ERR_FATAL | ERR_NOFILE | ERR_USAGE, "unrecognized error reporting format `%s'", param); break; case 'g': using_debug_info = true; break; case 'h': printf ("usage: nasm [-@ response file] [-o outfile] [-f format] " "[-l listfile]\n" " [options...] [--] filename\n" " or nasm -v for version info\n\n" " -t assemble in SciTech TASM compatible mode\n" " -g generate debug information in selected format\n"); printf (" -E (or -e) preprocess only (writes output to stdout by default)\n" " -a don't preprocess (assemble only)\n" " -M generate Makefile dependencies on stdout\n" " -MG d:o, missing files assumed generated\n" " -MF set Makefile dependency file\n" " -MD assemble and generate dependencies\n" " -MT dependency target name\n" " -MQ dependency target name (quoted)\n" " -MP emit phony target\n\n" " -Z redirect error messages to file\n" " -s redirect error messages to stdout\n\n" " -F format select a debugging format\n\n" " -o outfile write output to an outfile\n\n" " -f format select an output format\n\n" " -l listfile write listing to a listfile\n\n" " -I adds a pathname to the include file path\n"); printf (" -O optimize branch offsets\n" " -O0: No optimization\n" " -O1: Minimal optimization\n" " -Ox: Multipass optimization (default)\n\n" " -P pre-includes a file\n" " -D[=] pre-defines a macro\n" " -U undefines a macro\n" " -X specifies error reporting format (gnu or vc)\n" " -w+foo enables warning foo (equiv. -Wfoo)\n" " -w-foo disable warning foo (equiv. -Wno-foo)\n\n" " -h show invocation summary and exit\n\n" "--prefix,--postfix\n" " this options prepend or append the given argument to all\n" " extern and global variables\n\n" "Warnings:\n"); for (i = 0; i <= ERR_WARN_MAX; i++) printf(" %-23s %s (default %s)\n", warnings[i].name, warnings[i].help, warnings[i].enabled ? "on" : "off"); printf ("\nresponse files should contain command line parameters" ", one per line.\n"); if (p[2] == 'f') { printf("\nvalid output formats for -f are" " (`*' denotes default):\n"); ofmt_list(ofmt, stdout); } else { printf("\nFor a list of valid output formats, use -hf.\n"); printf("For a list of debug formats, use -f
-y.\n"); } exit(0); /* never need usage message here */ break; case 'y': printf("\nvalid debug formats for '%s' output format are" " ('*' denotes default):\n", ofmt->shortname); dfmt_list(ofmt, stdout); exit(0); break; case 't': tasm_compatible_mode = true; break; case 'v': printf("NASM version %s compiled on %s%s\n", nasm_version, nasm_date, nasm_compile_options); exit(0); /* never need usage message here */ break; case 'e': /* preprocess only */ case 'E': operating_mode = op_preprocess; break; case 'a': /* assemble only - don't preprocess */ preproc = &preproc_nop; break; case 'W': if (param[0] == 'n' && param[1] == 'o' && param[2] == '-') { do_warn = false; param += 3; } else { do_warn = true; } goto set_warning; case 'w': if (param[0] != '+' && param[0] != '-') { nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "invalid option to `-w'"); break; } do_warn = (param[0] == '+'); param++; set_warning: for (i = 0; i <= ERR_WARN_MAX; i++) { if (!nasm_stricmp(param, warnings[i].name)) break; } if (i <= ERR_WARN_MAX) { warning_on_global[i] = do_warn; } else if (!nasm_stricmp(param, "all")) { for (i = 1; i <= ERR_WARN_MAX; i++) warning_on_global[i] = do_warn; } else if (!nasm_stricmp(param, "none")) { for (i = 1; i <= ERR_WARN_MAX; i++) warning_on_global[i] = !do_warn; } else { nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "invalid warning `%s'", param); } break; case 'M': 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': 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; default: nasm_error(ERR_NONFATAL|ERR_NOFILE|ERR_USAGE, "unknown dependency option `-M%c'", p[2]); break; } if (advance && (!q || !q[0])) { nasm_error(ERR_NONFATAL|ERR_NOFILE|ERR_USAGE, "option `-M%c' requires a parameter", p[2]); break; } break; case '-': { int s; if (p[2] == 0) { /* -- => stop processing options */ stopoptions = 1; break; } for (s = 0; textopts[s].label; s++) { if (!nasm_stricmp(p + 2, textopts[s].label)) { break; } } switch (s) { case OPT_PREFIX: case OPT_POSTFIX: { if (!q) { nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "option `--%s' requires an argument", p + 2); break; } else { advance = 1, param = q; } if (s == OPT_PREFIX) { strncpy(lprefix, param, PREFIX_MAX - 1); lprefix[PREFIX_MAX - 1] = 0; break; } if (s == OPT_POSTFIX) { strncpy(lpostfix, param, POSTFIX_MAX - 1); lpostfix[POSTFIX_MAX - 1] = 0; break; } break; } default: { nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "unrecognised option `--%s'", p + 2); break; } } break; } default: if (!ofmt->setinfo(GI_SWITCH, &p)) nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "unrecognised option `-%c'", p[1]); break; } } else { if (*inname) { nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "more than one input file specified"); } else { copy_filename(inname, p); } } return advance; } #define ARG_BUF_DELTA 128 static void process_respfile(FILE * rfile) { 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); 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)) *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) { 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)) arg = NULL; } if (arg) process_arg(arg, NULL); } static void process_response_file(const char *file) { char str[2048]; FILE *f = fopen(file, "r"); if (!f) { perror(file); exit(-1); } while (fgets(str, sizeof str, f)) { process_args(str); } fclose(f); } static void parse_cmdline(int argc, char **argv) { FILE *rfile; char *envreal, *envcopy = NULL, *p; int i; *inname = *outname = *listname = *errname = '\0'; for (i = 0; i <= ERR_WARN_MAX; i++) warning_on_global[i] = warnings[i].enabled; /* * First, process the NASMENV environment variable. */ envreal = getenv("NASMENV"); if (envreal) { envcopy = nasm_strdup(envreal); process_args(envcopy); 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); argc--; argv++; } if (!stopoptions && argv[0][0] == '-' && argv[0][1] == '@') { p = get_param(argv[0], argc > 1 ? argv[1] : NULL, &advance); if (p) { rfile = fopen(p, "r"); if (rfile) { process_respfile(rfile); fclose(rfile); } else nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "unable to open response file `%s'", p); } } else advance = process_arg(argv[0], argc > 1 ? argv[1] : NULL); 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 (!*inname) nasm_error(ERR_NONFATAL | ERR_NOFILE | ERR_USAGE, "no input file specified"); else if (!strcmp(inname, errname) || !strcmp(inname, outname) || !strcmp(inname, listname) || (depend_file && !strcmp(inname, depend_file))) nasm_error(ERR_FATAL | ERR_NOFILE | ERR_USAGE, "file `%s' is both input and output file", inname); if (*errname) { error_file = fopen(errname, "w"); if (!error_file) { error_file = stderr; /* Revert to default! */ nasm_error(ERR_FATAL | ERR_NOFILE | ERR_USAGE, "cannot open file `%s' for error messages", errname); } } } static enum directives getkw(char **directive, char **value); static void assemble_file(char *fname, StrList **depend_ptr) { char *directive, *value, *p, *q, *special, *line; insn output_ins; int i, validid; bool rn_error; int32_t seg; int64_t offs; struct tokenval tokval; expr *e; int pass_max; if (cmd_sb == 32 && iflag_ffs(&cmd_cpu) < IF_386) nasm_error(ERR_FATAL, "command line: " "32-bit segment size requires a higher cpu"); pass_max = prev_offset_changed = (INT_MAX >> 1) + 2; /* Almost unlimited */ for (passn = 1; pass0 <= 2; passn++) { int pass1, pass2; ldfunc def_label; pass1 = pass0 == 2 ? 2 : 1; /* 1, 1, 1, ..., 1, 2 */ pass2 = passn > 1 ? 2 : 1; /* 1, 2, 2, ..., 2, 2 */ /* pass0 0, 0, 0, ..., 1, 2 */ def_label = passn > 1 ? redefine_label : define_label; globalbits = sb = cmd_sb; /* set 'bits' to command line default */ cpu = cmd_cpu; if (pass0 == 2) { if (*listname) nasmlist.init(listname, nasm_error); } in_abs_seg = false; global_offset_changed = 0; /* set by redefine_label */ location.segment = ofmt->section(NULL, pass2, &sb); globalbits = sb; if (passn > 1) { saa_rewind(forwrefs); forwref = saa_rstruct(forwrefs); raa_free(offsets); offsets = raa_init(); } preproc->reset(fname, pass1, &nasmlist, pass1 == 2 ? depend_ptr : NULL); memcpy(warning_on, warning_on_global, (ERR_WARN_MAX+1) * sizeof(bool)); globallineno = 0; if (passn == 1) location.known = true; location.offset = offs = get_curr_offs(); while ((line = preproc->getline())) { enum directives d; globallineno++; /* * Here we parse our directives; this is not handled by the * 'real' parser. This really should be a separate function. */ directive = line; d = getkw(&directive, &value); if (d) { int err = 0; switch (d) { case D_SEGMENT: /* [SEGMENT n] */ case D_SECTION: seg = ofmt->section(value, pass2, &sb); if (seg == NO_SEG) { nasm_error(pass1 == 1 ? ERR_NONFATAL : ERR_PANIC, "segment name `%s' not recognized", value); } else { in_abs_seg = false; location.segment = seg; } break; case D_SECTALIGN: /* [SECTALIGN n] */ if (*value) { stdscan_reset(); stdscan_set(value); tokval.t_type = TOKEN_INVALID; e = evaluate(stdscan, NULL, &tokval, NULL, pass2, nasm_error, NULL); if (e) { unsigned int align = (unsigned int)e->value; if ((uint64_t)e->value > 0x7fffffff) { /* * FIXME: Please make some sane message here * ofmt should have some 'check' method which * would report segment alignment bounds. */ nasm_error(ERR_FATAL, "incorrect segment alignment `%s'", value); } else if (!is_power2(align)) { nasm_error(ERR_NONFATAL, "segment alignment `%s' is not power of two", value); } /* callee should be able to handle all details */ ofmt->sectalign(location.segment, align); } } break; case D_EXTERN: /* [EXTERN label:special] */ if (*value == '$') value++; /* skip initial $ if present */ if (pass0 == 2) { q = value; while (*q && *q != ':') q++; if (*q == ':') { *q++ = '\0'; ofmt->symdef(value, 0L, 0L, 3, q); } } else if (passn == 1) { q = value; validid = true; if (!isidstart(*q)) validid = false; while (*q && *q != ':') { if (!isidchar(*q)) validid = false; q++; } if (!validid) { nasm_error(ERR_NONFATAL, "identifier expected after EXTERN"); break; } if (*q == ':') { *q++ = '\0'; special = q; } else special = NULL; if (!is_extern(value)) { /* allow re-EXTERN to be ignored */ int temp = pass0; pass0 = 1; /* fake pass 1 in labels.c */ declare_as_global(value, special); define_label(value, seg_alloc(), 0L, NULL, false, true); pass0 = temp; } } /* else pass0 == 1 */ break; case D_BITS: /* [BITS bits] */ globalbits = sb = get_bits(value); break; case D_GLOBAL: /* [GLOBAL symbol:special] */ if (*value == '$') value++; /* skip initial $ if present */ if (pass0 == 2) { /* pass 2 */ q = value; while (*q && *q != ':') q++; if (*q == ':') { *q++ = '\0'; ofmt->symdef(value, 0L, 0L, 3, q); } } else if (pass2 == 1) { /* pass == 1 */ q = value; validid = true; if (!isidstart(*q)) validid = false; while (*q && *q != ':') { if (!isidchar(*q)) validid = false; q++; } if (!validid) { nasm_error(ERR_NONFATAL, "identifier expected after GLOBAL"); break; } if (*q == ':') { *q++ = '\0'; special = q; } else special = NULL; declare_as_global(value, special); } /* pass == 1 */ break; case D_COMMON: /* [COMMON symbol size:special] */ { int64_t size; if (*value == '$') value++; /* skip initial $ if present */ p = value; validid = true; if (!isidstart(*p)) validid = false; while (*p && !nasm_isspace(*p)) { if (!isidchar(*p)) validid = false; p++; } if (!validid) { nasm_error(ERR_NONFATAL, "identifier expected after COMMON"); break; } if (*p) { p = nasm_zap_spaces_fwd(p); q = p; while (*q && *q != ':') q++; if (*q == ':') { *q++ = '\0'; special = q; } else { special = NULL; } size = readnum(p, &rn_error); if (rn_error) { nasm_error(ERR_NONFATAL, "invalid size specified" " in COMMON declaration"); break; } } else { nasm_error(ERR_NONFATAL, "no size specified in" " COMMON declaration"); break; } if (pass0 < 2) { define_common(value, seg_alloc(), size, special); } else if (pass0 == 2) { if (special) ofmt->symdef(value, 0L, 0L, 3, special); } break; } case D_ABSOLUTE: /* [ABSOLUTE address] */ stdscan_reset(); stdscan_set(value); tokval.t_type = TOKEN_INVALID; e = evaluate(stdscan, NULL, &tokval, NULL, pass2, nasm_error, NULL); if (e) { if (!is_reloc(e)) nasm_error(pass0 == 1 ? ERR_NONFATAL : ERR_PANIC, "cannot use non-relocatable expression as " "ABSOLUTE address"); else { abs_seg = reloc_seg(e); abs_offset = reloc_value(e); } } else if (passn == 1) abs_offset = 0x100; /* don't go near zero in case of / */ else nasm_error(ERR_PANIC, "invalid ABSOLUTE address " "in pass two"); in_abs_seg = true; location.segment = NO_SEG; break; case D_DEBUG: /* [DEBUG] */ { char debugid[128]; bool badid, overlong; p = value; q = debugid; badid = overlong = false; if (!isidstart(*p)) { badid = true; } else { while (*p && !nasm_isspace(*p)) { if (q >= debugid + sizeof debugid - 1) { overlong = true; break; } if (!isidchar(*p)) badid = true; *q++ = *p++; } *q = 0; } if (badid) { nasm_error(passn == 1 ? ERR_NONFATAL : ERR_PANIC, "identifier expected after DEBUG"); break; } if (overlong) { nasm_error(passn == 1 ? ERR_NONFATAL : ERR_PANIC, "DEBUG identifier too long"); break; } p = nasm_skip_spaces(p); if (pass0 == 2) dfmt->debug_directive(debugid, p); break; } case D_WARNING: /* [WARNING {+|-|*}warn-name] */ value = nasm_skip_spaces(value); switch(*value) { case '-': validid = 0; value++; break; case '+': validid = 1; value++; break; case '*': validid = 2; value++; break; default: validid = 1; break; } for (i = 1; i <= ERR_WARN_MAX; i++) if (!nasm_stricmp(value, warnings[i].name)) break; if (i <= ERR_WARN_MAX) { switch(validid) { case 0: warning_on[i] = false; break; case 1: warning_on[i] = true; break; case 2: warning_on[i] = warning_on_global[i]; break; } } else nasm_error(ERR_NONFATAL, "invalid warning id in WARNING directive"); break; case D_CPU: /* [CPU] */ cpu = get_cpu(value); break; case D_LIST: /* [LIST {+|-}] */ value = nasm_skip_spaces(value); if (*value == '+') { user_nolist = 0; } else { if (*value == '-') { user_nolist = 1; } else { err = 1; } } break; case D_DEFAULT: /* [DEFAULT] */ stdscan_reset(); stdscan_set(value); tokval.t_type = TOKEN_INVALID; if (stdscan(NULL, &tokval) == TOKEN_SPECIAL) { switch ((int)tokval.t_integer) { case S_REL: globalrel = 1; break; case S_ABS: globalrel = 0; break; default: err = 1; break; } } else { err = 1; } break; case D_FLOAT: if (float_option(value)) { nasm_error(pass1 == 1 ? ERR_NONFATAL : ERR_PANIC, "unknown 'float' directive: %s", value); } break; default: if (ofmt->directive(d, value, pass2)) break; /* else fall through */ case D_unknown: nasm_error(pass1 == 1 ? ERR_NONFATAL : ERR_PANIC, "unrecognised directive [%s]", directive); break; } if (err) { nasm_error(ERR_NONFATAL, "invalid parameter to [%s] directive", directive); } } else { /* it isn't a directive */ parse_line(pass1, line, &output_ins, def_label); if (optimizing > 0) { if (forwref != NULL && globallineno == forwref->lineno) { output_ins.forw_ref = true; do { output_ins.oprs[forwref->operand].opflags |= OPFLAG_FORWARD; forwref = saa_rstruct(forwrefs); } while (forwref != NULL && forwref->lineno == globallineno); } else output_ins.forw_ref = false; if (output_ins.forw_ref) { if (passn == 1) { for (i = 0; i < output_ins.operands; i++) { if (output_ins.oprs[i].opflags & OPFLAG_FORWARD) { struct forwrefinfo *fwinf = (struct forwrefinfo *)saa_wstruct(forwrefs); fwinf->lineno = globallineno; fwinf->operand = i; } } } } } /* forw_ref */ if (output_ins.opcode == I_EQU) { if (pass1 == 1) { /* * Special `..' EQUs get processed in pass two, * except `..@' macro-processor EQUs which are done * in the normal place. */ if (!output_ins.label) nasm_error(ERR_NONFATAL, "EQU not preceded by label"); else if (output_ins.label[0] != '.' || output_ins.label[1] != '.' || output_ins.label[2] == '@') { if (output_ins.operands == 1 && (output_ins.oprs[0].type & IMMEDIATE) && output_ins.oprs[0].wrt == NO_SEG) { bool isext = !!(output_ins.oprs[0].opflags & OPFLAG_EXTERN); def_label(output_ins.label, output_ins.oprs[0].segment, output_ins.oprs[0].offset, NULL, false, isext); } else if (output_ins.operands == 2 && (output_ins.oprs[0].type & IMMEDIATE) && (output_ins.oprs[0].type & COLON) && output_ins.oprs[0].segment == NO_SEG && output_ins.oprs[0].wrt == NO_SEG && (output_ins.oprs[1].type & IMMEDIATE) && output_ins.oprs[1].segment == NO_SEG && output_ins.oprs[1].wrt == NO_SEG) { def_label(output_ins.label, output_ins.oprs[0].offset | SEG_ABS, output_ins.oprs[1].offset, NULL, false, false); } else nasm_error(ERR_NONFATAL, "bad syntax for EQU"); } } else { /* * Special `..' EQUs get processed here, except * `..@' macro processor EQUs which are done above. */ if (output_ins.label[0] == '.' && output_ins.label[1] == '.' && output_ins.label[2] != '@') { if (output_ins.operands == 1 && (output_ins.oprs[0].type & IMMEDIATE)) { define_label(output_ins.label, output_ins.oprs[0].segment, output_ins.oprs[0].offset, NULL, false, false); } else if (output_ins.operands == 2 && (output_ins.oprs[0].type & IMMEDIATE) && (output_ins.oprs[0].type & COLON) && output_ins.oprs[0].segment == NO_SEG && (output_ins.oprs[1].type & IMMEDIATE) && output_ins.oprs[1].segment == NO_SEG) { define_label(output_ins.label, output_ins.oprs[0].offset | SEG_ABS, output_ins.oprs[1].offset, NULL, false, false); } else nasm_error(ERR_NONFATAL, "bad syntax for EQU"); } } } else { /* instruction isn't an EQU */ if (pass1 == 1) { int64_t l = insn_size(location.segment, offs, sb, cpu, &output_ins, nasm_error); /* if (using_debug_info) && output_ins.opcode != -1) */ if (using_debug_info) { /* fbk 03/25/01 */ /* this is done here so we can do debug type info */ int32_t typeinfo = TYS_ELEMENTS(output_ins.operands); switch (output_ins.opcode) { case I_RESB: typeinfo = TYS_ELEMENTS(output_ins.oprs[0].offset) | TY_BYTE; break; case I_RESW: typeinfo = TYS_ELEMENTS(output_ins.oprs[0].offset) | TY_WORD; break; case I_RESD: typeinfo = TYS_ELEMENTS(output_ins.oprs[0].offset) | TY_DWORD; break; case I_RESQ: typeinfo = TYS_ELEMENTS(output_ins.oprs[0].offset) | TY_QWORD; break; case I_REST: typeinfo = TYS_ELEMENTS(output_ins.oprs[0].offset) | TY_TBYTE; break; case I_RESO: typeinfo = TYS_ELEMENTS(output_ins.oprs[0].offset) | TY_OWORD; break; case I_RESY: typeinfo = TYS_ELEMENTS(output_ins.oprs[0].offset) | TY_YWORD; break; case I_DB: typeinfo |= TY_BYTE; break; case I_DW: typeinfo |= TY_WORD; break; case I_DD: if (output_ins.eops_float) typeinfo |= TY_FLOAT; else typeinfo |= TY_DWORD; break; case I_DQ: typeinfo |= TY_QWORD; break; case I_DT: typeinfo |= TY_TBYTE; break; case I_DO: typeinfo |= TY_OWORD; break; case I_DY: typeinfo |= TY_YWORD; break; default: typeinfo = TY_LABEL; } dfmt->debug_typevalue(typeinfo); } if (l != -1) { offs += l; set_curr_offs(offs); } /* * else l == -1 => invalid instruction, which will be * flagged as an error on pass 2 */ } else { offs += assemble(location.segment, offs, sb, cpu, &output_ins, ofmt, nasm_error, &nasmlist); set_curr_offs(offs); } } /* not an EQU */ cleanup_insn(&output_ins); } nasm_free(line); location.offset = offs = get_curr_offs(); } /* end while (line = preproc->getline... */ if (pass0 == 2 && global_offset_changed && !terminate_after_phase) nasm_error(ERR_NONFATAL, "phase error detected at end of assembly."); if (pass1 == 1) preproc->cleanup(1); if ((passn > 1 && !global_offset_changed) || pass0 == 2) { pass0++; } else if (global_offset_changed && global_offset_changed < prev_offset_changed) { prev_offset_changed = global_offset_changed; stall_count = 0; } else { stall_count++; } if (terminate_after_phase) break; if ((stall_count > 997) || (passn >= pass_max)) { /* We get here if the labels don't converge * Example: FOO equ FOO + 1 */ nasm_error(ERR_NONFATAL, "Can't find valid values for all labels " "after %d passes, giving up.", passn); nasm_error(ERR_NONFATAL, "Possible causes: recursive EQUs, macro abuse."); break; } } preproc->cleanup(0); nasmlist.cleanup(); if (!terminate_after_phase && opt_verbose_info) { /* -On and -Ov switches */ fprintf(stdout, "info: assembly required 1+%d+1 passes\n", passn-3); } } static enum directives getkw(char **directive, char **value) { char *p, *q, *buf; buf = nasm_skip_spaces(*directive); /* it should be enclosed in [ ] */ if (*buf != '[') return D_none; q = strchr(buf, ']'); if (!q) return D_none; /* stip off the comments */ p = strchr(buf, ';'); if (p) { if (p < q) /* ouch! somwhere inside */ return D_none; *p = '\0'; } /* no brace, no trailing spaces */ *q = '\0'; nasm_zap_spaces_rev(--q); /* directive */ p = nasm_skip_spaces(++buf); q = nasm_skip_word(p); if (!q) return D_none; /* sigh... no value there */ *q = '\0'; *directive = p; /* and value finally */ p = nasm_skip_spaces(++q); *value = p; return find_directive(*directive); } /** * gnu style error reporting * This function prints an error message to error_file in the * style used by GNU. An example would be: * file.asm:50: error: blah blah blah * where file.asm is the name of the file, 50 is the line number on * which the error occurs (or is detected) and "error:" is one of * the possible optional diagnostics -- it can be "error" or "warning" * or something else. Finally the line terminates with the actual * error message. * * @param severity the severity of the warning or error * @param fmt the printf style format string */ static void nasm_verror_gnu(int severity, const char *fmt, va_list ap) { char *currentfile = NULL; int32_t lineno = 0; if (is_suppressed_warning(severity)) return; if (!(severity & ERR_NOFILE)) src_get(&lineno, ¤tfile); if (currentfile) { fprintf(error_file, "%s:%"PRId32": ", currentfile, lineno); nasm_free(currentfile); } else { fputs("nasm: ", error_file); } nasm_verror_common(severity, fmt, ap); } /** * MS style error reporting * This function prints an error message to error_file in the * style used by Visual C and some other Microsoft tools. An example * would be: * file.asm(50) : error: blah blah blah * where file.asm is the name of the file, 50 is the line number on * which the error occurs (or is detected) and "error:" is one of * the possible optional diagnostics -- it can be "error" or "warning" * or something else. Finally the line terminates with the actual * error message. * * @param severity the severity of the warning or error * @param fmt the printf style format string */ static void nasm_verror_vc(int severity, const char *fmt, va_list ap) { char *currentfile = NULL; int32_t lineno = 0; if (is_suppressed_warning(severity)) return; if (!(severity & ERR_NOFILE)) src_get(&lineno, ¤tfile); if (currentfile) { fprintf(error_file, "%s(%"PRId32") : ", currentfile, lineno); nasm_free(currentfile); } else { fputs("nasm: ", error_file); } nasm_verror_common(severity, fmt, ap); } /** * check for supressed warning * checks for suppressed warning or pass one only warning and we're * not in pass 1 * * @param severity the severity of the warning or error * @return true if we should abort error/warning printing */ static bool is_suppressed_warning(int severity) { /* Not a warning at all */ if ((severity & ERR_MASK) != ERR_WARNING) return false; /* See if it's a pass-one only warning and we're not in pass one. */ if (((severity & ERR_PASS1) && pass0 != 1) || ((severity & ERR_PASS2) && pass0 != 2)) return true; /* Might be a warning but suppresed explicitly */ if (severity & ERR_WARN_MASK) return !warning_on[WARN_IDX(severity)]; else return false; } /** * 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 */ static void nasm_verror_common(int severity, const char *fmt, va_list args) { char msg[1024]; const char *pfx; switch (severity & (ERR_MASK|ERR_NO_SEVERITY)) { case ERR_WARNING: pfx = "warning: "; break; case ERR_NONFATAL: pfx = "error: "; break; case ERR_FATAL: pfx = "fatal: "; break; case ERR_PANIC: pfx = "panic: "; break; case ERR_DEBUG: pfx = "debug: "; break; default: pfx = ""; break; } vsnprintf(msg, sizeof msg, fmt, args); fprintf(error_file, "%s%s\n", pfx, msg); if (*listname) nasmlist.error(severity, pfx, msg); if (severity & ERR_USAGE) want_usage = true; switch (severity & ERR_MASK) { case ERR_DEBUG: /* no further action, by definition */ break; case ERR_WARNING: /* Treat warnings as errors */ if (warning_on[WARN_IDX(ERR_WARN_TERM)]) terminate_after_phase = true; break; case ERR_NONFATAL: terminate_after_phase = true; break; case ERR_FATAL: if (ofile) { fclose(ofile); remove(outname); ofile = NULL; } if (want_usage) usage(); exit(1); /* instantly die */ break; /* placate silly compilers */ case ERR_PANIC: fflush(NULL); /* abort(); */ /* halt, catch fire, and dump core */ exit(3); break; } } static void usage(void) { fputs("type `nasm -h' for help\n", error_file); } static iflag_t get_cpu(char *value) { iflag_t r; iflag_clear_all(&r); if (!strcmp(value, "8086")) iflag_set(&r, IF_8086); else if (!strcmp(value, "186")) iflag_set(&r, IF_186); else if (!strcmp(value, "286")) iflag_set(&r, IF_286); else if (!strcmp(value, "386")) iflag_set(&r, IF_386); else if (!strcmp(value, "486")) iflag_set(&r, IF_486); else if (!strcmp(value, "586") || !nasm_stricmp(value, "pentium")) iflag_set(&r, IF_PENT); else if (!strcmp(value, "686") || !nasm_stricmp(value, "ppro") || !nasm_stricmp(value, "pentiumpro") || !nasm_stricmp(value, "p2")) iflag_set(&r, IF_P6); else if (!nasm_stricmp(value, "p3") || !nasm_stricmp(value, "katmai")) iflag_set(&r, IF_KATMAI); else if (!nasm_stricmp(value, "p4") || /* is this right? -- jrc */ !nasm_stricmp(value, "willamette")) iflag_set(&r, IF_WILLAMETTE); else if (!nasm_stricmp(value, "prescott")) iflag_set(&r, IF_PRESCOTT); else if (!nasm_stricmp(value, "x64") || !nasm_stricmp(value, "x86-64")) iflag_set(&r, IF_X86_64); else if (!nasm_stricmp(value, "ia64") || !nasm_stricmp(value, "ia-64") || !nasm_stricmp(value, "itanium")|| !nasm_stricmp(value, "itanic") || !nasm_stricmp(value, "merced")) iflag_set(&r, IF_IA64); else { iflag_set(&r, IF_PLEVEL); nasm_error(pass0 < 2 ? ERR_NONFATAL : ERR_FATAL, "unknown 'cpu' type"); } return r; } static int get_bits(char *value) { int i; if ((i = atoi(value)) == 16) return i; /* set for a 16-bit segment */ else if (i == 32) { if (iflag_ffs(&cpu) < IF_386) { nasm_error(ERR_NONFATAL, "cannot specify 32-bit segment on processor below a 386"); i = 16; } } else if (i == 64) { if (iflag_ffs(&cpu) < IF_X86_64) { nasm_error(ERR_NONFATAL, "cannot specify 64-bit segment on processor below an x86-64"); i = 16; } if (i != maxbits) { nasm_error(ERR_NONFATAL, "%s output format does not support 64-bit code", ofmt->shortname); i = 16; } } else { nasm_error(pass0 < 2 ? ERR_NONFATAL : ERR_FATAL, "`%s' is not a valid segment size; must be 16, 32 or 64", value); i = 16; } return i; }