xref: /titanic_41/usr/src/lib/libdtrace/common/dt_cc.c (revision 1babaf948dd28d81d79cf3ec089d6edc111ed4a8)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.
24  * Copyright (c) 2011, Joyent Inc. All rights reserved.
25  * Copyright (c) 2011 by Delphix. All rights reserved.
26  */
27 
28 /*
29  * DTrace D Language Compiler
30  *
31  * The code in this source file implements the main engine for the D language
32  * compiler.  The driver routine for the compiler is dt_compile(), below.  The
33  * compiler operates on either stdio FILEs or in-memory strings as its input
34  * and can produce either dtrace_prog_t structures from a D program or a single
35  * dtrace_difo_t structure from a D expression.  Multiple entry points are
36  * provided as wrappers around dt_compile() for the various input/output pairs.
37  * The compiler itself is implemented across the following source files:
38  *
39  * dt_lex.l - lex scanner
40  * dt_grammar.y - yacc grammar
41  * dt_parser.c - parse tree creation and semantic checking
42  * dt_decl.c - declaration stack processing
43  * dt_xlator.c - D translator lookup and creation
44  * dt_ident.c - identifier and symbol table routines
45  * dt_pragma.c - #pragma processing and D pragmas
46  * dt_printf.c - D printf() and printa() argument checking and processing
47  * dt_cc.c - compiler driver and dtrace_prog_t construction
48  * dt_cg.c - DIF code generator
49  * dt_as.c - DIF assembler
50  * dt_dof.c - dtrace_prog_t -> DOF conversion
51  *
52  * Several other source files provide collections of utility routines used by
53  * these major files.  The compiler itself is implemented in multiple passes:
54  *
55  * (1) The input program is scanned and parsed by dt_lex.l and dt_grammar.y
56  *     and parse tree nodes are constructed using the routines in dt_parser.c.
57  *     This node construction pass is described further in dt_parser.c.
58  *
59  * (2) The parse tree is "cooked" by assigning each clause a context (see the
60  *     routine dt_setcontext(), below) based on its probe description and then
61  *     recursively descending the tree performing semantic checking.  The cook
62  *     routines are also implemented in dt_parser.c and described there.
63  *
64  * (3) For actions that are DIF expression statements, the DIF code generator
65  *     and assembler are invoked to create a finished DIFO for the statement.
66  *
67  * (4) The dtrace_prog_t data structures for the program clauses and actions
68  *     are built, containing pointers to any DIFOs created in step (3).
69  *
70  * (5) The caller invokes a routine in dt_dof.c to convert the finished program
71  *     into DOF format for use in anonymous tracing or enabling in the kernel.
72  *
73  * In the implementation, steps 2-4 are intertwined in that they are performed
74  * in order for each clause as part of a loop that executes over the clauses.
75  *
76  * The D compiler currently implements nearly no optimization.  The compiler
77  * implements integer constant folding as part of pass (1), and a set of very
78  * simple peephole optimizations as part of pass (3).  As with any C compiler,
79  * a large number of optimizations are possible on both the intermediate data
80  * structures and the generated DIF code.  These possibilities should be
81  * investigated in the context of whether they will have any substantive effect
82  * on the overall DTrace probe effect before they are undertaken.
83  */
84 
85 #include <sys/types.h>
86 #include <sys/wait.h>
87 #include <sys/sysmacros.h>
88 
89 #include <assert.h>
90 #include <strings.h>
91 #include <signal.h>
92 #include <unistd.h>
93 #include <stdlib.h>
94 #include <stdio.h>
95 #include <errno.h>
96 #include <ucontext.h>
97 #include <limits.h>
98 #include <ctype.h>
99 #include <dirent.h>
100 #include <dt_module.h>
101 #include <dt_program.h>
102 #include <dt_provider.h>
103 #include <dt_printf.h>
104 #include <dt_pid.h>
105 #include <dt_grammar.h>
106 #include <dt_ident.h>
107 #include <dt_string.h>
108 #include <dt_impl.h>
109 
110 static const dtrace_diftype_t dt_void_rtype = {
111 	DIF_TYPE_CTF, CTF_K_INTEGER, 0, 0, 0
112 };
113 
114 static const dtrace_diftype_t dt_int_rtype = {
115 	DIF_TYPE_CTF, CTF_K_INTEGER, 0, 0, sizeof (uint64_t)
116 };
117 
118 static void *dt_compile(dtrace_hdl_t *, int, dtrace_probespec_t, void *,
119     uint_t, int, char *const[], FILE *, const char *);
120 
121 
122 /*ARGSUSED*/
123 static int
124 dt_idreset(dt_idhash_t *dhp, dt_ident_t *idp, void *ignored)
125 {
126 	idp->di_flags &= ~(DT_IDFLG_REF | DT_IDFLG_MOD |
127 	    DT_IDFLG_DIFR | DT_IDFLG_DIFW);
128 	return (0);
129 }
130 
131 /*ARGSUSED*/
132 static int
133 dt_idpragma(dt_idhash_t *dhp, dt_ident_t *idp, void *ignored)
134 {
135 	yylineno = idp->di_lineno;
136 	xyerror(D_PRAGMA_UNUSED, "unused #pragma %s\n", (char *)idp->di_iarg);
137 	return (0);
138 }
139 
140 static dtrace_stmtdesc_t *
141 dt_stmt_create(dtrace_hdl_t *dtp, dtrace_ecbdesc_t *edp,
142     dtrace_attribute_t descattr, dtrace_attribute_t stmtattr)
143 {
144 	dtrace_stmtdesc_t *sdp = dtrace_stmt_create(dtp, edp);
145 
146 	if (sdp == NULL)
147 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
148 
149 	assert(yypcb->pcb_stmt == NULL);
150 	yypcb->pcb_stmt = sdp;
151 
152 	sdp->dtsd_descattr = descattr;
153 	sdp->dtsd_stmtattr = stmtattr;
154 
155 	return (sdp);
156 }
157 
158 static dtrace_actdesc_t *
159 dt_stmt_action(dtrace_hdl_t *dtp, dtrace_stmtdesc_t *sdp)
160 {
161 	dtrace_actdesc_t *new;
162 
163 	if ((new = dtrace_stmt_action(dtp, sdp)) == NULL)
164 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
165 
166 	return (new);
167 }
168 
169 /*
170  * Utility function to determine if a given action description is destructive.
171  * The dtdo_destructive bit is set for us by the DIF assembler (see dt_as.c).
172  */
173 static int
174 dt_action_destructive(const dtrace_actdesc_t *ap)
175 {
176 	return (DTRACEACT_ISDESTRUCTIVE(ap->dtad_kind) || (ap->dtad_kind ==
177 	    DTRACEACT_DIFEXPR && ap->dtad_difo->dtdo_destructive));
178 }
179 
180 static void
181 dt_stmt_append(dtrace_stmtdesc_t *sdp, const dt_node_t *dnp)
182 {
183 	dtrace_ecbdesc_t *edp = sdp->dtsd_ecbdesc;
184 	dtrace_actdesc_t *ap, *tap;
185 	int commit = 0;
186 	int speculate = 0;
187 	int datarec = 0;
188 
189 	/*
190 	 * Make sure that the new statement jibes with the rest of the ECB.
191 	 */
192 	for (ap = edp->dted_action; ap != NULL; ap = ap->dtad_next) {
193 		if (ap->dtad_kind == DTRACEACT_COMMIT) {
194 			if (commit) {
195 				dnerror(dnp, D_COMM_COMM, "commit( ) may "
196 				    "not follow commit( )\n");
197 			}
198 
199 			if (datarec) {
200 				dnerror(dnp, D_COMM_DREC, "commit( ) may "
201 				    "not follow data-recording action(s)\n");
202 			}
203 
204 			for (tap = ap; tap != NULL; tap = tap->dtad_next) {
205 				if (!DTRACEACT_ISAGG(tap->dtad_kind))
206 					continue;
207 
208 				dnerror(dnp, D_AGG_COMM, "aggregating actions "
209 				    "may not follow commit( )\n");
210 			}
211 
212 			commit = 1;
213 			continue;
214 		}
215 
216 		if (ap->dtad_kind == DTRACEACT_SPECULATE) {
217 			if (speculate) {
218 				dnerror(dnp, D_SPEC_SPEC, "speculate( ) may "
219 				    "not follow speculate( )\n");
220 			}
221 
222 			if (commit) {
223 				dnerror(dnp, D_SPEC_COMM, "speculate( ) may "
224 				    "not follow commit( )\n");
225 			}
226 
227 			if (datarec) {
228 				dnerror(dnp, D_SPEC_DREC, "speculate( ) may "
229 				    "not follow data-recording action(s)\n");
230 			}
231 
232 			speculate = 1;
233 			continue;
234 		}
235 
236 		if (DTRACEACT_ISAGG(ap->dtad_kind)) {
237 			if (speculate) {
238 				dnerror(dnp, D_AGG_SPEC, "aggregating actions "
239 				    "may not follow speculate( )\n");
240 			}
241 
242 			datarec = 1;
243 			continue;
244 		}
245 
246 		if (speculate) {
247 			if (dt_action_destructive(ap)) {
248 				dnerror(dnp, D_ACT_SPEC, "destructive actions "
249 				    "may not follow speculate( )\n");
250 			}
251 
252 			if (ap->dtad_kind == DTRACEACT_EXIT) {
253 				dnerror(dnp, D_EXIT_SPEC, "exit( ) may not "
254 				    "follow speculate( )\n");
255 			}
256 		}
257 
258 		/*
259 		 * Exclude all non data-recording actions.
260 		 */
261 		if (dt_action_destructive(ap) ||
262 		    ap->dtad_kind == DTRACEACT_DISCARD)
263 			continue;
264 
265 		if (ap->dtad_kind == DTRACEACT_DIFEXPR &&
266 		    ap->dtad_difo->dtdo_rtype.dtdt_kind == DIF_TYPE_CTF &&
267 		    ap->dtad_difo->dtdo_rtype.dtdt_size == 0)
268 			continue;
269 
270 		if (commit) {
271 			dnerror(dnp, D_DREC_COMM, "data-recording actions "
272 			    "may not follow commit( )\n");
273 		}
274 
275 		if (!speculate)
276 			datarec = 1;
277 	}
278 
279 	if (dtrace_stmt_add(yypcb->pcb_hdl, yypcb->pcb_prog, sdp) != 0)
280 		longjmp(yypcb->pcb_jmpbuf, dtrace_errno(yypcb->pcb_hdl));
281 
282 	if (yypcb->pcb_stmt == sdp)
283 		yypcb->pcb_stmt = NULL;
284 }
285 
286 /*
287  * For the first element of an aggregation tuple or for printa(), we create a
288  * simple DIF program that simply returns the immediate value that is the ID
289  * of the aggregation itself.  This could be optimized in the future by
290  * creating a new in-kernel dtad_kind that just returns an integer.
291  */
292 static void
293 dt_action_difconst(dtrace_actdesc_t *ap, uint_t id, dtrace_actkind_t kind)
294 {
295 	dtrace_hdl_t *dtp = yypcb->pcb_hdl;
296 	dtrace_difo_t *dp = dt_zalloc(dtp, sizeof (dtrace_difo_t));
297 
298 	if (dp == NULL)
299 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
300 
301 	dp->dtdo_buf = dt_alloc(dtp, sizeof (dif_instr_t) * 2);
302 	dp->dtdo_inttab = dt_alloc(dtp, sizeof (uint64_t));
303 
304 	if (dp->dtdo_buf == NULL || dp->dtdo_inttab == NULL) {
305 		dt_difo_free(dtp, dp);
306 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
307 	}
308 
309 	dp->dtdo_buf[0] = DIF_INSTR_SETX(0, 1); /* setx	DIF_INTEGER[0], %r1 */
310 	dp->dtdo_buf[1] = DIF_INSTR_RET(1);	/* ret	%r1 */
311 	dp->dtdo_len = 2;
312 	dp->dtdo_inttab[0] = id;
313 	dp->dtdo_intlen = 1;
314 	dp->dtdo_rtype = dt_int_rtype;
315 
316 	ap->dtad_difo = dp;
317 	ap->dtad_kind = kind;
318 }
319 
320 static void
321 dt_action_clear(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
322 {
323 	dt_ident_t *aid;
324 	dtrace_actdesc_t *ap;
325 	dt_node_t *anp;
326 
327 	char n[DT_TYPE_NAMELEN];
328 	int argc = 0;
329 
330 	for (anp = dnp->dn_args; anp != NULL; anp = anp->dn_list)
331 		argc++; /* count up arguments for error messages below */
332 
333 	if (argc != 1) {
334 		dnerror(dnp, D_CLEAR_PROTO,
335 		    "%s( ) prototype mismatch: %d args passed, 1 expected\n",
336 		    dnp->dn_ident->di_name, argc);
337 	}
338 
339 	anp = dnp->dn_args;
340 	assert(anp != NULL);
341 
342 	if (anp->dn_kind != DT_NODE_AGG) {
343 		dnerror(dnp, D_CLEAR_AGGARG,
344 		    "%s( ) argument #1 is incompatible with prototype:\n"
345 		    "\tprototype: aggregation\n\t argument: %s\n",
346 		    dnp->dn_ident->di_name,
347 		    dt_node_type_name(anp, n, sizeof (n)));
348 	}
349 
350 	aid = anp->dn_ident;
351 
352 	if (aid->di_gen == dtp->dt_gen && !(aid->di_flags & DT_IDFLG_MOD)) {
353 		dnerror(dnp, D_CLEAR_AGGBAD,
354 		    "undefined aggregation: @%s\n", aid->di_name);
355 	}
356 
357 	ap = dt_stmt_action(dtp, sdp);
358 	dt_action_difconst(ap, anp->dn_ident->di_id, DTRACEACT_LIBACT);
359 	ap->dtad_arg = DT_ACT_CLEAR;
360 }
361 
362 static void
363 dt_action_normalize(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
364 {
365 	dt_ident_t *aid;
366 	dtrace_actdesc_t *ap;
367 	dt_node_t *anp, *normal;
368 	int denormal = (strcmp(dnp->dn_ident->di_name, "denormalize") == 0);
369 
370 	char n[DT_TYPE_NAMELEN];
371 	int argc = 0;
372 
373 	for (anp = dnp->dn_args; anp != NULL; anp = anp->dn_list)
374 		argc++; /* count up arguments for error messages below */
375 
376 	if ((denormal && argc != 1) || (!denormal && argc != 2)) {
377 		dnerror(dnp, D_NORMALIZE_PROTO,
378 		    "%s( ) prototype mismatch: %d args passed, %d expected\n",
379 		    dnp->dn_ident->di_name, argc, denormal ? 1 : 2);
380 	}
381 
382 	anp = dnp->dn_args;
383 	assert(anp != NULL);
384 
385 	if (anp->dn_kind != DT_NODE_AGG) {
386 		dnerror(dnp, D_NORMALIZE_AGGARG,
387 		    "%s( ) argument #1 is incompatible with prototype:\n"
388 		    "\tprototype: aggregation\n\t argument: %s\n",
389 		    dnp->dn_ident->di_name,
390 		    dt_node_type_name(anp, n, sizeof (n)));
391 	}
392 
393 	if ((normal = anp->dn_list) != NULL && !dt_node_is_scalar(normal)) {
394 		dnerror(dnp, D_NORMALIZE_SCALAR,
395 		    "%s( ) argument #2 must be of scalar type\n",
396 		    dnp->dn_ident->di_name);
397 	}
398 
399 	aid = anp->dn_ident;
400 
401 	if (aid->di_gen == dtp->dt_gen && !(aid->di_flags & DT_IDFLG_MOD)) {
402 		dnerror(dnp, D_NORMALIZE_AGGBAD,
403 		    "undefined aggregation: @%s\n", aid->di_name);
404 	}
405 
406 	ap = dt_stmt_action(dtp, sdp);
407 	dt_action_difconst(ap, anp->dn_ident->di_id, DTRACEACT_LIBACT);
408 
409 	if (denormal) {
410 		ap->dtad_arg = DT_ACT_DENORMALIZE;
411 		return;
412 	}
413 
414 	ap->dtad_arg = DT_ACT_NORMALIZE;
415 
416 	assert(normal != NULL);
417 	ap = dt_stmt_action(dtp, sdp);
418 	dt_cg(yypcb, normal);
419 
420 	ap->dtad_difo = dt_as(yypcb);
421 	ap->dtad_kind = DTRACEACT_LIBACT;
422 	ap->dtad_arg = DT_ACT_NORMALIZE;
423 }
424 
425 static void
426 dt_action_trunc(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
427 {
428 	dt_ident_t *aid;
429 	dtrace_actdesc_t *ap;
430 	dt_node_t *anp, *trunc;
431 
432 	char n[DT_TYPE_NAMELEN];
433 	int argc = 0;
434 
435 	for (anp = dnp->dn_args; anp != NULL; anp = anp->dn_list)
436 		argc++; /* count up arguments for error messages below */
437 
438 	if (argc > 2 || argc < 1) {
439 		dnerror(dnp, D_TRUNC_PROTO,
440 		    "%s( ) prototype mismatch: %d args passed, %s expected\n",
441 		    dnp->dn_ident->di_name, argc,
442 		    argc < 1 ? "at least 1" : "no more than 2");
443 	}
444 
445 	anp = dnp->dn_args;
446 	assert(anp != NULL);
447 	trunc = anp->dn_list;
448 
449 	if (anp->dn_kind != DT_NODE_AGG) {
450 		dnerror(dnp, D_TRUNC_AGGARG,
451 		    "%s( ) argument #1 is incompatible with prototype:\n"
452 		    "\tprototype: aggregation\n\t argument: %s\n",
453 		    dnp->dn_ident->di_name,
454 		    dt_node_type_name(anp, n, sizeof (n)));
455 	}
456 
457 	if (argc == 2) {
458 		assert(trunc != NULL);
459 		if (!dt_node_is_scalar(trunc)) {
460 			dnerror(dnp, D_TRUNC_SCALAR,
461 			    "%s( ) argument #2 must be of scalar type\n",
462 			    dnp->dn_ident->di_name);
463 		}
464 	}
465 
466 	aid = anp->dn_ident;
467 
468 	if (aid->di_gen == dtp->dt_gen && !(aid->di_flags & DT_IDFLG_MOD)) {
469 		dnerror(dnp, D_TRUNC_AGGBAD,
470 		    "undefined aggregation: @%s\n", aid->di_name);
471 	}
472 
473 	ap = dt_stmt_action(dtp, sdp);
474 	dt_action_difconst(ap, anp->dn_ident->di_id, DTRACEACT_LIBACT);
475 	ap->dtad_arg = DT_ACT_TRUNC;
476 
477 	ap = dt_stmt_action(dtp, sdp);
478 
479 	if (argc == 1) {
480 		dt_action_difconst(ap, 0, DTRACEACT_LIBACT);
481 	} else {
482 		assert(trunc != NULL);
483 		dt_cg(yypcb, trunc);
484 		ap->dtad_difo = dt_as(yypcb);
485 		ap->dtad_kind = DTRACEACT_LIBACT;
486 	}
487 
488 	ap->dtad_arg = DT_ACT_TRUNC;
489 }
490 
491 static void
492 dt_action_printa(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
493 {
494 	dt_ident_t *aid, *fid;
495 	dtrace_actdesc_t *ap;
496 	const char *format;
497 	dt_node_t *anp, *proto = NULL;
498 
499 	char n[DT_TYPE_NAMELEN];
500 	int argc = 0, argr = 0;
501 
502 	for (anp = dnp->dn_args; anp != NULL; anp = anp->dn_list)
503 		argc++; /* count up arguments for error messages below */
504 
505 	switch (dnp->dn_args->dn_kind) {
506 	case DT_NODE_STRING:
507 		format = dnp->dn_args->dn_string;
508 		anp = dnp->dn_args->dn_list;
509 		argr = 2;
510 		break;
511 	case DT_NODE_AGG:
512 		format = NULL;
513 		anp = dnp->dn_args;
514 		argr = 1;
515 		break;
516 	default:
517 		format = NULL;
518 		anp = dnp->dn_args;
519 		argr = 1;
520 	}
521 
522 	if (argc < argr) {
523 		dnerror(dnp, D_PRINTA_PROTO,
524 		    "%s( ) prototype mismatch: %d args passed, %d expected\n",
525 		    dnp->dn_ident->di_name, argc, argr);
526 	}
527 
528 	assert(anp != NULL);
529 
530 	while (anp != NULL) {
531 		if (anp->dn_kind != DT_NODE_AGG) {
532 			dnerror(dnp, D_PRINTA_AGGARG,
533 			    "%s( ) argument #%d is incompatible with "
534 			    "prototype:\n\tprototype: aggregation\n"
535 			    "\t argument: %s\n", dnp->dn_ident->di_name, argr,
536 			    dt_node_type_name(anp, n, sizeof (n)));
537 		}
538 
539 		aid = anp->dn_ident;
540 		fid = aid->di_iarg;
541 
542 		if (aid->di_gen == dtp->dt_gen &&
543 		    !(aid->di_flags & DT_IDFLG_MOD)) {
544 			dnerror(dnp, D_PRINTA_AGGBAD,
545 			    "undefined aggregation: @%s\n", aid->di_name);
546 		}
547 
548 		/*
549 		 * If we have multiple aggregations, we must be sure that
550 		 * their key signatures match.
551 		 */
552 		if (proto != NULL) {
553 			dt_printa_validate(proto, anp);
554 		} else {
555 			proto = anp;
556 		}
557 
558 		if (format != NULL) {
559 			yylineno = dnp->dn_line;
560 
561 			sdp->dtsd_fmtdata =
562 			    dt_printf_create(yypcb->pcb_hdl, format);
563 			dt_printf_validate(sdp->dtsd_fmtdata,
564 			    DT_PRINTF_AGGREGATION, dnp->dn_ident, 1,
565 			    fid->di_id, ((dt_idsig_t *)aid->di_data)->dis_args);
566 			format = NULL;
567 		}
568 
569 		ap = dt_stmt_action(dtp, sdp);
570 		dt_action_difconst(ap, anp->dn_ident->di_id, DTRACEACT_PRINTA);
571 
572 		anp = anp->dn_list;
573 		argr++;
574 	}
575 }
576 
577 static void
578 dt_action_printflike(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp,
579     dtrace_actkind_t kind)
580 {
581 	dt_node_t *anp, *arg1;
582 	dtrace_actdesc_t *ap = NULL;
583 	char n[DT_TYPE_NAMELEN], *str;
584 
585 	assert(DTRACEACT_ISPRINTFLIKE(kind));
586 
587 	if (dnp->dn_args->dn_kind != DT_NODE_STRING) {
588 		dnerror(dnp, D_PRINTF_ARG_FMT,
589 		    "%s( ) argument #1 is incompatible with prototype:\n"
590 		    "\tprototype: string constant\n\t argument: %s\n",
591 		    dnp->dn_ident->di_name,
592 		    dt_node_type_name(dnp->dn_args, n, sizeof (n)));
593 	}
594 
595 	arg1 = dnp->dn_args->dn_list;
596 	yylineno = dnp->dn_line;
597 	str = dnp->dn_args->dn_string;
598 
599 
600 	/*
601 	 * If this is an freopen(), we use an empty string to denote that
602 	 * stdout should be restored.  For other printf()-like actions, an
603 	 * empty format string is illegal:  an empty format string would
604 	 * result in malformed DOF, and the compiler thus flags an empty
605 	 * format string as a compile-time error.  To avoid propagating the
606 	 * freopen() special case throughout the system, we simply transpose
607 	 * an empty string into a sentinel string (DT_FREOPEN_RESTORE) that
608 	 * denotes that stdout should be restored.
609 	 */
610 	if (kind == DTRACEACT_FREOPEN) {
611 		if (strcmp(str, DT_FREOPEN_RESTORE) == 0) {
612 			/*
613 			 * Our sentinel is always an invalid argument to
614 			 * freopen(), but if it's been manually specified, we
615 			 * must fail now instead of when the freopen() is
616 			 * actually evaluated.
617 			 */
618 			dnerror(dnp, D_FREOPEN_INVALID,
619 			    "%s( ) argument #1 cannot be \"%s\"\n",
620 			    dnp->dn_ident->di_name, DT_FREOPEN_RESTORE);
621 		}
622 
623 		if (str[0] == '\0')
624 			str = DT_FREOPEN_RESTORE;
625 	}
626 
627 	sdp->dtsd_fmtdata = dt_printf_create(dtp, str);
628 
629 	dt_printf_validate(sdp->dtsd_fmtdata, DT_PRINTF_EXACTLEN,
630 	    dnp->dn_ident, 1, DTRACEACT_AGGREGATION, arg1);
631 
632 	if (arg1 == NULL) {
633 		dif_instr_t *dbuf;
634 		dtrace_difo_t *dp;
635 
636 		if ((dbuf = dt_alloc(dtp, sizeof (dif_instr_t))) == NULL ||
637 		    (dp = dt_zalloc(dtp, sizeof (dtrace_difo_t))) == NULL) {
638 			dt_free(dtp, dbuf);
639 			longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
640 		}
641 
642 		dbuf[0] = DIF_INSTR_RET(DIF_REG_R0); /* ret %r0 */
643 
644 		dp->dtdo_buf = dbuf;
645 		dp->dtdo_len = 1;
646 		dp->dtdo_rtype = dt_int_rtype;
647 
648 		ap = dt_stmt_action(dtp, sdp);
649 		ap->dtad_difo = dp;
650 		ap->dtad_kind = kind;
651 		return;
652 	}
653 
654 	for (anp = arg1; anp != NULL; anp = anp->dn_list) {
655 		ap = dt_stmt_action(dtp, sdp);
656 		dt_cg(yypcb, anp);
657 		ap->dtad_difo = dt_as(yypcb);
658 		ap->dtad_kind = kind;
659 	}
660 }
661 
662 static void
663 dt_action_trace(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
664 {
665 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
666 
667 	if (dt_node_is_void(dnp->dn_args)) {
668 		dnerror(dnp->dn_args, D_TRACE_VOID,
669 		    "trace( ) may not be applied to a void expression\n");
670 	}
671 
672 	if (dt_node_is_dynamic(dnp->dn_args)) {
673 		dnerror(dnp->dn_args, D_TRACE_DYN,
674 		    "trace( ) may not be applied to a dynamic expression\n");
675 	}
676 
677 	dt_cg(yypcb, dnp->dn_args);
678 	ap->dtad_difo = dt_as(yypcb);
679 	ap->dtad_kind = DTRACEACT_DIFEXPR;
680 }
681 
682 /*
683  * The print() action behaves identically to trace(), except that it stores the
684  * CTF type of the argument (if present) within the DOF for the DIFEXPR action.
685  * To do this, we set the 'dtsd_strdata' to point to the fully-qualified CTF
686  * type ID for the result of the DIF action.  We use the ID instead of the name
687  * to handles complex types like arrays and function pointers that can't be
688  * resolved by ctf_type_lookup().  This is later processed by
689  * dtrace_dof_create() and turned into a reference into the string table so
690  * that we can get the type information when we process the data after the
691  * fact.
692  */
693 static void
694 dt_action_print(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
695 {
696 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
697 	dt_node_t *dret;
698 	size_t len;
699 	dt_module_t *dmp;
700 
701 	if (dt_node_is_void(dnp->dn_args)) {
702 		dnerror(dnp->dn_args, D_PRINT_VOID,
703 		    "print( ) may not be applied to a void expression\n");
704 	}
705 
706 	if (dt_node_is_dynamic(dnp->dn_args)) {
707 		dnerror(dnp->dn_args, D_PRINT_DYN,
708 		    "print( ) may not be applied to a dynamic expression\n");
709 	}
710 
711 	dt_cg(yypcb, dnp->dn_args);
712 
713 	dret = yypcb->pcb_dret;
714 	dmp = dt_module_lookup_by_ctf(dtp, dret->dn_ctfp);
715 
716 	len = snprintf(NULL, 0, "%s`%d", dmp->dm_name, dret->dn_type) + 1;
717 	sdp->dtsd_strdata = dt_alloc(dtp, len);
718 	if (sdp->dtsd_strdata == NULL)
719 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
720 	(void) snprintf(sdp->dtsd_strdata, len, "%s`%d", dmp->dm_name,
721 	    dret->dn_type);
722 
723 	ap->dtad_difo = dt_as(yypcb);
724 	ap->dtad_kind = DTRACEACT_DIFEXPR;
725 }
726 
727 static void
728 dt_action_tracemem(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
729 {
730 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
731 
732 	dt_node_t *addr = dnp->dn_args;
733 	dt_node_t *max = dnp->dn_args->dn_list;
734 	dt_node_t *size;
735 
736 	char n[DT_TYPE_NAMELEN];
737 
738 	if (dt_node_is_integer(addr) == 0 && dt_node_is_pointer(addr) == 0) {
739 		dnerror(addr, D_TRACEMEM_ADDR,
740 		    "tracemem( ) argument #1 is incompatible with "
741 		    "prototype:\n\tprototype: pointer or integer\n"
742 		    "\t argument: %s\n",
743 		    dt_node_type_name(addr, n, sizeof (n)));
744 	}
745 
746 	if (dt_node_is_posconst(max) == 0) {
747 		dnerror(max, D_TRACEMEM_SIZE, "tracemem( ) argument #2 must "
748 		    "be a non-zero positive integral constant expression\n");
749 	}
750 
751 	if ((size = max->dn_list) != NULL) {
752 		if (size->dn_list != NULL) {
753 			dnerror(size, D_TRACEMEM_ARGS, "tracemem ( ) prototype "
754 			    "mismatch: expected at most 3 args\n");
755 		}
756 
757 		if (!dt_node_is_scalar(size)) {
758 			dnerror(size, D_TRACEMEM_DYNSIZE, "tracemem ( ) "
759 			    "dynamic size (argument #3) must be of "
760 			    "scalar type\n");
761 		}
762 
763 		dt_cg(yypcb, size);
764 		ap->dtad_difo = dt_as(yypcb);
765 		ap->dtad_difo->dtdo_rtype = dt_int_rtype;
766 		ap->dtad_kind = DTRACEACT_TRACEMEM_DYNSIZE;
767 
768 		ap = dt_stmt_action(dtp, sdp);
769 	}
770 
771 	dt_cg(yypcb, addr);
772 	ap->dtad_difo = dt_as(yypcb);
773 	ap->dtad_kind = DTRACEACT_TRACEMEM;
774 
775 	ap->dtad_difo->dtdo_rtype.dtdt_flags |= DIF_TF_BYREF;
776 	ap->dtad_difo->dtdo_rtype.dtdt_size = max->dn_value;
777 }
778 
779 static void
780 dt_action_stack_args(dtrace_hdl_t *dtp, dtrace_actdesc_t *ap, dt_node_t *arg0)
781 {
782 	ap->dtad_kind = DTRACEACT_STACK;
783 
784 	if (dtp->dt_options[DTRACEOPT_STACKFRAMES] != DTRACEOPT_UNSET) {
785 		ap->dtad_arg = dtp->dt_options[DTRACEOPT_STACKFRAMES];
786 	} else {
787 		ap->dtad_arg = 0;
788 	}
789 
790 	if (arg0 != NULL) {
791 		if (arg0->dn_list != NULL) {
792 			dnerror(arg0, D_STACK_PROTO, "stack( ) prototype "
793 			    "mismatch: too many arguments\n");
794 		}
795 
796 		if (dt_node_is_posconst(arg0) == 0) {
797 			dnerror(arg0, D_STACK_SIZE, "stack( ) size must be a "
798 			    "non-zero positive integral constant expression\n");
799 		}
800 
801 		ap->dtad_arg = arg0->dn_value;
802 	}
803 }
804 
805 static void
806 dt_action_stack(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
807 {
808 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
809 	dt_action_stack_args(dtp, ap, dnp->dn_args);
810 }
811 
812 static void
813 dt_action_ustack_args(dtrace_hdl_t *dtp, dtrace_actdesc_t *ap, dt_node_t *dnp)
814 {
815 	uint32_t nframes = 0;
816 	uint32_t strsize = 0;	/* default string table size */
817 	dt_node_t *arg0 = dnp->dn_args;
818 	dt_node_t *arg1 = arg0 != NULL ? arg0->dn_list : NULL;
819 
820 	assert(dnp->dn_ident->di_id == DT_ACT_JSTACK ||
821 	    dnp->dn_ident->di_id == DT_ACT_USTACK);
822 
823 	if (dnp->dn_ident->di_id == DT_ACT_JSTACK) {
824 		if (dtp->dt_options[DTRACEOPT_JSTACKFRAMES] != DTRACEOPT_UNSET)
825 			nframes = dtp->dt_options[DTRACEOPT_JSTACKFRAMES];
826 
827 		if (dtp->dt_options[DTRACEOPT_JSTACKSTRSIZE] != DTRACEOPT_UNSET)
828 			strsize = dtp->dt_options[DTRACEOPT_JSTACKSTRSIZE];
829 
830 		ap->dtad_kind = DTRACEACT_JSTACK;
831 	} else {
832 		assert(dnp->dn_ident->di_id == DT_ACT_USTACK);
833 
834 		if (dtp->dt_options[DTRACEOPT_USTACKFRAMES] != DTRACEOPT_UNSET)
835 			nframes = dtp->dt_options[DTRACEOPT_USTACKFRAMES];
836 
837 		ap->dtad_kind = DTRACEACT_USTACK;
838 	}
839 
840 	if (arg0 != NULL) {
841 		if (!dt_node_is_posconst(arg0)) {
842 			dnerror(arg0, D_USTACK_FRAMES, "ustack( ) argument #1 "
843 			    "must be a non-zero positive integer constant\n");
844 		}
845 		nframes = (uint32_t)arg0->dn_value;
846 	}
847 
848 	if (arg1 != NULL) {
849 		if (arg1->dn_kind != DT_NODE_INT ||
850 		    ((arg1->dn_flags & DT_NF_SIGNED) &&
851 		    (int64_t)arg1->dn_value < 0)) {
852 			dnerror(arg1, D_USTACK_STRSIZE, "ustack( ) argument #2 "
853 			    "must be a positive integer constant\n");
854 		}
855 
856 		if (arg1->dn_list != NULL) {
857 			dnerror(arg1, D_USTACK_PROTO, "ustack( ) prototype "
858 			    "mismatch: too many arguments\n");
859 		}
860 
861 		strsize = (uint32_t)arg1->dn_value;
862 	}
863 
864 	ap->dtad_arg = DTRACE_USTACK_ARG(nframes, strsize);
865 }
866 
867 static void
868 dt_action_ustack(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
869 {
870 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
871 	dt_action_ustack_args(dtp, ap, dnp);
872 }
873 
874 static void
875 dt_action_setopt(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
876 {
877 	dtrace_actdesc_t *ap;
878 	dt_node_t *arg0, *arg1;
879 
880 	/*
881 	 * The prototype guarantees that we are called with either one or
882 	 * two arguments, and that any arguments that are present are strings.
883 	 */
884 	arg0 = dnp->dn_args;
885 	arg1 = arg0->dn_list;
886 
887 	ap = dt_stmt_action(dtp, sdp);
888 	dt_cg(yypcb, arg0);
889 	ap->dtad_difo = dt_as(yypcb);
890 	ap->dtad_kind = DTRACEACT_LIBACT;
891 	ap->dtad_arg = DT_ACT_SETOPT;
892 
893 	ap = dt_stmt_action(dtp, sdp);
894 
895 	if (arg1 == NULL) {
896 		dt_action_difconst(ap, 0, DTRACEACT_LIBACT);
897 	} else {
898 		dt_cg(yypcb, arg1);
899 		ap->dtad_difo = dt_as(yypcb);
900 		ap->dtad_kind = DTRACEACT_LIBACT;
901 	}
902 
903 	ap->dtad_arg = DT_ACT_SETOPT;
904 }
905 
906 /*ARGSUSED*/
907 static void
908 dt_action_symmod_args(dtrace_hdl_t *dtp, dtrace_actdesc_t *ap,
909     dt_node_t *dnp, dtrace_actkind_t kind)
910 {
911 	assert(kind == DTRACEACT_SYM || kind == DTRACEACT_MOD ||
912 	    kind == DTRACEACT_USYM || kind == DTRACEACT_UMOD ||
913 	    kind == DTRACEACT_UADDR);
914 
915 	dt_cg(yypcb, dnp);
916 	ap->dtad_difo = dt_as(yypcb);
917 	ap->dtad_kind = kind;
918 	ap->dtad_difo->dtdo_rtype.dtdt_size = sizeof (uint64_t);
919 }
920 
921 static void
922 dt_action_symmod(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp,
923     dtrace_actkind_t kind)
924 {
925 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
926 	dt_action_symmod_args(dtp, ap, dnp->dn_args, kind);
927 }
928 
929 /*ARGSUSED*/
930 static void
931 dt_action_ftruncate(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
932 {
933 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
934 
935 	/*
936 	 * Library actions need a DIFO that serves as an argument.  As
937 	 * ftruncate() doesn't take an argument, we generate the constant 0
938 	 * in a DIFO; this constant will be ignored when the ftruncate() is
939 	 * processed.
940 	 */
941 	dt_action_difconst(ap, 0, DTRACEACT_LIBACT);
942 	ap->dtad_arg = DT_ACT_FTRUNCATE;
943 }
944 
945 /*ARGSUSED*/
946 static void
947 dt_action_stop(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
948 {
949 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
950 
951 	ap->dtad_kind = DTRACEACT_STOP;
952 	ap->dtad_arg = 0;
953 }
954 
955 /*ARGSUSED*/
956 static void
957 dt_action_breakpoint(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
958 {
959 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
960 
961 	ap->dtad_kind = DTRACEACT_BREAKPOINT;
962 	ap->dtad_arg = 0;
963 }
964 
965 /*ARGSUSED*/
966 static void
967 dt_action_panic(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
968 {
969 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
970 
971 	ap->dtad_kind = DTRACEACT_PANIC;
972 	ap->dtad_arg = 0;
973 }
974 
975 static void
976 dt_action_chill(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
977 {
978 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
979 
980 	dt_cg(yypcb, dnp->dn_args);
981 	ap->dtad_difo = dt_as(yypcb);
982 	ap->dtad_kind = DTRACEACT_CHILL;
983 }
984 
985 static void
986 dt_action_raise(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
987 {
988 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
989 
990 	dt_cg(yypcb, dnp->dn_args);
991 	ap->dtad_difo = dt_as(yypcb);
992 	ap->dtad_kind = DTRACEACT_RAISE;
993 }
994 
995 static void
996 dt_action_exit(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
997 {
998 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
999 
1000 	dt_cg(yypcb, dnp->dn_args);
1001 	ap->dtad_difo = dt_as(yypcb);
1002 	ap->dtad_kind = DTRACEACT_EXIT;
1003 	ap->dtad_difo->dtdo_rtype.dtdt_size = sizeof (int);
1004 }
1005 
1006 static void
1007 dt_action_speculate(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
1008 {
1009 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
1010 
1011 	dt_cg(yypcb, dnp->dn_args);
1012 	ap->dtad_difo = dt_as(yypcb);
1013 	ap->dtad_kind = DTRACEACT_SPECULATE;
1014 }
1015 
1016 static void
1017 dt_action_commit(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
1018 {
1019 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
1020 
1021 	dt_cg(yypcb, dnp->dn_args);
1022 	ap->dtad_difo = dt_as(yypcb);
1023 	ap->dtad_kind = DTRACEACT_COMMIT;
1024 }
1025 
1026 static void
1027 dt_action_discard(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
1028 {
1029 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
1030 
1031 	dt_cg(yypcb, dnp->dn_args);
1032 	ap->dtad_difo = dt_as(yypcb);
1033 	ap->dtad_kind = DTRACEACT_DISCARD;
1034 }
1035 
1036 static void
1037 dt_compile_fun(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
1038 {
1039 	switch (dnp->dn_expr->dn_ident->di_id) {
1040 	case DT_ACT_BREAKPOINT:
1041 		dt_action_breakpoint(dtp, dnp->dn_expr, sdp);
1042 		break;
1043 	case DT_ACT_CHILL:
1044 		dt_action_chill(dtp, dnp->dn_expr, sdp);
1045 		break;
1046 	case DT_ACT_CLEAR:
1047 		dt_action_clear(dtp, dnp->dn_expr, sdp);
1048 		break;
1049 	case DT_ACT_COMMIT:
1050 		dt_action_commit(dtp, dnp->dn_expr, sdp);
1051 		break;
1052 	case DT_ACT_DENORMALIZE:
1053 		dt_action_normalize(dtp, dnp->dn_expr, sdp);
1054 		break;
1055 	case DT_ACT_DISCARD:
1056 		dt_action_discard(dtp, dnp->dn_expr, sdp);
1057 		break;
1058 	case DT_ACT_EXIT:
1059 		dt_action_exit(dtp, dnp->dn_expr, sdp);
1060 		break;
1061 	case DT_ACT_FREOPEN:
1062 		dt_action_printflike(dtp, dnp->dn_expr, sdp, DTRACEACT_FREOPEN);
1063 		break;
1064 	case DT_ACT_FTRUNCATE:
1065 		dt_action_ftruncate(dtp, dnp->dn_expr, sdp);
1066 		break;
1067 	case DT_ACT_MOD:
1068 		dt_action_symmod(dtp, dnp->dn_expr, sdp, DTRACEACT_MOD);
1069 		break;
1070 	case DT_ACT_NORMALIZE:
1071 		dt_action_normalize(dtp, dnp->dn_expr, sdp);
1072 		break;
1073 	case DT_ACT_PANIC:
1074 		dt_action_panic(dtp, dnp->dn_expr, sdp);
1075 		break;
1076 	case DT_ACT_PRINTA:
1077 		dt_action_printa(dtp, dnp->dn_expr, sdp);
1078 		break;
1079 	case DT_ACT_PRINTF:
1080 		dt_action_printflike(dtp, dnp->dn_expr, sdp, DTRACEACT_PRINTF);
1081 		break;
1082 	case DT_ACT_RAISE:
1083 		dt_action_raise(dtp, dnp->dn_expr, sdp);
1084 		break;
1085 	case DT_ACT_SETOPT:
1086 		dt_action_setopt(dtp, dnp->dn_expr, sdp);
1087 		break;
1088 	case DT_ACT_SPECULATE:
1089 		dt_action_speculate(dtp, dnp->dn_expr, sdp);
1090 		break;
1091 	case DT_ACT_STACK:
1092 		dt_action_stack(dtp, dnp->dn_expr, sdp);
1093 		break;
1094 	case DT_ACT_STOP:
1095 		dt_action_stop(dtp, dnp->dn_expr, sdp);
1096 		break;
1097 	case DT_ACT_SYM:
1098 		dt_action_symmod(dtp, dnp->dn_expr, sdp, DTRACEACT_SYM);
1099 		break;
1100 	case DT_ACT_SYSTEM:
1101 		dt_action_printflike(dtp, dnp->dn_expr, sdp, DTRACEACT_SYSTEM);
1102 		break;
1103 	case DT_ACT_TRACE:
1104 		dt_action_trace(dtp, dnp->dn_expr, sdp);
1105 		break;
1106 	case DT_ACT_PRINT:
1107 		dt_action_print(dtp, dnp->dn_expr, sdp);
1108 		break;
1109 	case DT_ACT_TRACEMEM:
1110 		dt_action_tracemem(dtp, dnp->dn_expr, sdp);
1111 		break;
1112 	case DT_ACT_TRUNC:
1113 		dt_action_trunc(dtp, dnp->dn_expr, sdp);
1114 		break;
1115 	case DT_ACT_UADDR:
1116 		dt_action_symmod(dtp, dnp->dn_expr, sdp, DTRACEACT_UADDR);
1117 		break;
1118 	case DT_ACT_UMOD:
1119 		dt_action_symmod(dtp, dnp->dn_expr, sdp, DTRACEACT_UMOD);
1120 		break;
1121 	case DT_ACT_USYM:
1122 		dt_action_symmod(dtp, dnp->dn_expr, sdp, DTRACEACT_USYM);
1123 		break;
1124 	case DT_ACT_USTACK:
1125 	case DT_ACT_JSTACK:
1126 		dt_action_ustack(dtp, dnp->dn_expr, sdp);
1127 		break;
1128 	default:
1129 		dnerror(dnp->dn_expr, D_UNKNOWN, "tracing function %s( ) is "
1130 		    "not yet supported\n", dnp->dn_expr->dn_ident->di_name);
1131 	}
1132 }
1133 
1134 static void
1135 dt_compile_exp(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
1136 {
1137 	dtrace_actdesc_t *ap = dt_stmt_action(dtp, sdp);
1138 
1139 	dt_cg(yypcb, dnp->dn_expr);
1140 	ap->dtad_difo = dt_as(yypcb);
1141 	ap->dtad_difo->dtdo_rtype = dt_void_rtype;
1142 	ap->dtad_kind = DTRACEACT_DIFEXPR;
1143 }
1144 
1145 static void
1146 dt_compile_agg(dtrace_hdl_t *dtp, dt_node_t *dnp, dtrace_stmtdesc_t *sdp)
1147 {
1148 	dt_ident_t *aid, *fid;
1149 	dt_node_t *anp, *incr = NULL;
1150 	dtrace_actdesc_t *ap;
1151 	uint_t n = 1, argmax;
1152 	uint64_t arg = 0;
1153 
1154 	/*
1155 	 * If the aggregation has no aggregating function applied to it, then
1156 	 * this statement has no effect.  Flag this as a programming error.
1157 	 */
1158 	if (dnp->dn_aggfun == NULL) {
1159 		dnerror(dnp, D_AGG_NULL, "expression has null effect: @%s\n",
1160 		    dnp->dn_ident->di_name);
1161 	}
1162 
1163 	aid = dnp->dn_ident;
1164 	fid = dnp->dn_aggfun->dn_ident;
1165 
1166 	if (dnp->dn_aggfun->dn_args != NULL &&
1167 	    dt_node_is_scalar(dnp->dn_aggfun->dn_args) == 0) {
1168 		dnerror(dnp->dn_aggfun, D_AGG_SCALAR, "%s( ) argument #1 must "
1169 		    "be of scalar type\n", fid->di_name);
1170 	}
1171 
1172 	/*
1173 	 * The ID of the aggregation itself is implicitly recorded as the first
1174 	 * member of each aggregation tuple so we can distinguish them later.
1175 	 */
1176 	ap = dt_stmt_action(dtp, sdp);
1177 	dt_action_difconst(ap, aid->di_id, DTRACEACT_DIFEXPR);
1178 
1179 	for (anp = dnp->dn_aggtup; anp != NULL; anp = anp->dn_list) {
1180 		ap = dt_stmt_action(dtp, sdp);
1181 		n++;
1182 
1183 		if (anp->dn_kind == DT_NODE_FUNC) {
1184 			if (anp->dn_ident->di_id == DT_ACT_STACK) {
1185 				dt_action_stack_args(dtp, ap, anp->dn_args);
1186 				continue;
1187 			}
1188 
1189 			if (anp->dn_ident->di_id == DT_ACT_USTACK ||
1190 			    anp->dn_ident->di_id == DT_ACT_JSTACK) {
1191 				dt_action_ustack_args(dtp, ap, anp);
1192 				continue;
1193 			}
1194 
1195 			switch (anp->dn_ident->di_id) {
1196 			case DT_ACT_UADDR:
1197 				dt_action_symmod_args(dtp, ap,
1198 				    anp->dn_args, DTRACEACT_UADDR);
1199 				continue;
1200 
1201 			case DT_ACT_USYM:
1202 				dt_action_symmod_args(dtp, ap,
1203 				    anp->dn_args, DTRACEACT_USYM);
1204 				continue;
1205 
1206 			case DT_ACT_UMOD:
1207 				dt_action_symmod_args(dtp, ap,
1208 				    anp->dn_args, DTRACEACT_UMOD);
1209 				continue;
1210 
1211 			case DT_ACT_SYM:
1212 				dt_action_symmod_args(dtp, ap,
1213 				    anp->dn_args, DTRACEACT_SYM);
1214 				continue;
1215 
1216 			case DT_ACT_MOD:
1217 				dt_action_symmod_args(dtp, ap,
1218 				    anp->dn_args, DTRACEACT_MOD);
1219 				continue;
1220 
1221 			default:
1222 				break;
1223 			}
1224 		}
1225 
1226 		dt_cg(yypcb, anp);
1227 		ap->dtad_difo = dt_as(yypcb);
1228 		ap->dtad_kind = DTRACEACT_DIFEXPR;
1229 	}
1230 
1231 	if (fid->di_id == DTRACEAGG_LQUANTIZE) {
1232 		/*
1233 		 * For linear quantization, we have between two and four
1234 		 * arguments in addition to the expression:
1235 		 *
1236 		 *    arg1 => Base value
1237 		 *    arg2 => Limit value
1238 		 *    arg3 => Quantization level step size (defaults to 1)
1239 		 *    arg4 => Quantization increment value (defaults to 1)
1240 		 */
1241 		dt_node_t *arg1 = dnp->dn_aggfun->dn_args->dn_list;
1242 		dt_node_t *arg2 = arg1->dn_list;
1243 		dt_node_t *arg3 = arg2->dn_list;
1244 		dt_idsig_t *isp;
1245 		uint64_t nlevels, step = 1, oarg;
1246 		int64_t baseval, limitval;
1247 
1248 		if (arg1->dn_kind != DT_NODE_INT) {
1249 			dnerror(arg1, D_LQUANT_BASETYPE, "lquantize( ) "
1250 			    "argument #1 must be an integer constant\n");
1251 		}
1252 
1253 		baseval = (int64_t)arg1->dn_value;
1254 
1255 		if (baseval < INT32_MIN || baseval > INT32_MAX) {
1256 			dnerror(arg1, D_LQUANT_BASEVAL, "lquantize( ) "
1257 			    "argument #1 must be a 32-bit quantity\n");
1258 		}
1259 
1260 		if (arg2->dn_kind != DT_NODE_INT) {
1261 			dnerror(arg2, D_LQUANT_LIMTYPE, "lquantize( ) "
1262 			    "argument #2 must be an integer constant\n");
1263 		}
1264 
1265 		limitval = (int64_t)arg2->dn_value;
1266 
1267 		if (limitval < INT32_MIN || limitval > INT32_MAX) {
1268 			dnerror(arg2, D_LQUANT_LIMVAL, "lquantize( ) "
1269 			    "argument #2 must be a 32-bit quantity\n");
1270 		}
1271 
1272 		if (limitval < baseval) {
1273 			dnerror(dnp, D_LQUANT_MISMATCH,
1274 			    "lquantize( ) base (argument #1) must be less "
1275 			    "than limit (argument #2)\n");
1276 		}
1277 
1278 		if (arg3 != NULL) {
1279 			if (!dt_node_is_posconst(arg3)) {
1280 				dnerror(arg3, D_LQUANT_STEPTYPE, "lquantize( ) "
1281 				    "argument #3 must be a non-zero positive "
1282 				    "integer constant\n");
1283 			}
1284 
1285 			if ((step = arg3->dn_value) > UINT16_MAX) {
1286 				dnerror(arg3, D_LQUANT_STEPVAL, "lquantize( ) "
1287 				    "argument #3 must be a 16-bit quantity\n");
1288 			}
1289 		}
1290 
1291 		nlevels = (limitval - baseval) / step;
1292 
1293 		if (nlevels == 0) {
1294 			dnerror(dnp, D_LQUANT_STEPLARGE,
1295 			    "lquantize( ) step (argument #3) too large: must "
1296 			    "have at least one quantization level\n");
1297 		}
1298 
1299 		if (nlevels > UINT16_MAX) {
1300 			dnerror(dnp, D_LQUANT_STEPSMALL, "lquantize( ) step "
1301 			    "(argument #3) too small: number of quantization "
1302 			    "levels must be a 16-bit quantity\n");
1303 		}
1304 
1305 		arg = (step << DTRACE_LQUANTIZE_STEPSHIFT) |
1306 		    (nlevels << DTRACE_LQUANTIZE_LEVELSHIFT) |
1307 		    ((baseval << DTRACE_LQUANTIZE_BASESHIFT) &
1308 		    DTRACE_LQUANTIZE_BASEMASK);
1309 
1310 		assert(arg != 0);
1311 
1312 		isp = (dt_idsig_t *)aid->di_data;
1313 
1314 		if (isp->dis_auxinfo == 0) {
1315 			/*
1316 			 * This is the first time we've seen an lquantize()
1317 			 * for this aggregation; we'll store our argument
1318 			 * as the auxiliary signature information.
1319 			 */
1320 			isp->dis_auxinfo = arg;
1321 		} else if ((oarg = isp->dis_auxinfo) != arg) {
1322 			/*
1323 			 * If we have seen this lquantize() before and the
1324 			 * argument doesn't match the original argument, pick
1325 			 * the original argument apart to concisely report the
1326 			 * mismatch.
1327 			 */
1328 			int obaseval = DTRACE_LQUANTIZE_BASE(oarg);
1329 			int onlevels = DTRACE_LQUANTIZE_LEVELS(oarg);
1330 			int ostep = DTRACE_LQUANTIZE_STEP(oarg);
1331 
1332 			if (obaseval != baseval) {
1333 				dnerror(dnp, D_LQUANT_MATCHBASE, "lquantize( ) "
1334 				    "base (argument #1) doesn't match previous "
1335 				    "declaration: expected %d, found %d\n",
1336 				    obaseval, (int)baseval);
1337 			}
1338 
1339 			if (onlevels * ostep != nlevels * step) {
1340 				dnerror(dnp, D_LQUANT_MATCHLIM, "lquantize( ) "
1341 				    "limit (argument #2) doesn't match previous"
1342 				    " declaration: expected %d, found %d\n",
1343 				    obaseval + onlevels * ostep,
1344 				    (int)baseval + (int)nlevels * (int)step);
1345 			}
1346 
1347 			if (ostep != step) {
1348 				dnerror(dnp, D_LQUANT_MATCHSTEP, "lquantize( ) "
1349 				    "step (argument #3) doesn't match previous "
1350 				    "declaration: expected %d, found %d\n",
1351 				    ostep, (int)step);
1352 			}
1353 
1354 			/*
1355 			 * We shouldn't be able to get here -- one of the
1356 			 * parameters must be mismatched if the arguments
1357 			 * didn't match.
1358 			 */
1359 			assert(0);
1360 		}
1361 
1362 		incr = arg3 != NULL ? arg3->dn_list : NULL;
1363 		argmax = 5;
1364 	}
1365 
1366 	if (fid->di_id == DTRACEAGG_LLQUANTIZE) {
1367 		/*
1368 		 * For log/linear quantizations, we have between one and five
1369 		 * arguments in addition to the expression:
1370 		 *
1371 		 *    arg1 => Factor
1372 		 *    arg2 => Low magnitude
1373 		 *    arg3 => High magnitude
1374 		 *    arg4 => Number of steps per magnitude
1375 		 *    arg5 => Quantization increment value (defaults to 1)
1376 		 */
1377 		dt_node_t *llarg = dnp->dn_aggfun->dn_args->dn_list;
1378 		uint64_t oarg, order, v;
1379 		dt_idsig_t *isp;
1380 		int i;
1381 
1382 		struct {
1383 			char *str;		/* string identifier */
1384 			int badtype;		/* error on bad type */
1385 			int badval;		/* error on bad value */
1386 			int mismatch;		/* error on bad match */
1387 			int shift;		/* shift value */
1388 			uint16_t value;		/* value itself */
1389 		} args[] = {
1390 			{ "factor", D_LLQUANT_FACTORTYPE,
1391 			    D_LLQUANT_FACTORVAL, D_LLQUANT_FACTORMATCH,
1392 			    DTRACE_LLQUANTIZE_FACTORSHIFT },
1393 			{ "low magnitude", D_LLQUANT_LOWTYPE,
1394 			    D_LLQUANT_LOWVAL, D_LLQUANT_LOWMATCH,
1395 			    DTRACE_LLQUANTIZE_LOWSHIFT },
1396 			{ "high magnitude", D_LLQUANT_HIGHTYPE,
1397 			    D_LLQUANT_HIGHVAL, D_LLQUANT_HIGHMATCH,
1398 			    DTRACE_LLQUANTIZE_HIGHSHIFT },
1399 			{ "linear steps per magnitude", D_LLQUANT_NSTEPTYPE,
1400 			    D_LLQUANT_NSTEPVAL, D_LLQUANT_NSTEPMATCH,
1401 			    DTRACE_LLQUANTIZE_NSTEPSHIFT },
1402 			{ NULL }
1403 		};
1404 
1405 		assert(arg == 0);
1406 
1407 		for (i = 0; args[i].str != NULL; i++) {
1408 			if (llarg->dn_kind != DT_NODE_INT) {
1409 				dnerror(llarg, args[i].badtype, "llquantize( ) "
1410 				    "argument #%d (%s) must be an "
1411 				    "integer constant\n", i + 1, args[i].str);
1412 			}
1413 
1414 			if ((uint64_t)llarg->dn_value > UINT16_MAX) {
1415 				dnerror(llarg, args[i].badval, "llquantize( ) "
1416 				    "argument #%d (%s) must be an unsigned "
1417 				    "16-bit quantity\n", i + 1, args[i].str);
1418 			}
1419 
1420 			args[i].value = (uint16_t)llarg->dn_value;
1421 
1422 			assert(!(arg & (UINT16_MAX << args[i].shift)));
1423 			arg |= ((uint64_t)args[i].value << args[i].shift);
1424 			llarg = llarg->dn_list;
1425 		}
1426 
1427 		assert(arg != 0);
1428 
1429 		if (args[0].value < 2) {
1430 			dnerror(dnp, D_LLQUANT_FACTORSMALL, "llquantize( ) "
1431 			    "factor (argument #1) must be two or more\n");
1432 		}
1433 
1434 		if (args[1].value >= args[2].value) {
1435 			dnerror(dnp, D_LLQUANT_MAGRANGE, "llquantize( ) "
1436 			    "high magnitude (argument #3) must be greater "
1437 			    "than low magnitude (argument #2)\n");
1438 		}
1439 
1440 		if (args[3].value < args[0].value) {
1441 			dnerror(dnp, D_LLQUANT_FACTORNSTEPS, "llquantize( ) "
1442 			    "factor (argument #1) must be less than or "
1443 			    "equal to the number of linear steps per "
1444 			    "magnitude (argument #4)\n");
1445 		}
1446 
1447 		for (v = args[0].value; v < args[3].value; v *= args[0].value)
1448 			continue;
1449 
1450 		if ((args[3].value % args[0].value) || (v % args[3].value)) {
1451 			dnerror(dnp, D_LLQUANT_FACTOREVEN, "llquantize( ) "
1452 			    "factor (argument #1) must evenly divide the "
1453 			    "number of steps per magnitude (argument #4), "
1454 			    "and the number of steps per magnitude must evenly "
1455 			    "divide a power of the factor\n");
1456 		}
1457 
1458 		for (i = 0, order = 1; i < args[2].value; i++) {
1459 			if (order * args[0].value > order) {
1460 				order *= args[0].value;
1461 				continue;
1462 			}
1463 
1464 			dnerror(dnp, D_LLQUANT_MAGTOOBIG, "llquantize( ) "
1465 			    "factor (%d) raised to power of high magnitude "
1466 			    "(%d) overflows 64-bits\n", args[0].value,
1467 			    args[2].value);
1468 		}
1469 
1470 		isp = (dt_idsig_t *)aid->di_data;
1471 
1472 		if (isp->dis_auxinfo == 0) {
1473 			/*
1474 			 * This is the first time we've seen an llquantize()
1475 			 * for this aggregation; we'll store our argument
1476 			 * as the auxiliary signature information.
1477 			 */
1478 			isp->dis_auxinfo = arg;
1479 		} else if ((oarg = isp->dis_auxinfo) != arg) {
1480 			/*
1481 			 * If we have seen this llquantize() before and the
1482 			 * argument doesn't match the original argument, pick
1483 			 * the original argument apart to concisely report the
1484 			 * mismatch.
1485 			 */
1486 			int expected = 0, found = 0;
1487 
1488 			for (i = 0; expected == found; i++) {
1489 				assert(args[i].str != NULL);
1490 
1491 				expected = (oarg >> args[i].shift) & UINT16_MAX;
1492 				found = (arg >> args[i].shift) & UINT16_MAX;
1493 			}
1494 
1495 			dnerror(dnp, args[i - 1].mismatch, "llquantize( ) "
1496 			    "%s (argument #%d) doesn't match previous "
1497 			    "declaration: expected %d, found %d\n",
1498 			    args[i - 1].str, i, expected, found);
1499 		}
1500 
1501 		incr = llarg;
1502 		argmax = 6;
1503 	}
1504 
1505 	if (fid->di_id == DTRACEAGG_QUANTIZE) {
1506 		incr = dnp->dn_aggfun->dn_args->dn_list;
1507 		argmax = 2;
1508 	}
1509 
1510 	if (incr != NULL) {
1511 		if (!dt_node_is_scalar(incr)) {
1512 			dnerror(dnp, D_PROTO_ARG, "%s( ) increment value "
1513 			    "(argument #%d) must be of scalar type\n",
1514 			    fid->di_name, argmax);
1515 		}
1516 
1517 		if ((anp = incr->dn_list) != NULL) {
1518 			int argc = argmax;
1519 
1520 			for (; anp != NULL; anp = anp->dn_list)
1521 				argc++;
1522 
1523 			dnerror(incr, D_PROTO_LEN, "%s( ) prototype "
1524 			    "mismatch: %d args passed, at most %d expected",
1525 			    fid->di_name, argc, argmax);
1526 		}
1527 
1528 		ap = dt_stmt_action(dtp, sdp);
1529 		n++;
1530 
1531 		dt_cg(yypcb, incr);
1532 		ap->dtad_difo = dt_as(yypcb);
1533 		ap->dtad_difo->dtdo_rtype = dt_void_rtype;
1534 		ap->dtad_kind = DTRACEACT_DIFEXPR;
1535 	}
1536 
1537 	assert(sdp->dtsd_aggdata == NULL);
1538 	sdp->dtsd_aggdata = aid;
1539 
1540 	ap = dt_stmt_action(dtp, sdp);
1541 	assert(fid->di_kind == DT_IDENT_AGGFUNC);
1542 	assert(DTRACEACT_ISAGG(fid->di_id));
1543 	ap->dtad_kind = fid->di_id;
1544 	ap->dtad_ntuple = n;
1545 	ap->dtad_arg = arg;
1546 
1547 	if (dnp->dn_aggfun->dn_args != NULL) {
1548 		dt_cg(yypcb, dnp->dn_aggfun->dn_args);
1549 		ap->dtad_difo = dt_as(yypcb);
1550 	}
1551 }
1552 
1553 static void
1554 dt_compile_one_clause(dtrace_hdl_t *dtp, dt_node_t *cnp, dt_node_t *pnp)
1555 {
1556 	dtrace_ecbdesc_t *edp;
1557 	dtrace_stmtdesc_t *sdp;
1558 	dt_node_t *dnp;
1559 
1560 	yylineno = pnp->dn_line;
1561 	dt_setcontext(dtp, pnp->dn_desc);
1562 	(void) dt_node_cook(cnp, DT_IDFLG_REF);
1563 
1564 	if (DT_TREEDUMP_PASS(dtp, 2))
1565 		dt_node_printr(cnp, stderr, 0);
1566 
1567 	if ((edp = dt_ecbdesc_create(dtp, pnp->dn_desc)) == NULL)
1568 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
1569 
1570 	assert(yypcb->pcb_ecbdesc == NULL);
1571 	yypcb->pcb_ecbdesc = edp;
1572 
1573 	if (cnp->dn_pred != NULL) {
1574 		dt_cg(yypcb, cnp->dn_pred);
1575 		edp->dted_pred.dtpdd_difo = dt_as(yypcb);
1576 	}
1577 
1578 	if (cnp->dn_acts == NULL) {
1579 		dt_stmt_append(dt_stmt_create(dtp, edp,
1580 		    cnp->dn_ctxattr, _dtrace_defattr), cnp);
1581 	}
1582 
1583 	for (dnp = cnp->dn_acts; dnp != NULL; dnp = dnp->dn_list) {
1584 		assert(yypcb->pcb_stmt == NULL);
1585 		sdp = dt_stmt_create(dtp, edp, cnp->dn_ctxattr, cnp->dn_attr);
1586 
1587 		switch (dnp->dn_kind) {
1588 		case DT_NODE_DEXPR:
1589 			if (dnp->dn_expr->dn_kind == DT_NODE_AGG)
1590 				dt_compile_agg(dtp, dnp->dn_expr, sdp);
1591 			else
1592 				dt_compile_exp(dtp, dnp, sdp);
1593 			break;
1594 		case DT_NODE_DFUNC:
1595 			dt_compile_fun(dtp, dnp, sdp);
1596 			break;
1597 		case DT_NODE_AGG:
1598 			dt_compile_agg(dtp, dnp, sdp);
1599 			break;
1600 		default:
1601 			dnerror(dnp, D_UNKNOWN, "internal error -- node kind "
1602 			    "%u is not a valid statement\n", dnp->dn_kind);
1603 		}
1604 
1605 		assert(yypcb->pcb_stmt == sdp);
1606 		dt_stmt_append(sdp, dnp);
1607 	}
1608 
1609 	assert(yypcb->pcb_ecbdesc == edp);
1610 	dt_ecbdesc_release(dtp, edp);
1611 	dt_endcontext(dtp);
1612 	yypcb->pcb_ecbdesc = NULL;
1613 }
1614 
1615 static void
1616 dt_compile_clause(dtrace_hdl_t *dtp, dt_node_t *cnp)
1617 {
1618 	dt_node_t *pnp;
1619 
1620 	for (pnp = cnp->dn_pdescs; pnp != NULL; pnp = pnp->dn_list)
1621 		dt_compile_one_clause(dtp, cnp, pnp);
1622 }
1623 
1624 static void
1625 dt_compile_xlator(dt_node_t *dnp)
1626 {
1627 	dt_xlator_t *dxp = dnp->dn_xlator;
1628 	dt_node_t *mnp;
1629 
1630 	for (mnp = dnp->dn_members; mnp != NULL; mnp = mnp->dn_list) {
1631 		assert(dxp->dx_membdif[mnp->dn_membid] == NULL);
1632 		dt_cg(yypcb, mnp);
1633 		dxp->dx_membdif[mnp->dn_membid] = dt_as(yypcb);
1634 	}
1635 }
1636 
1637 void
1638 dt_setcontext(dtrace_hdl_t *dtp, dtrace_probedesc_t *pdp)
1639 {
1640 	const dtrace_pattr_t *pap;
1641 	dt_probe_t *prp;
1642 	dt_provider_t *pvp;
1643 	dt_ident_t *idp;
1644 	char attrstr[8];
1645 	int err;
1646 
1647 	/*
1648 	 * Both kernel and pid based providers are allowed to have names
1649 	 * ending with what could be interpreted as a number. We assume it's
1650 	 * a pid and that we may need to dynamically create probes for
1651 	 * that process if:
1652 	 *
1653 	 * (1) The provider doesn't exist, or,
1654 	 * (2) The provider exists and has DTRACE_PRIV_PROC privilege.
1655 	 *
1656 	 * On an error, dt_pid_create_probes() will set the error message
1657 	 * and tag -- we just have to longjmp() out of here.
1658 	 */
1659 	if (isdigit(pdp->dtpd_provider[strlen(pdp->dtpd_provider) - 1]) &&
1660 	    ((pvp = dt_provider_lookup(dtp, pdp->dtpd_provider)) == NULL ||
1661 	    pvp->pv_desc.dtvd_priv.dtpp_flags & DTRACE_PRIV_PROC) &&
1662 	    dt_pid_create_probes(pdp, dtp, yypcb) != 0) {
1663 		longjmp(yypcb->pcb_jmpbuf, EDT_COMPILER);
1664 	}
1665 
1666 	/*
1667 	 * Call dt_probe_info() to get the probe arguments and attributes.  If
1668 	 * a representative probe is found, set 'pap' to the probe provider's
1669 	 * attributes.  Otherwise set 'pap' to default Unstable attributes.
1670 	 */
1671 	if ((prp = dt_probe_info(dtp, pdp, &yypcb->pcb_pinfo)) == NULL) {
1672 		pap = &_dtrace_prvdesc;
1673 		err = dtrace_errno(dtp);
1674 		bzero(&yypcb->pcb_pinfo, sizeof (dtrace_probeinfo_t));
1675 		yypcb->pcb_pinfo.dtp_attr = pap->dtpa_provider;
1676 		yypcb->pcb_pinfo.dtp_arga = pap->dtpa_args;
1677 	} else {
1678 		pap = &prp->pr_pvp->pv_desc.dtvd_attr;
1679 		err = 0;
1680 	}
1681 
1682 	if (err == EDT_NOPROBE && !(yypcb->pcb_cflags & DTRACE_C_ZDEFS)) {
1683 		xyerror(D_PDESC_ZERO, "probe description %s:%s:%s:%s does not "
1684 		    "match any probes\n", pdp->dtpd_provider, pdp->dtpd_mod,
1685 		    pdp->dtpd_func, pdp->dtpd_name);
1686 	}
1687 
1688 	if (err != EDT_NOPROBE && err != EDT_UNSTABLE && err != 0)
1689 		xyerror(D_PDESC_INVAL, "%s\n", dtrace_errmsg(dtp, err));
1690 
1691 	dt_dprintf("set context to %s:%s:%s:%s [%u] prp=%p attr=%s argc=%d\n",
1692 	    pdp->dtpd_provider, pdp->dtpd_mod, pdp->dtpd_func, pdp->dtpd_name,
1693 	    pdp->dtpd_id, (void *)prp, dt_attr_str(yypcb->pcb_pinfo.dtp_attr,
1694 	    attrstr, sizeof (attrstr)), yypcb->pcb_pinfo.dtp_argc);
1695 
1696 	/*
1697 	 * Reset the stability attributes of D global variables that vary
1698 	 * based on the attributes of the provider and context itself.
1699 	 */
1700 	if ((idp = dt_idhash_lookup(dtp->dt_globals, "probeprov")) != NULL)
1701 		idp->di_attr = pap->dtpa_provider;
1702 	if ((idp = dt_idhash_lookup(dtp->dt_globals, "probemod")) != NULL)
1703 		idp->di_attr = pap->dtpa_mod;
1704 	if ((idp = dt_idhash_lookup(dtp->dt_globals, "probefunc")) != NULL)
1705 		idp->di_attr = pap->dtpa_func;
1706 	if ((idp = dt_idhash_lookup(dtp->dt_globals, "probename")) != NULL)
1707 		idp->di_attr = pap->dtpa_name;
1708 	if ((idp = dt_idhash_lookup(dtp->dt_globals, "args")) != NULL)
1709 		idp->di_attr = pap->dtpa_args;
1710 
1711 	yypcb->pcb_pdesc = pdp;
1712 	yypcb->pcb_probe = prp;
1713 }
1714 
1715 /*
1716  * Reset context-dependent variables and state at the end of cooking a D probe
1717  * definition clause.  This ensures that external declarations between clauses
1718  * do not reference any stale context-dependent data from the previous clause.
1719  */
1720 void
1721 dt_endcontext(dtrace_hdl_t *dtp)
1722 {
1723 	static const char *const cvars[] = {
1724 		"probeprov", "probemod", "probefunc", "probename", "args", NULL
1725 	};
1726 
1727 	dt_ident_t *idp;
1728 	int i;
1729 
1730 	for (i = 0; cvars[i] != NULL; i++) {
1731 		if ((idp = dt_idhash_lookup(dtp->dt_globals, cvars[i])) != NULL)
1732 			idp->di_attr = _dtrace_defattr;
1733 	}
1734 
1735 	yypcb->pcb_pdesc = NULL;
1736 	yypcb->pcb_probe = NULL;
1737 }
1738 
1739 static int
1740 dt_reduceid(dt_idhash_t *dhp, dt_ident_t *idp, dtrace_hdl_t *dtp)
1741 {
1742 	if (idp->di_vers != 0 && idp->di_vers > dtp->dt_vmax)
1743 		dt_idhash_delete(dhp, idp);
1744 
1745 	return (0);
1746 }
1747 
1748 /*
1749  * When dtrace_setopt() is called for "version", it calls dt_reduce() to remove
1750  * any identifiers or translators that have been previously defined as bound to
1751  * a version greater than the specified version.  Therefore, in our current
1752  * version implementation, establishing a binding is a one-way transformation.
1753  * In addition, no versioning is currently provided for types as our .d library
1754  * files do not define any types and we reserve prefixes DTRACE_ and dtrace_
1755  * for our exclusive use.  If required, type versioning will require more work.
1756  */
1757 int
1758 dt_reduce(dtrace_hdl_t *dtp, dt_version_t v)
1759 {
1760 	char s[DT_VERSION_STRMAX];
1761 	dt_xlator_t *dxp, *nxp;
1762 
1763 	if (v > dtp->dt_vmax)
1764 		return (dt_set_errno(dtp, EDT_VERSREDUCED));
1765 	else if (v == dtp->dt_vmax)
1766 		return (0); /* no reduction necessary */
1767 
1768 	dt_dprintf("reducing api version to %s\n",
1769 	    dt_version_num2str(v, s, sizeof (s)));
1770 
1771 	dtp->dt_vmax = v;
1772 
1773 	for (dxp = dt_list_next(&dtp->dt_xlators); dxp != NULL; dxp = nxp) {
1774 		nxp = dt_list_next(dxp);
1775 		if ((dxp->dx_souid.di_vers != 0 && dxp->dx_souid.di_vers > v) ||
1776 		    (dxp->dx_ptrid.di_vers != 0 && dxp->dx_ptrid.di_vers > v))
1777 			dt_list_delete(&dtp->dt_xlators, dxp);
1778 	}
1779 
1780 	(void) dt_idhash_iter(dtp->dt_macros, (dt_idhash_f *)dt_reduceid, dtp);
1781 	(void) dt_idhash_iter(dtp->dt_aggs, (dt_idhash_f *)dt_reduceid, dtp);
1782 	(void) dt_idhash_iter(dtp->dt_globals, (dt_idhash_f *)dt_reduceid, dtp);
1783 	(void) dt_idhash_iter(dtp->dt_tls, (dt_idhash_f *)dt_reduceid, dtp);
1784 
1785 	return (0);
1786 }
1787 
1788 /*
1789  * Fork and exec the cpp(1) preprocessor to run over the specified input file,
1790  * and return a FILE handle for the cpp output.  We use the /dev/fd filesystem
1791  * here to simplify the code by leveraging file descriptor inheritance.
1792  */
1793 static FILE *
1794 dt_preproc(dtrace_hdl_t *dtp, FILE *ifp)
1795 {
1796 	int argc = dtp->dt_cpp_argc;
1797 	char **argv = malloc(sizeof (char *) * (argc + 5));
1798 	FILE *ofp = tmpfile();
1799 
1800 	char ipath[20], opath[20]; /* big enough for /dev/fd/ + INT_MAX + \0 */
1801 	char verdef[32]; /* big enough for -D__SUNW_D_VERSION=0x%08x + \0 */
1802 
1803 	struct sigaction act, oact;
1804 	sigset_t mask, omask;
1805 
1806 	int wstat, estat;
1807 	pid_t pid;
1808 	off64_t off;
1809 	int c;
1810 
1811 	if (argv == NULL || ofp == NULL) {
1812 		(void) dt_set_errno(dtp, errno);
1813 		goto err;
1814 	}
1815 
1816 	/*
1817 	 * If the input is a seekable file, see if it is an interpreter file.
1818 	 * If we see #!, seek past the first line because cpp will choke on it.
1819 	 * We start cpp just prior to the \n at the end of this line so that
1820 	 * it still sees the newline, ensuring that #line values are correct.
1821 	 */
1822 	if (isatty(fileno(ifp)) == 0 && (off = ftello64(ifp)) != -1) {
1823 		if ((c = fgetc(ifp)) == '#' && (c = fgetc(ifp)) == '!') {
1824 			for (off += 2; c != '\n'; off++) {
1825 				if ((c = fgetc(ifp)) == EOF)
1826 					break;
1827 			}
1828 			if (c == '\n')
1829 				off--; /* start cpp just prior to \n */
1830 		}
1831 		(void) fflush(ifp);
1832 		(void) fseeko64(ifp, off, SEEK_SET);
1833 	}
1834 
1835 	(void) snprintf(ipath, sizeof (ipath), "/dev/fd/%d", fileno(ifp));
1836 	(void) snprintf(opath, sizeof (opath), "/dev/fd/%d", fileno(ofp));
1837 
1838 	bcopy(dtp->dt_cpp_argv, argv, sizeof (char *) * argc);
1839 
1840 	(void) snprintf(verdef, sizeof (verdef),
1841 	    "-D__SUNW_D_VERSION=0x%08x", dtp->dt_vmax);
1842 	argv[argc++] = verdef;
1843 
1844 	switch (dtp->dt_stdcmode) {
1845 	case DT_STDC_XA:
1846 	case DT_STDC_XT:
1847 		argv[argc++] = "-D__STDC__=0";
1848 		break;
1849 	case DT_STDC_XC:
1850 		argv[argc++] = "-D__STDC__=1";
1851 		break;
1852 	}
1853 
1854 	argv[argc++] = ipath;
1855 	argv[argc++] = opath;
1856 	argv[argc] = NULL;
1857 
1858 	/*
1859 	 * libdtrace must be able to be embedded in other programs that may
1860 	 * include application-specific signal handlers.  Therefore, if we
1861 	 * need to fork to run cpp(1), we must avoid generating a SIGCHLD
1862 	 * that could confuse the containing application.  To do this,
1863 	 * we block SIGCHLD and reset its disposition to SIG_DFL.
1864 	 * We restore our signal state once we are done.
1865 	 */
1866 	(void) sigemptyset(&mask);
1867 	(void) sigaddset(&mask, SIGCHLD);
1868 	(void) sigprocmask(SIG_BLOCK, &mask, &omask);
1869 
1870 	bzero(&act, sizeof (act));
1871 	act.sa_handler = SIG_DFL;
1872 	(void) sigaction(SIGCHLD, &act, &oact);
1873 
1874 	if ((pid = fork1()) == -1) {
1875 		(void) sigaction(SIGCHLD, &oact, NULL);
1876 		(void) sigprocmask(SIG_SETMASK, &omask, NULL);
1877 		(void) dt_set_errno(dtp, EDT_CPPFORK);
1878 		goto err;
1879 	}
1880 
1881 	if (pid == 0) {
1882 		(void) execvp(dtp->dt_cpp_path, argv);
1883 		_exit(errno == ENOENT ? 127 : 126);
1884 	}
1885 
1886 	do {
1887 		dt_dprintf("waiting for %s (PID %d)\n", dtp->dt_cpp_path,
1888 		    (int)pid);
1889 	} while (waitpid(pid, &wstat, 0) == -1 && errno == EINTR);
1890 
1891 	(void) sigaction(SIGCHLD, &oact, NULL);
1892 	(void) sigprocmask(SIG_SETMASK, &omask, NULL);
1893 
1894 	dt_dprintf("%s returned exit status 0x%x\n", dtp->dt_cpp_path, wstat);
1895 	estat = WIFEXITED(wstat) ? WEXITSTATUS(wstat) : -1;
1896 
1897 	if (estat != 0) {
1898 		switch (estat) {
1899 		case 126:
1900 			(void) dt_set_errno(dtp, EDT_CPPEXEC);
1901 			break;
1902 		case 127:
1903 			(void) dt_set_errno(dtp, EDT_CPPENT);
1904 			break;
1905 		default:
1906 			(void) dt_set_errno(dtp, EDT_CPPERR);
1907 		}
1908 		goto err;
1909 	}
1910 
1911 	free(argv);
1912 	(void) fflush(ofp);
1913 	(void) fseek(ofp, 0, SEEK_SET);
1914 	return (ofp);
1915 
1916 err:
1917 	free(argv);
1918 	(void) fclose(ofp);
1919 	return (NULL);
1920 }
1921 
1922 static void
1923 dt_lib_depend_error(dtrace_hdl_t *dtp, const char *format, ...)
1924 {
1925 	va_list ap;
1926 
1927 	va_start(ap, format);
1928 	dt_set_errmsg(dtp, NULL, NULL, NULL, 0, format, ap);
1929 	va_end(ap);
1930 }
1931 
1932 int
1933 dt_lib_depend_add(dtrace_hdl_t *dtp, dt_list_t *dlp, const char *arg)
1934 {
1935 	dt_lib_depend_t *dld;
1936 	const char *end;
1937 
1938 	assert(arg != NULL);
1939 
1940 	if ((end = strrchr(arg, '/')) == NULL)
1941 		return (dt_set_errno(dtp, EINVAL));
1942 
1943 	if ((dld = dt_zalloc(dtp, sizeof (dt_lib_depend_t))) == NULL)
1944 		return (-1);
1945 
1946 	if ((dld->dtld_libpath = dt_alloc(dtp, MAXPATHLEN)) == NULL) {
1947 		dt_free(dtp, dld);
1948 		return (-1);
1949 	}
1950 
1951 	(void) strlcpy(dld->dtld_libpath, arg, end - arg + 2);
1952 	if ((dld->dtld_library = strdup(arg)) == NULL) {
1953 		dt_free(dtp, dld->dtld_libpath);
1954 		dt_free(dtp, dld);
1955 		return (dt_set_errno(dtp, EDT_NOMEM));
1956 	}
1957 
1958 	dt_list_append(dlp, dld);
1959 	return (0);
1960 }
1961 
1962 dt_lib_depend_t *
1963 dt_lib_depend_lookup(dt_list_t *dld, const char *arg)
1964 {
1965 	dt_lib_depend_t *dldn;
1966 
1967 	for (dldn = dt_list_next(dld); dldn != NULL;
1968 	    dldn = dt_list_next(dldn)) {
1969 		if (strcmp(dldn->dtld_library, arg) == 0)
1970 			return (dldn);
1971 	}
1972 
1973 	return (NULL);
1974 }
1975 
1976 /*
1977  * Go through all the library files, and, if any library dependencies exist for
1978  * that file, add it to that node's list of dependents. The result of this
1979  * will be a graph which can then be topologically sorted to produce a
1980  * compilation order.
1981  */
1982 static int
1983 dt_lib_build_graph(dtrace_hdl_t *dtp)
1984 {
1985 	dt_lib_depend_t *dld, *dpld;
1986 
1987 	for (dld = dt_list_next(&dtp->dt_lib_dep); dld != NULL;
1988 	    dld = dt_list_next(dld)) {
1989 		char *library = dld->dtld_library;
1990 
1991 		for (dpld = dt_list_next(&dld->dtld_dependencies); dpld != NULL;
1992 		    dpld = dt_list_next(dpld)) {
1993 			dt_lib_depend_t *dlda;
1994 
1995 			if ((dlda = dt_lib_depend_lookup(&dtp->dt_lib_dep,
1996 			    dpld->dtld_library)) == NULL) {
1997 				dt_lib_depend_error(dtp,
1998 				    "Invalid library dependency in %s: %s\n",
1999 				    dld->dtld_library, dpld->dtld_library);
2000 
2001 				return (dt_set_errno(dtp, EDT_COMPILER));
2002 			}
2003 
2004 			if ((dt_lib_depend_add(dtp, &dlda->dtld_dependents,
2005 			    library)) != 0) {
2006 				return (-1); /* preserve dt_errno */
2007 			}
2008 		}
2009 	}
2010 	return (0);
2011 }
2012 
2013 static int
2014 dt_topo_sort(dtrace_hdl_t *dtp, dt_lib_depend_t *dld, int *count)
2015 {
2016 	dt_lib_depend_t *dpld, *dlda, *new;
2017 
2018 	dld->dtld_start = ++(*count);
2019 
2020 	for (dpld = dt_list_next(&dld->dtld_dependents); dpld != NULL;
2021 	    dpld = dt_list_next(dpld)) {
2022 		dlda = dt_lib_depend_lookup(&dtp->dt_lib_dep,
2023 		    dpld->dtld_library);
2024 		assert(dlda != NULL);
2025 
2026 		if (dlda->dtld_start == 0 &&
2027 		    dt_topo_sort(dtp, dlda, count) == -1)
2028 			return (-1);
2029 	}
2030 
2031 	if ((new = dt_zalloc(dtp, sizeof (dt_lib_depend_t))) == NULL)
2032 		return (-1);
2033 
2034 	if ((new->dtld_library = strdup(dld->dtld_library)) == NULL) {
2035 		dt_free(dtp, new);
2036 		return (dt_set_errno(dtp, EDT_NOMEM));
2037 	}
2038 
2039 	new->dtld_start = dld->dtld_start;
2040 	new->dtld_finish = dld->dtld_finish = ++(*count);
2041 	dt_list_prepend(&dtp->dt_lib_dep_sorted, new);
2042 
2043 	dt_dprintf("library %s sorted (%d/%d)\n", new->dtld_library,
2044 	    new->dtld_start, new->dtld_finish);
2045 
2046 	return (0);
2047 }
2048 
2049 static int
2050 dt_lib_depend_sort(dtrace_hdl_t *dtp)
2051 {
2052 	dt_lib_depend_t *dld, *dpld, *dlda;
2053 	int count = 0;
2054 
2055 	if (dt_lib_build_graph(dtp) == -1)
2056 		return (-1); /* preserve dt_errno */
2057 
2058 	/*
2059 	 * Perform a topological sort of the graph that hangs off
2060 	 * dtp->dt_lib_dep. The result of this process will be a
2061 	 * dependency ordered list located at dtp->dt_lib_dep_sorted.
2062 	 */
2063 	for (dld = dt_list_next(&dtp->dt_lib_dep); dld != NULL;
2064 	    dld = dt_list_next(dld)) {
2065 		if (dld->dtld_start == 0 &&
2066 		    dt_topo_sort(dtp, dld, &count) == -1)
2067 			return (-1); /* preserve dt_errno */;
2068 	}
2069 
2070 	/*
2071 	 * Check the graph for cycles. If an ancestor's finishing time is
2072 	 * less than any of its dependent's finishing times then a back edge
2073 	 * exists in the graph and this is a cycle.
2074 	 */
2075 	for (dld = dt_list_next(&dtp->dt_lib_dep); dld != NULL;
2076 	    dld = dt_list_next(dld)) {
2077 		for (dpld = dt_list_next(&dld->dtld_dependents); dpld != NULL;
2078 		    dpld = dt_list_next(dpld)) {
2079 			dlda = dt_lib_depend_lookup(&dtp->dt_lib_dep_sorted,
2080 			    dpld->dtld_library);
2081 			assert(dlda != NULL);
2082 
2083 			if (dlda->dtld_finish > dld->dtld_finish) {
2084 				dt_lib_depend_error(dtp,
2085 				    "Cyclic dependency detected: %s => %s\n",
2086 				    dld->dtld_library, dpld->dtld_library);
2087 
2088 				return (dt_set_errno(dtp, EDT_COMPILER));
2089 			}
2090 		}
2091 	}
2092 
2093 	return (0);
2094 }
2095 
2096 static void
2097 dt_lib_depend_free(dtrace_hdl_t *dtp)
2098 {
2099 	dt_lib_depend_t *dld, *dlda;
2100 
2101 	while ((dld = dt_list_next(&dtp->dt_lib_dep)) != NULL) {
2102 		while ((dlda = dt_list_next(&dld->dtld_dependencies)) != NULL) {
2103 			dt_list_delete(&dld->dtld_dependencies, dlda);
2104 			dt_free(dtp, dlda->dtld_library);
2105 			dt_free(dtp, dlda->dtld_libpath);
2106 			dt_free(dtp, dlda);
2107 		}
2108 		while ((dlda = dt_list_next(&dld->dtld_dependents)) != NULL) {
2109 			dt_list_delete(&dld->dtld_dependents, dlda);
2110 			dt_free(dtp, dlda->dtld_library);
2111 			dt_free(dtp, dlda->dtld_libpath);
2112 			dt_free(dtp, dlda);
2113 		}
2114 		dt_list_delete(&dtp->dt_lib_dep, dld);
2115 		dt_free(dtp, dld->dtld_library);
2116 		dt_free(dtp, dld->dtld_libpath);
2117 		dt_free(dtp, dld);
2118 	}
2119 
2120 	while ((dld = dt_list_next(&dtp->dt_lib_dep_sorted)) != NULL) {
2121 		dt_list_delete(&dtp->dt_lib_dep_sorted, dld);
2122 		dt_free(dtp, dld->dtld_library);
2123 		dt_free(dtp, dld);
2124 	}
2125 }
2126 
2127 /*
2128  * Open all the .d library files found in the specified directory and
2129  * compile each one of them.  We silently ignore any missing directories and
2130  * other files found therein.  We only fail (and thereby fail dt_load_libs()) if
2131  * we fail to compile a library and the error is something other than #pragma D
2132  * depends_on.  Dependency errors are silently ignored to permit a library
2133  * directory to contain libraries which may not be accessible depending on our
2134  * privileges.
2135  */
2136 static int
2137 dt_load_libs_dir(dtrace_hdl_t *dtp, const char *path)
2138 {
2139 	struct dirent *dp;
2140 	const char *p, *end;
2141 	DIR *dirp;
2142 
2143 	char fname[PATH_MAX];
2144 	FILE *fp;
2145 	void *rv;
2146 	dt_lib_depend_t *dld;
2147 
2148 	if ((dirp = opendir(path)) == NULL) {
2149 		dt_dprintf("skipping lib dir %s: %s\n", path, strerror(errno));
2150 		return (0);
2151 	}
2152 
2153 	/* First, parse each file for library dependencies. */
2154 	while ((dp = readdir(dirp)) != NULL) {
2155 		if ((p = strrchr(dp->d_name, '.')) == NULL || strcmp(p, ".d"))
2156 			continue; /* skip any filename not ending in .d */
2157 
2158 		(void) snprintf(fname, sizeof (fname),
2159 		    "%s/%s", path, dp->d_name);
2160 
2161 		if ((fp = fopen(fname, "r")) == NULL) {
2162 			dt_dprintf("skipping library %s: %s\n",
2163 			    fname, strerror(errno));
2164 			continue;
2165 		}
2166 
2167 		/*
2168 		 * Skip files whose name match an already processed library
2169 		 */
2170 		for (dld = dt_list_next(&dtp->dt_lib_dep); dld != NULL;
2171 		    dld = dt_list_next(dld)) {
2172 			end = strrchr(dld->dtld_library, '/');
2173 			/* dt_lib_depend_add ensures this */
2174 			assert(end != NULL);
2175 			if (strcmp(end + 1, dp->d_name) == 0)
2176 				break;
2177 		}
2178 
2179 		if (dld != NULL) {
2180 			dt_dprintf("skipping library %s, already processed "
2181 			    "library with the same name: %s", dp->d_name,
2182 			    dld->dtld_library);
2183 			continue;
2184 		}
2185 
2186 		dtp->dt_filetag = fname;
2187 		if (dt_lib_depend_add(dtp, &dtp->dt_lib_dep, fname) != 0)
2188 			return (-1); /* preserve dt_errno */
2189 
2190 		rv = dt_compile(dtp, DT_CTX_DPROG,
2191 		    DTRACE_PROBESPEC_NAME, NULL,
2192 		    DTRACE_C_EMPTY | DTRACE_C_CTL, 0, NULL, fp, NULL);
2193 
2194 		if (rv != NULL && dtp->dt_errno &&
2195 		    (dtp->dt_errno != EDT_COMPILER ||
2196 		    dtp->dt_errtag != dt_errtag(D_PRAGMA_DEPEND)))
2197 			return (-1); /* preserve dt_errno */
2198 
2199 		if (dtp->dt_errno)
2200 			dt_dprintf("error parsing library %s: %s\n",
2201 			    fname, dtrace_errmsg(dtp, dtrace_errno(dtp)));
2202 
2203 		(void) fclose(fp);
2204 		dtp->dt_filetag = NULL;
2205 	}
2206 
2207 	(void) closedir(dirp);
2208 
2209 	return (0);
2210 }
2211 
2212 /*
2213  * Perform a topological sorting of all the libraries found across the entire
2214  * dt_lib_path.  Once sorted, compile each one in topological order to cache its
2215  * inlines and translators, etc.  We silently ignore any missing directories and
2216  * other files found therein. We only fail (and thereby fail dt_load_libs()) if
2217  * we fail to compile a library and the error is something other than #pragma D
2218  * depends_on.  Dependency errors are silently ignored to permit a library
2219  * directory to contain libraries which may not be accessible depending on our
2220  * privileges.
2221  */
2222 static int
2223 dt_load_libs_sort(dtrace_hdl_t *dtp)
2224 {
2225 	dtrace_prog_t *pgp;
2226 	FILE *fp;
2227 	dt_lib_depend_t *dld;
2228 
2229 	/*
2230 	 * Finish building the graph containing the library dependencies
2231 	 * and perform a topological sort to generate an ordered list
2232 	 * for compilation.
2233 	 */
2234 	if (dt_lib_depend_sort(dtp) == -1)
2235 		goto err;
2236 
2237 	for (dld = dt_list_next(&dtp->dt_lib_dep_sorted); dld != NULL;
2238 	    dld = dt_list_next(dld)) {
2239 
2240 		if ((fp = fopen(dld->dtld_library, "r")) == NULL) {
2241 			dt_dprintf("skipping library %s: %s\n",
2242 			    dld->dtld_library, strerror(errno));
2243 			continue;
2244 		}
2245 
2246 		dtp->dt_filetag = dld->dtld_library;
2247 		pgp = dtrace_program_fcompile(dtp, fp, DTRACE_C_EMPTY, 0, NULL);
2248 		(void) fclose(fp);
2249 		dtp->dt_filetag = NULL;
2250 
2251 		if (pgp == NULL && (dtp->dt_errno != EDT_COMPILER ||
2252 		    dtp->dt_errtag != dt_errtag(D_PRAGMA_DEPEND)))
2253 			goto err;
2254 
2255 		if (pgp == NULL) {
2256 			dt_dprintf("skipping library %s: %s\n",
2257 			    dld->dtld_library,
2258 			    dtrace_errmsg(dtp, dtrace_errno(dtp)));
2259 		} else {
2260 			dld->dtld_loaded = B_TRUE;
2261 			dt_program_destroy(dtp, pgp);
2262 		}
2263 	}
2264 
2265 	dt_lib_depend_free(dtp);
2266 	return (0);
2267 
2268 err:
2269 	dt_lib_depend_free(dtp);
2270 	return (-1); /* preserve dt_errno */
2271 }
2272 
2273 /*
2274  * Load the contents of any appropriate DTrace .d library files.  These files
2275  * contain inlines and translators that will be cached by the compiler.  We
2276  * defer this activity until the first compile to permit libdtrace clients to
2277  * add their own library directories and so that we can properly report errors.
2278  */
2279 static int
2280 dt_load_libs(dtrace_hdl_t *dtp)
2281 {
2282 	dt_dirpath_t *dirp;
2283 
2284 	if (dtp->dt_cflags & DTRACE_C_NOLIBS)
2285 		return (0); /* libraries already processed */
2286 
2287 	dtp->dt_cflags |= DTRACE_C_NOLIBS;
2288 
2289 	/*
2290 	 * /usr/lib/dtrace is always at the head of the list. The rest of the
2291 	 * list is specified in the precedence order the user requested. Process
2292 	 * everything other than the head first. DTRACE_C_NOLIBS has already
2293 	 * been spcified so dt_vopen will ensure that there is always one entry
2294 	 * in dt_lib_path.
2295 	 */
2296 	for (dirp = dt_list_next(dt_list_next(&dtp->dt_lib_path));
2297 	    dirp != NULL; dirp = dt_list_next(dirp)) {
2298 		if (dt_load_libs_dir(dtp, dirp->dir_path) != 0) {
2299 			dtp->dt_cflags &= ~DTRACE_C_NOLIBS;
2300 			return (-1); /* errno is set for us */
2301 		}
2302 	}
2303 
2304 	/* Handle /usr/lib/dtrace */
2305 	dirp = dt_list_next(&dtp->dt_lib_path);
2306 	if (dt_load_libs_dir(dtp, dirp->dir_path) != 0) {
2307 		dtp->dt_cflags &= ~DTRACE_C_NOLIBS;
2308 		return (-1); /* errno is set for us */
2309 	}
2310 
2311 	if (dt_load_libs_sort(dtp) < 0)
2312 		return (-1); /* errno is set for us */
2313 
2314 	return (0);
2315 }
2316 
2317 static void *
2318 dt_compile(dtrace_hdl_t *dtp, int context, dtrace_probespec_t pspec, void *arg,
2319     uint_t cflags, int argc, char *const argv[], FILE *fp, const char *s)
2320 {
2321 	dt_node_t *dnp;
2322 	dt_decl_t *ddp;
2323 	dt_pcb_t pcb;
2324 	void *rv;
2325 	int err;
2326 
2327 	if ((fp == NULL && s == NULL) || (cflags & ~DTRACE_C_MASK) != 0) {
2328 		(void) dt_set_errno(dtp, EINVAL);
2329 		return (NULL);
2330 	}
2331 
2332 	if (dt_list_next(&dtp->dt_lib_path) != NULL && dt_load_libs(dtp) != 0)
2333 		return (NULL); /* errno is set for us */
2334 
2335 	if (dtp->dt_globals->dh_nelems != 0)
2336 		(void) dt_idhash_iter(dtp->dt_globals, dt_idreset, NULL);
2337 
2338 	if (dtp->dt_tls->dh_nelems != 0)
2339 		(void) dt_idhash_iter(dtp->dt_tls, dt_idreset, NULL);
2340 
2341 	if (fp && (cflags & DTRACE_C_CPP) && (fp = dt_preproc(dtp, fp)) == NULL)
2342 		return (NULL); /* errno is set for us */
2343 
2344 	dt_pcb_push(dtp, &pcb);
2345 
2346 	pcb.pcb_fileptr = fp;
2347 	pcb.pcb_string = s;
2348 	pcb.pcb_strptr = s;
2349 	pcb.pcb_strlen = s ? strlen(s) : 0;
2350 	pcb.pcb_sargc = argc;
2351 	pcb.pcb_sargv = argv;
2352 	pcb.pcb_sflagv = argc ? calloc(argc, sizeof (ushort_t)) : NULL;
2353 	pcb.pcb_pspec = pspec;
2354 	pcb.pcb_cflags = dtp->dt_cflags | cflags;
2355 	pcb.pcb_amin = dtp->dt_amin;
2356 	pcb.pcb_yystate = -1;
2357 	pcb.pcb_context = context;
2358 	pcb.pcb_token = context;
2359 
2360 	if (context != DT_CTX_DPROG)
2361 		yybegin(YYS_EXPR);
2362 	else if (cflags & DTRACE_C_CTL)
2363 		yybegin(YYS_CONTROL);
2364 	else
2365 		yybegin(YYS_CLAUSE);
2366 
2367 	if ((err = setjmp(yypcb->pcb_jmpbuf)) != 0)
2368 		goto out;
2369 
2370 	if (yypcb->pcb_sargc != 0 && yypcb->pcb_sflagv == NULL)
2371 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
2372 
2373 	yypcb->pcb_idents = dt_idhash_create("ambiguous", NULL, 0, 0);
2374 	yypcb->pcb_locals = dt_idhash_create("clause local", NULL,
2375 	    DIF_VAR_OTHER_UBASE, DIF_VAR_OTHER_MAX);
2376 
2377 	if (yypcb->pcb_idents == NULL || yypcb->pcb_locals == NULL)
2378 		longjmp(yypcb->pcb_jmpbuf, EDT_NOMEM);
2379 
2380 	/*
2381 	 * Invoke the parser to evaluate the D source code.  If any errors
2382 	 * occur during parsing, an error function will be called and we
2383 	 * will longjmp back to pcb_jmpbuf to abort.  If parsing succeeds,
2384 	 * we optionally display the parse tree if debugging is enabled.
2385 	 */
2386 	if (yyparse() != 0 || yypcb->pcb_root == NULL)
2387 		xyerror(D_EMPTY, "empty D program translation unit\n");
2388 
2389 	yybegin(YYS_DONE);
2390 
2391 	if (cflags & DTRACE_C_CTL)
2392 		goto out;
2393 
2394 	if (context != DT_CTX_DTYPE && DT_TREEDUMP_PASS(dtp, 1))
2395 		dt_node_printr(yypcb->pcb_root, stderr, 0);
2396 
2397 	if (yypcb->pcb_pragmas != NULL)
2398 		(void) dt_idhash_iter(yypcb->pcb_pragmas, dt_idpragma, NULL);
2399 
2400 	if (argc > 1 && !(yypcb->pcb_cflags & DTRACE_C_ARGREF) &&
2401 	    !(yypcb->pcb_sflagv[argc - 1] & DT_IDFLG_REF)) {
2402 		xyerror(D_MACRO_UNUSED, "extraneous argument '%s' ($%d is "
2403 		    "not referenced)\n", yypcb->pcb_sargv[argc - 1], argc - 1);
2404 	}
2405 
2406 	/*
2407 	 * If we have successfully created a parse tree for a D program, loop
2408 	 * over the clauses and actions and instantiate the corresponding
2409 	 * libdtrace program.  If we are parsing a D expression, then we
2410 	 * simply run the code generator and assembler on the resulting tree.
2411 	 */
2412 	switch (context) {
2413 	case DT_CTX_DPROG:
2414 		assert(yypcb->pcb_root->dn_kind == DT_NODE_PROG);
2415 
2416 		if ((dnp = yypcb->pcb_root->dn_list) == NULL &&
2417 		    !(yypcb->pcb_cflags & DTRACE_C_EMPTY))
2418 			xyerror(D_EMPTY, "empty D program translation unit\n");
2419 
2420 		if ((yypcb->pcb_prog = dt_program_create(dtp)) == NULL)
2421 			longjmp(yypcb->pcb_jmpbuf, dtrace_errno(dtp));
2422 
2423 		for (; dnp != NULL; dnp = dnp->dn_list) {
2424 			switch (dnp->dn_kind) {
2425 			case DT_NODE_CLAUSE:
2426 				dt_compile_clause(dtp, dnp);
2427 				break;
2428 			case DT_NODE_XLATOR:
2429 				if (dtp->dt_xlatemode == DT_XL_DYNAMIC)
2430 					dt_compile_xlator(dnp);
2431 				break;
2432 			case DT_NODE_PROVIDER:
2433 				(void) dt_node_cook(dnp, DT_IDFLG_REF);
2434 				break;
2435 			}
2436 		}
2437 
2438 		yypcb->pcb_prog->dp_xrefs = yypcb->pcb_asxrefs;
2439 		yypcb->pcb_prog->dp_xrefslen = yypcb->pcb_asxreflen;
2440 		yypcb->pcb_asxrefs = NULL;
2441 		yypcb->pcb_asxreflen = 0;
2442 
2443 		rv = yypcb->pcb_prog;
2444 		break;
2445 
2446 	case DT_CTX_DEXPR:
2447 		(void) dt_node_cook(yypcb->pcb_root, DT_IDFLG_REF);
2448 		dt_cg(yypcb, yypcb->pcb_root);
2449 		rv = dt_as(yypcb);
2450 		break;
2451 
2452 	case DT_CTX_DTYPE:
2453 		ddp = (dt_decl_t *)yypcb->pcb_root; /* root is really a decl */
2454 		err = dt_decl_type(ddp, arg);
2455 		dt_decl_free(ddp);
2456 
2457 		if (err != 0)
2458 			longjmp(yypcb->pcb_jmpbuf, EDT_COMPILER);
2459 
2460 		rv = NULL;
2461 		break;
2462 	}
2463 
2464 out:
2465 	if (context != DT_CTX_DTYPE && DT_TREEDUMP_PASS(dtp, 3))
2466 		dt_node_printr(yypcb->pcb_root, stderr, 0);
2467 
2468 	if (dtp->dt_cdefs_fd != -1 && (ftruncate64(dtp->dt_cdefs_fd, 0) == -1 ||
2469 	    lseek64(dtp->dt_cdefs_fd, 0, SEEK_SET) == -1 ||
2470 	    ctf_write(dtp->dt_cdefs->dm_ctfp, dtp->dt_cdefs_fd) == CTF_ERR))
2471 		dt_dprintf("failed to update CTF cache: %s\n", strerror(errno));
2472 
2473 	if (dtp->dt_ddefs_fd != -1 && (ftruncate64(dtp->dt_ddefs_fd, 0) == -1 ||
2474 	    lseek64(dtp->dt_ddefs_fd, 0, SEEK_SET) == -1 ||
2475 	    ctf_write(dtp->dt_ddefs->dm_ctfp, dtp->dt_ddefs_fd) == CTF_ERR))
2476 		dt_dprintf("failed to update CTF cache: %s\n", strerror(errno));
2477 
2478 	if (yypcb->pcb_fileptr && (cflags & DTRACE_C_CPP))
2479 		(void) fclose(yypcb->pcb_fileptr); /* close dt_preproc() file */
2480 
2481 	dt_pcb_pop(dtp, err);
2482 	(void) dt_set_errno(dtp, err);
2483 	return (err ? NULL : rv);
2484 }
2485 
2486 dtrace_prog_t *
2487 dtrace_program_strcompile(dtrace_hdl_t *dtp, const char *s,
2488     dtrace_probespec_t spec, uint_t cflags, int argc, char *const argv[])
2489 {
2490 	return (dt_compile(dtp, DT_CTX_DPROG,
2491 	    spec, NULL, cflags, argc, argv, NULL, s));
2492 }
2493 
2494 dtrace_prog_t *
2495 dtrace_program_fcompile(dtrace_hdl_t *dtp, FILE *fp,
2496     uint_t cflags, int argc, char *const argv[])
2497 {
2498 	return (dt_compile(dtp, DT_CTX_DPROG,
2499 	    DTRACE_PROBESPEC_NAME, NULL, cflags, argc, argv, fp, NULL));
2500 }
2501 
2502 int
2503 dtrace_type_strcompile(dtrace_hdl_t *dtp, const char *s, dtrace_typeinfo_t *dtt)
2504 {
2505 	(void) dt_compile(dtp, DT_CTX_DTYPE,
2506 	    DTRACE_PROBESPEC_NONE, dtt, 0, 0, NULL, NULL, s);
2507 	return (dtp->dt_errno ? -1 : 0);
2508 }
2509 
2510 int
2511 dtrace_type_fcompile(dtrace_hdl_t *dtp, FILE *fp, dtrace_typeinfo_t *dtt)
2512 {
2513 	(void) dt_compile(dtp, DT_CTX_DTYPE,
2514 	    DTRACE_PROBESPEC_NONE, dtt, 0, 0, NULL, fp, NULL);
2515 	return (dtp->dt_errno ? -1 : 0);
2516 }
2517