/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include "ndrgen.h" #include "y.tab.h" static void generate_struct(ndr_typeinfo_t *); static void generate_params(ndr_typeinfo_t *); static void generate_union(ndr_typeinfo_t *); static void generate_arg(ndr_node_t *); static void generate_member_macro(char *, char *, ndr_member_t *, ndr_typeinfo_t *); static void generate_member_macro_with_arg(char *, char *, ndr_member_t *, ndr_typeinfo_t *, ndr_node_t *); static void generate_prototypes(ndr_typeinfo_t *, char *); static void generate_member_prototypes(ndr_typeinfo_t *, ndr_member_t *, char *); static void generate_member(ndr_typeinfo_t *, ndr_member_t *); static void generate_aggregate_common_begin(ndr_typeinfo_t *); static void generate_aggregate_common_finish(ndr_typeinfo_t *); static void generate_typeinfo_packing(ndr_typeinfo_t *); static void generate_typeinfo_typeinfo(ndr_typeinfo_t *, int, char *); void generate(void) { ndr_typeinfo_t *ti; char fname_type[NDLBUFSZ]; (void) printf("\n"); for (ti = typeinfo_list; ti; ti = ti->next) { if (ti->is_extern || ti->advice.a_extern) { type_extern_suffix(ti, fname_type, NDLBUFSZ); (void) printf( "extern struct ndr_typeinfo ndt_%s;\n", fname_type); continue; } switch (ti->type_op) { case STRUCT_KW: if (ti->advice.a_operation) generate_params(ti); else generate_struct(ti); break; case UNION_KW: generate_union(ti); break; case TYPEDEF_KW: /* silently skip */ continue; case STRING_KW: case STAR: case LB: case BASIC_TYPE: if (!ti->is_referenced) { type_extern_suffix(ti, fname_type, NDLBUFSZ); (void) printf("extern ndt_%s\n", fname_type); type_null_decl(ti, fname_type, NDLBUFSZ); (void) printf("/* %s */\n", fname_type); } break; default: continue; } } } static void generate_struct(ndr_typeinfo_t *ti) { int i; ndr_member_t *mem; if (ti->advice.a_no_reorder) { /* just use generate_params(), which can safely do this */ generate_params(ti); return; } generate_aggregate_common_begin(ti); (void) printf(" /* do all basic elements first */\n"); for (i = 0; i < ti->n_member; i++) { mem = &ti->member[i]; if (mem->type->type_op != BASIC_TYPE) continue; generate_member(ti, mem); } (void) printf("\n"); (void) printf(" /* do all constructed elements w/o pointers */\n"); for (i = 0; i < ti->n_member; i++) { mem = &ti->member[i]; if (mem->type->type_op == BASIC_TYPE) continue; if (mem->type->has_pointers) continue; generate_member(ti, mem); } (void) printf("\n"); (void) printf(" /* do members with pointers in order */\n"); for (i = 0; i < ti->n_member; i++) { mem = &ti->member[i]; if (mem->type->type_op == BASIC_TYPE) continue; if (!mem->type->has_pointers) continue; generate_member(ti, mem); } generate_aggregate_common_finish(ti); } static void generate_params(ndr_typeinfo_t *ti) { int i; ndr_member_t *mem; generate_aggregate_common_begin(ti); (void) printf(" /* do all members in order */\n"); for (i = 0; i < ti->n_member; i++) { mem = &ti->member[i]; generate_member(ti, mem); } generate_aggregate_common_finish(ti); } static void generate_union(ndr_typeinfo_t *ti) { int i; ndr_member_t *mem; int have_default = 0; ndr_node_t *np; generate_aggregate_common_begin(ti); (void) printf(" switch (encl_ref->switch_is) {\n"); for (i = 0; i < ti->n_member; i++) { mem = &ti->member[i]; if ((np = mem->advice.a_case) != 0) { (void) printf(" case "); print_node(np->n_a_arg); (void) printf(":\n"); } else if ((np = mem->advice.a_default) != 0) { (void) printf(" default:\n"); if (have_default++) { compile_error("multiple defaults"); } } else { compile_error("syntax error"); } generate_member(ti, mem); (void) printf(" break;\n\n"); } if (!have_default) { (void) printf(" default:\n"); (void) printf(" NDR_SET_ERROR(encl_ref, " "NDR_ERR_SWITCH_VALUE_INVALID);\n"); (void) printf(" return 0;\n"); (void) printf(" break;\n"); } (void) printf(" }\n"); (void) printf("\n"); generate_aggregate_common_finish(ti); } static void generate_arg(ndr_node_t *np) { if (np) { if (np->label != IDENTIFIER && np->label != INTEGER) np = np->n_a_arg; } else { /* this is bogus */ np = n_cons(IDENTIFIER, sym_enter("?WHAT?")); } if (np->label == IDENTIFIER) (void) printf("val->%s", np->n_sym->name); else print_node(np); } static void generate_member_macro(char *memkind, char *macro, ndr_member_t *mem, ndr_typeinfo_t *ti) { char fname_type[NDLBUFSZ]; if (!macro) macro = ""; if (!ti) ti = mem->type; type_extern_suffix(ti, fname_type, NDLBUFSZ); if (memkind) { (void) printf(" NDR_%sMEMBER%s (%s, %s);\n", memkind, macro, fname_type, mem->name); } else { (void) printf(" NDR_MEMBER%s (%s, %s, %uUL);\n", macro, fname_type, mem->name, mem->pdu_offset); } } static void generate_member_macro_with_arg(char *memkind, char *macro, ndr_member_t *mem, ndr_typeinfo_t *ti, ndr_node_t *np) { char fname_type[NDLBUFSZ]; if (!macro) macro = "_WITH_ARG"; if (!ti) ti = mem->type; type_extern_suffix(ti, fname_type, NDLBUFSZ); if (memkind) { (void) printf(" NDR_%sMEMBER%s (%s, %s,\n", memkind, macro, fname_type, mem->name); } else { (void) printf(" NDR_MEMBER%s (%s, %s, %uUL,\n", macro, fname_type, mem->name, mem->pdu_offset); } (void) printf("\t\t"); generate_arg(np); (void) printf(");\n"); } static void generate_prototypes(ndr_typeinfo_t *ti, char *fname_type) { ndr_member_t *mem; int i; if (ti->type_op == STRUCT_KW && ti->advice.a_operation) { for (i = 0; i < ti->n_member; i++) { mem = &ti->member[i]; generate_member_prototypes(ti, mem, fname_type); } } } static void generate_member_prototypes(ndr_typeinfo_t *ti, ndr_member_t *mem, char *fname_type) { char val_buf[NDLBUFSZ]; ndr_typeinfo_t ptr; if (mem->type->type_op == UNION_KW) { if (!mem->advice.a_in && mem->advice.a_out) { ptr.type_op = STAR; ptr.type_down = ti; type_name_decl(&ptr, val_buf, NDLBUFSZ, "val"); (void) printf("\nextern void fixup%s(%s);\n", fname_type, val_buf); } } } static void generate_member(ndr_typeinfo_t *ti, ndr_member_t *mem) { static char *fixup[] = { "/*", " * Cannot use the canned offsets to unmarshall multiple", " * entry discriminated unions. The service must provide", " * this function to patch the offsets at runtime.", " */" }; char fname_type[NDLBUFSZ]; ndr_node_t *np; int is_reference = 0; char *memkind = 0; int cond_pending = 0; int i; if (ti->advice.a_operation) memkind = "TOPMOST_"; else if (ti->advice.a_interface) memkind = "PARAMS_"; if (mem->advice.a_in && !mem->advice.a_out) { cond_pending = 1; (void) printf(" if (NDR_DIR_IS_IN) {\n"); } if (!mem->advice.a_in && mem->advice.a_out) { cond_pending = 1; (void) printf(" if (NDR_DIR_IS_OUT) {\n"); } type_extern_suffix(ti, fname_type, NDLBUFSZ); switch (mem->type->type_op) { case BASIC_TYPE: case STRUCT_KW: generate_member_macro(memkind, 0, mem, 0); break; case UNION_KW: np = mem->advice.a_switch_is; if (!mem->advice.a_in && mem->advice.a_out) { for (i = 0; i < sizeof (fixup)/sizeof (fixup[0]); ++i) (void) printf("\t%s\n", fixup[i]); (void) printf("\tfixup%s(val);\n", fname_type); } generate_member_macro_with_arg(memkind, "_WITH_SWITCH_IS", mem, 0, np); break; case STAR: if (mem->advice.a_reference) is_reference = 1; else is_reference = 0; np = mem->advice.a_size_is; if (np) { generate_member_macro_with_arg(memkind, is_reference ? "_REF_WITH_SIZE_IS" : "_PTR_WITH_SIZE_IS", mem, mem->type->type_down, np); break; } np = mem->advice.a_length_is; if (np) { generate_member_macro_with_arg(memkind, is_reference ? "_REF_WITH_LENGTH_IS" : "_PTR_WITH_LENGTH_IS", mem, mem->type->type_down, np); break; } generate_member_macro(memkind, is_reference ? "_REF" : "_PTR", mem, mem->type->type_down); break; case LB: np = mem->advice.a_size_is; if (np) { generate_member_macro_with_arg(memkind, "_ARR_WITH_SIZE_IS", mem, mem->type->type_down, np); break; } np = mem->advice.a_length_is; if (np) { generate_member_macro_with_arg(memkind, "_WITH_LENGTH_IS", mem, mem->type->type_down, np); break; } generate_member_macro_with_arg(memkind, "_ARR_WITH_DIMENSION", mem, mem->type->type_down, mem->type->type_dim); break; default: generate_member_macro(memkind, "_???", mem, 0); break; } if (cond_pending) (void) printf(" }\n"); } static void generate_aggregate_common_begin(ndr_typeinfo_t *ti) { char val_buf[NDLBUFSZ]; char cast_buf[NDLBUFSZ]; char fname_type[NDLBUFSZ]; ndr_typeinfo_t ptr; type_extern_suffix(ti, fname_type, NDLBUFSZ); generate_typeinfo_typeinfo(ti, 0, fname_type); generate_prototypes(ti, fname_type); (void) printf("\n"); (void) printf("/*\n * "); show_advice(&ti->advice, 0); (void) printf(" */\n"); (void) printf("int\n"); (void) printf("ndr_%s (struct ndr_reference *encl_ref)\n", fname_type); (void) printf("{\n"); ptr.type_op = STAR; ptr.type_down = ti; type_name_decl(&ptr, val_buf, NDLBUFSZ, "val"); type_null_decl(&ptr, cast_buf, NDLBUFSZ); (void) printf(" %s = %s encl_ref->datum;\n", val_buf, cast_buf); (void) printf(" struct ndr_reference myref;\n"); (void) printf("\n"); (void) printf(" (void) bzero(&myref, sizeof (myref));\n"); (void) printf(" myref.enclosing = encl_ref;\n"); (void) printf(" myref.stream = encl_ref->stream;\n"); generate_typeinfo_packing(ti); (void) printf("\n"); } /* ARGSUSED */ static void generate_aggregate_common_finish(ndr_typeinfo_t *ti) { (void) printf("\n"); (void) printf(" return 1;\n"); (void) printf("}\n"); } /* * Structures are normally 4-byte (dword) aligned but the align directive * can be used to pack on a 2-byte (word) boundary. An align value of * zero is taken to mean use default (dword) alignment. Default packing * doesn't need to be flagged. */ static void generate_typeinfo_packing(ndr_typeinfo_t *ti) { ndr_node_t *np; unsigned long packing; if ((np = ti->advice.a_align) == NULL) return; if ((np = np->n_a_arg) == NULL) return; packing = np->n_int; if ((packing == 0) || (packing == 4)) { /* default alignment */ return; } if (packing != 2) { fatal_error("invalid align directive: %lu", packing); /* NOTREACHED */ } (void) printf(" myref.packed_alignment = %lu;\n", packing); } static void generate_typeinfo_typeinfo(ndr_typeinfo_t *ti, int is_static, char *fname_type) { char flags[NDLBUFSZ]; *flags = 0; if (ti->is_conformant) (void) strlcat(flags, "|NDR_F_CONFORMANT", NDLBUFSZ); if (ti->type_op == STRUCT_KW) { if (ti->advice.a_operation) (void) strlcat(flags, "|NDR_F_OPERATION", NDLBUFSZ); else (void) strlcat(flags, "|NDR_F_STRUCT", NDLBUFSZ); } if (ti->type_op == UNION_KW) { if (ti->advice.a_interface) (void) strlcat(flags, "|NDR_F_INTERFACE", NDLBUFSZ); else (void) strlcat(flags, "|NDR_F_UNION", NDLBUFSZ); } if (ti->type_op == STRING_KW) (void) strlcat(flags, "|NDR_F_STRING", NDLBUFSZ); if (ti->type_op == LB) (void) strlcat(flags, "|NDR_F_ARRAY", NDLBUFSZ); if (ti->type_op == STAR) (void) strlcat(flags, "|NDR_F_POINTER", NDLBUFSZ); if (*flags == 0) (void) strlcpy(flags, "NDR_F_NONE", NDLBUFSZ); else (void) strlcpy(flags, flags+1, NDLBUFSZ); (void) printf("\n\n\n"); if (is_static) (void) printf("static "); (void) printf("int ndr_%s (struct ndr_reference *encl_ref);\n", fname_type); if (is_static) (void) printf("static "); (void) printf("struct ndr_typeinfo ndt_%s = {\n", fname_type); (void) printf("\t1, /* NDR version */\n"); (void) printf("\t%d, /* alignment */\n", ti->alignment); (void) printf("\t%s, /* flags */\n", flags); (void) printf("\tndr_%s, /* ndr_func */\n", fname_type); (void) printf("\t%d, /* pdu_size_fixed_part */\n", ti->size_fixed_part); (void) printf("\t%d, /* pdu_size_variable_part */\n", ti->size_variable_part); (void) printf("\t%d, /* c_size_fixed_part */\n", ti->size_fixed_part); (void) printf("\t%d, /* c_size_variable_part */\n", ti->size_variable_part); (void) printf("};\n\n"); }