/* *------------------------------------------------------------------ * node.c - the api generator's semantic back-end * * Copyright (c) 2004-2009 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. *------------------------------------------------------------------ */ #include #include #include #include #include #include #include #include #include #include "lex.h" #include "node.h" #define YYSTYPE void * FILE *ofp; FILE *pythonfp; FILE *jsonfp; time_t starttime; char *vlib_app_name; char *input_filename; node_vft_t *the_vft[NODE_N_TYPES]; static int indent; static int dont_output_version; int dump_tree; static char *fixed_name; static char tmpbuf [MAXNAME]; static char *current_def_name; static char *current_union_name; static char *current_type_fmt; static char *current_type_cast; static char current_id; static char current_is_complex; static char *current_endianfun; static char *current_type_name; void indent_me(FILE *ofp) { int i; for (i = 0; i < indent; i++) putc(' ', ofp); } char *uppercase (char *s) { char *cp; cp = tmpbuf; while (*s && (cp < tmpbuf + (sizeof(tmpbuf)-1))) { if (*s >= 'a' && *s <= 'z') *cp++ = *s++ - ('a' - 'A'); else *cp++ = *s++; } *cp = 0; return(tmpbuf); } char *lowercase (char *s) { char *cp; cp = tmpbuf; while (*s && (cp < tmpbuf + (sizeof(tmpbuf)-1))) { if (*s >= 'A' && *s <= 'Z') *cp++ = *s++ + ('a' - 'A'); else *cp++ = *s++; } *cp = 0; return(tmpbuf); } void primtype_recursive_print(node_t *this, i8 *fmt) { fputs((char *)fmt, stdout); if (this->deeper) { node_vft_t *vftp = the_vft[this->deeper->type]; vftp->print(this->deeper); } } void primtype_recursive_generate(node_t *this, enum passid which, FILE *ofp, i8 *type_name, i8 *type_fmt, i8 *type_cast) { node_vft_t *vftp; current_type_name = (char *)type_name; current_type_cast = (char *)type_cast; switch(which) { case TYPEDEF_PASS: fputs((char *)type_name, ofp); fputs(" ", ofp); break; case PRINTFUN_PASS: current_type_fmt = (char *)type_fmt; break; case ENDIANFUN_PASS: vftp = the_vft[this->type]; current_endianfun = vftp->endian_converter; break; case PYTHON_PASS: fputs("('", pythonfp); fputs((char *)type_name, pythonfp); fputs("', ", pythonfp); break; case JSON_PASS: fputs("[\"", jsonfp); fputs((char *)type_name, jsonfp); fputs("\", ", jsonfp); break; default: fprintf(stderr, "primtype_recursive_generate: unimp pass %d\n", which); break; } if (this->deeper) { vftp = the_vft[this->deeper->type]; vftp->generate(this->deeper, which, ofp); } } void node_illegal_print (node_t *this) { fprintf(stderr, "node_illegal_print called\n"); exit(0); } void node_illegal_generate (node_t *this, enum passid notused, FILE *ofp) { fprintf(stderr, "node_illegal_generate called\n"); exit(0); } node_vft_t node_illegal_vft = { node_illegal_print, node_illegal_generate, "illegal" }; void node_u8_print (node_t *this) { primtype_recursive_print(this, "u8 "); } void node_u8_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "u8", "%u", "(unsigned)"); } node_vft_t node_u8_vft = { node_u8_print, node_u8_generate, NULL }; void node_u16_print (node_t *this) { primtype_recursive_print(this, "u16 "); } void node_u16_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "u16", "%u", "(unsigned)"); } node_vft_t node_u16_vft = { node_u16_print, node_u16_generate, "clib_net_to_host_u16" }; void node_u32_print (node_t *this) { primtype_recursive_print(this, "u32 "); } void node_u32_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "u32", "%u", "(unsigned)"); } node_vft_t node_u32_vft = { node_u32_print, node_u32_generate, "clib_net_to_host_u32", }; void node_u64_print (node_t *this) { primtype_recursive_print(this, "u64 "); } void node_u64_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "u64", "%llu", "(long long)"); } node_vft_t node_u64_vft = { node_u64_print, node_u64_generate, "clib_net_to_host_u64" }; void node_i8_print (node_t *this) { primtype_recursive_print(this, "i8 "); } void node_i8_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "i8", "%d", "(int)"); } node_vft_t node_i8_vft = { node_i8_print, node_i8_generate, "" }; void node_i16_print (node_t *this) { primtype_recursive_print(this, "i16 "); } void node_i16_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "i16", "%d", "(int)"); } node_vft_t node_i16_vft = { node_i16_print, node_i16_generate, "clib_net_to_host_u16" }; void node_i32_print (node_t *this) { primtype_recursive_print(this, "i32 "); } void node_i32_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "i32", "%ld", "(long)"); } node_vft_t node_i32_vft = { node_i32_print, node_i32_generate, "clib_net_to_host_u32" }; void node_i64_print (node_t *this) { primtype_recursive_print(this, "i64 "); } void node_i64_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "i64", "%lld", "(long long)"); } node_vft_t node_i64_vft = { node_i64_print, node_i64_generate, "clib_net_to_host_u64" }; void node_f64_print (node_t *this) { primtype_recursive_print(this, "f64 "); } void node_f64_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "f64", "%.2f", "(double)"); } node_vft_t node_f64_vft = { node_f64_print, node_f64_generate, " ", /* FP numbers are sent in host byte order */ }; void node_packed_print (node_t *this) { primtype_recursive_print (this, "packed "); } void node_packed_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "PACKED", "", ""); } node_vft_t node_packed_vft = { node_packed_print, node_packed_generate, 0, }; void node_define_print (node_t *this) { fprintf(stdout, "define %s {\n", CDATA0); if (this->deeper) { node_vft_t *vftp = the_vft[this->deeper->type]; fprintf(stdout, " "); vftp->print(this->deeper); } fprintf(stdout, "};\n"); } void node_define_generate (node_t *this, enum passid which, FILE *fp) { node_t *child, *save_child; switch(which) { case TYPEDEF_PASS: fprintf(fp, "typedef VL_API_PACKED(struct _vl_api_%s {\n", CDATA0); child = this->deeper; indent += 4; while (child) { node_vft_t *vftp = the_vft[child->type]; indent_me(fp); vftp->generate(child, which, fp); child = child->peer; } indent -= 4; fprintf(fp, "}) vl_api_%s_t;\n\n", CDATA0); break; case ENDIANFUN_PASS: case PRINTFUN_PASS: child = this->deeper; while (child) { node_vft_t *vftp = the_vft[child->type]; vftp->generate(child, which, fp); child = child->peer; } break; case PYTHON_PASS: fprintf(fp, "('%s',\n", CDATA0); child = this->deeper; indent += 4; while (child) { node_vft_t *vftp = the_vft[child->type]; indent_me(fp); vftp->generate(child, which, fp); child = child->peer; } indent -= 4; fprintf(fp, "),\n\n"); break; case JSON_PASS: fprintf(fp, "[\"%s\",\n", CDATA0); child = this->deeper; indent += 4; while (child) { node_vft_t *vftp = the_vft[child->type]; indent_me(fp); vftp->generate(child, which, fp); child = child->peer; fprintf(fp, ",\n"); } indent_me(fp); fprintf (fp, "{\"crc\" : \"0x%08x\"}\n", (u32)(u64)CDATA3); indent -= 4; indent_me(fp); fprintf(fp, "]"); break; default: fprintf(stderr, "node_define_generate: unimp pass %d\n", which); break; } } node_vft_t node_define_vft = { node_define_print, node_define_generate, 0, }; void node_union_print (node_t *this) { primtype_recursive_print (this, "union "); } void node_union_generate (node_t *this, enum passid which, FILE *fp) { node_t *child; node_t *uelem; int case_id=1; switch(which) { case TYPEDEF_PASS: fprintf(fp, "u8 _%s_which;\n", CDATA0); indent_me(fp); fprintf(fp, "union _%s {\n", CDATA0); child = this->deeper; indent += 4; while (child) { node_vft_t *vftp = the_vft[child->type]; indent_me(fp); vftp->generate(child, which, fp); child = child->peer; } indent -= 4; indent_me(fp); fprintf(fp, "} %s;\n", CDATA0); break; case PRINTFUN_PASS: case ENDIANFUN_PASS: uelem = this->deeper; indent_me(fp); fprintf(fp, "switch(a->_%s_which) {\n", CDATA0); indent += 4; current_union_name = CDATA0; /* Walk the list of objects in this union */ while (uelem) { node_vft_t *vftp = the_vft[uelem->type]; indent -= 4; indent_me(fp); fprintf(fp, "case %d:\n", case_id); case_id++; indent += 4; /* Drill down on each element */ vftp->generate(uelem, which, fp); indent_me(fp); fprintf(fp, "break;\n"); uelem = uelem->peer; } current_union_name = 0; indent -= 4; indent_me(fp); fprintf(fp, "default:\n"); indent += 4; indent_me(fp); if (which == PRINTFUN_PASS) { fprintf(fp, "vl_print(handle, \"WARNING: _%s_which not set.\\n\");\n", CDATA0); } indent_me(fp); fprintf(fp, "break;\n"); indent -= 4; indent_me(fp); fprintf(fp, "}\n"); break; default: fprintf(stderr, "node_union_generate: unimp pass %d\n", which); break; } } node_vft_t node_union_vft = { node_union_print, node_union_generate, 0, }; void node_scalar_print (node_t *this) { fprintf(stdout, "%s", CDATA0); primtype_recursive_print (this, ""); } void node_scalar_generate (node_t *this, enum passid which, FILE *fp) { char *union_prefix = ""; if (current_union_name) { sprintf(tmpbuf, "%s.", current_union_name); union_prefix = tmpbuf; } switch(which) { case TYPEDEF_PASS: fprintf(fp, "%s;\n", CDATA0); break; case PRINTFUN_PASS: indent_me(fp); if (current_is_complex) { fprintf(fp, "vl_api_%s_t_print(a->%s%s, handle);\n", current_type_name, union_prefix, CDATA0); } else { if (!strcmp(current_type_fmt, "uword")) { fprintf(fp, "vl_print(handle, \"%s%s: \" _uword_fmt \"\\n\", %s a->%s%s);\n", union_prefix, CDATA0, "(_uword_cast)", union_prefix, CDATA0); } else { fprintf(fp, "vl_print(handle, \"%s%s: %s\\n\", %s a->%s%s);\n", union_prefix, CDATA0, current_type_fmt, current_type_cast, union_prefix, CDATA0); } } break; case ENDIANFUN_PASS: indent_me(fp); if (current_is_complex) { fprintf(fp, "vl_api%s_t_endian(a->%s%s);\n", current_type_name, union_prefix, CDATA0); } else { /* Current_endianfun == NULL means e.g. it's a u8... */ if (current_endianfun) { fprintf(fp, "a->%s%s = %s(a->%s%s);\n", union_prefix, CDATA0, current_endianfun, union_prefix, CDATA0); } else { fprintf(fp, "/* a->%s%s = a->%s%s (no-op) */\n", union_prefix, CDATA0, union_prefix, CDATA0); } } break; case PYTHON_PASS: fprintf(fp, "'%s'),\n", CDATA0); break; case JSON_PASS: fprintf(fp, "\"%s\"]", CDATA0); break; default: fprintf(stderr, "node_scalar_generate: unimp pass %d\n", which); } if (this->deeper) { fprintf(stderr, "broken recursion in node_scalar_generate\n"); } } node_vft_t node_scalar_vft = { node_scalar_print, node_scalar_generate, 0, }; void node_vector_print (node_t *this) { primtype_recursive_print (this, "vector "); } void node_vector_generate (node_t *this, enum passid which, FILE *fp) { char *union_prefix = ""; if (current_union_name) { sprintf(tmpbuf, "%s.", current_union_name); union_prefix = tmpbuf; } switch(which) { case TYPEDEF_PASS: fprintf(fp, "%s[%d];\n", CDATA0, IDATA1); break; case PRINTFUN_PASS: /* Don't bother about "u8 data [0];" et al. */ if (IDATA1 == 0) break; indent_me(fp); fprintf(fp, "{\n"); indent += 4; indent_me(fp); fprintf(fp, "int _i;\n"); indent_me(fp); fprintf(fp, "for (_i = 0; _i < %d; _i++) {\n", IDATA1); indent += 4; indent_me(fp); if (current_is_complex) { fprintf(fp, "vl_print(handle, \"%s%s[%%d]: ", union_prefix, CDATA0); fprintf(fp, "vl_print_%s (handle, a->%s%s[_i]);\n", CDATA0, union_prefix, CDATA0); } else { fprintf(fp, "vl_print(handle, \"%s%s[%%d]: %s\\n\", _i, a->%s%s[_i]);\n", union_prefix, CDATA0, current_type_fmt, union_prefix, CDATA0); } indent -= 4; indent_me(fp); fprintf(fp, "}\n"); indent -= 4; indent_me(fp); fprintf(fp, "}\n"); break; case ENDIANFUN_PASS: /* Don't bother about "u8 data [0];" et al. */ if (IDATA1 == 0) break; /* If this is a simple endian swap, but the endian swap method is a no-op, * then indicate this is a no-op in a comment. */ if (!current_is_complex && current_endianfun == NULL) { indent_me(fp); fprintf(fp, "/* a->%s%s[0..%d] = a->%s%s[0..%d] (no-op) */\n", union_prefix, CDATA0, IDATA1 - 1, union_prefix, CDATA0, IDATA1 - 1); break; } indent_me(fp); fprintf(fp, "{\n"); indent += 4; indent_me(fp); fprintf(fp, "int _i;\n"); indent_me(fp); fprintf(fp, "for (_i = 0; _i < %d; _i++) {\n", IDATA1); indent += 4; indent_me(fp); if (current_is_complex) { fprintf(fp, "vl_api_%s_t_endian (a->%s%s[_i]);\n", current_type_name, union_prefix, CDATA0); } else { fprintf(fp, "a->%s%s[_i] = %s(a->%s%s[_i]);\n", union_prefix, CDATA0, current_endianfun, union_prefix, CDATA0); } indent -= 4; indent_me(fp); fprintf(fp, "}\n"); indent -= 4; indent_me(fp); fprintf(fp, "}\n"); break; case PYTHON_PASS: if (CDATA2 != 0) { // variable length vector fprintf(fp, "'%s', '%d', '%s'),\n", CDATA0, IDATA1, CDATA2); } else { fprintf(fp, "'%s', '%d'),\n", CDATA0, IDATA1); } break; case JSON_PASS: if (CDATA2 != 0) { /* variable length vector */ fprintf(fp, "\"%s\", %d, \"%s\"]", CDATA0, IDATA1, CDATA2); } else { fprintf(fp, "\"%s\", %d]", CDATA0, IDATA1); } break; default: fprintf(stderr, "node_vector_generate: unimp pass %d\n", which); } if (this->deeper) { fprintf(stderr, "broken recursion in node_vector_generate\n"); } } node_vft_t node_vector_vft = { node_vector_print, node_vector_generate, 0, }; void node_complex_print (node_t *this) { primtype_recursive_print (this, "complex "); } void node_complex_generate (node_t *this, enum passid which, FILE *fp) { node_t *deeper; node_vft_t *vftp; char *member_name = "broken!"; char *union_prefix = ""; if (current_union_name) { sprintf(tmpbuf, "%s.", current_union_name); union_prefix = tmpbuf; } current_is_complex++; switch(which) { case TYPEDEF_PASS: fprintf(fp, "%s ", CDATA0); deeper = this->deeper; if (deeper) { vftp = the_vft[deeper->type]; vftp->generate(deeper, which, fp); } break; case PRINTFUN_PASS: deeper = this->deeper; while (deeper) { if (deeper->type == NODE_SCALAR || deeper->type == NODE_VECTOR) { member_name = deeper->data[0]; break; } deeper = deeper->deeper; } indent_me(fp); fprintf(fp, "vl_print(handle, \"%s%s ----- \\n\");\n", union_prefix, member_name); indent_me(fp); fprintf(fp, "%s_print(&a->%s%s, handle);\n", CDATA0, union_prefix, member_name); indent_me(fp); fprintf(fp, "vl_print(handle, \"%s%s ----- END \\n\");\n", union_prefix, member_name); break; case ENDIANFUN_PASS: deeper = this->deeper; while (deeper) { if (deeper->type == NODE_SCALAR || deeper->type == NODE_VECTOR) { member_name = deeper->data[0]; break; } deeper = deeper->deeper; } indent_me(fp); fprintf(fp, "%s_endian(&a->%s%s);\n", CDATA0, union_prefix, member_name); break; case PYTHON_PASS: fprintf(fp, "('%s',", CDATA0); deeper = this->deeper; if (deeper) { vftp = the_vft[deeper->type]; vftp->generate(deeper, which, fp); } break; case JSON_PASS: fprintf(fp, "[\"%s\", ", CDATA0); deeper = this->deeper; if (deeper) { vftp = the_vft[deeper->type]; vftp->generate(deeper, which, fp); } break; default: fprintf(stderr, "node_complex_generate unimp pass %d...\n", which); break; } current_is_complex--; } node_vft_t node_complex_vft = { node_complex_print, node_complex_generate, 0, }; void node_noversion_print (node_t *this) { primtype_recursive_print (this, "noversion "); } void node_noversion_generate (node_t *this, enum passid which, FILE *ofp) { fprintf(stderr, "node_noversion_generate called...\n"); } node_vft_t node_noversion_vft = { node_noversion_print, node_noversion_generate, 0, }; void node_uword_print (node_t *this) { primtype_recursive_print(this, "uword "); } void node_uword_generate (node_t *this, enum passid which, FILE *ofp) { primtype_recursive_generate(this, which, ofp, "uword", "uword", ""); } node_vft_t node_uword_vft = { node_uword_print, node_uword_generate, "clib_net_to_host_uword", }; node_vft_t *the_vft[NODE_N_TYPES] = { &node_illegal_vft, &node_u8_vft, &node_u16_vft, &node_u32_vft, &node_u64_vft, &node_i8_vft, &node_i16_vft, &node_i32_vft, &node_i64_vft, &node_f64_vft, &node_packed_vft, &node_define_vft, &node_union_vft, &node_scalar_vft, &node_vector_vft, &node_complex_vft, &node_noversion_vft, &node_uword_vft, }; void *make_node (enum node_subclass type) { node_t *rv; rv = (node_t *) malloc (sizeof (*rv)); if (rv == 0) { fprintf (stderr, "fatal: make_node out of memory\n"); exit (1); } bzero (rv, sizeof (*rv)); rv->type = type; return ((void *) rv); } YYSTYPE deeper (YYSTYPE arg1, YYSTYPE arg2) { node_t *np1 = (node_t *) arg1; node_t *np2 = (node_t *) arg2; node_t *hook_point; hook_point = np1; while (hook_point->deeper) hook_point = hook_point->deeper; hook_point->deeper = np2; return (arg1); } YYSTYPE addpeer (YYSTYPE arg1, YYSTYPE arg2) { node_t *np1 = (node_t *) arg1; node_t *np2 = (node_t *) arg2; node_t *hook_point; hook_point = np1; while (hook_point->peer) hook_point = hook_point->peer; hook_point->peer = np2; return (arg1); } /* * add_slist (stmt_list, stmt) */ YYSTYPE add_slist (YYSTYPE a1, YYSTYPE a2) { if (a1 && a2) return (addpeer(a1, a2)); else if(a1) return(a1); else return(a2); } /* * add_define (char *name, defn_list); */ YYSTYPE add_define (YYSTYPE a1, YYSTYPE a2) { node_t *np; np = make_node(NODE_DEFINE); np->data[0] = a1; np->data[3] = (void *) message_crc; deeper((YYSTYPE)np, a2); return ((YYSTYPE) np); } /* * add_defbody (defn_list, new_defn) */ YYSTYPE add_defbody (YYSTYPE a1, YYSTYPE a2) { return (addpeer(a1, a2)); } /* * add_primtype ([packed], primitive type, instance) */ YYSTYPE add_primtype (YYSTYPE a1, YYSTYPE a2, YYSTYPE a3) { node_t *np1; np1 = (node_t *)a1; /* Hook instance to type node */ deeper (a1, a2); if (a3) { deeper(a1, a3); } return (a1); } /* * add_complex(char *type_name, instance) */ YYSTYPE add_complex (YYSTYPE a1, YYSTYPE a2) { node_t *np; np = make_node(NODE_COMPLEX); np->data[0] = (void *) a1; deeper((YYSTYPE)np, a2); return ((YYSTYPE) np); } /* * add_union(char *type_name, definition) */ YYSTYPE add_union (YYSTYPE a1, YYSTYPE a2) { node_t *np; np = make_node(NODE_UNION); np->data[0] = (void *) a1; deeper((YYSTYPE)np, a2); return ((YYSTYPE) np); } /* * add_vector_vbl (node_t *variable, YYSTYPE size) */ YYSTYPE add_vector_vbl (YYSTYPE a1, YYSTYPE a2) { node_t *np; np = make_node(NODE_VECTOR); np->data[0] = (void *) a1; np->data[1] = (void *) a2; return ((YYSTYPE) np); } /* * add_vector_vbl (char *vector_name, char *vector_length_var) */ YYSTYPE add_variable_length_vector_vbl (YYSTYPE vector_name, YYSTYPE vector_length_var) { node_t *np; np = make_node(NODE_VECTOR); np->data[0] = (void *) vector_name; np->data[1] = (void *) 0; // vector size used for vpe.api.h generation (array of length zero) np->data[2] = (void *) vector_length_var; // name of the variable that stores vector length return ((YYSTYPE) np); } /* * add_scalar_vbl (char *name) */ YYSTYPE add_scalar_vbl (YYSTYPE a1) { node_t *np; np = make_node(NODE_SCALAR); np->data[0] = (void *) a1; return ((YYSTYPE) np); } /* * set_flags (int flags, msg(=0?)) */ YYSTYPE set_flags(YYSTYPE a1, YYSTYPE a2) { node_t *np; int flags; np = (node_t *)a2; if (!np) return(0); flags = (int)(uword) a1; np->flags |= flags; return (a2); } /* * suppress_version */ YYSTYPE suppress_version (void) { dont_output_version = 1; return (0); } void dump(node_t *np) { node_vft_t *vftp; while (np) { vftp = the_vft[np->type]; vftp->print(np); np = np->peer; } } char *fixup_input_filename(void) { char *cp; cp = (char *)input_filename; while (*cp) cp++; cp--; while (cp > input_filename && *cp != '/') cp--; if (*cp == '/') cp++; strncpy (tmpbuf, cp, sizeof(tmpbuf)-1); cp = tmpbuf; while (*cp) cp++; cp--; while (cp > tmpbuf && *cp != '.') cp--; if (*cp == '.') *cp = 0; return (sxerox(tmpbuf)); } void generate_top_boilerplate(FILE *fp) { char *datestring = ctime(&starttime); fixed_name = fixup_input_filename(); datestring[24] = 0; fprintf (fp, "/*\n"); fprintf (fp, " * VLIB API definitions %s\n", datestring); fprintf (fp, " * Input file: %s\n", input_filename); fprintf (fp, " * Automatically generated: please edit the input file "); fprintf (fp, "NOT this file!\n"); fprintf (fp, " */\n\n"); fprintf (fp, "#if defined(vl_msg_id)||defined(vl_union_id)||"); fprintf (fp, "defined(vl_printfun) \\\n ||defined(vl_endianfun)||"); fprintf (fp, " defined(vl_api_version)||defined(vl_typedefs) \\\n"); fprintf (fp, " ||defined(vl_msg_name)||defined(vl_msg_name_crc_list)\n"); fprintf (fp, "/* ok, something was selected */\n"); fprintf (fp, "#else\n"); fprintf (fp, "#warning no content included from %s\n", input_filename); fprintf (fp, "#endif\n\n"); fprintf (fp, "#define VL_API_PACKED(x) x __attribute__ ((packed))\n\n"); } void generate_bottom_boilerplate(FILE *fp) { fprintf (fp, "\n#ifdef vl_api_version\n"); if (dont_output_version) { fprintf (fp, "/* WARNING: API FILE VERSION CHECK DISABLED */\n"); input_crc = 0; } fprintf (fp, "vl_api_version(%s, 0x%08x)\n\n", fixed_name, (unsigned int)input_crc); fprintf (fp, "#endif\n\n"); } void generate_msg_ids(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; fprintf (fp, "\n/****** Message ID / handler enum ******/\n\n"); fprintf (fp, "#ifdef vl_msg_id\n"); while (np) { if (np->type == NODE_DEFINE) { if (!(np->flags & NODE_FLAG_TYPEONLY)) { fprintf (fp, "vl_msg_id(VL_API_%s, vl_api_%s_t_handler)\n", uppercase(np->data[0]), (i8 *)np->data[0]); } else { fprintf (fp, "/* typeonly: %s */\n", (i8 *)np->data[0]); } } np = np->peer; } fprintf (fp, "#endif\n"); } void generate_msg_names(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; fprintf (fp, "\n/****** Message names ******/\n\n"); fprintf (fp, "#ifdef vl_msg_name\n"); while (np) { if (np->type == NODE_DEFINE) { if (!(np->flags & NODE_FLAG_TYPEONLY)) { fprintf (fp, "vl_msg_name(vl_api_%s_t, %d)\n", (i8 *) np->data[0], (np->flags & NODE_FLAG_DONT_TRACE ? 0 : 1)); } else { fprintf (fp, "/* typeonly: %s */\n", (i8 *)np->data[0]); } } np = np->peer; } fprintf (fp, "#endif\n\n"); } void generate_msg_name_crc_list (YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; char *unique_suffix, *cp; unique_suffix = sxerox(fixed_name); cp = unique_suffix; while (*cp && (*cp != '.')) cp++; if (*cp == '.') *cp = 0; fprintf (fp, "\n/****** Message name, crc list ******/\n\n"); fprintf (fp, "#ifdef vl_msg_name_crc_list\n"); fprintf (fp, "#define foreach_vl_msg_name_crc_%s ", unique_suffix); while (np) { if (np->type == NODE_DEFINE) { if (!(np->flags & NODE_FLAG_TYPEONLY)) { fprintf (fp, "\\\n_(VL_API_%s, %s, %08x) ", uppercase (np->data[0]), (i8 *) np->data[0], (u32)(u64)np->data[3]); } } np = np->peer; } fprintf (fp, "\n#endif\n\n"); free (unique_suffix); } void generate_typedefs(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; node_vft_t *vftp; fprintf(fp, "\n/****** Typedefs *****/\n\n"); fprintf(fp, "#ifdef vl_typedefs\n\n"); /* Walk the top-level node-list */ while (np) { if (np->type == NODE_DEFINE) { /* Yeah, this is pedantic */ vftp = the_vft[np->type]; vftp->generate(np, TYPEDEF_PASS, fp); } np = np->peer; } fprintf(fp, "#endif /* vl_typedefs */\n\n"); } void union_walk_one_defn(node_t *np, FILE *fp) { node_t *vblp; node_t *uelem; /* Walk the list of typed objects in this msg def */ while (np) { if (np->type == NODE_UNION) { current_union_name = np->data[0]; uelem = np->deeper; /* Walk the list of objects in this union */ while (uelem) { vblp = uelem->deeper; /* Drill down on each element, find the variable name */ while(vblp) { if (vblp->type == NODE_SCALAR || vblp->type == NODE_VECTOR || vblp->type == NODE_COMPLEX) { fprintf(ofp, "#define %s_", uppercase(current_def_name)); fprintf(ofp, "%s_", uppercase(current_union_name)); fprintf(ofp, "%s %d\n",uppercase(vblp->data[0]), current_id); current_id++; break; } vblp = vblp->deeper; } uelem = uelem->peer; } current_union_name = 0; current_id = 1; } np = np->peer; } } void generate_uniondefs(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; fprintf(fp, "/****** Discriminated Union Definitions *****/\n\n"); fprintf(fp, "#ifdef vl_union_id\n\n"); /* Walk the top-level node-list */ while (np) { if (np->type == NODE_DEFINE) { current_id = 1; current_def_name = np->data[0]; union_walk_one_defn(np->deeper, fp); } np = np->peer; } fprintf(fp, "\n#endif /* vl_union_id */\n\n"); } void generate_printfun(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; node_vft_t *vftp; fprintf(fp, "/****** Print functions *****/\n\n"); fprintf(fp, "#ifdef vl_printfun\n\n"); fprintf(fp, "#ifdef LP64\n"); fputs ("#define _uword_fmt \"%lld\"\n", fp); fputs ("#define _uword_cast (long long)\n", fp); fprintf(fp, "#else\n"); fputs("#define _uword_fmt \"%ld\"\n", fp); fputs ("#define _uword_cast long\n", fp); fprintf(fp, "#endif\n\n"); /* Walk the top-level node-list */ while (np) { if (np->type == NODE_DEFINE) { if (!(np->flags & NODE_FLAG_MANUAL_PRINT)) { fprintf(fp, "static inline void *vl_api_%s_t_print (vl_api_%s_t *a,", (i8 *)np->data[0], (i8 *) np->data[0]); fprintf(fp, "void *handle)\n{\n"); /* output the message name */ fprintf(fp, " vl_print(handle, \"vl_api_%s_t:\\n\");\n", (i8 *)np->data[0]); indent += 4; /* Yeah, this is pedantic */ vftp = the_vft[np->type]; vftp->generate(np, PRINTFUN_PASS, fp); fprintf(fp, " return handle;\n"); fprintf(fp, "}\n\n"); indent -= 4; } else { fprintf(fp, "/***** manual: vl_api_%s_t_print *****/\n\n", (i8 *) np->data[0]); } } np = np->peer; } fprintf(fp, "#endif /* vl_printfun */\n\n"); } void generate_endianfun(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; node_vft_t *vftp; fprintf(fp, "\n/****** Endian swap functions *****/\n\n"); fprintf(fp, "#ifdef vl_endianfun\n\n"); fprintf(fp, "#undef clib_net_to_host_uword\n"); fprintf(fp, "#ifdef LP64\n"); fprintf(fp, "#define clib_net_to_host_uword clib_net_to_host_u64\n"); fprintf(fp, "#else\n"); fprintf(fp, "#define clib_net_to_host_uword clib_net_to_host_u32\n"); fprintf(fp, "#endif\n\n"); /* Walk the top-level node-list */ while (np) { if (np->type == NODE_DEFINE) { if (!(np->flags & NODE_FLAG_MANUAL_ENDIAN)) { fprintf(fp, "static inline void vl_api_%s_t_endian (vl_api_%s_t *a)\n{\n", (i8 *) np->data[0], (i8 *) np->data[0]); indent += 4; /* Yeah, this is pedantic */ vftp = the_vft[np->type]; vftp->generate(np, ENDIANFUN_PASS, fp); fprintf(fp, "}\n\n"); indent -= 4; } else { fprintf(fp, "/***** manual: vl_api_%s_t_endian *****/\n\n", (i8 *) np->data[0]); } } np = np->peer; } fprintf(fp, "#endif /* vl_endianfun */\n\n"); } void add_msg_ids(YYSTYPE a1) { node_t *np = (node_t *)a1; node_t *new_u16; node_t *new_vbl; /* Walk the top-level node-list */ while (np) { if (np->type == NODE_DEFINE) { if (!(np->flags & NODE_FLAG_TYPEONLY)) { /* add the parse tree for "u16 _vl_msg_id" */ new_u16 = make_node(NODE_U16); new_u16->peer = np->deeper; np->deeper = new_u16; new_vbl = make_node(NODE_SCALAR); new_vbl->data[0] = sxerox("_vl_msg_id"); new_u16->deeper = new_vbl; } } np = np->peer; } } void generate_python_msg_definitions(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; node_vft_t *vftp; fprintf (fp, "messages = [\n"); /* Walk the top-level node-list */ while (np) { if (np->type == NODE_DEFINE && !(np->flags & NODE_FLAG_TYPEONLY)) { /* Yeah, this is pedantic */ vftp = the_vft[np->type]; vftp->generate(np, PYTHON_PASS, fp); } np = np->peer; } fprintf (fp, "\n]\n"); } static bool is_typeonly_check(node_t *np, bool typeonly) { bool is_typeonly = (np->flags & NODE_FLAG_TYPEONLY); return (is_typeonly == typeonly); } static void generate_json_definitions(YYSTYPE a1, FILE *fp, bool typeonly) { node_t *np = (node_t *)a1; node_vft_t *vftp; indent_me(fp); if (typeonly) fprintf (fp, "\"types\" : [\n"); else fprintf (fp, "\"messages\" : [\n"); /* Walk the top-level node-list */ bool comma = false; indent += 4; while (np) { if (np->type == NODE_DEFINE && is_typeonly_check(np, typeonly)) { /* Yeah, this is pedantic */ vftp = the_vft[np->type]; indent_me(fp); vftp->generate(np, JSON_PASS, fp); comma = true; } np = np->peer; if (comma && np && np->type == NODE_DEFINE && is_typeonly_check(np, typeonly)) fprintf (fp, ",\n"); } indent -= 4; fprintf (fp, "\n"); indent_me(fp); fprintf(fp, "]"); } void generate_python_typeonly_definitions(YYSTYPE a1, FILE *fp) { node_t *np = (node_t *)a1; node_vft_t *vftp; fprintf (fp, "types = [\n"); /* Walk the top-level node-list */ while (np) { if (np->type == NODE_DEFINE && (np->flags & NODE_FLAG_TYPEONLY)) { vftp = the_vft[np->type]; vftp->generate(np, PYTHON_PASS, fp); } np = np->peer; } fprintf (fp, "\n]\n"); } void generate_python(YYSTYPE a1, FILE *fp) { generate_python_typeonly_definitions(a1, fp); generate_python_msg_definitions(a1, fp); /* * API CRC signature */ fprintf (fp, "vl_api_version = 0x%08x\n\n", (unsigned int)input_crc); } void generate_json(YYSTYPE a1, FILE *fp) { fprintf (fp, "{\n"); indent += 4; generate_json_definitions(a1, fp, true); fprintf (fp, ",\n"); generate_json_definitions(a1, fp, false); /* * API CRC signature */ fprintf (fp, ",\n\"vl_api_version\" :\"0x%08x\"\n", (unsigned int)input_crc); fprintf (fp, "}\n"); } void generate(YYSTYPE a1) { if (dump_tree) { dump((node_t *)a1); } add_msg_ids(a1); if (ofp) { generate_top_boilerplate(ofp); generate_msg_ids(a1, ofp); generate_msg_names(a1, ofp); generate_msg_name_crc_list(a1, ofp); generate_typedefs(a1, ofp); generate_uniondefs(a1, ofp); generate_printfun(a1, ofp); generate_endianfun(a1, ofp); generate_bottom_boilerplate(ofp); } if (pythonfp) { generate_python(a1, pythonfp); } if (jsonfp) { generate_json(a1, jsonfp); } }