Current Path : /usr/src/usr.bin/rpcgen/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/usr.bin/rpcgen/rpc_parse.c |
/* * Sun RPC is a product of Sun Microsystems, Inc. and is provided for * unrestricted use provided that this legend is included on all tape * media and as a part of the software program in whole or part. Users * may copy or modify Sun RPC without charge, but are not authorized * to license or distribute it to anyone else except as part of a product or * program developed by the user. * * SUN RPC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE * WARRANTIES OF DESIGN, MERCHANTIBILITY AND FITNESS FOR A PARTICULAR * PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE. * * Sun RPC is provided with no support and without any obligation on the * part of Sun Microsystems, Inc. to assist in its use, correction, * modification or enhancement. * * SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE * INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY SUN RPC * OR ANY PART THEREOF. * * In no event will Sun Microsystems, Inc. be liable for any lost revenue * or profits or other special, indirect and consequential damages, even if * Sun has been advised of the possibility of such damages. * * Sun Microsystems, Inc. * 2550 Garcia Avenue * Mountain View, California 94043 */ #if 0 #ifndef lint #ident "@(#)rpc_parse.c 1.12 93/07/05 SMI" static char sccsid[] = "@(#)rpc_parse.c 1.8 89/02/22 (C) 1987 SMI"; #endif #endif #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/usr.bin/rpcgen/rpc_parse.c 152398 2005-11-13 21:17:24Z dwmalone $"); /* * rpc_parse.c, Parser for the RPC protocol compiler * Copyright (C) 1987 Sun Microsystems, Inc. */ #include <stdio.h> #include <string.h> #include "rpc/types.h" #include "rpc_parse.h" #include "rpc_scan.h" #include "rpc_util.h" #define ARGNAME "arg" static void isdefined( definition * ); static void def_struct( definition * ); static void def_program( definition * ); static void def_enum( definition * ); static void def_const( definition * ); static void def_union( definition * ); static void def_typedef( definition * ); static void get_declaration( declaration *, defkind ); static void get_prog_declaration( declaration *, defkind, int ); static void get_type(const char **, const char **, defkind); static void unsigned_dec(const char ** ); /* * return the next definition you see */ definition * get_definition(void) { definition *defp; token tok; defp = XALLOC(definition); get_token(&tok); switch (tok.kind) { case TOK_STRUCT: def_struct(defp); break; case TOK_UNION: def_union(defp); break; case TOK_TYPEDEF: def_typedef(defp); break; case TOK_ENUM: def_enum(defp); break; case TOK_PROGRAM: def_program(defp); break; case TOK_CONST: def_const(defp); break; case TOK_EOF: return (NULL); default: error("definition keyword expected"); } scan(TOK_SEMICOLON, &tok); isdefined(defp); return (defp); } static void isdefined(definition *defp) { STOREVAL(&defined, defp); } static void def_struct(definition *defp) { token tok; declaration dec; decl_list *decls; decl_list **tailp; defp->def_kind = DEF_STRUCT; scan(TOK_IDENT, &tok); defp->def_name = tok.str; scan(TOK_LBRACE, &tok); tailp = &defp->def.st.decls; do { get_declaration(&dec, DEF_STRUCT); decls = XALLOC(decl_list); decls->decl = dec; *tailp = decls; tailp = &decls->next; scan(TOK_SEMICOLON, &tok); peek(&tok); } while (tok.kind != TOK_RBRACE); get_token(&tok); *tailp = NULL; } static void def_program(definition *defp) { token tok; declaration dec; decl_list *decls; decl_list **tailp; version_list *vlist; version_list **vtailp; proc_list *plist; proc_list **ptailp; int num_args; bool_t isvoid = FALSE; /* whether first argument is void */ defp->def_kind = DEF_PROGRAM; scan(TOK_IDENT, &tok); defp->def_name = tok.str; scan(TOK_LBRACE, &tok); vtailp = &defp->def.pr.versions; tailp = &defp->def.st.decls; scan(TOK_VERSION, &tok); do { scan(TOK_IDENT, &tok); vlist = XALLOC(version_list); vlist->vers_name = tok.str; scan(TOK_LBRACE, &tok); ptailp = &vlist->procs; do { /* get result type */ plist = XALLOC(proc_list); get_type(&plist->res_prefix, &plist->res_type, DEF_PROGRAM); if (streq(plist->res_type, "opaque")) { error("illegal result type"); } scan(TOK_IDENT, &tok); plist->proc_name = tok.str; scan(TOK_LPAREN, &tok); /* get args - first one */ num_args = 1; isvoid = FALSE; /* * type of DEF_PROGRAM in the first * get_prog_declaration and DEF_STURCT in the next * allows void as argument if it is the only argument */ get_prog_declaration(&dec, DEF_PROGRAM, num_args); if (streq(dec.type, "void")) isvoid = TRUE; decls = XALLOC(decl_list); plist->args.decls = decls; decls->decl = dec; tailp = &decls->next; /* get args */ while (peekscan(TOK_COMMA, &tok)) { num_args++; get_prog_declaration(&dec, DEF_STRUCT, num_args); decls = XALLOC(decl_list); decls->decl = dec; *tailp = decls; if (streq(dec.type, "void")) isvoid = TRUE; tailp = &decls->next; } /* multiple arguments are only allowed in newstyle */ if (!newstyle && num_args > 1) { error("only one argument is allowed"); } if (isvoid && num_args > 1) { error("illegal use of void in program definition"); } *tailp = NULL; scan(TOK_RPAREN, &tok); scan(TOK_EQUAL, &tok); scan_num(&tok); scan(TOK_SEMICOLON, &tok); plist->proc_num = tok.str; plist->arg_num = num_args; *ptailp = plist; ptailp = &plist->next; peek(&tok); } while (tok.kind != TOK_RBRACE); *ptailp = NULL; *vtailp = vlist; vtailp = &vlist->next; scan(TOK_RBRACE, &tok); scan(TOK_EQUAL, &tok); scan_num(&tok); vlist->vers_num = tok.str; /* make the argument structure name for each arg */ for (plist = vlist->procs; plist != NULL; plist = plist->next) { plist->args.argname = make_argname(plist->proc_name, vlist->vers_num); /* free the memory ?? */ } scan(TOK_SEMICOLON, &tok); scan2(TOK_VERSION, TOK_RBRACE, &tok); } while (tok.kind == TOK_VERSION); scan(TOK_EQUAL, &tok); scan_num(&tok); defp->def.pr.prog_num = tok.str; *vtailp = NULL; } static void def_enum(definition *defp) { token tok; enumval_list *elist; enumval_list **tailp; defp->def_kind = DEF_ENUM; scan(TOK_IDENT, &tok); defp->def_name = tok.str; scan(TOK_LBRACE, &tok); tailp = &defp->def.en.vals; do { scan(TOK_IDENT, &tok); elist = XALLOC(enumval_list); elist->name = tok.str; elist->assignment = NULL; scan3(TOK_COMMA, TOK_RBRACE, TOK_EQUAL, &tok); if (tok.kind == TOK_EQUAL) { scan_num(&tok); elist->assignment = tok.str; scan2(TOK_COMMA, TOK_RBRACE, &tok); } *tailp = elist; tailp = &elist->next; } while (tok.kind != TOK_RBRACE); *tailp = NULL; } static void def_const(definition *defp) { token tok; defp->def_kind = DEF_CONST; scan(TOK_IDENT, &tok); defp->def_name = tok.str; scan(TOK_EQUAL, &tok); scan2(TOK_IDENT, TOK_STRCONST, &tok); defp->def.co = tok.str; } static void def_union(definition *defp) { token tok; declaration dec; case_list *cases; case_list **tailp; int flag; defp->def_kind = DEF_UNION; scan(TOK_IDENT, &tok); defp->def_name = tok.str; scan(TOK_SWITCH, &tok); scan(TOK_LPAREN, &tok); get_declaration(&dec, DEF_UNION); defp->def.un.enum_decl = dec; tailp = &defp->def.un.cases; scan(TOK_RPAREN, &tok); scan(TOK_LBRACE, &tok); scan(TOK_CASE, &tok); while (tok.kind == TOK_CASE) { scan2(TOK_IDENT, TOK_CHARCONST, &tok); cases = XALLOC(case_list); cases->case_name = tok.str; scan(TOK_COLON, &tok); /* now peek at next token */ flag = 0; if (peekscan(TOK_CASE, &tok)){ do { scan2(TOK_IDENT, TOK_CHARCONST, &tok); cases->contflag = 1; /* continued case statement */ *tailp = cases; tailp = &cases->next; cases = XALLOC(case_list); cases->case_name = tok.str; scan(TOK_COLON, &tok); } while (peekscan(TOK_CASE, &tok)); } else if (flag) { *tailp = cases; tailp = &cases->next; cases = XALLOC(case_list); }; get_declaration(&dec, DEF_UNION); cases->case_decl = dec; cases->contflag = 0; /* no continued case statement */ *tailp = cases; tailp = &cases->next; scan(TOK_SEMICOLON, &tok); scan3(TOK_CASE, TOK_DEFAULT, TOK_RBRACE, &tok); } *tailp = NULL; if (tok.kind == TOK_DEFAULT) { scan(TOK_COLON, &tok); get_declaration(&dec, DEF_UNION); defp->def.un.default_decl = XALLOC(declaration); *defp->def.un.default_decl = dec; scan(TOK_SEMICOLON, &tok); scan(TOK_RBRACE, &tok); } else { defp->def.un.default_decl = NULL; } } static const char *reserved_words[] = { "array", "bytes", "destroy", "free", "getpos", "inline", "pointer", "reference", "setpos", "sizeof", "union", "vector", NULL }; static const char *reserved_types[] = { "opaque", "string", NULL }; /* * check that the given name is not one that would eventually result in * xdr routines that would conflict with internal XDR routines. */ static void check_type_name(const char *name, int new_type) { int i; char tmp[100]; for (i = 0; reserved_words[i] != NULL; i++) { if (strcmp(name, reserved_words[i]) == 0) { sprintf(tmp, "illegal (reserved) name :\'%s\' in type definition", name); error(tmp); } } if (new_type) { for (i = 0; reserved_types[i] != NULL; i++) { if (strcmp(name, reserved_types[i]) == 0) { sprintf(tmp, "illegal (reserved) name :\'%s\' in type definition", name); error(tmp); } } } } static void def_typedef(definition *defp) { declaration dec; defp->def_kind = DEF_TYPEDEF; get_declaration(&dec, DEF_TYPEDEF); defp->def_name = dec.name; check_type_name(dec.name, 1); defp->def.ty.old_prefix = dec.prefix; defp->def.ty.old_type = dec.type; defp->def.ty.rel = dec.rel; defp->def.ty.array_max = dec.array_max; } static void get_declaration(declaration *dec, defkind dkind) { token tok; get_type(&dec->prefix, &dec->type, dkind); dec->rel = REL_ALIAS; if (streq(dec->type, "void")) { return; } check_type_name(dec->type, 0); scan2(TOK_STAR, TOK_IDENT, &tok); if (tok.kind == TOK_STAR) { dec->rel = REL_POINTER; scan(TOK_IDENT, &tok); } dec->name = tok.str; if (peekscan(TOK_LBRACKET, &tok)) { if (dec->rel == REL_POINTER) { error("no array-of-pointer declarations -- use typedef"); } dec->rel = REL_VECTOR; scan_num(&tok); dec->array_max = tok.str; scan(TOK_RBRACKET, &tok); } else if (peekscan(TOK_LANGLE, &tok)) { if (dec->rel == REL_POINTER) { error("no array-of-pointer declarations -- use typedef"); } dec->rel = REL_ARRAY; if (peekscan(TOK_RANGLE, &tok)) { dec->array_max = "~0"; /* unspecified size, use max */ } else { scan_num(&tok); dec->array_max = tok.str; scan(TOK_RANGLE, &tok); } } if (streq(dec->type, "opaque")) { if (dec->rel != REL_ARRAY && dec->rel != REL_VECTOR) { error("array declaration expected"); } } else if (streq(dec->type, "string")) { if (dec->rel != REL_ARRAY) { error("variable-length array declaration expected"); } } } static void get_prog_declaration(declaration *dec, defkind dkind, int num) { token tok; char name[10]; /* argument name */ if (dkind == DEF_PROGRAM) { peek(&tok); if (tok.kind == TOK_RPAREN) { /* no arguments */ dec->rel = REL_ALIAS; dec->type = "void"; dec->prefix = NULL; dec->name = NULL; return; } } get_type(&dec->prefix, &dec->type, dkind); dec->rel = REL_ALIAS; if (peekscan(TOK_IDENT, &tok)) /* optional name of argument */ strcpy(name, tok.str); else sprintf(name, "%s%d", ARGNAME, num); /* default name of argument */ dec->name = (char *) xstrdup(name); if (streq(dec->type, "void")) { return; } if (streq(dec->type, "opaque")) { error("opaque -- illegal argument type"); } if (peekscan(TOK_STAR, &tok)) { if (streq(dec->type, "string")) { error("pointer to string not allowed in program arguments"); } dec->rel = REL_POINTER; if (peekscan(TOK_IDENT, &tok)) { /* optional name of argument */ dec->name = xstrdup(tok.str); } } if (peekscan(TOK_LANGLE, &tok)) { if (!streq(dec->type, "string")) { error("arrays cannot be declared as arguments to procedures -- use typedef"); } dec->rel = REL_ARRAY; if (peekscan(TOK_RANGLE, &tok)) { dec->array_max = "~0"; /* unspecified size, use max */ } else { scan_num(&tok); dec->array_max = tok.str; scan(TOK_RANGLE, &tok); } } if (streq(dec->type, "string")) { if (dec->rel != REL_ARRAY) { /* * .x specifies just string as * type of argument * - make it string<> */ dec->rel = REL_ARRAY; dec->array_max = "~0"; /* unspecified size, use max */ } } } static void get_type(const char **prefixp, const char **typep, defkind dkind) { token tok; *prefixp = NULL; get_token(&tok); switch (tok.kind) { case TOK_IDENT: *typep = tok.str; break; case TOK_STRUCT: case TOK_ENUM: case TOK_UNION: *prefixp = tok.str; scan(TOK_IDENT, &tok); *typep = tok.str; break; case TOK_UNSIGNED: unsigned_dec(typep); break; case TOK_SHORT: *typep = "short"; (void) peekscan(TOK_INT, &tok); break; case TOK_LONG: *typep = "long"; (void) peekscan(TOK_INT, &tok); break; case TOK_HYPER: *typep = "int64_t"; (void) peekscan(TOK_INT, &tok); break; case TOK_VOID: if (dkind != DEF_UNION && dkind != DEF_PROGRAM) { error("voids allowed only inside union and program definitions with one argument"); } *typep = tok.str; break; case TOK_STRING: case TOK_OPAQUE: case TOK_CHAR: case TOK_INT: case TOK_FLOAT: case TOK_DOUBLE: case TOK_BOOL: case TOK_QUAD: *typep = tok.str; break; default: error("expected type specifier"); } } static void unsigned_dec(const char **typep) { token tok; peek(&tok); switch (tok.kind) { case TOK_CHAR: get_token(&tok); *typep = "u_char"; break; case TOK_SHORT: get_token(&tok); *typep = "u_short"; (void) peekscan(TOK_INT, &tok); break; case TOK_LONG: get_token(&tok); *typep = "u_long"; (void) peekscan(TOK_INT, &tok); break; case TOK_HYPER: get_token(&tok); *typep = "u_int64_t"; (void) peekscan(TOK_INT, &tok); break; case TOK_INT: get_token(&tok); *typep = "u_int"; break; default: *typep = "u_int"; break; } }