6e5b93dd80a2b31e846b7fd5a695ead5e51f3d45
[openafs.git] / src / rxgen / rpc_parse.c
1 /* @(#)rpc_parse.c      1.1 87/11/04 3.9 RPCSRC */
2 /*
3  * Sun RPC is a product of Sun Microsystems, Inc. and is provided for
4  * unrestricted use provided that this legend is included on all tape
5  * media and as a part of the software program in whole or part.  Users
6  * may copy or modify Sun RPC without charge, but are not authorized
7  * to license or distribute it to anyone else except as part of a product or
8  * program developed by the user.
9  *
10  * SUN RPC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE
11  * WARRANTIES OF DESIGN, MERCHANTIBILITY AND FITNESS FOR A PARTICULAR
12  * PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE.
13  *
14  * Sun RPC is provided with no support and without any obligation on the
15  * part of Sun Microsystems, Inc. to assist in its use, correction,
16  * modification or enhancement.
17  *
18  * SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE
19  * INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY SUN RPC
20  * OR ANY PART THEREOF.
21  *
22  * In no event will Sun Microsystems, Inc. be liable for any lost revenue
23  * or profits or other special, indirect and consequential damages, even if
24  * Sun has been advised of the possibility of such damages.
25  *
26  * Sun Microsystems, Inc.
27  * 2550 Garcia Avenue
28  * Mountain View, California  94043
29  */
30
31 /*
32  * rpc_parse.c, Parser for the RPC protocol compiler
33  * Copyright (C) 1987 Sun Microsystems, Inc.
34  */
35 #include <afsconfig.h>
36 #include <afs/param.h>
37
38 #include <roken.h>
39
40 #include <ctype.h>
41
42 #include "rpc_scan.h"
43 #include "rpc_parse.h"
44 #include "rpc_util.h"
45
46 list *proc_defined[MAX_PACKAGES], *special_defined, *typedef_defined,
47     *uniondef_defined, *complex_defined;
48 char *SplitStart = NULL;
49 char *SplitEnd = NULL;
50 char *MasterPrefix = NULL;
51 char *ServerPrefix = "";
52 char *PackagePrefix[MAX_PACKAGES];
53 char *PackageStatIndex[MAX_PACKAGES];
54 int no_of_stat_funcs = 0;       /*
55                                  * current function number in client interface
56                                  * starts at 0
57                                  */
58 int no_of_stat_funcs_header[MAX_PACKAGES];      /*
59                                                  * Total number of functions in client
60                                                  * interface
61                                                  */
62 int no_of_opcodes[MAX_PACKAGES], master_no_of_opcodes = 0;
63 int lowest_opcode[MAX_PACKAGES], master_lowest_opcode = 99999;
64 int highest_opcode[MAX_PACKAGES], master_highest_opcode = 0;
65 int master_opcodenumber = 99999;
66 int opcodesnotallowed[MAX_PACKAGES];
67 int combinepackages = 0;
68 int PackageIndex = -1;
69 int PerProcCounter = 0;
70 int Multi_Init = 0;
71
72 /*
73  * Character arrays to keep list of function names as we process the file
74  */
75
76 char function_list[MAX_PACKAGES]
77     [MAX_FUNCTIONS_PER_PACKAGE]
78     [MAX_FUNCTION_NAME_LEN];
79 int function_list_index;
80
81 /* static prototypes */
82 static void isdefined(definition * defp);
83 static void def_struct(definition * defp);
84 static void def_program(definition * defp);
85 static void def_enum(definition * defp);
86 static void def_const(definition * defp);
87 static void def_union(definition * defp);
88 static void def_typedef(definition * defp);
89 static void get_declaration(declaration * dec, defkind dkind);
90 static void get_type(char **prefixp, char **typep, defkind dkind);
91 static void unsigned_dec(char **typep);
92 static void def_package(definition * defp);
93 static void def_prefix(definition * defp);
94 static void def_statindex(definition * defp);
95 static void def_startingopcode(definition * defp);
96 static void def_split(definition * defp);
97 static void customize_struct(definition * defp);
98 static char *structname(char *name);
99 static void def_special(declaration * dec, definition * defp);
100 static void check_proc(definition * defp, token * tokp, int noname);
101 static int InvalidConstant(char *name);
102 static int opcodenum_is_defined(int opcode_num);
103 static void analyze_ProcParams(definition * defp, token * tokp);
104 static void generate_code(definition * defp, int proc_split_flag,
105                           int multi_flag);
106 static void handle_split_proc(definition * defp, int multi_flag);
107 static void do_split(definition * defp, int direction, int *numofparams,
108                      defkind param_kind, int restore_flag);
109 static void hdle_param_tok(definition * defp, declaration * dec, token * tokp,
110                            defkind par_kind);
111 static void get1_param_type(definition * defp, declaration * dec,
112                             char **param_type);
113 static void get_param_type(definition * defp, declaration * dec,
114                            char **param_type, char **typename);
115 #ifdef undef
116 static void hndle_param_tail(definition * defp, declaration * dec,
117                              token * tokp, char *typename);
118 #endif
119 static void cs_Proc_CodeGeneration(definition * defp, int split_flag,
120                                    char *procheader);
121 static void cs_ProcName_setup(definition * defp, char *procheader,
122                               int split_flag);
123 static void cs_ProcParams_setup(definition * defp, int split_flag);
124 static void cs_ProcMarshallInParams_setup(definition * defp, int split_flag);
125 static void cs_ProcSendPacket_setup(definition * defp, int split_flag);
126 static void cs_ProcUnmarshallOutParams_setup(definition * defp);
127 static void cs_ProcTail_setup(definition * defp, int split_flag);
128 static void ucs_ProcName_setup(definition * defp, char *procheader,
129                               int split_flag);
130 static void ucs_ProcParams_setup(definition * defp, int split_flag);
131 static void ucs_ProcTail_setup(definition * defp, int split_flag);
132 static void ss_Proc_CodeGeneration(definition * defp);
133 static void ss_ProcName_setup(definition * defp);
134 static void ss_ProcParams_setup(definition * defp);
135 static void ss_ProcSpecial_setup(definition * defp);
136 static void ss_ProcUnmarshallInParams_setup(definition * defp);
137 static void ss_ProcCallRealProc_setup(definition * defp);
138 static void ss_ProcMarshallOutParams_setup(definition * defp);
139 static void ss_ProcTail_setup(definition * defp);
140 static int opcode_holes_exist(void);
141 static void er_ProcDeclExterns_setup(void);
142 static void er_ProcProcsArray_setup(void);
143 static void er_ProcMainBody_setup(void);
144 static void er_HeadofOldStyleProc_setup(void);
145 static void er_BodyofOldStyleProc_setup(void);
146 static void proc_er_case(definition * defp);
147 static void er_TailofOldStyleProc_setup(void);
148
149
150
151 /*
152  * return the next definition you see
153  */
154 definition *
155 get_definition(void)
156 {
157     definition *defp;
158     token tok;
159
160     defp = ALLOC(definition);
161     memset(defp, 0, sizeof(definition));
162     get_token(&tok);
163     switch (tok.kind) {
164     case TOK_STRUCT:
165         def_struct(defp);
166         break;
167     case TOK_UNION:
168         def_union(defp);
169         break;
170     case TOK_TYPEDEF:
171         def_typedef(defp);
172         break;
173     case TOK_ENUM:
174         def_enum(defp);
175         break;
176     case TOK_PROGRAM:
177         def_program(defp);
178         break;
179     case TOK_CONST:
180         def_const(defp);
181         break;
182     case TOK_EOF:
183         return (NULL);
184     case TOK_PACKAGE:
185         def_package(defp);
186         break;
187     case TOK_PREFIX:
188         def_prefix(defp);
189         break;
190     case TOK_STATINDEX:
191         def_statindex(defp);
192         break;
193     case TOK_SPECIAL:
194         {
195             declaration dec;
196             def_special(&dec, defp);
197             break;
198         }
199     case TOK_STARTINGOPCODE:
200         def_startingopcode(defp);
201         break;
202     case TOK_CUSTOMIZED:
203         get_token(&tok);
204         def_struct(defp);
205         customize_struct(defp);
206         break;
207     case TOK_SPLITPREFIX:
208         def_split(defp);
209         break;
210     case TOK_PROC:
211         get_token(&tok);
212         if (tok.kind == TOK_LPAREN) {
213             unget_token(&tok);
214             check_proc(defp, &tok, 1);
215         } else
216             check_proc(defp, &tok, 0);
217         break;
218     case TOK_IDENT:
219         check_proc(defp, &tok, 0);
220         break;
221     case TOK_LPAREN:
222         unget_token(&tok);
223         check_proc(defp, &tok, 1);
224         break;
225     default:
226         error("definition keyword expected");
227     }
228     if (!IsRxgenToken(&tok)) {
229         scan(TOK_SEMICOLON, &tok);
230         isdefined(defp);
231     } else
232         pushed = 0;
233     return (defp);
234 }
235
236 static void
237 isdefined(definition * defp)
238 {
239     STOREVAL(&defined, defp);
240 }
241
242
243 static void
244 def_struct(definition * defp)
245 {
246     token tok;
247     declaration dec;
248     decl_list *decls;
249     decl_list **tailp;
250     int special = 0;
251
252     defp->def_kind = DEF_STRUCT;
253
254     scan(TOK_IDENT, &tok);
255     defp->def_name = tok.str;
256     scan(TOK_LBRACE, &tok);
257     tailp = &defp->def.st.decls;
258     do {
259         get_declaration(&dec, DEF_STRUCT);
260         /* If a structure contains an array, then we're going
261          * to need to be clever about freeing it */
262         if (dec.rel == REL_ARRAY) {
263            special = 1;
264         }
265         decls = ALLOC(decl_list);
266         decls->decl = dec;
267         *tailp = decls;
268         tailp = &decls->next;
269         scan(TOK_SEMICOLON, &tok);
270         peek(&tok);
271     } while (tok.kind != TOK_RBRACE);
272     get_token(&tok);
273     *tailp = NULL;
274
275     if (special)
276         STOREVAL(&complex_defined, defp);
277 }
278
279 static void
280 def_program(definition * defp)
281 {
282     token tok;
283     version_list *vlist;
284     version_list **vtailp;
285     proc_list *plist;
286     proc_list **ptailp;
287
288     defp->def_kind = DEF_PROGRAM;
289     scan(TOK_IDENT, &tok);
290     defp->def_name = tok.str;
291     scan(TOK_LBRACE, &tok);
292     vtailp = &defp->def.pr.versions;
293     scan(TOK_VERSION, &tok);
294     do {
295         scan(TOK_IDENT, &tok);
296         vlist = ALLOC(version_list);
297         vlist->vers_name = tok.str;
298         scan(TOK_LBRACE, &tok);
299         ptailp = &vlist->procs;
300         do {
301             plist = ALLOC(proc_list);
302             get_type(&plist->res_prefix, &plist->res_type, DEF_PROGRAM);
303             if (streq(plist->res_type, "opaque")) {
304                 error("illegal result type");
305             }
306             scan(TOK_IDENT, &tok);
307             plist->proc_name = tok.str;
308             scan(TOK_LPAREN, &tok);
309             get_type(&plist->arg_prefix, &plist->arg_type, DEF_PROGRAM);
310             if (streq(plist->arg_type, "opaque")) {
311                 error("illegal argument type");
312             }
313             scan(TOK_RPAREN, &tok);
314             scan(TOK_EQUAL, &tok);
315             scan_num(&tok);
316             scan(TOK_SEMICOLON, &tok);
317             plist->proc_num = tok.str;
318             *ptailp = plist;
319             ptailp = &plist->next;
320             peek(&tok);
321         } while (tok.kind != TOK_RBRACE);
322         *vtailp = vlist;
323         vtailp = &vlist->next;
324         scan(TOK_RBRACE, &tok);
325         scan(TOK_EQUAL, &tok);
326         scan_num(&tok);
327         vlist->vers_num = tok.str;
328         scan(TOK_SEMICOLON, &tok);
329         scan2(TOK_VERSION, TOK_RBRACE, &tok);
330     } while (tok.kind == TOK_VERSION);
331     scan(TOK_EQUAL, &tok);
332     scan_num(&tok);
333     defp->def.pr.prog_num = tok.str;
334     *vtailp = NULL;
335 }
336
337 static void
338 def_enum(definition * defp)
339 {
340     token tok;
341     enumval_list *elist;
342     enumval_list **tailp;
343
344     defp->def_kind = DEF_ENUM;
345     scan(TOK_IDENT, &tok);
346     defp->def_name = tok.str;
347     scan(TOK_LBRACE, &tok);
348     tailp = &defp->def.en.vals;
349     do {
350         scan(TOK_IDENT, &tok);
351         elist = ALLOC(enumval_list);
352         elist->name = tok.str;
353         elist->assignment = NULL;
354         scan3(TOK_COMMA, TOK_RBRACE, TOK_EQUAL, &tok);
355         if (tok.kind == TOK_EQUAL) {
356             scan_num(&tok);
357             elist->assignment = tok.str;
358             scan2(TOK_COMMA, TOK_RBRACE, &tok);
359         }
360         *tailp = elist;
361         tailp = &elist->next;
362     } while (tok.kind != TOK_RBRACE);
363     *tailp = NULL;
364 }
365
366 static void
367 def_const(definition * defp)
368 {
369     token tok;
370
371     defp->def_kind = DEF_CONST;
372     scan(TOK_IDENT, &tok);
373     defp->def_name = tok.str;
374     scan(TOK_EQUAL, &tok);
375     scan2(TOK_IDENT, TOK_STRCONST, &tok);
376     defp->def.co = tok.str;
377 }
378
379 static void
380 def_union(definition * defp)
381 {
382     token tok;
383     declaration dec;
384     case_list *cases;
385     case_list **tailp;
386
387     defp->def_kind = DEF_UNION;
388     scan(TOK_IDENT, &tok);
389     defp->def_name = tok.str;
390     scan(TOK_SWITCH, &tok);
391     scan(TOK_LPAREN, &tok);
392     get_declaration(&dec, DEF_UNION);
393     defp->def.un.enum_decl = dec;
394     tailp = &defp->def.un.cases;
395     scan(TOK_RPAREN, &tok);
396     scan(TOK_LBRACE, &tok);
397     scan(TOK_CASE, &tok);
398     while (tok.kind == TOK_CASE) {
399         scan(TOK_IDENT, &tok);
400         cases = ALLOC(case_list);
401         cases->case_name = tok.str;
402         scan(TOK_COLON, &tok);
403         get_declaration(&dec, DEF_UNION);
404         cases->case_decl = dec;
405         *tailp = cases;
406         tailp = &cases->next;
407         scan(TOK_SEMICOLON, &tok);
408         scan3(TOK_CASE, TOK_DEFAULT, TOK_RBRACE, &tok);
409     }
410     *tailp = NULL;
411     if (tok.kind == TOK_DEFAULT) {
412         scan(TOK_COLON, &tok);
413         get_declaration(&dec, DEF_UNION);
414         defp->def.un.default_decl = ALLOC(declaration);
415         *defp->def.un.default_decl = dec;
416         scan(TOK_SEMICOLON, &tok);
417         scan(TOK_RBRACE, &tok);
418     } else {
419         defp->def.un.default_decl = NULL;
420     }
421 }
422
423
424 static void
425 def_typedef(definition * defp)
426 {
427     declaration dec;
428
429     defp->def_kind = DEF_TYPEDEF;
430     get_declaration(&dec, DEF_TYPEDEF);
431     defp->def_name = dec.name;
432     defp->def.ty.old_prefix = dec.prefix;
433     defp->def.ty.old_type = dec.type;
434     defp->def.ty.rel = dec.rel;
435     defp->def.ty.array_max = dec.array_max;
436 }
437
438
439 static void
440 get_declaration(declaration * dec, defkind dkind)
441 {
442     token tok;
443
444     get_type(&dec->prefix, &dec->type, dkind);
445     dec->rel = REL_ALIAS;
446     if (streq(dec->type, "void")) {
447         return;
448     }
449     scan2(TOK_STAR, TOK_IDENT, &tok);
450     if (tok.kind == TOK_STAR) {
451         dec->rel = REL_POINTER;
452         scan(TOK_IDENT, &tok);
453     }
454     dec->name = tok.str;
455     if (peekscan(TOK_LBRACKET, &tok)) {
456         if (dec->rel == REL_POINTER) {
457             error("no array-of-pointer declarations -- use typedef");
458         }
459         dec->rel = REL_VECTOR;
460         scan_num(&tok);
461         dec->array_max = tok.str;
462         scan(TOK_RBRACKET, &tok);
463     } else if (peekscan(TOK_LANGLE, &tok)) {
464         if (dec->rel == REL_POINTER) {
465             error("no array-of-pointer declarations -- use typedef");
466         }
467         dec->rel = REL_ARRAY;
468         if (peekscan(TOK_RANGLE, &tok)) {
469             dec->array_max = "~0";      /* unspecified size, use max */
470         } else {
471             scan_num(&tok);
472             dec->array_max = tok.str;
473             scan(TOK_RANGLE, &tok);
474         }
475     }
476     if (streq(dec->type, "opaque")) {
477         if (dec->rel != REL_ARRAY && dec->rel != REL_VECTOR) {
478             error("array declaration expected");
479         }
480     } else if (streq(dec->type, "string")) {
481         if (dec->rel != REL_ARRAY) {
482             error(" variable-length array declaration expected");
483         }
484     }
485 }
486
487
488 static void
489 get_type(char **prefixp, char **typep, defkind dkind)
490 {
491     token tok;
492
493     *prefixp = NULL;
494     get_token(&tok);
495     switch (tok.kind) {
496     case TOK_IDENT:
497         *typep = tok.str;
498         break;
499     case TOK_STRUCT:
500     case TOK_ENUM:
501     case TOK_UNION:
502         *prefixp = tok.str;
503         scan(TOK_IDENT, &tok);
504         *typep = tok.str;
505         break;
506     case TOK_UNSIGNED:
507         unsigned_dec(typep);
508         break;
509     case TOK_SHORT:
510         *typep = "short";
511         (void)peekscan(TOK_INT, &tok);
512         break;
513     case TOK_INT32:
514         *typep = "afs_int32";
515         (void)peekscan(TOK_INT, &tok);
516         break;
517     case TOK_VOID:
518         if (dkind != DEF_UNION && dkind != DEF_PROGRAM) {
519             error("voids allowed only inside union and program definitions");
520         }
521         *typep = tok.str;
522         break;
523     case TOK_STRING:
524     case TOK_OPAQUE:
525     case TOK_CHAR:
526     case TOK_INT:
527     case TOK_FLOAT:
528     case TOK_DOUBLE:
529     case TOK_BOOL:
530     case TOK_AFSUUID:
531         *typep = tok.str;
532         break;
533     default:
534         error("expected type specifier");
535     }
536 }
537
538
539 static void
540 unsigned_dec(char **typep)
541 {
542     token tok;
543
544     peek(&tok);
545     switch (tok.kind) {
546     case TOK_CHAR:
547         get_token(&tok);
548         *typep = "u_char";
549         break;
550     case TOK_SHORT:
551         get_token(&tok);
552         *typep = "u_short";
553         (void)peekscan(TOK_INT, &tok);
554         break;
555     case TOK_INT32:
556         get_token(&tok);
557         *typep = "afs_uint32";
558         (void)peekscan(TOK_INT, &tok);
559         break;
560     case TOK_INT:
561         get_token(&tok);
562         *typep = "u_int";
563         break;
564     default:
565         *typep = "u_int";
566         break;
567     }
568 }
569
570
571 static void
572 def_package(definition * defp)
573 {
574     token tok;
575
576     defp->def_kind = DEF_PACKAGE;
577     scan(TOK_IDENT, &tok);
578     defp->def_name = tok.str;
579     no_of_stat_funcs = 0;
580     if (PackageIndex++ >= MAX_PACKAGES)
581         error("Exceeded upper limit of package statements\n");
582     function_list_index = 0;
583     PackagePrefix[PackageIndex] = tok.str;
584     if (MasterPrefix == NULL)
585         MasterPrefix = tok.str;
586     no_of_opcodes[PackageIndex] = highest_opcode[PackageIndex] =
587         opcodesnotallowed[PackageIndex] = 0;
588     lowest_opcode[PackageIndex] = 99999;
589     proc_defined[PackageIndex] = NULL;
590     PackageStatIndex[PackageIndex] = NULL;
591 }
592
593 static void
594 def_prefix(definition * defp)
595 {
596     token tok;
597
598     defp->def_kind = DEF_PREFIX;
599     scan(TOK_IDENT, &tok);
600     defp->def_name = tok.str;
601     ServerPrefix = tok.str;
602 }
603
604 static void
605 def_statindex(definition * defp)
606 {
607     token tok;
608     char *name;
609
610     defp->def_kind = DEF_CONST;
611     scan_num(&tok);
612     if (PackageIndex < 0)
613         error("'statindex' command must follow 'package' command!\n");
614     if (PackageStatIndex[PackageIndex])
615         error("Cannot have more then one 'statindex' per package!\n");
616     if (InvalidConstant(tok.str))
617         error("Index in 'statindex' command must be a constant!");
618     name =
619         alloc(strlen(PackagePrefix[PackageIndex]) + strlen("STATINDEX") + 1);
620     strcpy(name, PackagePrefix[PackageIndex]);
621     strcat(name, "STATINDEX");
622     defp->def_name = name;
623     defp->def.co = tok.str;
624     PackageStatIndex[PackageIndex] = name;
625 }
626
627 static void
628 def_startingopcode(definition * defp)
629 {
630     token tok;
631
632     defp->def_kind = DEF_STARTINGOPCODE;
633     scan(TOK_IDENT, &tok);
634     defp->def_name = tok.str;
635     if (InvalidConstant(defp->def_name))
636         error("Opcode in 'startingopcode' command must be a constant!");
637     lowest_opcode[PackageIndex] = master_lowest_opcode = atoi(tok.str);
638     if (lowest_opcode[PackageIndex] < 0
639         || lowest_opcode[PackageIndex] > 99999)
640         error
641             ("startingopcode number is out of bounds (must be >= 0 < 100000)");
642     master_opcodenumber = lowest_opcode[PackageIndex];
643     opcodesnotallowed[PackageIndex] = 1;
644 }
645
646 static void
647 def_split(definition * defp)
648 {
649     token tok;
650
651     defp->def_kind = DEF_SPLITPREFIX;
652     do {
653         get_token(&tok);
654         switch (tok.kind) {
655         case TOK_IN:
656             scan(TOK_EQUAL, &tok);
657             scan(TOK_IDENT, &tok);
658             SplitStart = tok.str;
659             break;
660         case TOK_OUT:
661             scan(TOK_EQUAL, &tok);
662             scan(TOK_IDENT, &tok);
663             SplitEnd = tok.str;
664             break;
665         case TOK_SEMICOLON:
666             break;
667         default:
668             error("syntax error in the 'splitprefix' line");
669         }
670     } while (tok.kind != TOK_SEMICOLON);
671     if (!SplitStart && !SplitEnd)
672         error("At least one param should be passed to 'splitprefix' cmd");
673 }
674
675
676 static void
677 customize_struct(definition * defp)
678 {
679     decl_list *listp;
680     declaration *dec;
681     definition *defp1 = ALLOC(definition);
682     spec_list *specs, **tailp;
683
684     defp->def_kind = DEF_CUSTOMIZED;
685     defp1->def_kind = DEF_SPECIAL;
686     tailp = &defp1->def.sd.specs;
687     for (listp = defp->def.st.decls; listp; listp = listp->next) {
688         dec = &listp->decl;
689         if (streq(dec->type, "string") || (dec->rel == REL_POINTER)) {
690             specs = ALLOC(spec_list);
691             specs->sdef.string_name = dec->name;
692             specs->sdef.string_value = defp->def_name;
693             *tailp = specs;
694             tailp = &specs->next;
695         }
696     }
697     tailp = NULL;
698     STOREVAL(&special_defined, defp1);
699 }
700
701 static char *
702 structname(char *name)
703 {
704     static char namecontents[150];
705     char *pnt, *pnt1;
706
707     strcpy(namecontents, name);
708     pnt = namecontents;
709     if (!strncmp(pnt, "struct", 6))
710         pnt += 6;
711     while (isspace(*pnt))
712         pnt++;
713     pnt1 = pnt;
714     while (*pnt != ' ' && *pnt != '\0')
715         pnt++;
716     *pnt = '\0';
717     return pnt1;
718 }
719
720
721 static void
722 def_special(declaration * dec, definition * defp)
723 {
724     char *typename;
725     spec_list *specs, **tailp;
726     token tok;
727
728     defp->def_kind = DEF_SPECIAL;
729     get_type(&dec->prefix, &dec->type, DEF_SPECIAL);
730     dec->rel = REL_POINTER;
731     scan(TOK_IDENT, &tok);
732     tailp = &defp->def.sd.specs;
733     do {
734         specs = ALLOC(spec_list);
735         specs->sdef.string_name = tok.str;
736         get_param_type(defp, dec, &specs->sdef.string_value, &typename);
737         *tailp = specs;
738         tailp = &specs->next;
739         scan2(TOK_COMMA, TOK_SEMICOLON, &tok);
740         if (tok.kind == TOK_SEMICOLON)
741             break;
742         get_token(&tok);
743     } while (tok.kind == TOK_IDENT);
744     tailp = NULL;
745     STOREVAL(&special_defined, defp);
746 }
747
748
749 proc1_list *Proc_list, **Proc_listp;
750
751 static void
752 check_proc(definition * defp, token * tokp, int noname)
753 {
754     token tok;
755     int proc_split = 0;
756     int proc_multi = 0;
757
758     if (PackageIndex < 0)
759         error("Procedure must be in a package!\n");
760
761     tokp->kind = TOK_PROC;
762     defp->def_kind = DEF_PROC;
763     if (noname)
764         defp->pc.proc_name = "";
765     else
766         defp->pc.proc_name = tokp->str;
767     PerProcCounter = 0;
768     defp->pc.proc_prefix = alloc(strlen(PackagePrefix[PackageIndex]) + 1);
769     strcpy(defp->pc.proc_prefix, PackagePrefix[PackageIndex]);
770     scan2(TOK_LPAREN, TOK_IDENT, &tok);
771     defp->pc.proc_serverstub = NULL;
772     if (tok.kind == TOK_IDENT) {
773         defp->pc.proc_serverstub = tok.str;
774         scan(TOK_LPAREN, &tok);
775     }
776     analyze_ProcParams(defp, &tok);
777     defp->pc.proc_opcodenum = -1;
778     scan4(TOK_SPLIT, TOK_MULTI, TOK_EQUAL, TOK_SEMICOLON, &tok);
779     if (tok.kind == TOK_MULTI) {
780         proc_multi = 1;
781         defp->pc.multi_flag = 1;
782         scan2(TOK_EQUAL, TOK_SEMICOLON, &tok);
783     } else {
784         defp->pc.multi_flag = 0;
785     }
786     if (tok.kind == TOK_SPLIT) {
787         proc_split = 1;
788         defp->pc.split_flag = 1;
789         scan2(TOK_EQUAL, TOK_SEMICOLON, &tok);
790     } else {
791         defp->pc.split_flag = 0;
792     }
793     if (tok.kind == TOK_EQUAL) {
794         if (opcodesnotallowed[PackageIndex])
795             error("Opcode assignment isn't allowed here!");
796         scan_num(&tok);
797         if (InvalidConstant(tok.str))
798             error("Illegal Opcode assignment (Must be a constant opcode!)");
799         if (opcodenum_is_defined(atoi(tok.str)))
800             error("The opcode number is already used by a previous proc");
801         defp->pc.proc_opcodename = tok.str;
802         defp->pc.proc_opcodenum = atoi(tok.str);
803         if (defp->pc.proc_opcodenum < lowest_opcode[PackageIndex])
804             lowest_opcode[PackageIndex] = defp->pc.proc_opcodenum;
805         if (defp->pc.proc_opcodenum < master_lowest_opcode)
806             master_lowest_opcode = defp->pc.proc_opcodenum;
807         if (defp->pc.proc_opcodenum > highest_opcode[PackageIndex])
808             highest_opcode[PackageIndex] = defp->pc.proc_opcodenum;
809         if (defp->pc.proc_opcodenum > master_highest_opcode)
810             master_highest_opcode = defp->pc.proc_opcodenum;
811         scan(TOK_SEMICOLON, &tok);
812     } else {
813         if (master_opcodenumber == 99999)
814             master_opcodenumber = 0;
815         defp->pc.proc_opcodenum = master_opcodenumber++;
816         if (defp->pc.proc_opcodenum < lowest_opcode[PackageIndex])
817             lowest_opcode[PackageIndex] = defp->pc.proc_opcodenum;
818         if (defp->pc.proc_opcodenum > highest_opcode[PackageIndex])
819             highest_opcode[PackageIndex] = defp->pc.proc_opcodenum;
820         if (defp->pc.proc_opcodenum > master_highest_opcode)
821             master_highest_opcode = defp->pc.proc_opcodenum;
822         opcodesnotallowed[PackageIndex] = 1;    /* force it */
823     }
824     no_of_opcodes[PackageIndex]++, master_no_of_opcodes++;
825     if (proc_multi) {
826         generate_code(defp, 0, 1);
827         if (Cflag || cflag) {
828             generate_code(defp, 1, 1);
829         }
830         generate_multi_macros(defp);
831     } else {
832         generate_code(defp, proc_split, 0);
833     }
834
835     if (function_list_index >= MAX_FUNCTIONS_PER_INTERFACE) {
836         error("too many functions in interface, "
837               "increase MAX_FUNCTIONS_PER_INTERFACE");
838     }
839     sprintf(function_list[PackageIndex][function_list_index], "%s%s%s",
840             prefix, PackagePrefix[PackageIndex], defp->pc.proc_name);
841
842     function_list_index++;
843     no_of_stat_funcs_header[PackageIndex]++;
844     no_of_stat_funcs++;
845     *Proc_listp = NULL;
846 }
847
848
849 #define LEGALNUMS "0123456789"
850 static int
851 InvalidConstant(char *name)
852 {
853     char *map;
854     int slen;
855
856     map = LEGALNUMS;
857     slen = (int)strlen(name);
858     return (slen != strspn(name, map));
859 }
860
861 static int
862 opcodenum_is_defined(int opcode_num)
863 {
864     list *listp;
865     definition *defp;
866
867     for (listp = proc_defined[PackageIndex]; listp != NULL;
868          listp = listp->next) {
869         defp = (definition *) listp->val;
870         if (opcode_num == defp->pc.proc_opcodenum)
871             return 1;
872     }
873     return 0;
874 }
875
876
877 static void
878 analyze_ProcParams(definition * defp, token * tokp)
879 {
880     declaration dec;
881     decl_list *decls, **tailp;
882
883     Proc_listp = &defp->pc.plists;
884     tailp = &defp->def.st.decls;
885     do {
886         get_token(tokp);
887         Proc_list = ALLOC(proc1_list);
888         memset(Proc_list, 0, sizeof(proc1_list));
889         Proc_list->pl.param_flag = 0;
890         switch (tokp->kind) {
891         case TOK_IN:
892             hdle_param_tok(defp, &dec, tokp, DEF_INPARAM);
893             break;
894         case TOK_OUT:
895             hdle_param_tok(defp, &dec, tokp, DEF_OUTPARAM);
896             break;
897         case TOK_INOUT:
898             hdle_param_tok(defp, &dec, tokp, DEF_INOUTPARAM);
899             break;
900         case TOK_RPAREN:
901             break;
902         default:
903             unget_token(tokp);
904             hdle_param_tok(defp, &dec, tokp, DEF_NULL);
905             break;
906         }
907         *Proc_listp = Proc_list;
908         Proc_listp = &Proc_list->next;
909         decls = ALLOC(decl_list);
910         memset(decls, 0, sizeof(decl_list));
911     if (tokp->kind != TOK_RPAREN)
912         decls->decl = dec;
913         *tailp = decls;
914         tailp = &decls->next;
915     } while (tokp->kind != TOK_RPAREN);
916     *tailp = NULL;
917 }
918
919
920 static void
921 generate_code(definition * defp, int proc_split_flag, int multi_flag)
922 {
923     if (proc_split_flag)
924         handle_split_proc(defp, multi_flag);
925     else {
926         if (Cflag || cflag) {
927             cs_Proc_CodeGeneration(defp, 0, "");
928         }
929         if (Sflag || cflag)
930             ss_Proc_CodeGeneration(defp);
931     }
932     if (Sflag || (cflag && xflag && !proc_split_flag))
933         STOREVAL(&proc_defined[PackageIndex], defp);
934 }
935
936
937 static void
938 handle_split_proc(definition * defp, int multi_flag)
939 {
940     char *startname = SplitStart, *endname = SplitEnd;
941     int numofparams = 0;
942
943     if (!startname)
944         startname = "Start";
945     if (!endname)
946         endname = "End";
947     if (Cflag || cflag) {
948         if (!cflag) {
949             do_split(defp, OUT, &numofparams, DEF_OUTPARAM, 0);
950         }
951         cs_Proc_CodeGeneration(defp, 1, startname);
952         if (!cflag) {
953             do_split(defp, OUT, &numofparams, DEF_OUTPARAM, 1);
954             do_split(defp, IN, &numofparams, DEF_INPARAM, 0);
955         }
956         cs_Proc_CodeGeneration(defp, (multi_flag ? 3 : 2), endname);
957         if (!cflag) {
958             do_split(defp, IN, &numofparams, DEF_INPARAM, 1);
959         }
960     }
961     if (Sflag || cflag)
962         ss_Proc_CodeGeneration(defp);
963 }
964
965
966 static void
967 do_split(definition * defp, int direction, int *numofparams,
968          defkind param_kind, int restore_flag)
969 {
970     proc1_list *plist;
971
972     if (restore_flag) {
973         defp->pc.paramtypes[direction] = *numofparams;
974         for (plist = defp->pc.plists; plist; plist = plist->next) {
975             if (plist->component_kind == DEF_NULL
976                 && plist->pl.param_kind == param_kind)
977                 plist->component_kind = DEF_PARAM;
978         }
979     } else {
980         *numofparams = defp->pc.paramtypes[direction];
981         defp->pc.paramtypes[direction] = 0;
982         for (plist = defp->pc.plists; plist; plist = plist->next) {
983             if (plist->component_kind == DEF_PARAM
984                 && plist->pl.param_kind == param_kind)
985                 plist->component_kind = DEF_NULL;
986         }
987     }
988 }
989
990
991 static void
992 hdle_param_tok(definition * defp, declaration * dec, token * tokp,
993                defkind par_kind)
994 {
995     static defkind last_param_kind = DEF_NULL;
996
997     if (par_kind == DEF_NULL)
998         Proc_list->pl.param_kind = last_param_kind;
999     else
1000         Proc_list->pl.param_kind = par_kind;
1001     last_param_kind = Proc_list->pl.param_kind;
1002     defp->pc.paramtypes[(int)last_param_kind]++;
1003     Proc_list->component_kind = DEF_PARAM;
1004     Proc_list->code = alloc(250);
1005     Proc_list->scode = alloc(250);
1006     get_declaration(dec, DEF_PARAM);
1007     Proc_list->pl.param_name = dec->name;
1008     get1_param_type(defp, dec, &Proc_list->pl.param_type);
1009     print_param(dec);
1010     scan2(TOK_COMMA, TOK_RPAREN, tokp);
1011     if (tokp->kind == TOK_COMMA)
1012         peek(tokp);
1013 }
1014
1015
1016 static void
1017 get1_param_type(definition * defp, declaration * dec, char **param_type)
1018 {
1019     char typecontents[100];
1020
1021     if (streq(dec->type, "string")) {
1022         *param_type = "char *";
1023     } else {
1024         if (dec->prefix) {
1025             strcpy(typecontents, dec->prefix);
1026             strcat(typecontents, " ");
1027             strcat(typecontents, dec->type);
1028             strcat(typecontents, " *");
1029         } else if (dec->rel == REL_POINTER) {
1030             strcpy(typecontents, dec->type);
1031             strcat(typecontents, " *");
1032         } else
1033             strcpy(typecontents, dec->type);
1034         *param_type = alloc(100);
1035         strcpy(*param_type, typecontents);
1036     }
1037 }
1038
1039
1040 static void
1041 get_param_type(definition * defp, declaration * dec, char **param_type,
1042                char **typename)
1043 {
1044     char typecontents[100];
1045
1046     if (streq(dec->type, "string")) {
1047         *typename = "wrapstring";
1048         *param_type = "char *";
1049     } else {
1050         *typename = dec->type;
1051         if (dec->prefix) {
1052             strcpy(typecontents, dec->prefix);
1053             strcat(typecontents, " ");
1054             strcat(typecontents, dec->type);
1055             strcat(typecontents, " *");
1056             dec->rel = REL_POINTER;
1057         } else if (dec->rel == REL_POINTER) {
1058             strcpy(typecontents, dec->type);
1059             strcat(typecontents, " *");
1060         } else
1061             strcpy(typecontents, dec->type);
1062         *param_type = alloc(100);
1063         strcpy(*param_type, typecontents);
1064     }
1065 }
1066
1067
1068 #ifdef undef
1069 static void
1070 hndle_param_tail(definition * defp, declaration * dec, token * tokp,
1071                  char *typename)
1072 {
1073     char *amp;
1074
1075     if (dec->rel == REL_POINTER)
1076         Proc_list->pl.param_flag |= INDIRECT_PARAM;
1077     else
1078         Proc_list->pl.param_flag &= ~INDIRECT_PARAM;
1079     amp = "";
1080     if (!(Proc_list->pl.param_flag & INDIRECT_PARAM))
1081         amp = "&";
1082
1083     sprintf(Proc_list->code, "xdr_%s(&z_xdrs, %s%s)", typename, amp,
1084             Proc_list->pl.param_name);
1085     sprintf(Proc_list->scode, "xdr_%s(z_xdrs, &%s)", typename,
1086             Proc_list->pl.param_name);
1087     scan2(TOK_COMMA, TOK_RPAREN, tokp);
1088     if (tokp->kind == TOK_COMMA)
1089         peek(tokp);
1090 }
1091 #endif
1092
1093
1094 static void
1095 cs_Proc_CodeGeneration(definition * defp, int split_flag, char *procheader)
1096 {
1097     defp->can_fail = 0;
1098     cs_ProcName_setup(defp, procheader, split_flag);
1099     if (!cflag) {
1100         cs_ProcParams_setup(defp, split_flag);
1101         cs_ProcMarshallInParams_setup(defp, split_flag);
1102         if (split_flag != 1) {
1103             cs_ProcSendPacket_setup(defp, split_flag);
1104             cs_ProcUnmarshallOutParams_setup(defp);
1105         }
1106         cs_ProcTail_setup(defp, split_flag);
1107     }
1108
1109     if (!kflag && !split_flag && uflag) {
1110         ucs_ProcName_setup(defp, "ubik_", split_flag);
1111         if (!cflag) {
1112             ucs_ProcParams_setup(defp, split_flag);
1113             ucs_ProcTail_setup(defp, split_flag);
1114         }
1115     }
1116 }
1117
1118 static void
1119 cs_ProcName_setup(definition * defp, char *procheader, int split_flag)
1120 {
1121     proc1_list *plist;
1122     char *first_arg;
1123
1124     if (ansic_flag) {
1125         if (split_flag) {
1126             first_arg = "struct rx_call *z_call";
1127         } else {
1128             first_arg = "struct rx_connection *z_conn";
1129         }
1130     } else {
1131         if (split_flag) {
1132             first_arg = "z_call";
1133         } else {
1134             first_arg = "z_conn";
1135         }
1136     }
1137
1138     if (!cflag) {
1139         f_print(fout, "int %s%s%s%s(%s", procheader, prefix,
1140                 PackagePrefix[PackageIndex], defp->pc.proc_name, first_arg);
1141     }
1142     if ((strlen(procheader) + strlen(prefix) +
1143          strlen(PackagePrefix[PackageIndex]) + strlen(defp->pc.proc_name)) >=
1144         MAX_FUNCTION_NAME_LEN) {
1145         error("function name is too long, increase MAX_FUNCTION_NAME_LEN");
1146     }
1147     if (!cflag) {
1148         for (plist = defp->pc.plists; plist; plist = plist->next) {
1149             if (plist->component_kind == DEF_PARAM) {
1150                 f_print(fout, ",");
1151                 if (ansic_flag) {
1152                     if (plist->pl.param_kind == DEF_INPARAM &&
1153                         strcmp(plist->pl.param_type, "char *") == 0) {
1154                         f_print(fout, "const ");
1155                     }
1156                     if (plist->pl.param_flag & OUT_STRING) {
1157                         f_print(fout, "%s *%s", plist->pl.param_type,
1158                                 plist->pl.param_name);
1159                     } else {
1160                         f_print(fout, "%s %s", plist->pl.param_type,
1161                                 plist->pl.param_name);
1162                     }
1163                 } else {
1164                     f_print(fout, " %s", plist->pl.param_name);
1165                     plist->pl.param_flag &= ~PROCESSED_PARAM;
1166                 }
1167             }
1168         }
1169         f_print(fout, ")\n");
1170     }
1171 }
1172
1173 static void
1174 cs_ProcParams_setup(definition * defp, int split_flag)
1175 {
1176     proc1_list *plist, *plist1;
1177
1178     if (ansic_flag)
1179         return;
1180
1181     if (!split_flag)
1182         f_print(fout, "\tstruct rx_connection *z_conn;\n");
1183     if (split_flag) {
1184         f_print(fout, "\tstruct rx_call *z_call;\n");
1185     }
1186     for (plist = defp->pc.plists; plist; plist = plist->next) {
1187         if (plist->component_kind == DEF_PARAM
1188             && !(plist->pl.param_flag & PROCESSED_PARAM)) {
1189             if (plist->pl.param_flag & OUT_STRING) {
1190                 f_print(fout, "\t%s *%s", plist->pl.param_type,
1191                         plist->pl.param_name);
1192             } else {
1193                 f_print(fout, "\t%s %s", plist->pl.param_type,
1194                         plist->pl.param_name);
1195             }
1196             plist->pl.param_flag |= PROCESSED_PARAM;
1197             for (plist1 = defp->pc.plists; plist1; plist1 = plist1->next) {
1198                 if ((plist1->component_kind == DEF_PARAM)
1199                     && streq(plist->pl.param_type, plist1->pl.param_type)
1200                     && !(plist1->pl.param_flag & PROCESSED_PARAM)) {
1201                     char *star = "";
1202                     char *pntr = strchr(plist1->pl.param_type, '*');
1203                     if (pntr)
1204                         star = "*";
1205                     if (plist1->pl.param_flag & OUT_STRING) {
1206                         f_print(fout, ", *%s%s", star, plist1->pl.param_name);
1207                     } else {
1208                         f_print(fout, ", %s%s", star, plist1->pl.param_name);
1209                     }
1210                     plist1->pl.param_flag |= PROCESSED_PARAM;
1211                 }
1212             }
1213             f_print(fout, ";\n");
1214         }
1215     }
1216 }
1217
1218
1219 static void
1220 cs_ProcMarshallInParams_setup(definition * defp, int split_flag)
1221 {
1222     int noofparams, i = 0;
1223     proc1_list *plist;
1224     decl_list *dl;
1225     int noofallparams =
1226         defp->pc.paramtypes[IN] + defp->pc.paramtypes[INOUT] +
1227         defp->pc.paramtypes[OUT];
1228
1229     f_print(fout, "{\n");
1230     if (!split_flag)
1231         f_print(fout, "\tstruct rx_call *z_call = rx_NewCall(z_conn);\n");
1232     if ((!split_flag) || (split_flag == 1)) {
1233         if (opcodesnotallowed[PackageIndex]) {
1234             f_print(fout, "\tstatic int z_op = %d;\n",
1235                     defp->pc.proc_opcodenum);
1236         } else {
1237             f_print(fout, "\tstatic int z_op = %s;\n",
1238                     defp->pc.proc_opcodename);
1239         }
1240     }
1241     f_print(fout, "\tint z_result;\n");
1242     if (!(split_flag > 1) || (noofallparams != 0)) {
1243         f_print(fout, "\tXDR z_xdrs;\n");
1244     }
1245
1246     if ((!split_flag) || (split_flag == 1)) {
1247         f_print(fout, "\txdrrx_create(&z_xdrs, z_call, XDR_ENCODE);\n");
1248         f_print(fout, "\n\t/* Marshal the arguments */\n");
1249         f_print(fout, "\tif ((!xdr_int(&z_xdrs, &z_op))");
1250         noofparams = defp->pc.paramtypes[IN] + defp->pc.paramtypes[INOUT];
1251         for (plist = defp->pc.plists, dl = defp->def.st.decls; plist;
1252              plist = plist->next, dl = dl->next) {
1253             if (plist->component_kind == DEF_PARAM
1254                 && (plist->pl.param_kind == DEF_INPARAM
1255                     || plist->pl.param_kind == DEF_INOUTPARAM)) {
1256                 f_print(fout, "\n\t     || (!%s)", plist->code);
1257                 if (++i == noofparams) {
1258                     f_print(fout,
1259                             ") {\n\t\tz_result = RXGEN_CC_MARSHAL;\n\t\tgoto fail;\n\t}\n\n");
1260                     defp->can_fail = 1;
1261                 }
1262             }
1263         }
1264         if (!i) {
1265             f_print(fout,
1266                     ") {\n\t\tz_result = RXGEN_CC_MARSHAL;\n\t\tgoto fail;\n\t}\n\n");
1267             defp->can_fail = 1;
1268         }
1269     }
1270 }
1271
1272
1273 static void
1274 cs_ProcSendPacket_setup(definition * defp, int split_flag)
1275 {
1276     int noofoutparams = defp->pc.paramtypes[INOUT] + defp->pc.paramtypes[OUT];
1277
1278     if (noofoutparams) {
1279         f_print(fout, "\t/* Un-marshal the reply arguments */\n");
1280         if (split_flag) {
1281             f_print(fout, "\txdrrx_create(&z_xdrs, z_call, XDR_DECODE);\n");
1282         } else {
1283             f_print(fout, "\tz_xdrs.x_op = XDR_DECODE;\n");
1284         }
1285     }
1286 }
1287
1288
1289 static void
1290 cs_ProcUnmarshallOutParams_setup(definition * defp)
1291 {
1292     int noofparams, i;
1293     proc1_list *plist;
1294     decl_list *dl;
1295
1296     noofparams = defp->pc.paramtypes[INOUT] + defp->pc.paramtypes[OUT];
1297     if (noofparams)
1298         for (plist = defp->pc.plists, dl = defp->def.st.decls, i = 0; plist;
1299              plist = plist->next, dl = dl->next) {
1300             if (plist->component_kind == DEF_PARAM
1301                 && (plist->pl.param_kind == DEF_OUTPARAM
1302                     || plist->pl.param_kind == DEF_INOUTPARAM)) {
1303                 if (!i) {
1304                     f_print(fout, "\tif ((!%s)", plist->code);
1305                 } else {
1306                     f_print(fout, "\n\t     || (!%s)", plist->code);
1307                 }
1308                 if (++i == noofparams) {
1309                     f_print(fout,
1310                             ") {\n\t\tz_result = RXGEN_CC_UNMARSHAL;\n\t\tgoto fail;\n\t}\n\n");
1311                     defp->can_fail = 1;
1312                 }
1313             }
1314         }
1315 }
1316
1317
1318 static void
1319 cs_ProcTail_setup(definition * defp, int split_flag)
1320 {
1321     f_print(fout, "\tz_result = RXGEN_SUCCESS;\n");
1322     if (defp->can_fail) {
1323         f_print(fout, "fail:\n");
1324     }
1325     if (!split_flag) {
1326         f_print(fout, "\tz_result = rx_EndCall(z_call, z_result);\n");
1327     }
1328     if (xflag && split_flag != 1) {
1329         f_print(fout, "\tif (rx_enable_stats) {\n");
1330         if (PackageStatIndex[PackageIndex]) {
1331             f_print(fout,
1332                     "\t    rx_RecordCallStatistics(z_call, %s,\n",
1333                     PackageStatIndex[PackageIndex]);
1334         } else {
1335             f_print(fout,
1336                     "\t    rx_RecordCallStatistics(z_call, \n"
1337                     "\t\t(((afs_uint32)(ntohs(rx_ServiceIdOf(rx_ConnectionOf(z_call))) << 16)) |\n"
1338                     "\t\t((afs_uint32)ntohs(rx_PortOf(rx_PeerOf(rx_ConnectionOf(z_call)))))),\n");
1339         }
1340         f_print(fout, "\t\t%d, %sNO_OF_STAT_FUNCS, 1);\n",
1341                 no_of_stat_funcs, PackagePrefix[PackageIndex]);
1342         f_print(fout, "\t}\n\n");
1343     }
1344     f_print(fout, "\treturn z_result;\n}\n\n");
1345 }
1346
1347
1348 static void
1349 ss_Proc_CodeGeneration(definition * defp)
1350 {
1351     defp->can_fail = 0;
1352     ss_ProcName_setup(defp);
1353     if (!cflag) {
1354         ss_ProcParams_setup(defp);
1355         ss_ProcSpecial_setup(defp);
1356         ss_ProcUnmarshallInParams_setup(defp);
1357         ss_ProcCallRealProc_setup(defp);
1358         ss_ProcMarshallOutParams_setup(defp);
1359         ss_ProcTail_setup(defp);
1360     }
1361 }
1362
1363
1364 static void
1365 ss_ProcName_setup(definition * defp)
1366 {
1367     proc1_list *plist;
1368
1369     if ((strlen(prefix) + strlen(PackagePrefix[PackageIndex]) +
1370          strlen(defp->pc.proc_name)) >= MAX_FUNCTION_NAME_LEN) {
1371         error("function name is too long, increase MAX_FUNCTION_NAME_LEN");
1372     }
1373
1374     if (!cflag) {
1375         f_print(fout, "static afs_int32 _%s%s%s(", prefix,
1376                 PackagePrefix[PackageIndex], defp->pc.proc_name);
1377         f_print(fout, "struct rx_call *z_call, XDR *z_xdrs)\n{\n");
1378         f_print(fout, "\t" "afs_int32 z_result;\n");
1379
1380         for (plist = defp->pc.plists; plist; plist = plist->next)
1381             if (plist->component_kind == DEF_PARAM) {
1382                 plist->pl.param_flag &= ~(PROCESSED_PARAM);
1383                 plist->pl.string_name = NULL;
1384             }
1385     }
1386 }
1387
1388
1389 static void
1390 ss_ProcParams_setup(definition * defp)
1391 {
1392     proc1_list *plist, *plist1;
1393     list *listp;
1394     definition *defp1;
1395
1396     for (plist = defp->pc.plists; plist; plist = plist->next) {
1397         if ((plist->component_kind == DEF_PARAM)
1398             && !(plist->pl.param_flag & PROCESSED_PARAM)) {
1399             if (plist->pl.param_flag & INDIRECT_PARAM) {
1400                 char pres = '\0', *pntr = strchr(plist->pl.param_type, '*');
1401                 if (pntr) {
1402                     --pntr;
1403                     pres = *pntr;
1404                     *pntr = (char)0;
1405                 }
1406                 f_print(fout, "\t%s %s", plist->pl.param_type,
1407                         plist->pl.param_name);
1408                 *pntr = pres;
1409             } else if (strchr(plist->pl.param_type, '*') == 0) {
1410                 f_print(fout, "\t%s %s", plist->pl.param_type,
1411                         plist->pl.param_name);
1412             } else {
1413                 plist->pl.param_flag |= FREETHIS_PARAM;
1414                 f_print(fout, "\t%s %s=(%s)0", plist->pl.param_type,
1415                         plist->pl.param_name, plist->pl.param_type);
1416             }
1417             plist->pl.param_flag |= PROCESSED_PARAM;
1418             for (plist1 = defp->pc.plists; plist1; plist1 = plist1->next) {
1419                 if ((plist1->component_kind == DEF_PARAM)
1420                     && streq(plist->pl.param_type, plist1->pl.param_type)
1421                     && !(plist1->pl.param_flag & PROCESSED_PARAM)) {
1422                     if (plist1->pl.param_flag & INDIRECT_PARAM) {
1423                         f_print(fout, ", %s", plist1->pl.param_name);
1424                     } else if (strchr(plist1->pl.param_type, '*') == 0) {
1425                         f_print(fout, ", %s", plist1->pl.param_name);
1426                     } else {
1427                         plist1->pl.param_flag |= FREETHIS_PARAM;
1428                         f_print(fout, ", *%s=(%s)0", plist1->pl.param_name,
1429                                 plist1->pl.param_type);
1430                     }
1431                     plist1->pl.param_flag |= PROCESSED_PARAM;
1432                 }
1433             }
1434             f_print(fout, ";\n");
1435         }
1436     }
1437     for (listp = typedef_defined; listp != NULL; listp = listp->next) {
1438         defp1 = (definition *) listp->val;
1439         for (plist = defp->pc.plists; plist; plist = plist->next) {
1440             if (plist->component_kind == DEF_PARAM
1441                 && (plist->pl.param_kind == DEF_OUTPARAM
1442                     || plist->pl.param_kind == DEF_INOUTPARAM)
1443                 && !(plist->pl.param_flag & FREETHIS_PARAM)) {
1444                 if (streq(defp1->def_name, structname(plist->pl.param_type))) {
1445                     switch (defp1->pc.rel) {
1446                     case REL_ARRAY:
1447                     case REL_POINTER:
1448                     default:
1449                         break;
1450                     }
1451                 }
1452             }
1453         }
1454     }
1455     fprintf(fout, "\n");
1456 }
1457
1458
1459 static void
1460 ss_ProcSpecial_setup(definition * defp)
1461 {
1462     proc1_list *plist;
1463     definition *defp1;
1464     list *listp;
1465
1466     for (listp = special_defined; listp != NULL; listp = listp->next) {
1467         defp1 = (definition *) listp->val;
1468
1469         for (plist = defp->pc.plists; plist; plist = plist->next) {
1470             if (plist->component_kind == DEF_PARAM
1471                 && (plist->pl.param_kind == DEF_INPARAM
1472                     || plist->pl.param_kind == DEF_INOUTPARAM)) {
1473                 spec_list *spec = defp1->def.sd.specs;
1474                 char string[40];
1475                 strcpy(string, structname(spec->sdef.string_value));
1476                 if (streq(string, structname(plist->pl.param_type))) {
1477                     plist->pl.string_name = spec->sdef.string_name;
1478                     plist->pl.param_flag |= FREETHIS_PARAM;
1479                     fprintf(fout, "\n\t%s.%s = 0;", plist->pl.param_name,
1480                             spec->sdef.string_name);
1481                 }
1482             }
1483         }
1484     }
1485     for (listp = typedef_defined; listp != NULL; listp = listp->next) {
1486         defp1 = (definition *) listp->val;
1487         for (plist = defp->pc.plists; plist; plist = plist->next) {
1488             if (plist->component_kind == DEF_PARAM) {
1489                 if (streq(defp1->def_name, structname(plist->pl.param_type))) {
1490                     plist->pl.param_flag |= FREETHIS_PARAM;
1491                     switch (defp1->pc.rel) {
1492                     case REL_ARRAY:
1493                         plist->pl.string_name = alloc(40);
1494                         if (brief_flag) {
1495                             f_print(fout, "\n\t%s.val = 0;",
1496                                     plist->pl.param_name);
1497                             f_print(fout, "\n\t%s.len = 0;",
1498                                     plist->pl.param_name);
1499                             s_print(plist->pl.string_name, "val");
1500                         } else {
1501                             f_print(fout, "\n\t%s.%s_val = 0;",
1502                                     plist->pl.param_name, defp1->def_name);
1503                             f_print(fout, "\n\t%s.%s_len = 0;",
1504                                     plist->pl.param_name, defp1->def_name);
1505                             s_print(plist->pl.string_name, "%s_val",
1506                                     defp1->def_name);
1507                         }
1508                         break;
1509                     case REL_POINTER:
1510                         f_print(fout, "\n\t%s = 0;", plist->pl.param_name);
1511                         plist->pl.string_name = NULL;
1512                         break;
1513                     default:
1514                         break;
1515                     }
1516                 }
1517             }
1518         }
1519     }
1520     for (listp = complex_defined; listp != NULL; listp = listp->next) {
1521         defp1 = (definition *) listp->val;
1522         for (plist = defp->pc.plists; plist; plist = plist->next) {
1523             if (plist->component_kind == DEF_PARAM) {
1524                 if (streq(defp1->def_name, structname(plist->pl.param_type))) {
1525                     plist->pl.param_flag |= FREETHIS_PARAM;
1526                     fprintf(fout, "\n\tmemset(&%s, 0, sizeof(%s));",
1527                                  plist->pl.param_name, defp1->def_name);
1528                 }
1529             }
1530         }
1531     }
1532
1533     f_print(fout, "\n");
1534 }
1535
1536
1537 static void
1538 ss_ProcUnmarshallInParams_setup(definition * defp)
1539 {
1540     int noofparams, noofoutparams, i;
1541     proc1_list *plist;
1542
1543     noofparams = defp->pc.paramtypes[IN] + defp->pc.paramtypes[INOUT];
1544     noofoutparams = defp->pc.paramtypes[INOUT] + defp->pc.paramtypes[OUT];
1545     for (plist = defp->pc.plists, i = 0; plist; plist = plist->next) {
1546         if (plist->component_kind == DEF_PARAM
1547             && (plist->pl.param_kind == DEF_INPARAM
1548                 || plist->pl.param_kind == DEF_INOUTPARAM)) {
1549             if (!i) {
1550                 f_print(fout, "\n\tif ((!%s)",
1551                         (plist->scode ? plist->scode : plist->code));
1552             } else {
1553                 f_print(fout, "\n\t     || (!%s)",
1554                         (plist->scode ? plist->scode : plist->code));
1555             }
1556             if (++i == noofparams) {
1557                 if (!noofoutparams) {
1558                     f_print(fout, ") {\n");
1559                 } else {
1560                     f_print(fout, ") {\n");
1561                 }
1562                 f_print(fout,
1563                         "\t\tz_result = RXGEN_SS_UNMARSHAL;\n\t\tgoto fail;\n\t}\n\n");
1564                 defp->can_fail = 1;
1565             }
1566         }
1567     }
1568 }
1569
1570
1571 static void
1572 ss_ProcCallRealProc_setup(definition * defp)
1573 {
1574     extern char zflag;
1575     proc1_list *plist;
1576
1577     f_print(fout, "\tz_result = %s%s%s%s(z_call", prefix, ServerPrefix,
1578             PackagePrefix[PackageIndex], defp->pc.proc_name);
1579     for (plist = defp->pc.plists; plist; plist = plist->next) {
1580         if (plist->component_kind == DEF_PARAM) {
1581             if (plist->pl.param_flag & INDIRECT_PARAM) {
1582                 f_print(fout, ", &%s", plist->pl.param_name);
1583             } else {
1584                 if (plist->pl.param_flag & OUT_STRING) {
1585                     f_print(fout, ", &%s", plist->pl.param_name);
1586                 } else {
1587                     f_print(fout, ", %s", plist->pl.param_name);
1588                 }
1589             }
1590         }
1591     }
1592     f_print(fout, ");\n");
1593     if (zflag) {
1594         f_print(fout, "\tif (z_result)\n\t\treturn z_result;\n");
1595     }
1596 }
1597
1598
1599 static void
1600 ss_ProcMarshallOutParams_setup(definition * defp)
1601 {
1602     proc1_list *plist;
1603     int noofparams, i;
1604
1605     noofparams = defp->pc.paramtypes[INOUT] + defp->pc.paramtypes[OUT];
1606     if (noofparams)
1607         f_print(fout, "\tz_xdrs->x_op = XDR_ENCODE;\n");
1608     if (noofparams) {
1609         for (plist = defp->pc.plists, i = 0; plist; plist = plist->next) {
1610             if (plist->component_kind == DEF_PARAM
1611                 && (plist->pl.param_kind == DEF_OUTPARAM
1612                     || plist->pl.param_kind == DEF_INOUTPARAM)) {
1613                 if (!i) {
1614                     f_print(fout, "\tif ((!%s)",
1615                             (plist->scode ? plist->scode : plist->code));
1616                 } else {
1617                     f_print(fout, "\n\t     || (!%s)",
1618                             (plist->scode ? plist->scode : plist->code));
1619                 }
1620                 if (++i == noofparams) {
1621                     f_print(fout, ")\n\t\tz_result = RXGEN_SS_MARSHAL;\n");
1622                 }
1623             }
1624         }
1625     }
1626 }
1627
1628 static void
1629 ss_ProcTail_frees(char *xdrfunc, int *somefrees) {
1630     if (!*somefrees) {
1631         f_print(fout, "\tz_xdrs->x_op = XDR_FREE;\n");
1632         f_print(fout, "\tif ((!%s)", xdrfunc);
1633         *somefrees = 1;
1634     } else {
1635         f_print(fout, "\n\t    || (!%s)", xdrfunc);
1636     }
1637 }
1638
1639
1640 static void
1641 ss_ProcTail_setup(definition * defp)
1642 {
1643     proc1_list *plist;
1644     definition *defp1;
1645     list *listp;
1646     int somefrees = 0;
1647
1648     if (defp->can_fail) {
1649         f_print(fout, "fail:\n");
1650     }
1651
1652     for (plist = defp->pc.plists; plist; plist = plist->next) {
1653         if (plist->component_kind == DEF_PARAM
1654                 && (plist->pl.param_flag & FREETHIS_PARAM))
1655             ss_ProcTail_frees(plist->scode, &somefrees);
1656     }
1657
1658     for (listp = typedef_defined; listp != NULL; listp = listp->next) {
1659         defp1 = (definition *) listp->val;
1660         for (plist = defp->pc.plists; plist; plist = plist->next) {
1661             if (plist->component_kind == DEF_PARAM
1662                 && (plist->pl.param_kind == DEF_OUTPARAM
1663                     || plist->pl.param_kind == DEF_INOUTPARAM)
1664                 && !(plist->pl.param_flag & FREETHIS_PARAM)) {
1665                 if (streq(defp1->def_name, structname(plist->pl.param_type))) {
1666                     switch (defp1->pc.rel) {
1667                     case REL_ARRAY:
1668                     case REL_POINTER:
1669                         ss_ProcTail_frees(plist->scode, &somefrees);
1670                         break;
1671                     default:
1672                         break;
1673                     }
1674                 }
1675             }
1676         }
1677     }
1678
1679     for (listp = uniondef_defined; listp != NULL; listp = listp->next) {
1680         defp1 = (definition *) listp->val;
1681         for (plist = defp->pc.plists; plist; plist = plist->next) {
1682             if (plist->component_kind == DEF_PARAM
1683                 && (plist->pl.param_kind == DEF_OUTPARAM
1684                     || plist->pl.param_kind == DEF_INOUTPARAM)
1685                 && !(plist->pl.param_flag & FREETHIS_PARAM)) {
1686                 if (streq(defp1->def_name, structname(plist->pl.param_type))) {
1687                     if (plist->pl.param_flag & INDIRECT_PARAM) {
1688                         ss_ProcTail_frees(plist->scode, &somefrees);
1689                     }
1690                 }
1691             }
1692         }
1693     }
1694
1695     if (somefrees) {
1696         f_print(fout, ")\n");
1697         f_print(fout, "\t\tz_result = RXGEN_SS_XDRFREE;\n\n");
1698     }
1699
1700     if (xflag) {
1701         f_print(fout, "\tif (rx_enable_stats) {\n");
1702         f_print(fout, "\t    rx_RecordCallStatistics(z_call,");
1703         if (PackageStatIndex[PackageIndex]) {
1704             f_print(fout, " %s,\n", PackageStatIndex[PackageIndex]);
1705         } else {
1706             f_print(fout,
1707                     "\n\t\t(((afs_uint32)(ntohs(rx_ServiceIdOf(rx_ConnectionOf(z_call))) << 16)) |\n"
1708                     "\t\t((afs_uint32)ntohs(rx_ServiceOf(rx_ConnectionOf(z_call))->servicePort))),\n");
1709         }
1710         f_print(fout, "\t\t%d, %sNO_OF_STAT_FUNCS, 0);\n",
1711                 no_of_stat_funcs, PackagePrefix[PackageIndex]);
1712         f_print(fout, "\t}\n\n");
1713     }
1714
1715     f_print(fout, "\treturn z_result;\n");
1716     f_print(fout, "}\n\n");
1717 }
1718
1719
1720 static void
1721 ucs_ProcName_setup(definition * defp, char *procheader, int split_flag)
1722 {
1723     proc1_list *plist;
1724
1725     if (!cflag) {
1726         if (ansic_flag) {
1727             f_print(fout, "int %s%s%s%s(struct ubik_client *aclient, afs_int32 aflags",
1728                           procheader, prefix, PackagePrefix[PackageIndex],
1729                           defp->pc.proc_name);
1730         } else {
1731             f_print(fout, "int %s%s%s%s(aclient, aflags", procheader, prefix,
1732                           PackagePrefix[PackageIndex], defp->pc.proc_name);
1733         }
1734     }
1735     if ((strlen(procheader) + strlen(prefix) +
1736          strlen(PackagePrefix[PackageIndex]) + strlen(defp->pc.proc_name)) >=
1737         MAX_FUNCTION_NAME_LEN) {
1738         error("function name is too long, increase MAX_FUNCTION_NAME_LEN");
1739     }
1740     if (!cflag) {
1741         for (plist = defp->pc.plists; plist; plist = plist->next) {
1742             if (plist->component_kind == DEF_PARAM) {
1743                 f_print(fout, ",");
1744                 if (ansic_flag) {
1745                     if (plist->pl.param_kind == DEF_INPARAM &&
1746                         strcmp(plist->pl.param_type, "char *") == 0) {
1747                         f_print(fout, "const ");
1748                     }
1749                     if (plist->pl.param_flag & OUT_STRING) {
1750                         f_print(fout, "%s *%s", plist->pl.param_type,
1751                                 plist->pl.param_name);
1752                     } else {
1753                         f_print(fout, "%s %s", plist->pl.param_type,
1754                                 plist->pl.param_name);
1755                     }
1756                 } else {
1757                     plist->pl.param_flag &= ~PROCESSED_PARAM;
1758                     f_print(fout, " %s", plist->pl.param_name);
1759                 }
1760             }
1761         }
1762         f_print(fout, ")\n");
1763     }
1764 }
1765
1766
1767 static void
1768 ucs_ProcParams_setup(definition * defp, int split_flag)
1769 {
1770     proc1_list *plist, *plist1;
1771
1772     if (ansic_flag)
1773         return;
1774
1775     f_print(fout, "\tstruct ubik_client *aclient;\n\tafs_int32 aflags;\n");
1776     for (plist = defp->pc.plists; plist; plist = plist->next) {
1777         if (plist->component_kind == DEF_PARAM
1778             && !(plist->pl.param_flag & PROCESSED_PARAM)) {
1779             if (plist->pl.param_flag & OUT_STRING) {
1780                 f_print(fout, "\t%s *%s", plist->pl.param_type,
1781                         plist->pl.param_name);
1782             } else {
1783                 f_print(fout, "\t%s %s", plist->pl.param_type,
1784                         plist->pl.param_name);
1785             }
1786             plist->pl.param_flag |= PROCESSED_PARAM;
1787             for (plist1 = defp->pc.plists; plist1; plist1 = plist1->next) {
1788                 if ((plist1->component_kind == DEF_PARAM)
1789                     && streq(plist->pl.param_type, plist1->pl.param_type)
1790                     && !(plist1->pl.param_flag & PROCESSED_PARAM)) {
1791                     char *star = "";
1792                     char *pntr = strchr(plist1->pl.param_type, '*');
1793                     if (pntr)
1794                         star = "*";
1795                     if (plist1->pl.param_flag & OUT_STRING) {
1796                         f_print(fout, ", *%s%s", star, plist1->pl.param_name);
1797                     } else {
1798                         f_print(fout, ", %s%s", star, plist1->pl.param_name);
1799                     }
1800                     plist1->pl.param_flag |= PROCESSED_PARAM;
1801                 }
1802             }
1803             f_print(fout, ";\n");
1804         }
1805     }
1806 }
1807
1808 static void
1809 ucs_ProcTail_setup(definition * defp, int split_flag)
1810 {
1811     proc1_list *plist;
1812
1813     f_print(fout, "{\tafs_int32 rcode, code, newHost, thisHost, i, _ucount;\n");
1814     f_print(fout, "\tint chaseCount, pass, needsync;\n");
1815 #if 0 /* goes with block below */
1816     f_print(fout, "\tint j, inlist;\n");
1817 #endif
1818     f_print(fout, "\tstruct rx_connection *tc;\n");
1819     f_print(fout, "\tstruct rx_peer *rxp;\n");
1820     f_print(fout, "\tshort origLevel;\n\n");
1821     f_print(fout, "\tif (!aclient)\n");
1822     f_print(fout, "\t\treturn UNOENT;\n");
1823     f_print(fout, "\tLOCK_UBIK_CLIENT(aclient);\n\n");
1824     f_print(fout, "\t restart:\n");
1825     f_print(fout, "\torigLevel = aclient->initializationState;\n");
1826     f_print(fout, "\trcode = UNOSERVERS;\n");
1827     f_print(fout, "\tchaseCount = needsync = 0;\n\n");
1828 #if 0 /* We should do some sort of caching algorithm for this, but I need to think about it - shadow 26 jun 06 */
1829     f_print(fout, "\tinlist = 0;\n");
1830     f_print(fout, "\tLOCK_UCLNT_CACHE;\n");
1831     f_print(fout, "\tfor (j = 0; ((j < SYNCCOUNT) && calls_needsync[j]); j++) {\n");
1832     f_print(fout, "\t\tif (calls_needsync[j] == (int *)%s%s%s) {\n", prefix, PackagePrefix[PackageIndex], defp->pc.proc_name);
1833     f_print(fout, "\t\t\tinlist = needsync = 1;\n");
1834     f_print(fout, "\t\t\tbreak;\n");
1835     f_print(fout, "\t\t}\n");
1836     f_print(fout, "\t}\n");
1837     f_print(fout, "\tUNLOCK_UCLNT_CACHE;\n");
1838 #endif
1839     f_print(fout, "\t/* \n\t* First  pass, we try all servers that are up.\n\t* Second pass, we try all servers.\n\t*/\n");
1840     f_print(fout, "\tfor (pass = 0; pass < 2; pass++) {  /*p */\n");
1841     f_print(fout, "\t\t/* For each entry in our servers list */\n");
1842     f_print(fout, "\t\tfor (_ucount = 0;; _ucount++) {     /*s */\n\n");
1843     f_print(fout, "\t\tif (needsync) {\n");
1844     f_print(fout, "\t\t\t/* Need a sync site. Lets try to quickly find it */\n");
1845     f_print(fout, "\t\t\tif (aclient->syncSite) {\n");
1846     f_print(fout, "\t\t\t\tnewHost = aclient->syncSite;        /* already in network order */\n");
1847     f_print(fout, "\t\t\t\taclient->syncSite = 0;      /* Will reset if it works */\n");
1848     f_print(fout, "\t\t\t} else if (aclient->conns[3]) {\n");
1849     f_print(fout, "\t\t\t\t/* If there are fewer than four db servers in a cell,\n");
1850     f_print(fout, "\t\t\t\t* there's no point in making the GetSyncSite call.\n");
1851     f_print(fout, "\t\t\t\t* At best, it's a wash. At worst, it results in more\n");
1852     f_print(fout, "\t\t\t\t* RPCs than you would otherwise make.\n");
1853     f_print(fout, "\t\t\t\t*/\n");
1854     f_print(fout, "\t\t\t\ttc = aclient->conns[_ucount];\n");
1855     f_print(fout, "\t\t\t\tif (tc && rx_ConnError(tc)) {\n");
1856     f_print(fout, "\t\t\t\t\taclient->conns[_ucount] = tc = ubik_RefreshConn(tc);\n");
1857     f_print(fout, "\t\t\t\t}\n");
1858     f_print(fout, "\t\t\t\tif (!tc)\n");
1859     f_print(fout, "\t\t\t\t\tbreak;\n");
1860     f_print(fout, "\t\t\t\tcode = VOTE_GetSyncSite(tc, &newHost);\n");
1861     f_print(fout, "\t\t\t\tif (aclient->initializationState != origLevel)\n");
1862     f_print(fout, "\t\t\t\t\tgoto restart;   /* somebody did a ubik_ClientInit */\n");
1863     f_print(fout, "\t\t\t\tif (code)\n");
1864     f_print(fout, "\t\t\t\t\tnewHost = 0;\n");
1865     f_print(fout, "\t\t\t\tnewHost = htonl(newHost);   /* convert to network order */\n");
1866     f_print(fout, "\t\t\t} else {\n");
1867     f_print(fout, "\t\t\t\tnewHost = 0;\n");
1868     f_print(fout, "\t\t\t}\n");
1869     f_print(fout, "\t\t\tif (newHost) {\n");
1870     f_print(fout, "\t\t\t\t/* position count at the appropriate slot in the client\n");
1871     f_print(fout, "\t\t\t\t* structure and retry. If we can't find in slot, we'll\n");
1872     f_print(fout, "\t\t\t\t* just continue through the whole list \n");
1873     f_print(fout, "\t\t\t\t*/\n");
1874     f_print(fout, "\t\t\t\tfor (i = 0; i < MAXSERVERS && aclient->conns[i]; i++) {\n");
1875     f_print(fout, "\t\t\t\t\trxp = rx_PeerOf(aclient->conns[i]);\n");
1876     f_print(fout, "\t\t\t\t\tthisHost = rx_HostOf(rxp);\n");
1877     f_print(fout, "\t\t\t\t\tif (!thisHost)\n");
1878     f_print(fout, "\t\t\t\t\t\tbreak;\n");
1879     f_print(fout, "\t\t\t\t\tif (thisHost == newHost) {\n");
1880     f_print(fout, "\t\t\t\t\t\tif (chaseCount++ > 2)\n");
1881     f_print(fout, "\t\t\t\t\t\t\tbreak;  /* avoid loop asking */\n");
1882     f_print(fout, "\t\t\t\t\t\t_ucount = i;  /* this index is the sync site */\n");
1883     f_print(fout, "\t\t\t\t\t\tbreak;\n");
1884     f_print(fout, "\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}\n");
1885     f_print(fout, "\t\t/*needsync */\n");
1886     f_print(fout, "\t\ttc = aclient->conns[_ucount];\n");
1887     f_print(fout, "\t\tif (tc && rx_ConnError(tc)) {\n");
1888     f_print(fout, "\t\t\taclient->conns[_ucount] = tc = ubik_RefreshConn(tc);\n");
1889     f_print(fout, "\t\t}\n");
1890     f_print(fout, "\t\tif (!tc)\n");
1891     f_print(fout, "\t\t\tbreak;\n\n");
1892     f_print(fout, "\t\tif ((pass == 0) && (aclient->states[_ucount] & CFLastFailed)) {\n");
1893     f_print(fout, "\t\t\tcontinue;       /* this guy's down */\n");
1894     f_print(fout, "\t\t}\n");
1895
1896     f_print(fout, "\t\trcode = %s%s%s(tc\n", prefix, PackagePrefix[PackageIndex], defp->pc.proc_name);
1897     for (plist = defp->pc.plists; plist; plist = plist->next) {
1898         if (plist->component_kind == DEF_PARAM) {
1899             plist->pl.param_flag &= ~PROCESSED_PARAM;
1900             f_print(fout, ", %s", plist->pl.param_name);
1901         }
1902     }
1903     f_print(fout, ");\n");
1904     f_print(fout, "\t\tif (aclient->initializationState != origLevel) {\n");
1905     f_print(fout, "\t\t\t/* somebody did a ubik_ClientInit */\n");
1906     f_print(fout, "\t\t\tif (rcode)\n");
1907     f_print(fout, "\t\t\t\tgoto restart;       /* call failed */\n");
1908     f_print(fout, "\t\t\telse\n");
1909     f_print(fout, "\t\t\t\tgoto done;  /* call suceeded */\n");
1910     f_print(fout, "\t\t}\n");
1911     f_print(fout, "\t\tif (rcode < 0) {    /* network errors */\n");
1912     f_print(fout, "\t\t\taclient->states[_ucount] |= CFLastFailed; /* Mark server down */\n");
1913     f_print(fout, "\t\t} else if (rcode == UNOTSYNC) {\n");
1914     f_print(fout, "\t\t\tneedsync = 1;\n");
1915     f_print(fout, "\t\t} else if (rcode != UNOQUORUM) {\n");
1916     f_print(fout, "\t\t\t/* either misc ubik code, or misc appl code, or success. */\n");
1917     f_print(fout, "\t\t\taclient->states[_ucount] &= ~CFLastFailed;        /* mark server up*/\n");
1918     f_print(fout, "\t\t\tgoto done;      /* all done */\n");
1919     f_print(fout, "\t\t}\n");
1920     f_print(fout, "\t\t}                       /*s */\n");
1921     f_print(fout, "\t}                           /*p */\n\n");
1922     f_print(fout, "\tdone:\n");
1923     f_print(fout, "\tif (needsync) {\n");
1924
1925 #if 0 /* We should do some sort of caching algorithm for this, but I need to think about it - shadow 26 jun 06 */
1926     f_print(fout, "\t\tif (!inlist) {          /* Remember proc call that needs sync site */\n");
1927     f_print(fout, "\t\t\tLOCK_UCLNT_CACHE;\n");
1928     f_print(fout, "\t\t\tcalls_needsync[synccount % SYNCCOUNT] = (int *)%s%s%s;\n", prefix, PackagePrefix[PackageIndex], defp->pc.proc_name);
1929     f_print(fout, "\t\t\tsynccount++;\n");
1930     f_print(fout, "\t\t\tUNLOCK_UCLNT_CACHE;\n");
1931     f_print(fout, "\t\t\tinlist = 1;\n");
1932     f_print(fout, "\t\t}\n");
1933 #endif
1934     f_print(fout, "\t\tif (!rcode) {           /* Remember the sync site - cmd successful */\n");
1935     f_print(fout, "\t\t\trxp = rx_PeerOf(aclient->conns[_ucount]);\n");
1936     f_print(fout, "\t\t\taclient->syncSite = rx_HostOf(rxp);\n");
1937     f_print(fout, "\t\t}\n");
1938     f_print(fout, "\t}\n");
1939     f_print(fout, "\tUNLOCK_UBIK_CLIENT(aclient);\n");
1940     f_print(fout, "\treturn rcode;\n}\n\n");
1941 }
1942
1943
1944 static int
1945 opcode_holes_exist(void)
1946 {
1947     int i;
1948
1949     for (i = lowest_opcode[PackageIndex]; i < highest_opcode[PackageIndex];
1950          i++) {
1951         if (!opcodenum_is_defined(i))
1952             return 1;
1953     }
1954     return 0;
1955 }
1956
1957
1958 void
1959 er_Proc_CodeGeneration(void)
1960 {
1961     int temp;
1962
1963     temp = PackageIndex;
1964     if (!combinepackages)
1965         PackageIndex = 0;
1966     for (; PackageIndex <= temp; PackageIndex++) {
1967         if (proc_defined[PackageIndex] == NULL)
1968             continue;
1969         if (combinepackages || opcode_holes_exist()) {
1970             er_HeadofOldStyleProc_setup();
1971             er_BodyofOldStyleProc_setup();
1972             er_TailofOldStyleProc_setup();
1973         } else {
1974             er_ProcDeclExterns_setup();
1975             er_ProcProcsArray_setup();
1976             er_ProcMainBody_setup();
1977         }
1978     }
1979     PackageIndex = temp;
1980 }
1981
1982
1983 static void
1984 er_ProcDeclExterns_setup(void)
1985 {
1986     list *listp;
1987     definition *defp;
1988
1989     if ( !Sflag )
1990         return;
1991
1992     f_print(fout, "\n");
1993     for (listp = proc_defined[PackageIndex]; listp != NULL;
1994          listp = listp->next) {
1995         defp = (definition *) listp->val;
1996         if (defp->pc.proc_serverstub) {
1997             f_print(fout, "afs_int32 %s();\n", defp->pc.proc_serverstub);
1998         }
1999     }
2000 }
2001
2002
2003 static void
2004 er_ProcProcsArray_setup(void)
2005 {
2006     list *listp;
2007     definition *defp;
2008
2009     if ((listp = proc_defined[PackageIndex])) {
2010         defp = (definition *) listp->val;
2011         if ( cflag )  {
2012             f_print(fout, "\nstatic char *opnames%d[] = {\"%s%s\"",
2013                         PackageIndex, defp->pc.proc_prefix, defp->pc.proc_name);
2014         }
2015         else {
2016             if (defp->pc.proc_serverstub) {
2017                 f_print(fout, "\nstatic afs_int32 (*StubProcsArray%d[])() = {%s",
2018                         PackageIndex, defp->pc.proc_serverstub);
2019             } else {
2020                 f_print(fout,
2021                         "\nstatic afs_int32 (*StubProcsArray%d[])(struct rx_call *z_call, XDR *z_xdrs) = {_%s%s%s",
2022                         PackageIndex, prefix, defp->pc.proc_prefix,
2023                         ((definition *) listp->val)->pc.proc_name);
2024                 defp = (definition *) listp->val;
2025             }
2026         }
2027         listp = listp->next;
2028     }
2029     for (; listp != NULL; listp = listp->next) {
2030         defp = (definition *) listp->val;
2031         if ( cflag ) {
2032             f_print(fout, ", \"%s%s\"",defp->pc.proc_prefix,defp->pc.proc_name);
2033         }
2034         else {
2035             if (defp->pc.proc_serverstub) {
2036                 f_print(fout, ",%s", defp->pc.proc_serverstub);
2037             } else {
2038                 f_print(fout, ", _%s%s%s", prefix, defp->pc.proc_prefix,
2039                         defp->pc.proc_name);
2040             }
2041         }
2042     }
2043     f_print(fout, "};\n\n");
2044 }
2045
2046
2047 static void
2048 er_ProcMainBody_setup(void)
2049 {
2050     if ( cflag ) {
2051         f_print(fout, "char *%sTranslateOpCode(int op)\n{\n",
2052                 PackagePrefix[PackageIndex]);
2053         f_print(fout, "\tif (op < %sLOWEST_OPCODE || op > %sHIGHEST_OPCODE)\n\t\treturn NULL;\n",
2054                 PackagePrefix[PackageIndex], PackagePrefix[PackageIndex]);
2055         f_print(fout, "\treturn opnames%d[op - %sLOWEST_OPCODE];\n}\n",
2056                 PackageIndex, PackagePrefix[PackageIndex]);
2057         return;
2058     }
2059     f_print(fout, "int %s%sExecuteRequest(struct rx_call *z_call)\n",
2060             prefix, PackagePrefix[PackageIndex]);
2061     f_print(fout, "{\n\tint op;\n");
2062     f_print(fout, "\tXDR z_xdrs;\n");
2063     f_print(fout, "\t" "afs_int32 z_result;\n\n");
2064     f_print(fout, "\txdrrx_create(&z_xdrs, z_call, XDR_DECODE);\n");
2065     f_print(fout,
2066             "\tif (!xdr_int(&z_xdrs, &op))\n\t\tz_result = RXGEN_DECODE;\n");
2067     f_print(fout,
2068             "\telse if (op < %sLOWEST_OPCODE || op > %sHIGHEST_OPCODE)\n\t\tz_result = RXGEN_OPCODE;\n",
2069             PackagePrefix[PackageIndex], PackagePrefix[PackageIndex]);
2070     f_print(fout,
2071             "\telse\n\t\tz_result = (*StubProcsArray%d[op - %sLOWEST_OPCODE])(z_call, &z_xdrs);\n",
2072             PackageIndex, PackagePrefix[PackageIndex]);
2073     f_print(fout, "\treturn hton_syserr_conv(z_result);\n}\n");
2074 }
2075
2076
2077 static void
2078 er_HeadofOldStyleProc_setup(void)
2079 {
2080     if ( cflag ) {
2081         f_print(fout, "char *%sTranslateOpCode(int op)\n{\n",
2082             (combinepackages ? MasterPrefix : PackagePrefix[PackageIndex]));
2083     }
2084     else {
2085         f_print(fout,
2086                 "\nint %s%sExecuteRequest (struct rx_call *z_call)\n",
2087                 prefix,
2088                 (combinepackages ? MasterPrefix : PackagePrefix[PackageIndex]));
2089         f_print(fout, "{\n");
2090         f_print(fout, "\tint op;\n");
2091         f_print(fout, "\tXDR z_xdrs;\n");
2092         f_print(fout, "\t" "afs_int32 z_result;\n\n");
2093         f_print(fout, "\txdrrx_create(&z_xdrs, z_call, XDR_DECODE);\n");
2094         f_print(fout, "\tz_result = RXGEN_DECODE;\n");
2095         f_print(fout, "\tif (!xdr_int(&z_xdrs, &op)) goto fail;\n");
2096     }
2097     f_print(fout, "\tswitch (op) {\n");
2098 }
2099
2100 static void
2101 er_BodyofOldStyleProc_setup(void)
2102 {
2103     list *listp;
2104
2105     if (combinepackages) {
2106         int temp = PackageIndex;
2107         for (PackageIndex = 0; PackageIndex <= temp; PackageIndex++) {
2108             for (listp = proc_defined[PackageIndex]; listp != NULL;
2109                  listp = listp->next)
2110                 proc_er_case((definition *) listp->val);
2111         }
2112         PackageIndex = temp;
2113     } else {
2114         for (listp = proc_defined[PackageIndex]; listp != NULL;
2115              listp = listp->next)
2116             proc_er_case((definition *) listp->val);
2117     }
2118 }
2119
2120
2121 static void
2122 proc_er_case(definition * defp)
2123 {
2124     if ( cflag ) {
2125         f_print(fout, "\t\tcase %d:", defp->pc.proc_opcodenum);
2126         f_print(fout, "\treturn \"%s%s\";\n",
2127                 defp->pc.proc_prefix, defp->pc.proc_name);
2128         return;
2129     }
2130     if (opcodesnotallowed[PackageIndex]) {
2131         f_print(fout, "\t\tcase %d:\n", defp->pc.proc_opcodenum);
2132     } else {
2133         f_print(fout, "\t\tcase %s:\n", defp->pc.proc_opcodename);
2134     }
2135     if (defp->pc.proc_serverstub) {
2136         f_print(fout, "\t\t\tz_result = %s(z_call, &z_xdrs);\n",
2137                 defp->pc.proc_serverstub);
2138     } else {
2139         f_print(fout, "\t\t\tz_result = _%s%s%s(z_call, &z_xdrs);\n", prefix,
2140                 defp->pc.proc_prefix, defp->pc.proc_name);
2141     }
2142     f_print(fout, "\t\t\tbreak;\n");
2143 }
2144
2145
2146 static void
2147 er_TailofOldStyleProc_setup(void)
2148 {
2149     f_print(fout, "\t\tdefault:\n");
2150     if ( cflag ) {
2151         f_print(fout, "\t\t\treturn NULL;\n\t}\n}\n");
2152         return;
2153     }
2154     f_print(fout, "\t\t\tz_result = RXGEN_OPCODE;\n");
2155     f_print(fout, "\t\t\tbreak;\n\t}\n");
2156     f_print(fout, "fail:\n");
2157     f_print(fout, "\treturn z_result;\n}\n");
2158 }
2159
2160 static void
2161 h_ProcMainBody_setup(void)
2162 {
2163     f_print(fout,"\nextern int %s%sExecuteRequest(struct rx_call *);\n",
2164             prefix, PackagePrefix[PackageIndex]);
2165 }
2166
2167 static void
2168 h_HeadofOldStyleProc_setup(void)
2169 {
2170     f_print(fout,"\nextern int %s%sExecuteRequest(struct rx_call *);\n",
2171             prefix,
2172             (combinepackages ? MasterPrefix : PackagePrefix[PackageIndex]));
2173 }
2174
2175 void
2176 h_Proc_CodeGeneration(void)
2177 {
2178     int temp;
2179
2180     temp = PackageIndex;
2181     if (!combinepackages)
2182         PackageIndex = 0;
2183     for (; PackageIndex <= temp; PackageIndex++) {
2184         if (combinepackages || opcode_holes_exist()) {
2185             h_HeadofOldStyleProc_setup();
2186         } else {
2187             h_ProcMainBody_setup();
2188         }
2189     }
2190     PackageIndex = temp;
2191 }
2192
2193 void
2194 h_opcode_stats(void)
2195 {
2196     if (combinepackages) {
2197         f_print(fout,
2198                 "\n/* Opcode-related useful stats for Master package: %s */\n",
2199                 MasterPrefix);
2200         f_print(fout, "#define %sLOWEST_OPCODE   %d\n", MasterPrefix,
2201                 master_lowest_opcode);
2202         f_print(fout, "#define %sHIGHEST_OPCODE %d\n", MasterPrefix,
2203                 master_highest_opcode);
2204         f_print(fout, "#define %sNUMBER_OPCODES %d\n\n", MasterPrefix,
2205                 master_no_of_opcodes);
2206         if (xflag) {
2207             f_print(fout, "#define %sNO_OF_STAT_FUNCS\t%d\n\n", MasterPrefix,
2208                     no_of_stat_funcs_header[0]);
2209             f_print(fout, "AFS_RXGEN_EXPORT\n");
2210             f_print(fout, "extern const char *%sfunction_names[];\n\n",
2211                     MasterPrefix);
2212         }
2213     } else {
2214         int i;
2215         for (i = 0; i <= PackageIndex; i++) {
2216             f_print(fout,
2217                     "\n/* Opcode-related useful stats for package: %s */\n",
2218                     PackagePrefix[i]);
2219             f_print(fout, "#define %sLOWEST_OPCODE   %d\n", PackagePrefix[i],
2220                     lowest_opcode[i]);
2221             f_print(fout, "#define %sHIGHEST_OPCODE     %d\n",
2222                     PackagePrefix[i], highest_opcode[i]);
2223             f_print(fout, "#define %sNUMBER_OPCODES     %d\n\n",
2224                     PackagePrefix[i], no_of_opcodes[i]);
2225             if (xflag) {
2226                 f_print(fout, "#define %sNO_OF_STAT_FUNCS\t%d\n\n",
2227                         PackagePrefix[i], no_of_stat_funcs_header[i]);
2228                 f_print(fout, "AFS_RXGEN_EXPORT\n");
2229                 f_print(fout, "extern const char *%sfunction_names[];\n\n",
2230                         PackagePrefix[i]);
2231             }
2232         }
2233     }
2234 }
2235
2236
2237 void
2238 generate_multi_macros(definition * defp)
2239 {
2240     char *startname = SplitStart, *endname = SplitEnd;
2241     proc1_list *plist;
2242     int numofparams;
2243     int first = 0;
2244
2245     if (!hflag)
2246         return;
2247     if (!Multi_Init) {
2248         Multi_Init = 1;
2249         f_print(fout, "\n#include <rx/rx_multi.h>");
2250     }
2251     f_print(fout, "\n#define multi_%s%s(", PackagePrefix[PackageIndex],
2252             defp->pc.proc_name);
2253     for (plist = defp->pc.plists; plist; plist = plist->next) {
2254         if (plist->component_kind == DEF_PARAM) {
2255             if (!first) {
2256                 first = 1;
2257                 f_print(fout, "%s", plist->pl.param_name);
2258             } else {
2259                 f_print(fout, ", %s", plist->pl.param_name);
2260             }
2261         }
2262     }
2263     f_print(fout, ") \\\n");
2264     if (!startname)
2265         startname = "Start";
2266     if (!endname)
2267         endname = "End";
2268     f_print(fout, "\tmulti_Body(%s%s%s(multi_call", startname,
2269             PackagePrefix[PackageIndex], defp->pc.proc_name);
2270     do_split(defp, OUT, &numofparams, DEF_OUTPARAM, 0);
2271     for (plist = defp->pc.plists; plist; plist = plist->next) {
2272         if (plist->component_kind == DEF_PARAM)
2273             f_print(fout, ", %s", plist->pl.param_name);
2274     }
2275     do_split(defp, OUT, &numofparams, DEF_OUTPARAM, 1);
2276     f_print(fout, "), %s%s%s(multi_call", endname,
2277             PackagePrefix[PackageIndex], defp->pc.proc_name);
2278     do_split(defp, IN, &numofparams, DEF_INPARAM, 0);
2279     for (plist = defp->pc.plists; plist; plist = plist->next) {
2280         if (plist->component_kind == DEF_PARAM) {
2281             f_print(fout, ", %s", plist->pl.param_name);
2282         }
2283     }
2284     do_split(defp, IN, &numofparams, DEF_INPARAM, 1);
2285     f_print(fout, "))\n\n");
2286 }
2287
2288
2289 int
2290 IsRxgenToken(token * tokp)
2291 {
2292     if (tokp->kind == TOK_PACKAGE || tokp->kind == TOK_PREFIX
2293         || tokp->kind == TOK_SPECIAL || tokp->kind == TOK_STARTINGOPCODE
2294         || tokp->kind == TOK_SPLITPREFIX || tokp->kind == TOK_PROC
2295         || tokp->kind == TOK_STATINDEX)
2296         return 1;
2297     return 0;
2298 }
2299
2300 int
2301 IsRxgenDefinition(definition * def)
2302 {
2303     if (def->def_kind == DEF_PACKAGE || def->def_kind == DEF_PREFIX
2304         || def->def_kind == DEF_SPECIAL || def->def_kind == DEF_STARTINGOPCODE
2305         || def->def_kind == DEF_SPLITPREFIX || def->def_kind == DEF_PROC)
2306         return 1;
2307     return 0;
2308 }