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/* ----------------------------------------------------------------------- *
*
* Copyright 1996-2019 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.
*
* ----------------------------------------------------------------------- */
/*
* Parse and handle [pragma] directives. The preprocessor handles
* %pragma preproc directives separately, all other namespaces are
* simply converted to [pragma].
*/
#include "compiler.h"
#include "nctype.h"
#include "nasm.h"
#include "nasmlib.h"
#include "assemble.h"
#include "error.h"
#include "listing.h"
static enum directive_result ignore_pragma(const struct pragma *pragma);
static enum directive_result output_pragma(const struct pragma *pragma);
static enum directive_result debug_pragma(const struct pragma *pragma);
static enum directive_result limit_pragma(const struct pragma *pragma);
/*
* Handle [pragma] directives. [pragma] is generally produced by
* the %pragma preprocessor directive, which simply passes on any
* string that it finds *except* %pragma preproc. The idea is
* that pragmas are of the form:
*
* %pragma <facility> <opname> [<options>...]
*
* ... where "facility" can be either a generic facility or a backend
* name.
*
* The following names are currently reserved for global facilities;
* so far none of these have any defined pragmas at all:
*
* preproc - preprocessor
* limit - limit setting
* asm - assembler
* list - listing generator
* file - generic file handling
* input - input file handling
* output - backend-independent output handling
* debug - backend-independent debug handling
* ignore - dummy pragma (can be used to "comment out")
*
* This function should generally not error out if it doesn't understand
* what a pragma is for, for unknown arguments, etc; the whole point of
* a pragma is that future releases might add new ones that should be
* ignored rather than be an error. Erroring out is acceptable for
* known pragmas suffering from parsing errors and so on.
*
* Adding default-suppressed warnings would, however, be a good idea
* at some point.
*/
static struct pragma_facility global_pragmas[] =
{
{ "asm", NULL },
{ "limit", limit_pragma },
{ "list", list_pragma },
{ "file", NULL },
{ "input", NULL },
{ "output", output_pragma },
{ "debug", debug_pragma },
{ "ignore", ignore_pragma },
/* This will never actually get this far... */
{ "preproc", NULL }, /* Handled in the preprocessor by necessity */
{ NULL, NULL }
};
/*
* Invoke a pragma handler
*/
static enum directive_result
call_pragma(const struct pragma_facility *pf, struct pragma *pragma)
{
if (!pf || !pf->handler)
return DIRR_UNKNOWN;
pragma->facility = pf;
return pf->handler(pragma);
}
/*
* Search a pragma list for a known pragma facility and if so, invoke
* the handler. Return true if processing is complete. The "default
* name", *or def->name*, if set, matches the final NULL entry (used
* for backends, so multiple backends can share the same list under
* some circumstances, and the backends can implement common operations.)
*/
static enum directive_result
search_pragma_list(const struct pragma_facility *list,
const char *defaultname,
const struct pragma_facility *def,
const struct pragma *cpragma)
{
const struct pragma_facility *pf = NULL;
enum directive_result rv;
bool facility_match, is_default;
struct pragma pragma = *cpragma;
const char *facname = pragma.facility_name;
/* Is there a default facility and we match its name? */
is_default = def && def->name && !nasm_stricmp(facname, def->name);
facility_match = is_default;
/*
* Promote def->name to defaultname if both are set. This handles
* e.g. output -> elf32 so that we can handle elf32-specific
* directives in that handler.
*/
if (defaultname) {
if (is_default)
facname = defaultname;
else
facility_match = !nasm_stricmp(facname, defaultname);
}
if (facname && list) {
for (pf = list; pf->name; pf++) {
if (!nasm_stricmp(facname, pf->name)) {
facility_match = true;
rv = call_pragma(pf, &pragma);
if (rv != DIRR_UNKNOWN)
goto found_it;
}
}
if (facility_match) {
/*
* Facility name match but no matching directive; handler in NULL
* entry at end of list?
*/
rv = call_pragma(pf, &pragma);
if (rv != DIRR_UNKNOWN)
goto found_it;
}
}
if (facility_match) {
/*
* Facility match but still nothing: def->handler if it exists
*/
rv = call_pragma(def, &pragma);
} else {
/*
* No facility matched
*/
return DIRR_UNKNOWN;
}
/*
* Otherwise we found the facility but not any supported directive,
* fall through...
*/
found_it:
switch (rv) {
case DIRR_UNKNOWN:
switch (pragma.opcode) {
case D_none:
/*!
*!pragma-bad [off] malformed \c{%pragma}
*!=bad-pragma
*! warns about a malformed or otherwise unparsable
*! \c{%pragma} directive.
*/
nasm_warn(ERR_PASS2|WARN_PRAGMA_BAD,
"empty %%pragma %s", pragma.facility_name);
break;
default:
/*!
*!pragma-unknown [off] unknown \c{%pragma} facility or directive
*!=unknown-pragma
*! warns about an unknown \c{%pragma} directive.
*! This is not yet implemented for most cases.
*/
nasm_warn(ERR_PASS2|WARN_PRAGMA_UNKNOWN,
"unknown %%pragma %s %s",
pragma.facility_name, pragma.opname);
break;
}
rv = DIRR_ERROR; /* Already printed an error message */
break;
case DIRR_OK:
case DIRR_ERROR:
break; /* Nothing to do */
case DIRR_BADPARAM:
/*
* This one is an error. Don't use it if forward compatibility
* would be compromised, as opposed to an inherent error.
*/
nasm_error(ERR_NONFATAL, "bad argument to %%pragma %s %s",
pragma.facility_name, pragma.opname);
break;
default:
panic();
}
return rv;
}
/* This warning message is intended for future use */
/*!
*!pragma-na [off] \c{%pragma} not applicable to this compilation
*!=not-my-pragma
*! warns about a \c{%pragma} directive which is not applicable to
*! this particular assembly session. This is not yet implemented.
*/
/* Naked %pragma */
/*!
*!pragma-empty [off] empty \c{%pragma} directive
*! warns about a \c{%pragma} directive containing nothing.
*! This is treated identically to \c{%pragma ignore} except
*! for this optional warning.
*/
void process_pragma(char *str)
{
const struct pragma_facility *pf;
struct pragma pragma;
char *p;
nasm_zero(pragma);
pragma.facility_name = nasm_get_word(str, &p);
if (!pragma.facility_name) {
/* Empty %pragma */
nasm_warn(ERR_PASS2|WARN_PRAGMA_EMPTY,
"empty %%pragma directive, ignored");
return;
}
pragma.opname = nasm_get_word(p, &p);
if (!pragma.opname)
pragma.opcode = D_none;
else
pragma.opcode = directive_find(pragma.opname);
pragma.tail = nasm_trim_spaces(p);
/*
* Search the global pragma namespaces. This is done
* as a loop rather than letting search_pragma_list()
* just run, because we don't want to keep searching if
* we have a facility match, thus we want to call
* search_pragma_list() individually for each namespace.
*/
for (pf = global_pragmas; pf->name; pf++) {
if (search_pragma_list(NULL, NULL, pf, &pragma) != DIRR_UNKNOWN)
return;
}
/* Is it an output pragma? */
if (output_pragma(&pragma) != DIRR_UNKNOWN)
return;
/* Is it a debug pragma */
if (debug_pragma(&pragma) != DIRR_UNKNOWN)
return;
/*
* Note: it would be nice to warn for an unknown namespace,
* but in order to do so we need to walk *ALL* the backends
* in order to make sure we aren't dealing with a pragma that
* is for another backend. On the other hand, that could
* also be a warning with a separate warning flag.
*
* Leave this for the future, however, the warning classes are
* already defined for future compatibility.
*/
}
/* %pragma ignore */
static enum directive_result ignore_pragma(const struct pragma *pragma)
{
(void)pragma;
return DIRR_OK; /* Even for D_none! */
}
/*
* Process output and debug pragmas, by either list name or generic
* name. Note that the output/debug format list can hook the default
* names if they so choose.
*/
static enum directive_result output_pragma_common(const struct pragma *);
static enum directive_result output_pragma(const struct pragma *pragma)
{
static const struct pragma_facility
output_pragma_def = { "output", output_pragma_common };
return search_pragma_list(ofmt->pragmas, ofmt->shortname,
&output_pragma_def, pragma);
}
/* Generic pragmas that apply to all output backends */
static enum directive_result output_pragma_common(const struct pragma *pragma)
{
switch (pragma->opcode) {
case D_PREFIX:
case D_GPREFIX:
set_label_mangle(LM_GPREFIX, pragma->tail);
return DIRR_OK;
case D_SUFFIX:
case D_GSUFFIX:
set_label_mangle(LM_GSUFFIX, pragma->tail);
return DIRR_OK;
case D_LPREFIX:
set_label_mangle(LM_LPREFIX, pragma->tail);
return DIRR_OK;
case D_LSUFFIX:
set_label_mangle(LM_LSUFFIX, pragma->tail);
return DIRR_OK;
default:
return DIRR_UNKNOWN;
}
}
static enum directive_result debug_pragma(const struct pragma *pragma)
{
static const struct pragma_facility
debug_pragma_def = { "debug", NULL };
return search_pragma_list(dfmt->pragmas, dfmt->shortname,
&debug_pragma_def, pragma);
}
/*
* %pragma limit to set resource limits
*/
static enum directive_result limit_pragma(const struct pragma *pragma)
{
return nasm_set_limit(pragma->opname, pragma->tail);
}
|
