Index: head/contrib/elftoolchain/libelftc/_libelftc.h =================================================================== --- head/contrib/elftoolchain/libelftc/_libelftc.h (revision 367321) +++ head/contrib/elftoolchain/libelftc/_libelftc.h (revision 367322) @@ -1,95 +1,96 @@ /*- * Copyright (c) 2009 Kai Wang * Copyright (c) 2007,2008 Hyogeol Lee * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer * in this position and unchanged. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * $Id: _libelftc.h 3531 2017-06-05 05:08:43Z kaiwang27 $ */ #ifndef __LIBELFTC_H_ #define __LIBELFTC_H_ #include #include "_elftc.h" struct _Elftc_Bfd_Target { const char *bt_name; /* target name. */ unsigned int bt_type; /* target type. */ unsigned int bt_byteorder; /* elf target byteorder. */ unsigned int bt_elfclass; /* elf target class (32/64bit). */ unsigned int bt_machine; /* elf target arch. */ unsigned int bt_osabi; /* elf target abi. */ }; extern struct _Elftc_Bfd_Target _libelftc_targets[]; /** @brief Dynamic vector data for string. */ struct vector_str { /** Current size */ size_t size; /** Total capacity */ size_t capacity; /** String array */ char **container; }; #define BUFFER_GROWFACTOR 1.618 +#define BUFFER_GROW(x) (((x)+0.5)*BUFFER_GROWFACTOR) #define ELFTC_FAILURE 0 #define ELFTC_ISDIGIT(C) (isdigit((C) & 0xFF)) #define ELFTC_SUCCESS 1 #define VECTOR_DEF_CAPACITY 8 #ifdef __cplusplus extern "C" { #endif char *cpp_demangle_ARM(const char *_org); char *cpp_demangle_gnu2(const char *_org); char *cpp_demangle_gnu3(const char *_org); bool is_cpp_mangled_ARM(const char *_org); bool is_cpp_mangled_gnu2(const char *_org); bool is_cpp_mangled_gnu3(const char *_org); unsigned int libelftc_hash_string(const char *); void vector_str_dest(struct vector_str *_vec); int vector_str_find(const struct vector_str *_vs, const char *_str, size_t _len); char *vector_str_get_flat(const struct vector_str *_vs, size_t *_len); bool vector_str_init(struct vector_str *_vs); bool vector_str_pop(struct vector_str *_vs); bool vector_str_push(struct vector_str *_vs, const char *_str, size_t _len); bool vector_str_push_vector(struct vector_str *_dst, struct vector_str *_org); bool vector_str_push_vector_head(struct vector_str *_dst, struct vector_str *_org); char *vector_str_substr(const struct vector_str *_vs, size_t _begin, size_t _end, size_t *_rlen); #ifdef __cplusplus } #endif #endif /* __LIBELFTC_H */ Index: head/contrib/elftoolchain/libelftc/libelftc_dem_gnu3.c =================================================================== --- head/contrib/elftoolchain/libelftc/libelftc_dem_gnu3.c (revision 367321) +++ head/contrib/elftoolchain/libelftc/libelftc_dem_gnu3.c (revision 367322) @@ -1,3992 +1,3992 @@ /*- * Copyright (c) 2007 Hyogeol Lee * Copyright (c) 2015-2017 Kai Wang * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer * in this position and unchanged. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include "_libelftc.h" ELFTC_VCSID("$Id: libelftc_dem_gnu3.c 3583 2017-10-15 15:38:47Z emaste $"); /** * @file cpp_demangle.c * @brief Decode IA-64 C++ ABI style implementation. * * IA-64 standard ABI(Itanium C++ ABI) references. * * http://www.codesourcery.com/cxx-abi/abi.html#mangling \n * http://www.codesourcery.com/cxx-abi/abi-mangling.html */ enum type_qualifier { TYPE_PTR, TYPE_REF, TYPE_CMX, TYPE_IMG, TYPE_EXT, TYPE_RST, TYPE_VAT, TYPE_CST, TYPE_VEC, TYPE_RREF }; struct vector_type_qualifier { size_t size, capacity; enum type_qualifier *q_container; struct vector_str ext_name; }; enum read_cmd { READ_FAIL, READ_NEST, READ_TMPL, READ_EXPR, READ_EXPL, READ_LOCAL, READ_TYPE, READ_FUNC, READ_PTRMEM }; struct read_cmd_item { enum read_cmd cmd; void *data; }; struct vector_read_cmd { size_t size, capacity; struct read_cmd_item *r_container; }; enum push_qualifier { PUSH_ALL_QUALIFIER, PUSH_CV_QUALIFIER, PUSH_NON_CV_QUALIFIER, }; struct cpp_demangle_data { struct vector_str output; /* output string vector */ struct vector_str subst; /* substitution string vector */ struct vector_str tmpl; struct vector_str class_type; struct vector_str *cur_output; /* ptr to current output vec */ struct vector_read_cmd cmd; bool mem_rst; /* restrict member function */ bool mem_vat; /* volatile member function */ bool mem_cst; /* const member function */ bool mem_ref; /* lvalue-ref member func */ bool mem_rref; /* rvalue-ref member func */ bool is_tmpl; /* template args */ bool is_functype; /* function type */ bool ref_qualifier; /* ref qualifier */ enum type_qualifier ref_qualifier_type; /* ref qualifier type */ enum push_qualifier push_qualifier; /* which qualifiers to push */ int func_type; const char *cur; /* current mangled name ptr */ const char *last_sname; /* last source name */ }; struct type_delimit { bool paren; bool firstp; }; #define CPP_DEMANGLE_TRY_LIMIT 128 #define FLOAT_SPRINTF_TRY_LIMIT 5 #define FLOAT_QUADRUPLE_BYTES 16 #define FLOAT_EXTENED_BYTES 10 #define SIMPLE_HASH(x,y) (64 * x + y) #define DEM_PUSH_STR(d,s) cpp_demangle_push_str((d), (s), strlen((s))) #define VEC_PUSH_STR(d,s) vector_str_push((d), (s), strlen((s))) static void cpp_demangle_data_dest(struct cpp_demangle_data *); static int cpp_demangle_data_init(struct cpp_demangle_data *, const char *); static int cpp_demangle_get_subst(struct cpp_demangle_data *, size_t); static int cpp_demangle_get_tmpl_param(struct cpp_demangle_data *, size_t); static int cpp_demangle_push_fp(struct cpp_demangle_data *, char *(*)(const char *, size_t)); static int cpp_demangle_push_str(struct cpp_demangle_data *, const char *, size_t); static int cpp_demangle_pop_str(struct cpp_demangle_data *); static int cpp_demangle_push_subst(struct cpp_demangle_data *, const char *, size_t); static int cpp_demangle_push_subst_v(struct cpp_demangle_data *, struct vector_str *); static int cpp_demangle_push_type_qualifier(struct cpp_demangle_data *, struct vector_type_qualifier *, const char *); static int cpp_demangle_read_array(struct cpp_demangle_data *); static int cpp_demangle_read_encoding(struct cpp_demangle_data *); static int cpp_demangle_read_expr_primary(struct cpp_demangle_data *); static int cpp_demangle_read_expression(struct cpp_demangle_data *); static int cpp_demangle_read_expression_flat(struct cpp_demangle_data *, char **); static int cpp_demangle_read_expression_binary(struct cpp_demangle_data *, const char *, size_t); static int cpp_demangle_read_expression_unary(struct cpp_demangle_data *, const char *, size_t); static int cpp_demangle_read_expression_trinary(struct cpp_demangle_data *, const char *, size_t, const char *, size_t); static int cpp_demangle_read_function(struct cpp_demangle_data *, int *, struct vector_type_qualifier *); static int cpp_demangle_local_source_name(struct cpp_demangle_data *ddata); static int cpp_demangle_read_local_name(struct cpp_demangle_data *); static int cpp_demangle_read_name(struct cpp_demangle_data *); static int cpp_demangle_read_name_flat(struct cpp_demangle_data *, char**); static int cpp_demangle_read_nested_name(struct cpp_demangle_data *); static int cpp_demangle_read_number(struct cpp_demangle_data *, long *); static int cpp_demangle_read_number_as_string(struct cpp_demangle_data *, char **); static int cpp_demangle_read_nv_offset(struct cpp_demangle_data *); static int cpp_demangle_read_offset(struct cpp_demangle_data *); static int cpp_demangle_read_offset_number(struct cpp_demangle_data *); static int cpp_demangle_read_pointer_to_member(struct cpp_demangle_data *, struct vector_type_qualifier *); static int cpp_demangle_read_sname(struct cpp_demangle_data *); static int cpp_demangle_read_subst(struct cpp_demangle_data *); static int cpp_demangle_read_subst_std(struct cpp_demangle_data *); static int cpp_demangle_read_subst_stdtmpl(struct cpp_demangle_data *, const char *); static int cpp_demangle_read_tmpl_arg(struct cpp_demangle_data *); static int cpp_demangle_read_tmpl_args(struct cpp_demangle_data *); static int cpp_demangle_read_tmpl_param(struct cpp_demangle_data *); static int cpp_demangle_read_type(struct cpp_demangle_data *, struct type_delimit *); static int cpp_demangle_read_type_flat(struct cpp_demangle_data *, char **); static int cpp_demangle_read_uqname(struct cpp_demangle_data *); static int cpp_demangle_read_v_offset(struct cpp_demangle_data *); static char *decode_fp_to_double(const char *, size_t); static char *decode_fp_to_float(const char *, size_t); static char *decode_fp_to_float128(const char *, size_t); static char *decode_fp_to_float80(const char *, size_t); static char *decode_fp_to_long_double(const char *, size_t); static int hex_to_dec(char); static void vector_read_cmd_dest(struct vector_read_cmd *); static struct read_cmd_item *vector_read_cmd_find(struct vector_read_cmd *, enum read_cmd); static int vector_read_cmd_init(struct vector_read_cmd *); static int vector_read_cmd_pop(struct vector_read_cmd *); static int vector_read_cmd_push(struct vector_read_cmd *, enum read_cmd, void *); static void vector_type_qualifier_dest(struct vector_type_qualifier *); static int vector_type_qualifier_init(struct vector_type_qualifier *); static int vector_type_qualifier_push(struct vector_type_qualifier *, enum type_qualifier); /** * @brief Decode the input string by IA-64 C++ ABI style. * * GNU GCC v3 use IA-64 standard ABI. * @return New allocated demangled string or NULL if failed. * @todo 1. Testing and more test case. 2. Code cleaning. */ char * cpp_demangle_gnu3(const char *org) { struct cpp_demangle_data ddata; struct vector_str ret_type; struct type_delimit td; ssize_t org_len; unsigned int limit; char *rtn; bool has_ret, more_type; if (org == NULL || (org_len = strlen(org)) < 2) return (NULL); if (org_len > 11 && !strncmp(org, "_GLOBAL__I_", 11)) { if ((rtn = malloc(org_len + 19)) == NULL) return (NULL); snprintf(rtn, org_len + 19, "global constructors keyed to %s", org + 11); return (rtn); } if (org[0] != '_' || org[1] != 'Z') return (NULL); if (!cpp_demangle_data_init(&ddata, org + 2)) return (NULL); rtn = NULL; has_ret = more_type = false; if (!cpp_demangle_read_encoding(&ddata)) goto clean; /* * Pop function name from substitution candidate list. */ if (*ddata.cur != 0 && ddata.subst.size >= 1) { if (!vector_str_pop(&ddata.subst)) goto clean; } td.paren = false; td.firstp = true; limit = 0; /* * The first type is a return type if we just demangled template * args. (the template args is right next to the function name, * which means it's a template function) */ if (ddata.is_tmpl) { ddata.is_tmpl = false; if (!vector_str_init(&ret_type)) goto clean; ddata.cur_output = &ret_type; has_ret = true; } while (*ddata.cur != '\0') { /* * Breaking at some gcc info at tail. e.g) @@GLIBCXX_3.4 */ if (*ddata.cur == '@' && *(ddata.cur + 1) == '@') break; if (has_ret) { /* Read return type */ if (!cpp_demangle_read_type(&ddata, NULL)) goto clean; } else { /* Read function arg type */ if (!cpp_demangle_read_type(&ddata, &td)) goto clean; } if (has_ret) { /* Push return type to the beginning */ if (!VEC_PUSH_STR(&ret_type, " ")) goto clean; if (!vector_str_push_vector_head(&ddata.output, &ret_type)) goto clean; ddata.cur_output = &ddata.output; vector_str_dest(&ret_type); has_ret = false; more_type = true; } else if (more_type) more_type = false; if (limit++ > CPP_DEMANGLE_TRY_LIMIT) goto clean; } if (more_type) goto clean; if (ddata.output.size == 0) goto clean; if (td.paren && !VEC_PUSH_STR(&ddata.output, ")")) goto clean; if (ddata.mem_vat && !VEC_PUSH_STR(&ddata.output, " volatile")) goto clean; if (ddata.mem_cst && !VEC_PUSH_STR(&ddata.output, " const")) goto clean; if (ddata.mem_rst && !VEC_PUSH_STR(&ddata.output, " restrict")) goto clean; if (ddata.mem_ref && !VEC_PUSH_STR(&ddata.output, " &")) goto clean; if (ddata.mem_rref && !VEC_PUSH_STR(&ddata.output, " &&")) goto clean; rtn = vector_str_get_flat(&ddata.output, (size_t *) NULL); clean: if (has_ret) vector_str_dest(&ret_type); cpp_demangle_data_dest(&ddata); return (rtn); } static void cpp_demangle_data_dest(struct cpp_demangle_data *d) { if (d == NULL) return; vector_read_cmd_dest(&d->cmd); vector_str_dest(&d->class_type); vector_str_dest(&d->tmpl); vector_str_dest(&d->subst); vector_str_dest(&d->output); } static int cpp_demangle_data_init(struct cpp_demangle_data *d, const char *cur) { if (d == NULL || cur == NULL) return (0); if (!vector_str_init(&d->output)) return (0); if (!vector_str_init(&d->subst)) goto clean1; if (!vector_str_init(&d->tmpl)) goto clean2; if (!vector_str_init(&d->class_type)) goto clean3; if (!vector_read_cmd_init(&d->cmd)) goto clean4; assert(d->output.container != NULL); assert(d->subst.container != NULL); assert(d->tmpl.container != NULL); assert(d->class_type.container != NULL); d->mem_rst = false; d->mem_vat = false; d->mem_cst = false; d->mem_ref = false; d->mem_rref = false; d->is_tmpl = false; d->is_functype = false; d->ref_qualifier = false; d->push_qualifier = PUSH_ALL_QUALIFIER; d->func_type = 0; d->cur = cur; d->cur_output = &d->output; d->last_sname = NULL; return (1); clean4: vector_str_dest(&d->class_type); clean3: vector_str_dest(&d->tmpl); clean2: vector_str_dest(&d->subst); clean1: vector_str_dest(&d->output); return (0); } static int cpp_demangle_push_fp(struct cpp_demangle_data *ddata, char *(*decoder)(const char *, size_t)) { size_t len; int rtn; const char *fp; char *f; if (ddata == NULL || decoder == NULL) return (0); fp = ddata->cur; while (*ddata->cur != 'E') ++ddata->cur; if ((f = decoder(fp, ddata->cur - fp)) == NULL) return (0); rtn = 0; if ((len = strlen(f)) > 0) rtn = cpp_demangle_push_str(ddata, f, len); free(f); ++ddata->cur; return (rtn); } static int cpp_demangle_push_str(struct cpp_demangle_data *ddata, const char *str, size_t len) { if (ddata == NULL || str == NULL || len == 0) return (0); /* * is_tmpl is used to check if the type (function arg) is right next * to template args, and should always be cleared whenever new string * pushed. */ ddata->is_tmpl = false; return (vector_str_push(ddata->cur_output, str, len)); } static int cpp_demangle_pop_str(struct cpp_demangle_data *ddata) { if (ddata == NULL) return (0); return (vector_str_pop(ddata->cur_output)); } static int cpp_demangle_push_subst(struct cpp_demangle_data *ddata, const char *str, size_t len) { if (ddata == NULL || str == NULL || len == 0) return (0); if (!vector_str_find(&ddata->subst, str, len)) return (vector_str_push(&ddata->subst, str, len)); return (1); } static int cpp_demangle_push_subst_v(struct cpp_demangle_data *ddata, struct vector_str *v) { size_t str_len; int rtn; char *str; if (ddata == NULL || v == NULL) return (0); if ((str = vector_str_get_flat(v, &str_len)) == NULL) return (0); rtn = cpp_demangle_push_subst(ddata, str, str_len); free(str); return (rtn); } static int cpp_demangle_push_type_qualifier(struct cpp_demangle_data *ddata, struct vector_type_qualifier *v, const char *type_str) { struct vector_str subst_v; enum type_qualifier t; size_t idx, e_idx, e_len; char *buf; int rtn; bool cv; if (ddata == NULL || v == NULL) return (0); if ((idx = v->size) == 0) return (1); rtn = 0; if (type_str != NULL) { if (!vector_str_init(&subst_v)) return (0); if (!VEC_PUSH_STR(&subst_v, type_str)) goto clean; } cv = true; e_idx = 0; while (idx > 0) { switch (v->q_container[idx - 1]) { case TYPE_PTR: cv = false; if (ddata->push_qualifier == PUSH_CV_QUALIFIER) break; if (!DEM_PUSH_STR(ddata, "*")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, "*")) goto clean; if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_REF: cv = false; if (ddata->push_qualifier == PUSH_CV_QUALIFIER) break; if (!DEM_PUSH_STR(ddata, "&")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, "&")) goto clean; if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_RREF: cv = false; if (ddata->push_qualifier == PUSH_CV_QUALIFIER) break; if (!DEM_PUSH_STR(ddata, "&&")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, "&&")) goto clean; if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_CMX: cv = false; if (ddata->push_qualifier == PUSH_CV_QUALIFIER) break; if (!DEM_PUSH_STR(ddata, " complex")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, " complex")) goto clean; if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_IMG: cv = false; if (ddata->push_qualifier == PUSH_CV_QUALIFIER) break; if (!DEM_PUSH_STR(ddata, " imaginary")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, " imaginary")) goto clean; if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_EXT: cv = false; if (ddata->push_qualifier == PUSH_CV_QUALIFIER) break; if (v->ext_name.size == 0 || e_idx > v->ext_name.size - 1) goto clean; if ((e_len = strlen(v->ext_name.container[e_idx])) == 0) goto clean; if ((buf = malloc(e_len + 2)) == NULL) goto clean; snprintf(buf, e_len + 2, " %s", v->ext_name.container[e_idx]); if (!DEM_PUSH_STR(ddata, buf)) { free(buf); goto clean; } if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, buf)) { free(buf); goto clean; } if (!cpp_demangle_push_subst_v(ddata, &subst_v)) { free(buf); goto clean; } } free(buf); ++e_idx; break; case TYPE_RST: if (ddata->push_qualifier == PUSH_NON_CV_QUALIFIER && cv) break; if (ddata->push_qualifier == PUSH_CV_QUALIFIER && !cv) break; if (!DEM_PUSH_STR(ddata, " restrict")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, " restrict")) goto clean; if (idx - 1 > 0) { t = v->q_container[idx - 2]; if (t == TYPE_RST || t == TYPE_VAT || t == TYPE_CST) break; } if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_VAT: if (ddata->push_qualifier == PUSH_NON_CV_QUALIFIER && cv) break; if (ddata->push_qualifier == PUSH_CV_QUALIFIER && !cv) break; if (!DEM_PUSH_STR(ddata, " volatile")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, " volatile")) goto clean; if (idx - 1 > 0) { t = v->q_container[idx - 2]; if (t == TYPE_RST || t == TYPE_VAT || t == TYPE_CST) break; } if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_CST: if (ddata->push_qualifier == PUSH_NON_CV_QUALIFIER && cv) break; if (ddata->push_qualifier == PUSH_CV_QUALIFIER && !cv) break; if (!DEM_PUSH_STR(ddata, " const")) goto clean; if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, " const")) goto clean; if (idx - 1 > 0) { t = v->q_container[idx - 2]; if (t == TYPE_RST || t == TYPE_VAT || t == TYPE_CST) break; } if (!cpp_demangle_push_subst_v(ddata, &subst_v)) goto clean; } break; case TYPE_VEC: cv = false; if (ddata->push_qualifier == PUSH_CV_QUALIFIER) break; if (v->ext_name.size == 0 || e_idx > v->ext_name.size - 1) goto clean; if ((e_len = strlen(v->ext_name.container[e_idx])) == 0) goto clean; if ((buf = malloc(e_len + 12)) == NULL) goto clean; snprintf(buf, e_len + 12, " __vector(%s)", v->ext_name.container[e_idx]); if (!DEM_PUSH_STR(ddata, buf)) { free(buf); goto clean; } if (type_str != NULL) { if (!VEC_PUSH_STR(&subst_v, buf)) { free(buf); goto clean; } if (!cpp_demangle_push_subst_v(ddata, &subst_v)) { free(buf); goto clean; } } free(buf); ++e_idx; break; } --idx; } rtn = 1; clean: if (type_str != NULL) vector_str_dest(&subst_v); return (rtn); } static int cpp_demangle_get_subst(struct cpp_demangle_data *ddata, size_t idx) { size_t len; if (ddata == NULL || ddata->subst.size <= idx) return (0); if ((len = strlen(ddata->subst.container[idx])) == 0) return (0); if (!cpp_demangle_push_str(ddata, ddata->subst.container[idx], len)) return (0); /* skip '_' */ ++ddata->cur; return (1); } static int cpp_demangle_get_tmpl_param(struct cpp_demangle_data *ddata, size_t idx) { size_t len; if (ddata == NULL || ddata->tmpl.size <= idx) return (0); if ((len = strlen(ddata->tmpl.container[idx])) == 0) return (0); if (!cpp_demangle_push_str(ddata, ddata->tmpl.container[idx], len)) return (0); ++ddata->cur; return (1); } static int cpp_demangle_read_array(struct cpp_demangle_data *ddata) { size_t i, num_len, exp_len, p_idx, idx; const char *num; char *exp; if (ddata == NULL || *(++ddata->cur) == '\0') return (0); if (*ddata->cur == '_') { if (*(++ddata->cur) == '\0') return (0); if (!cpp_demangle_read_type(ddata, NULL)) return (0); if (!DEM_PUSH_STR(ddata, "[]")) return (0); } else { if (ELFTC_ISDIGIT(*ddata->cur) != 0) { num = ddata->cur; while (ELFTC_ISDIGIT(*ddata->cur) != 0) ++ddata->cur; if (*ddata->cur != '_') return (0); num_len = ddata->cur - num; assert(num_len > 0); if (*(++ddata->cur) == '\0') return (0); if (!cpp_demangle_read_type(ddata, NULL)) return (0); if (!DEM_PUSH_STR(ddata, "[")) return (0); if (!cpp_demangle_push_str(ddata, num, num_len)) return (0); if (!DEM_PUSH_STR(ddata, "]")) return (0); } else { p_idx = ddata->output.size; if (!cpp_demangle_read_expression(ddata)) return (0); if ((exp = vector_str_substr(&ddata->output, p_idx, ddata->output.size - 1, &exp_len)) == NULL) return (0); idx = ddata->output.size; for (i = p_idx; i < idx; ++i) if (!vector_str_pop(&ddata->output)) { free(exp); return (0); } if (*ddata->cur != '_') { free(exp); return (0); } ++ddata->cur; if (*ddata->cur == '\0') { free(exp); return (0); } if (!cpp_demangle_read_type(ddata, NULL)) { free(exp); return (0); } if (!DEM_PUSH_STR(ddata, "[")) { free(exp); return (0); } if (!cpp_demangle_push_str(ddata, exp, exp_len)) { free(exp); return (0); } if (!DEM_PUSH_STR(ddata, "]")) { free(exp); return (0); } free(exp); } } return (1); } static int cpp_demangle_read_expr_primary(struct cpp_demangle_data *ddata) { const char *num; if (ddata == NULL || *(++ddata->cur) == '\0') return (0); if (*ddata->cur == '_' && *(ddata->cur + 1) == 'Z') { ddata->cur += 2; if (*ddata->cur == '\0') return (0); if (!cpp_demangle_read_encoding(ddata)) return (0); ++ddata->cur; return (1); } switch (*ddata->cur) { case 'b': if (*(ddata->cur + 2) != 'E') return (0); switch (*(++ddata->cur)) { case '0': ddata->cur += 2; return (DEM_PUSH_STR(ddata, "false")); case '1': ddata->cur += 2; return (DEM_PUSH_STR(ddata, "true")); default: return (0); } case 'd': ++ddata->cur; return (cpp_demangle_push_fp(ddata, decode_fp_to_double)); case 'e': ++ddata->cur; if (sizeof(long double) == 10) return (cpp_demangle_push_fp(ddata, decode_fp_to_double)); return (cpp_demangle_push_fp(ddata, decode_fp_to_float80)); case 'f': ++ddata->cur; return (cpp_demangle_push_fp(ddata, decode_fp_to_float)); case 'g': ++ddata->cur; if (sizeof(long double) == 16) return (cpp_demangle_push_fp(ddata, decode_fp_to_double)); return (cpp_demangle_push_fp(ddata, decode_fp_to_float128)); case 'i': case 'j': case 'l': case 'm': case 'n': case 's': case 't': case 'x': case 'y': if (*(++ddata->cur) == 'n') { if (!DEM_PUSH_STR(ddata, "-")) return (0); ++ddata->cur; } num = ddata->cur; while (*ddata->cur != 'E') { if (!ELFTC_ISDIGIT(*ddata->cur)) return (0); ++ddata->cur; } ++ddata->cur; return (cpp_demangle_push_str(ddata, num, ddata->cur - num - 1)); default: return (0); } } static int cpp_demangle_read_expression(struct cpp_demangle_data *ddata) { if (ddata == NULL || *ddata->cur == '\0') return (0); switch (SIMPLE_HASH(*ddata->cur, *(ddata->cur + 1))) { case SIMPLE_HASH('s', 't'): ddata->cur += 2; return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('s', 'r'): ddata->cur += 2; if (!cpp_demangle_read_type(ddata, NULL)) return (0); if (!cpp_demangle_read_uqname(ddata)) return (0); if (*ddata->cur == 'I') return (cpp_demangle_read_tmpl_args(ddata)); return (1); case SIMPLE_HASH('a', 'a'): /* operator && */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "&&", 2)); case SIMPLE_HASH('a', 'd'): /* operator & (unary) */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "&", 1)); case SIMPLE_HASH('a', 'n'): /* operator & */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "&", 1)); case SIMPLE_HASH('a', 'N'): /* operator &= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "&=", 2)); case SIMPLE_HASH('a', 'S'): /* operator = */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "=", 1)); case SIMPLE_HASH('c', 'l'): /* operator () */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "()", 2)); case SIMPLE_HASH('c', 'm'): /* operator , */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, ",", 1)); case SIMPLE_HASH('c', 'o'): /* operator ~ */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "~", 1)); case SIMPLE_HASH('c', 'v'): /* operator (cast) */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "(cast)", 6)); case SIMPLE_HASH('d', 'a'): /* operator delete [] */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "delete []", 9)); case SIMPLE_HASH('d', 'e'): /* operator * (unary) */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "*", 1)); case SIMPLE_HASH('d', 'l'): /* operator delete */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "delete", 6)); case SIMPLE_HASH('d', 'v'): /* operator / */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "/", 1)); case SIMPLE_HASH('d', 'V'): /* operator /= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "/=", 2)); case SIMPLE_HASH('e', 'o'): /* operator ^ */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "^", 1)); case SIMPLE_HASH('e', 'O'): /* operator ^= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "^=", 2)); case SIMPLE_HASH('e', 'q'): /* operator == */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "==", 2)); case SIMPLE_HASH('g', 'e'): /* operator >= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, ">=", 2)); case SIMPLE_HASH('g', 't'): /* operator > */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, ">", 1)); case SIMPLE_HASH('i', 'x'): /* operator [] */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "[]", 2)); case SIMPLE_HASH('l', 'e'): /* operator <= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "<=", 2)); case SIMPLE_HASH('l', 's'): /* operator << */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "<<", 2)); case SIMPLE_HASH('l', 'S'): /* operator <<= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "<<=", 3)); case SIMPLE_HASH('l', 't'): /* operator < */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "<", 1)); case SIMPLE_HASH('m', 'i'): /* operator - */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "-", 1)); case SIMPLE_HASH('m', 'I'): /* operator -= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "-=", 2)); case SIMPLE_HASH('m', 'l'): /* operator * */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "*", 1)); case SIMPLE_HASH('m', 'L'): /* operator *= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "*=", 2)); case SIMPLE_HASH('m', 'm'): /* operator -- */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "--", 2)); case SIMPLE_HASH('n', 'a'): /* operator new[] */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "new []", 6)); case SIMPLE_HASH('n', 'e'): /* operator != */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "!=", 2)); case SIMPLE_HASH('n', 'g'): /* operator - (unary) */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "-", 1)); case SIMPLE_HASH('n', 't'): /* operator ! */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "!", 1)); case SIMPLE_HASH('n', 'w'): /* operator new */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "new", 3)); case SIMPLE_HASH('o', 'o'): /* operator || */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "||", 2)); case SIMPLE_HASH('o', 'r'): /* operator | */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "|", 1)); case SIMPLE_HASH('o', 'R'): /* operator |= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "|=", 2)); case SIMPLE_HASH('p', 'l'): /* operator + */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "+", 1)); case SIMPLE_HASH('p', 'L'): /* operator += */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "+=", 2)); case SIMPLE_HASH('p', 'm'): /* operator ->* */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "->*", 3)); case SIMPLE_HASH('p', 'p'): /* operator ++ */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "++", 2)); case SIMPLE_HASH('p', 's'): /* operator + (unary) */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "+", 1)); case SIMPLE_HASH('p', 't'): /* operator -> */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "->", 2)); case SIMPLE_HASH('q', 'u'): /* operator ? */ ddata->cur += 2; return (cpp_demangle_read_expression_trinary(ddata, "?", 1, ":", 1)); case SIMPLE_HASH('r', 'm'): /* operator % */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "%", 1)); case SIMPLE_HASH('r', 'M'): /* operator %= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, "%=", 2)); case SIMPLE_HASH('r', 's'): /* operator >> */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, ">>", 2)); case SIMPLE_HASH('r', 'S'): /* operator >>= */ ddata->cur += 2; return (cpp_demangle_read_expression_binary(ddata, ">>=", 3)); case SIMPLE_HASH('r', 'z'): /* operator sizeof */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "sizeof", 6)); case SIMPLE_HASH('s', 'v'): /* operator sizeof */ ddata->cur += 2; return (cpp_demangle_read_expression_unary(ddata, "sizeof", 6)); } switch (*ddata->cur) { case 'L': return (cpp_demangle_read_expr_primary(ddata)); case 'T': return (cpp_demangle_read_tmpl_param(ddata)); } return (0); } static int cpp_demangle_read_expression_flat(struct cpp_demangle_data *ddata, char **str) { struct vector_str *output; size_t i, p_idx, idx, exp_len; char *exp; output = &ddata->output; p_idx = output->size; if (!cpp_demangle_read_expression(ddata)) return (0); if ((exp = vector_str_substr(output, p_idx, output->size - 1, &exp_len)) == NULL) return (0); idx = output->size; for (i = p_idx; i < idx; ++i) { if (!vector_str_pop(output)) { free(exp); return (0); } } *str = exp; return (1); } static int cpp_demangle_read_expression_binary(struct cpp_demangle_data *ddata, const char *name, size_t len) { if (ddata == NULL || name == NULL || len == 0) return (0); if (!cpp_demangle_read_expression(ddata)) return (0); if (!cpp_demangle_push_str(ddata, name, len)) return (0); return (cpp_demangle_read_expression(ddata)); } static int cpp_demangle_read_expression_unary(struct cpp_demangle_data *ddata, const char *name, size_t len) { if (ddata == NULL || name == NULL || len == 0) return (0); if (!cpp_demangle_read_expression(ddata)) return (0); return (cpp_demangle_push_str(ddata, name, len)); } static int cpp_demangle_read_expression_trinary(struct cpp_demangle_data *ddata, const char *name1, size_t len1, const char *name2, size_t len2) { if (ddata == NULL || name1 == NULL || len1 == 0 || name2 == NULL || len2 == 0) return (0); if (!cpp_demangle_read_expression(ddata)) return (0); if (!cpp_demangle_push_str(ddata, name1, len1)) return (0); if (!cpp_demangle_read_expression(ddata)) return (0); if (!cpp_demangle_push_str(ddata, name2, len2)) return (0); return (cpp_demangle_read_expression(ddata)); } static int cpp_demangle_read_function(struct cpp_demangle_data *ddata, int *ext_c, struct vector_type_qualifier *v) { struct type_delimit td; struct read_cmd_item *rc; size_t class_type_size, class_type_len, limit; const char *class_type; int i; bool paren, non_cv_qualifier; if (ddata == NULL || *ddata->cur != 'F' || v == NULL) return (0); ++ddata->cur; if (*ddata->cur == 'Y') { if (ext_c != NULL) *ext_c = 1; ++ddata->cur; } /* Return type */ if (!cpp_demangle_read_type(ddata, NULL)) return (0); if (*ddata->cur != 'E') { if (!DEM_PUSH_STR(ddata, " ")) return (0); non_cv_qualifier = false; if (v->size > 0) { for (i = 0; (size_t) i < v->size; i++) { if (v->q_container[i] != TYPE_RST && v->q_container[i] != TYPE_VAT && v->q_container[i] != TYPE_CST) { non_cv_qualifier = true; break; } } } paren = false; rc = vector_read_cmd_find(&ddata->cmd, READ_PTRMEM); if (non_cv_qualifier || rc != NULL) { if (!DEM_PUSH_STR(ddata, "(")) return (0); paren = true; } /* Push non-cv qualifiers. */ ddata->push_qualifier = PUSH_NON_CV_QUALIFIER; if (!cpp_demangle_push_type_qualifier(ddata, v, NULL)) return (0); if (rc) { if (non_cv_qualifier && !DEM_PUSH_STR(ddata, " ")) return (0); if ((class_type_size = ddata->class_type.size) == 0) return (0); class_type = ddata->class_type.container[class_type_size - 1]; if (class_type == NULL) return (0); if ((class_type_len = strlen(class_type)) == 0) return (0); if (!cpp_demangle_push_str(ddata, class_type, class_type_len)) return (0); if (!DEM_PUSH_STR(ddata, "::*")) return (0); /* Push pointer-to-member qualifiers. */ ddata->push_qualifier = PUSH_ALL_QUALIFIER; if (!cpp_demangle_push_type_qualifier(ddata, rc->data, NULL)) return (0); ++ddata->func_type; } if (paren) { if (!DEM_PUSH_STR(ddata, ")")) return (0); paren = false; } td.paren = false; td.firstp = true; limit = 0; ddata->is_functype = true; for (;;) { if (!cpp_demangle_read_type(ddata, &td)) return (0); if (*ddata->cur == 'E') break; if (limit++ > CPP_DEMANGLE_TRY_LIMIT) return (0); } ddata->is_functype = false; if (td.paren) { if (!DEM_PUSH_STR(ddata, ")")) return (0); td.paren = false; } /* Push CV qualifiers. */ ddata->push_qualifier = PUSH_CV_QUALIFIER; if (!cpp_demangle_push_type_qualifier(ddata, v, NULL)) return (0); ddata->push_qualifier = PUSH_ALL_QUALIFIER; /* Release type qualifier vector. */ vector_type_qualifier_dest(v); if (!vector_type_qualifier_init(v)) return (0); /* Push ref-qualifiers. */ if (ddata->ref_qualifier) { switch (ddata->ref_qualifier_type) { case TYPE_REF: if (!DEM_PUSH_STR(ddata, " &")) return (0); break; case TYPE_RREF: if (!DEM_PUSH_STR(ddata, " &&")) return (0); break; default: return (0); } ddata->ref_qualifier = false; } } ++ddata->cur; return (1); } /* read encoding, encoding are function name, data name, special-name */ static int cpp_demangle_read_encoding(struct cpp_demangle_data *ddata) { char *name, *type, *num_str; long offset; int rtn; if (ddata == NULL || *ddata->cur == '\0') return (0); /* special name */ switch (SIMPLE_HASH(*ddata->cur, *(ddata->cur + 1))) { case SIMPLE_HASH('G', 'A'): if (!DEM_PUSH_STR(ddata, "hidden alias for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); return (cpp_demangle_read_encoding(ddata)); case SIMPLE_HASH('G', 'R'): if (!DEM_PUSH_STR(ddata, "reference temporary #")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); if (!cpp_demangle_read_name_flat(ddata, &name)) return (0); rtn = 0; if (!cpp_demangle_read_number_as_string(ddata, &num_str)) goto clean1; if (!DEM_PUSH_STR(ddata, num_str)) goto clean2; if (!DEM_PUSH_STR(ddata, " for ")) goto clean2; if (!DEM_PUSH_STR(ddata, name)) goto clean2; rtn = 1; clean2: free(num_str); clean1: free(name); return (rtn); case SIMPLE_HASH('G', 'T'): ddata->cur += 2; if (*ddata->cur == '\0') return (0); switch (*ddata->cur) { case 'n': if (!DEM_PUSH_STR(ddata, "non-transaction clone for ")) return (0); break; case 't': default: if (!DEM_PUSH_STR(ddata, "transaction clone for ")) return (0); break; } ++ddata->cur; return (cpp_demangle_read_encoding(ddata)); case SIMPLE_HASH('G', 'V'): /* sentry object for 1 time init */ if (!DEM_PUSH_STR(ddata, "guard variable for ")) return (0); ddata->cur += 2; break; case SIMPLE_HASH('T', 'c'): /* virtual function covariant override thunk */ if (!DEM_PUSH_STR(ddata, "virtual function covariant override ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); if (!cpp_demangle_read_offset(ddata)) return (0); if (!cpp_demangle_read_offset(ddata)) return (0); return (cpp_demangle_read_encoding(ddata)); case SIMPLE_HASH('T', 'C'): /* construction vtable */ if (!DEM_PUSH_STR(ddata, "construction vtable for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); if (!cpp_demangle_read_type_flat(ddata, &type)) return (0); rtn = 0; if (!cpp_demangle_read_number(ddata, &offset)) goto clean3; if (*ddata->cur++ != '_') goto clean3; if (!cpp_demangle_read_type(ddata, NULL)) goto clean3; if (!DEM_PUSH_STR(ddata, "-in-")) goto clean3; if (!DEM_PUSH_STR(ddata, type)) goto clean3; rtn = 1; clean3: free(type); return (rtn); case SIMPLE_HASH('T', 'D'): /* typeinfo common proxy */ break; case SIMPLE_HASH('T', 'F'): /* typeinfo fn */ if (!DEM_PUSH_STR(ddata, "typeinfo fn for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('T', 'h'): /* virtual function non-virtual override thunk */ if (!DEM_PUSH_STR(ddata, "virtual function non-virtual override ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); if (!cpp_demangle_read_nv_offset(ddata)) return (0); return (cpp_demangle_read_encoding(ddata)); case SIMPLE_HASH('T', 'H'): /* TLS init function */ if (!DEM_PUSH_STR(ddata, "TLS init function for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); break; case SIMPLE_HASH('T', 'I'): /* typeinfo structure */ if (!DEM_PUSH_STR(ddata, "typeinfo for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('T', 'J'): /* java class */ if (!DEM_PUSH_STR(ddata, "java Class for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('T', 'S'): /* RTTI name (NTBS) */ if (!DEM_PUSH_STR(ddata, "typeinfo name for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('T', 'T'): /* VTT table */ if (!DEM_PUSH_STR(ddata, "VTT for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('T', 'v'): /* virtual function virtual override thunk */ if (!DEM_PUSH_STR(ddata, "virtual function virtual override ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); if (!cpp_demangle_read_v_offset(ddata)) return (0); return (cpp_demangle_read_encoding(ddata)); case SIMPLE_HASH('T', 'V'): /* virtual table */ if (!DEM_PUSH_STR(ddata, "vtable for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('T', 'W'): /* TLS wrapper function */ if (!DEM_PUSH_STR(ddata, "TLS wrapper function for ")) return (0); ddata->cur += 2; if (*ddata->cur == '\0') return (0); break; } return (cpp_demangle_read_name(ddata)); } static int cpp_demangle_read_local_name(struct cpp_demangle_data *ddata) { struct vector_str local_name; struct type_delimit td; size_t limit; bool more_type; if (ddata == NULL) return (0); if (*(++ddata->cur) == '\0') return (0); if (!vector_str_init(&local_name)) return (0); ddata->cur_output = &local_name; if (!cpp_demangle_read_encoding(ddata)) { vector_str_dest(&local_name); return (0); } ddata->cur_output = &ddata->output; td.paren = false; td.firstp = true; more_type = false; limit = 0; /* * The first type is a return type if we just demangled template * args. (the template args is right next to the function name, * which means it's a template function) */ if (ddata->is_tmpl) { ddata->is_tmpl = false; /* Read return type */ if (!cpp_demangle_read_type(ddata, NULL)) { vector_str_dest(&local_name); return (0); } more_type = true; } /* Now we can push the name after possible return type is handled. */ if (!vector_str_push_vector(&ddata->output, &local_name)) { vector_str_dest(&local_name); return (0); } vector_str_dest(&local_name); while (*ddata->cur != '\0') { if (!cpp_demangle_read_type(ddata, &td)) return (0); if (more_type) more_type = false; if (*ddata->cur == 'E') break; if (limit++ > CPP_DEMANGLE_TRY_LIMIT) return (0); } if (more_type) return (0); if (*(++ddata->cur) == '\0') return (0); if (td.paren == true) { if (!DEM_PUSH_STR(ddata, ")")) return (0); td.paren = false; } if (*ddata->cur == 's') ++ddata->cur; else { if (!DEM_PUSH_STR(ddata, "::")) return (0); if (!cpp_demangle_read_name(ddata)) return (0); } if (*ddata->cur == '_') { ++ddata->cur; while (ELFTC_ISDIGIT(*ddata->cur) != 0) ++ddata->cur; } return (1); } static int cpp_demangle_read_name(struct cpp_demangle_data *ddata) { struct vector_str *output, v; size_t p_idx, subst_str_len; int rtn; char *subst_str; if (ddata == NULL || *ddata->cur == '\0') return (0); output = ddata->cur_output; subst_str = NULL; switch (*ddata->cur) { case 'S': return (cpp_demangle_read_subst(ddata)); case 'N': return (cpp_demangle_read_nested_name(ddata)); case 'Z': return (cpp_demangle_read_local_name(ddata)); } if (!vector_str_init(&v)) return (0); p_idx = output->size; rtn = 0; if (!cpp_demangle_read_uqname(ddata)) goto clean; if ((subst_str = vector_str_substr(output, p_idx, output->size - 1, &subst_str_len)) == NULL) goto clean; if (subst_str_len > 8 && strstr(subst_str, "operator") != NULL) { rtn = 1; goto clean; } if (!vector_str_push(&v, subst_str, subst_str_len)) goto clean; if (!cpp_demangle_push_subst_v(ddata, &v)) goto clean; if (*ddata->cur == 'I') { p_idx = output->size; if (!cpp_demangle_read_tmpl_args(ddata)) goto clean; free(subst_str); if ((subst_str = vector_str_substr(output, p_idx, output->size - 1, &subst_str_len)) == NULL) goto clean; if (!vector_str_push(&v, subst_str, subst_str_len)) goto clean; if (!cpp_demangle_push_subst_v(ddata, &v)) goto clean; } rtn = 1; clean: free(subst_str); vector_str_dest(&v); return (rtn); } static int cpp_demangle_read_name_flat(struct cpp_demangle_data *ddata, char **str) { struct vector_str *output; size_t i, p_idx, idx, name_len; char *name; output = ddata->cur_output; p_idx = output->size; if (!cpp_demangle_read_name(ddata)) return (0); if ((name = vector_str_substr(output, p_idx, output->size - 1, &name_len)) == NULL) return (0); idx = output->size; for (i = p_idx; i < idx; ++i) { if (!vector_str_pop(output)) { free(name); return (0); } } *str = name; return (1); } static int cpp_demangle_read_nested_name(struct cpp_demangle_data *ddata) { struct vector_str *output, v; size_t limit, p_idx, subst_str_len; int rtn; char *subst_str; if (ddata == NULL || *ddata->cur != 'N') return (0); if (*(++ddata->cur) == '\0') return (0); do { switch (*ddata->cur) { case 'r': ddata->mem_rst = true; break; case 'V': ddata->mem_vat = true; break; case 'K': ddata->mem_cst = true; break; case 'R': ddata->mem_ref = true; break; case 'O': ddata->mem_rref = true; break; default: goto next; } } while (*(++ddata->cur)); next: output = ddata->cur_output; if (!vector_str_init(&v)) return (0); rtn = 0; limit = 0; for (;;) { p_idx = output->size; switch (*ddata->cur) { case 'I': if (!cpp_demangle_read_tmpl_args(ddata)) goto clean; break; case 'S': if (!cpp_demangle_read_subst(ddata)) goto clean; break; case 'T': if (!cpp_demangle_read_tmpl_param(ddata)) goto clean; break; default: if (!cpp_demangle_read_uqname(ddata)) goto clean; } if (p_idx == output->size) goto next_comp; if ((subst_str = vector_str_substr(output, p_idx, output->size - 1, &subst_str_len)) == NULL) goto clean; if (!vector_str_push(&v, subst_str, subst_str_len)) { free(subst_str); goto clean; } free(subst_str); if (!cpp_demangle_push_subst_v(ddata, &v)) goto clean; next_comp: if (*ddata->cur == 'E') break; else if (*ddata->cur != 'I' && *ddata->cur != 'C' && *ddata->cur != 'D' && p_idx != output->size) { if (!DEM_PUSH_STR(ddata, "::")) goto clean; if (!VEC_PUSH_STR(&v, "::")) goto clean; } if (limit++ > CPP_DEMANGLE_TRY_LIMIT) goto clean; } ++ddata->cur; rtn = 1; clean: vector_str_dest(&v); return (rtn); } /* * read number * number ::= [n] */ static int cpp_demangle_read_number(struct cpp_demangle_data *ddata, long *rtn) { long len, negative_factor; if (ddata == NULL || rtn == NULL) return (0); negative_factor = 1; if (*ddata->cur == 'n') { negative_factor = -1; ++ddata->cur; } if (ELFTC_ISDIGIT(*ddata->cur) == 0) return (0); errno = 0; if ((len = strtol(ddata->cur, (char **) NULL, 10)) == 0 && errno != 0) return (0); while (ELFTC_ISDIGIT(*ddata->cur) != 0) ++ddata->cur; assert(len >= 0); assert(negative_factor == 1 || negative_factor == -1); *rtn = len * negative_factor; return (1); } static int cpp_demangle_read_number_as_string(struct cpp_demangle_data *ddata, char **str) { long n; if (!cpp_demangle_read_number(ddata, &n)) { *str = NULL; return (0); } if (asprintf(str, "%ld", n) < 0) { *str = NULL; return (0); } return (1); } static int cpp_demangle_read_nv_offset(struct cpp_demangle_data *ddata) { if (ddata == NULL) return (0); if (!DEM_PUSH_STR(ddata, "offset : ")) return (0); return (cpp_demangle_read_offset_number(ddata)); } /* read offset, offset are nv-offset, v-offset */ static int cpp_demangle_read_offset(struct cpp_demangle_data *ddata) { if (ddata == NULL) return (0); if (*ddata->cur == 'h') { ++ddata->cur; return (cpp_demangle_read_nv_offset(ddata)); } else if (*ddata->cur == 'v') { ++ddata->cur; return (cpp_demangle_read_v_offset(ddata)); } return (0); } static int cpp_demangle_read_offset_number(struct cpp_demangle_data *ddata) { bool negative; const char *start; if (ddata == NULL || *ddata->cur == '\0') return (0); /* offset could be negative */ if (*ddata->cur == 'n') { negative = true; start = ddata->cur + 1; } else { negative = false; start = ddata->cur; } while (*ddata->cur != '_') ++ddata->cur; if (negative && !DEM_PUSH_STR(ddata, "-")) return (0); assert(start != NULL); if (!cpp_demangle_push_str(ddata, start, ddata->cur - start)) return (0); if (!DEM_PUSH_STR(ddata, " ")) return (0); ++ddata->cur; return (1); } static int cpp_demangle_read_pointer_to_member(struct cpp_demangle_data *ddata, struct vector_type_qualifier *v) { size_t class_type_len, i, idx, p_idx; int p_func_type, rtn; char *class_type; if (ddata == NULL || *ddata->cur != 'M' || *(++ddata->cur) == '\0') return (0); p_idx = ddata->output.size; if (!cpp_demangle_read_type(ddata, NULL)) return (0); if ((class_type = vector_str_substr(&ddata->output, p_idx, ddata->output.size - 1, &class_type_len)) == NULL) return (0); rtn = 0; idx = ddata->output.size; for (i = p_idx; i < idx; ++i) if (!vector_str_pop(&ddata->output)) goto clean1; if (!vector_read_cmd_push(&ddata->cmd, READ_PTRMEM, v)) goto clean1; if (!vector_str_push(&ddata->class_type, class_type, class_type_len)) goto clean2; p_func_type = ddata->func_type; if (!cpp_demangle_read_type(ddata, NULL)) goto clean3; if (p_func_type == ddata->func_type) { if (!DEM_PUSH_STR(ddata, " ")) goto clean3; if (!cpp_demangle_push_str(ddata, class_type, class_type_len)) goto clean3; if (!DEM_PUSH_STR(ddata, "::*")) goto clean3; } rtn = 1; clean3: if (!vector_str_pop(&ddata->class_type)) rtn = 0; clean2: if (!vector_read_cmd_pop(&ddata->cmd)) rtn = 0; clean1: free(class_type); vector_type_qualifier_dest(v); if (!vector_type_qualifier_init(v)) return (0); return (rtn); } /* read source-name, source-name is */ static int cpp_demangle_read_sname(struct cpp_demangle_data *ddata) { long len; int err; if (ddata == NULL || cpp_demangle_read_number(ddata, &len) == 0 || len <= 0) return (0); if (len == 12 && (memcmp("_GLOBAL__N_1", ddata->cur, 12) == 0)) err = DEM_PUSH_STR(ddata, "(anonymous namespace)"); else err = cpp_demangle_push_str(ddata, ddata->cur, len); if (err == 0) return (0); - assert(ddata->output.size > 0); + assert(ddata->cur_output->size > 0); if (vector_read_cmd_find(&ddata->cmd, READ_TMPL) == NULL) ddata->last_sname = - ddata->output.container[ddata->output.size - 1]; + ddata->cur_output->container[ddata->output.size - 1]; ddata->cur += len; return (1); } static int cpp_demangle_read_subst(struct cpp_demangle_data *ddata) { long nth; if (ddata == NULL || *ddata->cur == '\0') return (0); /* abbreviations of the form Sx */ switch (SIMPLE_HASH(*ddata->cur, *(ddata->cur + 1))) { case SIMPLE_HASH('S', 'a'): /* std::allocator */ if (!DEM_PUSH_STR(ddata, "std::allocator")) return (0); ddata->cur += 2; if (*ddata->cur == 'I') return (cpp_demangle_read_subst_stdtmpl(ddata, "std::allocator")); return (1); case SIMPLE_HASH('S', 'b'): /* std::basic_string */ if (!DEM_PUSH_STR(ddata, "std::basic_string")) return (0); ddata->cur += 2; if (*ddata->cur == 'I') return (cpp_demangle_read_subst_stdtmpl(ddata, "std::basic_string")); return (1); case SIMPLE_HASH('S', 'd'): /* std::basic_iostream > */ if (!DEM_PUSH_STR(ddata, "std::basic_iostream >")) return (0); ddata->last_sname = "basic_iostream"; ddata->cur += 2; if (*ddata->cur == 'I') return (cpp_demangle_read_subst_stdtmpl(ddata, "std::basic_iostream >")); return (1); case SIMPLE_HASH('S', 'i'): /* std::basic_istream > */ if (!DEM_PUSH_STR(ddata, "std::basic_istream >")) return (0); ddata->last_sname = "basic_istream"; ddata->cur += 2; if (*ddata->cur == 'I') return (cpp_demangle_read_subst_stdtmpl(ddata, "std::basic_istream >")); return (1); case SIMPLE_HASH('S', 'o'): /* std::basic_ostream > */ if (!DEM_PUSH_STR(ddata, "std::basic_ostream >")) return (0); ddata->last_sname = "basic_ostream"; ddata->cur += 2; if (*ddata->cur == 'I') return (cpp_demangle_read_subst_stdtmpl(ddata, "std::basic_ostream >")); return (1); case SIMPLE_HASH('S', 's'): /* * std::basic_string, * std::allocator > * * a.k.a std::string */ if (!DEM_PUSH_STR(ddata, "std::basic_string, std::allocator >")) return (0); ddata->last_sname = "string"; ddata->cur += 2; if (*ddata->cur == 'I') return (cpp_demangle_read_subst_stdtmpl(ddata, "std::basic_string," " std::allocator >")); return (1); case SIMPLE_HASH('S', 't'): /* std:: */ return (cpp_demangle_read_subst_std(ddata)); } if (*(++ddata->cur) == '\0') return (0); /* Skip unknown substitution abbreviations. */ if (!(*ddata->cur >= '0' && *ddata->cur <= '9') && !(*ddata->cur >= 'A' && *ddata->cur <= 'Z') && *ddata->cur != '_') { ++ddata->cur; return (1); } /* substitution */ if (*ddata->cur == '_') return (cpp_demangle_get_subst(ddata, 0)); else { errno = 0; /* substitution number is base 36 */ if ((nth = strtol(ddata->cur, (char **) NULL, 36)) == 0 && errno != 0) return (0); /* first was '_', so increase one */ ++nth; while (*ddata->cur != '_') ++ddata->cur; assert(nth > 0); return (cpp_demangle_get_subst(ddata, nth)); } /* NOTREACHED */ return (0); } static int cpp_demangle_read_subst_std(struct cpp_demangle_data *ddata) { struct vector_str *output, v; size_t p_idx, subst_str_len; int rtn; char *subst_str; if (ddata == NULL) return (0); if (!vector_str_init(&v)) return (0); subst_str = NULL; rtn = 0; if (!DEM_PUSH_STR(ddata, "std::")) goto clean; if (!VEC_PUSH_STR(&v, "std::")) goto clean; ddata->cur += 2; output = ddata->cur_output; p_idx = output->size; if (!cpp_demangle_read_uqname(ddata)) goto clean; if ((subst_str = vector_str_substr(output, p_idx, output->size - 1, &subst_str_len)) == NULL) goto clean; if (!vector_str_push(&v, subst_str, subst_str_len)) goto clean; if (!cpp_demangle_push_subst_v(ddata, &v)) goto clean; if (*ddata->cur == 'I') { p_idx = output->size; if (!cpp_demangle_read_tmpl_args(ddata)) goto clean; free(subst_str); if ((subst_str = vector_str_substr(output, p_idx, output->size - 1, &subst_str_len)) == NULL) goto clean; if (!vector_str_push(&v, subst_str, subst_str_len)) goto clean; if (!cpp_demangle_push_subst_v(ddata, &v)) goto clean; } rtn = 1; clean: free(subst_str); vector_str_dest(&v); return (rtn); } static int cpp_demangle_read_subst_stdtmpl(struct cpp_demangle_data *ddata, const char *str) { struct vector_str *output; size_t p_idx, substr_len, len; int rtn; char *subst_str, *substr; if (ddata == NULL || str == NULL) return (0); if ((len = strlen(str)) == 0) return (0); output = ddata->cur_output; p_idx = output->size; substr = NULL; subst_str = NULL; if (!cpp_demangle_read_tmpl_args(ddata)) return (0); if ((substr = vector_str_substr(output, p_idx, output->size - 1, &substr_len)) == NULL) return (0); rtn = 0; if ((subst_str = malloc(sizeof(char) * (substr_len + len + 1))) == NULL) goto clean; memcpy(subst_str, str, len); memcpy(subst_str + len, substr, substr_len); subst_str[substr_len + len] = '\0'; if (!cpp_demangle_push_subst(ddata, subst_str, substr_len + len)) goto clean; rtn = 1; clean: free(subst_str); free(substr); return (rtn); } static int cpp_demangle_read_tmpl_arg(struct cpp_demangle_data *ddata) { if (ddata == NULL || *ddata->cur == '\0') return (0); switch (*ddata->cur) { case 'L': return (cpp_demangle_read_expr_primary(ddata)); case 'X': ++ddata->cur; if (!cpp_demangle_read_expression(ddata)) return (0); return (*ddata->cur++ == 'E'); } return (cpp_demangle_read_type(ddata, NULL)); } static int cpp_demangle_read_tmpl_args(struct cpp_demangle_data *ddata) { struct vector_str *v; size_t arg_len, idx, limit, size; char *arg; if (ddata == NULL || *ddata->cur == '\0') return (0); ++ddata->cur; if (!vector_read_cmd_push(&ddata->cmd, READ_TMPL, NULL)) return (0); if (!DEM_PUSH_STR(ddata, "<")) return (0); limit = 0; - v = &ddata->output; + v = ddata->cur_output; for (;;) { idx = v->size; if (!cpp_demangle_read_tmpl_arg(ddata)) return (0); if ((arg = vector_str_substr(v, idx, v->size - 1, &arg_len)) == NULL) return (0); if (!vector_str_find(&ddata->tmpl, arg, arg_len) && !vector_str_push(&ddata->tmpl, arg, arg_len)) { free(arg); return (0); } free(arg); if (*ddata->cur == 'E') { ++ddata->cur; size = v->size; assert(size > 0); if (!strncmp(v->container[size - 1], ">", 1)) { if (!DEM_PUSH_STR(ddata, " >")) return (0); } else if (!DEM_PUSH_STR(ddata, ">")) return (0); ddata->is_tmpl = true; break; } else if (*ddata->cur != 'I' && !DEM_PUSH_STR(ddata, ", ")) return (0); if (limit++ > CPP_DEMANGLE_TRY_LIMIT) return (0); } return (vector_read_cmd_pop(&ddata->cmd)); } /* * Read template parameter that forms in 'T[number]_'. * This function much like to read_subst but only for types. */ static int cpp_demangle_read_tmpl_param(struct cpp_demangle_data *ddata) { long nth; if (ddata == NULL || *ddata->cur != 'T') return (0); ++ddata->cur; if (*ddata->cur == '_') return (cpp_demangle_get_tmpl_param(ddata, 0)); else { errno = 0; if ((nth = strtol(ddata->cur, (char **) NULL, 36)) == 0 && errno != 0) return (0); /* T_ is first */ ++nth; while (*ddata->cur != '_') ++ddata->cur; assert(nth > 0); return (cpp_demangle_get_tmpl_param(ddata, nth)); } /* NOTREACHED */ return (0); } static int cpp_demangle_read_type(struct cpp_demangle_data *ddata, struct type_delimit *td) { struct vector_type_qualifier v; struct vector_str *output, sv; size_t p_idx, type_str_len, subst_str_len; int extern_c, is_builtin; long len; const char *p; char *type_str, *exp_str, *num_str, *subst_str; bool skip_ref_qualifier, omit_void; if (ddata == NULL) return (0); output = ddata->cur_output; if (td) { if (td->paren == false) { if (!DEM_PUSH_STR(ddata, "(")) return (0); if (ddata->output.size < 2) return (0); td->paren = true; } if (!td->firstp) { if (*ddata->cur != 'I') { if (!DEM_PUSH_STR(ddata, ", ")) return (0); } } } assert(output != NULL); /* * [r, V, K] [P, R, O, C, G, U] builtin, function, class-enum, array * pointer-to-member, template-param, template-template-param, subst */ if (!vector_type_qualifier_init(&v)) return (0); extern_c = 0; is_builtin = 1; p_idx = output->size; type_str = exp_str = num_str = NULL; skip_ref_qualifier = false; again: /* Clear ref-qualifier flag */ if (*ddata->cur != 'R' && *ddata->cur != 'O' && *ddata->cur != 'E') ddata->ref_qualifier = false; /* builtin type */ switch (*ddata->cur) { case 'a': /* signed char */ if (!DEM_PUSH_STR(ddata, "signed char")) goto clean; ++ddata->cur; goto rtn; case 'A': /* array type */ if (!cpp_demangle_read_array(ddata)) goto clean; is_builtin = 0; goto rtn; case 'b': /* bool */ if (!DEM_PUSH_STR(ddata, "bool")) goto clean; ++ddata->cur; goto rtn; case 'C': /* complex pair */ if (!vector_type_qualifier_push(&v, TYPE_CMX)) goto clean; ++ddata->cur; if (td) td->firstp = false; goto again; case 'c': /* char */ if (!DEM_PUSH_STR(ddata, "char")) goto clean; ++ddata->cur; goto rtn; case 'd': /* double */ if (!DEM_PUSH_STR(ddata, "double")) goto clean; ++ddata->cur; goto rtn; case 'D': ++ddata->cur; switch (*ddata->cur) { case 'a': /* auto */ if (!DEM_PUSH_STR(ddata, "auto")) goto clean; ++ddata->cur; break; case 'c': /* decltype(auto) */ if (!DEM_PUSH_STR(ddata, "decltype(auto)")) goto clean; ++ddata->cur; break; case 'd': /* IEEE 754r decimal floating point (64 bits) */ if (!DEM_PUSH_STR(ddata, "decimal64")) goto clean; ++ddata->cur; break; case 'e': /* IEEE 754r decimal floating point (128 bits) */ if (!DEM_PUSH_STR(ddata, "decimal128")) goto clean; ++ddata->cur; break; case 'f': /* IEEE 754r decimal floating point (32 bits) */ if (!DEM_PUSH_STR(ddata, "decimal32")) goto clean; ++ddata->cur; break; case 'h': /* IEEE 754r half-precision floating point (16 bits) */ if (!DEM_PUSH_STR(ddata, "half")) goto clean; ++ddata->cur; break; case 'i': /* char32_t */ if (!DEM_PUSH_STR(ddata, "char32_t")) goto clean; ++ddata->cur; break; case 'n': /* std::nullptr_t (i.e., decltype(nullptr)) */ if (!DEM_PUSH_STR(ddata, "decltype(nullptr)")) goto clean; ++ddata->cur; break; case 's': /* char16_t */ if (!DEM_PUSH_STR(ddata, "char16_t")) goto clean; ++ddata->cur; break; case 'v': /* gcc vector_size extension. */ ++ddata->cur; if (*ddata->cur == '_') { ++ddata->cur; if (!cpp_demangle_read_expression_flat(ddata, &exp_str)) goto clean; if (!VEC_PUSH_STR(&v.ext_name, exp_str)) goto clean; } else { if (!cpp_demangle_read_number_as_string(ddata, &num_str)) goto clean; if (!VEC_PUSH_STR(&v.ext_name, num_str)) goto clean; } if (*ddata->cur != '_') goto clean; ++ddata->cur; if (!vector_type_qualifier_push(&v, TYPE_VEC)) goto clean; if (td) td->firstp = false; goto again; default: goto clean; } goto rtn; case 'e': /* long double */ if (!DEM_PUSH_STR(ddata, "long double")) goto clean; ++ddata->cur; goto rtn; case 'E': /* unexpected end except ref-qualifiers */ if (ddata->ref_qualifier && ddata->is_functype) { skip_ref_qualifier = true; /* Pop the delimiter. */ cpp_demangle_pop_str(ddata); goto rtn; } goto clean; case 'f': /* float */ if (!DEM_PUSH_STR(ddata, "float")) goto clean; ++ddata->cur; goto rtn; case 'F': /* function */ if (!cpp_demangle_read_function(ddata, &extern_c, &v)) goto clean; is_builtin = 0; goto rtn; case 'g': /* __float128 */ if (!DEM_PUSH_STR(ddata, "__float128")) goto clean; ++ddata->cur; goto rtn; case 'G': /* imaginary */ if (!vector_type_qualifier_push(&v, TYPE_IMG)) goto clean; ++ddata->cur; if (td) td->firstp = false; goto again; case 'h': /* unsigned char */ if (!DEM_PUSH_STR(ddata, "unsigned char")) goto clean; ++ddata->cur; goto rtn; case 'i': /* int */ if (!DEM_PUSH_STR(ddata, "int")) goto clean; ++ddata->cur; goto rtn; case 'I': /* template args. */ /* handles */ p_idx = output->size; if (!cpp_demangle_read_tmpl_args(ddata)) goto clean; if ((subst_str = vector_str_substr(output, p_idx, output->size - 1, &subst_str_len)) == NULL) goto clean; if (!vector_str_init(&sv)) { free(subst_str); goto clean; } if (!vector_str_push(&sv, subst_str, subst_str_len)) { free(subst_str); vector_str_dest(&sv); goto clean; } free(subst_str); if (!cpp_demangle_push_subst_v(ddata, &sv)) { vector_str_dest(&sv); goto clean; } vector_str_dest(&sv); goto rtn; case 'j': /* unsigned int */ if (!DEM_PUSH_STR(ddata, "unsigned int")) goto clean; ++ddata->cur; goto rtn; case 'K': /* const */ if (!vector_type_qualifier_push(&v, TYPE_CST)) goto clean; ++ddata->cur; if (td) td->firstp = false; goto again; case 'l': /* long */ if (!DEM_PUSH_STR(ddata, "long")) goto clean; ++ddata->cur; goto rtn; case 'm': /* unsigned long */ if (!DEM_PUSH_STR(ddata, "unsigned long")) goto clean; ++ddata->cur; goto rtn; case 'M': /* pointer to member */ if (!cpp_demangle_read_pointer_to_member(ddata, &v)) goto clean; is_builtin = 0; goto rtn; case 'n': /* __int128 */ if (!DEM_PUSH_STR(ddata, "__int128")) goto clean; ++ddata->cur; goto rtn; case 'o': /* unsigned __int128 */ if (!DEM_PUSH_STR(ddata, "unsigned __int128")) goto clean; ++ddata->cur; goto rtn; case 'O': /* rvalue reference */ if (ddata->ref_qualifier) goto clean; if (!vector_type_qualifier_push(&v, TYPE_RREF)) goto clean; ddata->ref_qualifier = true; ddata->ref_qualifier_type = TYPE_RREF; ++ddata->cur; if (td) td->firstp = false; goto again; case 'P': /* pointer */ if (!vector_type_qualifier_push(&v, TYPE_PTR)) goto clean; ++ddata->cur; if (td) td->firstp = false; goto again; case 'r': /* restrict */ if (!vector_type_qualifier_push(&v, TYPE_RST)) goto clean; ++ddata->cur; if (td) td->firstp = false; goto again; case 'R': /* reference */ if (ddata->ref_qualifier) goto clean; if (!vector_type_qualifier_push(&v, TYPE_REF)) goto clean; ddata->ref_qualifier = true; ddata->ref_qualifier_type = TYPE_REF; ++ddata->cur; if (td) td->firstp = false; goto again; case 's': /* short, local string */ if (!DEM_PUSH_STR(ddata, "short")) goto clean; ++ddata->cur; goto rtn; case 'S': /* substitution */ if (!cpp_demangle_read_subst(ddata)) goto clean; is_builtin = 0; goto rtn; case 't': /* unsigned short */ if (!DEM_PUSH_STR(ddata, "unsigned short")) goto clean; ++ddata->cur; goto rtn; case 'T': /* template parameter */ if (!cpp_demangle_read_tmpl_param(ddata)) goto clean; is_builtin = 0; goto rtn; case 'u': /* vendor extended builtin */ ++ddata->cur; if (!cpp_demangle_read_sname(ddata)) goto clean; is_builtin = 0; goto rtn; case 'U': /* vendor extended type qualifier */ ++ddata->cur; if (!cpp_demangle_read_number(ddata, &len)) goto clean; if (len <= 0) goto clean; if (!vector_str_push(&v.ext_name, ddata->cur, len)) goto clean; ddata->cur += len; if (!vector_type_qualifier_push(&v, TYPE_EXT)) goto clean; if (td) td->firstp = false; goto again; case 'v': /* void */ omit_void = false; if (td && td->firstp) { /* * peek into next bytes and see if we should omit * the "void". */ omit_void = true; for (p = ddata->cur + 1; *p != '\0'; p++) { if (*p == 'E') break; if (*p != 'R' && *p != 'O') { omit_void = false; break; } } } if (!omit_void && !DEM_PUSH_STR(ddata, "void")) goto clean; ++ddata->cur; goto rtn; case 'V': /* volatile */ if (!vector_type_qualifier_push(&v, TYPE_VAT)) goto clean; ++ddata->cur; if (td) td->firstp = false; goto again; case 'w': /* wchar_t */ if (!DEM_PUSH_STR(ddata, "wchar_t")) goto clean; ++ddata->cur; goto rtn; case 'x': /* long long */ if (!DEM_PUSH_STR(ddata, "long long")) goto clean; ++ddata->cur; goto rtn; case 'y': /* unsigned long long */ if (!DEM_PUSH_STR(ddata, "unsigned long long")) goto clean; ++ddata->cur; goto rtn; case 'z': /* ellipsis */ if (!DEM_PUSH_STR(ddata, "...")) goto clean; ++ddata->cur; goto rtn; } if (!cpp_demangle_read_name(ddata)) goto clean; is_builtin = 0; rtn: type_str = vector_str_substr(output, p_idx, output->size - 1, &type_str_len); if (is_builtin == 0) { if (!vector_str_find(&ddata->subst, type_str, type_str_len) && !vector_str_push(&ddata->subst, type_str, type_str_len)) goto clean; } if (!skip_ref_qualifier && !cpp_demangle_push_type_qualifier(ddata, &v, type_str)) goto clean; if (td) td->firstp = false; free(type_str); free(exp_str); free(num_str); vector_type_qualifier_dest(&v); return (1); clean: free(type_str); free(exp_str); free(num_str); vector_type_qualifier_dest(&v); return (0); } static int cpp_demangle_read_type_flat(struct cpp_demangle_data *ddata, char **str) { struct vector_str *output; size_t i, p_idx, idx, type_len; char *type; output = ddata->cur_output; p_idx = output->size; if (!cpp_demangle_read_type(ddata, NULL)) return (0); if ((type = vector_str_substr(output, p_idx, output->size - 1, &type_len)) == NULL) return (0); idx = output->size; for (i = p_idx; i < idx; ++i) { if (!vector_str_pop(output)) { free(type); return (0); } } *str = type; return (1); } /* * read unqualified-name, unqualified name are operator-name, ctor-dtor-name, * source-name */ static int cpp_demangle_read_uqname(struct cpp_demangle_data *ddata) { size_t len; if (ddata == NULL || *ddata->cur == '\0') return (0); /* operator name */ switch (SIMPLE_HASH(*ddata->cur, *(ddata->cur + 1))) { case SIMPLE_HASH('a', 'a'): /* operator && */ if (!DEM_PUSH_STR(ddata, "operator&&")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('a', 'd'): /* operator & (unary) */ if (!DEM_PUSH_STR(ddata, "operator&")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('a', 'n'): /* operator & */ if (!DEM_PUSH_STR(ddata, "operator&")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('a', 'N'): /* operator &= */ if (!DEM_PUSH_STR(ddata, "operator&=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('a', 'S'): /* operator = */ if (!DEM_PUSH_STR(ddata, "operator=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('c', 'l'): /* operator () */ if (!DEM_PUSH_STR(ddata, "operator()")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('c', 'm'): /* operator , */ if (!DEM_PUSH_STR(ddata, "operator,")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('c', 'o'): /* operator ~ */ if (!DEM_PUSH_STR(ddata, "operator~")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('c', 'v'): /* operator (cast) */ if (!DEM_PUSH_STR(ddata, "operator(cast)")) return (0); ddata->cur += 2; return (cpp_demangle_read_type(ddata, NULL)); case SIMPLE_HASH('d', 'a'): /* operator delete [] */ if (!DEM_PUSH_STR(ddata, "operator delete []")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('d', 'e'): /* operator * (unary) */ if (!DEM_PUSH_STR(ddata, "operator*")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('d', 'l'): /* operator delete */ if (!DEM_PUSH_STR(ddata, "operator delete")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('d', 'v'): /* operator / */ if (!DEM_PUSH_STR(ddata, "operator/")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('d', 'V'): /* operator /= */ if (!DEM_PUSH_STR(ddata, "operator/=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('e', 'o'): /* operator ^ */ if (!DEM_PUSH_STR(ddata, "operator^")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('e', 'O'): /* operator ^= */ if (!DEM_PUSH_STR(ddata, "operator^=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('e', 'q'): /* operator == */ if (!DEM_PUSH_STR(ddata, "operator==")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('g', 'e'): /* operator >= */ if (!DEM_PUSH_STR(ddata, "operator>=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('g', 't'): /* operator > */ if (!DEM_PUSH_STR(ddata, "operator>")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('i', 'x'): /* operator [] */ if (!DEM_PUSH_STR(ddata, "operator[]")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('l', 'e'): /* operator <= */ if (!DEM_PUSH_STR(ddata, "operator<=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('l', 's'): /* operator << */ if (!DEM_PUSH_STR(ddata, "operator<<")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('l', 'S'): /* operator <<= */ if (!DEM_PUSH_STR(ddata, "operator<<=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('l', 't'): /* operator < */ if (!DEM_PUSH_STR(ddata, "operator<")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('m', 'i'): /* operator - */ if (!DEM_PUSH_STR(ddata, "operator-")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('m', 'I'): /* operator -= */ if (!DEM_PUSH_STR(ddata, "operator-=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('m', 'l'): /* operator * */ if (!DEM_PUSH_STR(ddata, "operator*")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('m', 'L'): /* operator *= */ if (!DEM_PUSH_STR(ddata, "operator*=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('m', 'm'): /* operator -- */ if (!DEM_PUSH_STR(ddata, "operator--")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('n', 'a'): /* operator new[] */ if (!DEM_PUSH_STR(ddata, "operator new []")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('n', 'e'): /* operator != */ if (!DEM_PUSH_STR(ddata, "operator!=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('n', 'g'): /* operator - (unary) */ if (!DEM_PUSH_STR(ddata, "operator-")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('n', 't'): /* operator ! */ if (!DEM_PUSH_STR(ddata, "operator!")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('n', 'w'): /* operator new */ if (!DEM_PUSH_STR(ddata, "operator new")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('o', 'o'): /* operator || */ if (!DEM_PUSH_STR(ddata, "operator||")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('o', 'r'): /* operator | */ if (!DEM_PUSH_STR(ddata, "operator|")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('o', 'R'): /* operator |= */ if (!DEM_PUSH_STR(ddata, "operator|=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('p', 'l'): /* operator + */ if (!DEM_PUSH_STR(ddata, "operator+")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('p', 'L'): /* operator += */ if (!DEM_PUSH_STR(ddata, "operator+=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('p', 'm'): /* operator ->* */ if (!DEM_PUSH_STR(ddata, "operator->*")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('p', 'p'): /* operator ++ */ if (!DEM_PUSH_STR(ddata, "operator++")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('p', 's'): /* operator + (unary) */ if (!DEM_PUSH_STR(ddata, "operator+")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('p', 't'): /* operator -> */ if (!DEM_PUSH_STR(ddata, "operator->")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('q', 'u'): /* operator ? */ if (!DEM_PUSH_STR(ddata, "operator?")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('r', 'm'): /* operator % */ if (!DEM_PUSH_STR(ddata, "operator%")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('r', 'M'): /* operator %= */ if (!DEM_PUSH_STR(ddata, "operator%=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('r', 's'): /* operator >> */ if (!DEM_PUSH_STR(ddata, "operator>>")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('r', 'S'): /* operator >>= */ if (!DEM_PUSH_STR(ddata, "operator>>=")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('r', 'z'): /* operator sizeof */ if (!DEM_PUSH_STR(ddata, "operator sizeof ")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('s', 'r'): /* scope resolution operator */ if (!DEM_PUSH_STR(ddata, "scope resolution operator ")) return (0); ddata->cur += 2; return (1); case SIMPLE_HASH('s', 'v'): /* operator sizeof */ if (!DEM_PUSH_STR(ddata, "operator sizeof ")) return (0); ddata->cur += 2; return (1); } /* vendor extened operator */ if (*ddata->cur == 'v' && ELFTC_ISDIGIT(*(ddata->cur + 1))) { if (!DEM_PUSH_STR(ddata, "vendor extened operator ")) return (0); if (!cpp_demangle_push_str(ddata, ddata->cur + 1, 1)) return (0); ddata->cur += 2; return (cpp_demangle_read_sname(ddata)); } /* ctor-dtor-name */ switch (SIMPLE_HASH(*ddata->cur, *(ddata->cur + 1))) { case SIMPLE_HASH('C', '1'): case SIMPLE_HASH('C', '2'): case SIMPLE_HASH('C', '3'): if (ddata->last_sname == NULL) return (0); if ((len = strlen(ddata->last_sname)) == 0) return (0); if (!DEM_PUSH_STR(ddata, "::")) return (0); if (!cpp_demangle_push_str(ddata, ddata->last_sname, len)) return (0); ddata->cur +=2; return (1); case SIMPLE_HASH('D', '0'): case SIMPLE_HASH('D', '1'): case SIMPLE_HASH('D', '2'): if (ddata->last_sname == NULL) return (0); if ((len = strlen(ddata->last_sname)) == 0) return (0); if (!DEM_PUSH_STR(ddata, "::~")) return (0); if (!cpp_demangle_push_str(ddata, ddata->last_sname, len)) return (0); ddata->cur +=2; return (1); } /* source name */ if (ELFTC_ISDIGIT(*ddata->cur) != 0) return (cpp_demangle_read_sname(ddata)); /* local source name */ if (*ddata->cur == 'L') return (cpp_demangle_local_source_name(ddata)); return (1); } /* * Read local source name. * * References: * http://gcc.gnu.org/bugzilla/show_bug.cgi?id=31775 * http://gcc.gnu.org/viewcvs?view=rev&revision=124467 */ static int cpp_demangle_local_source_name(struct cpp_demangle_data *ddata) { /* L */ if (ddata == NULL || *ddata->cur != 'L') return (0); ++ddata->cur; /* source name */ if (!cpp_demangle_read_sname(ddata)) return (0); /* discriminator */ if (*ddata->cur == '_') { ++ddata->cur; while (ELFTC_ISDIGIT(*ddata->cur) != 0) ++ddata->cur; } return (1); } static int cpp_demangle_read_v_offset(struct cpp_demangle_data *ddata) { if (ddata == NULL) return (0); if (!DEM_PUSH_STR(ddata, "offset : ")) return (0); if (!cpp_demangle_read_offset_number(ddata)) return (0); if (!DEM_PUSH_STR(ddata, "virtual offset : ")) return (0); return (!cpp_demangle_read_offset_number(ddata)); } /* * Decode floating point representation to string * Return new allocated string or NULL * * Todo * Replace these functions to macro. */ static char * decode_fp_to_double(const char *p, size_t len) { double f; size_t rtn_len, limit, i; int byte; char *rtn; if (p == NULL || len == 0 || len % 2 != 0 || len / 2 > sizeof(double)) return (NULL); memset(&f, 0, sizeof(double)); for (i = 0; i < len / 2; ++i) { byte = hex_to_dec(p[len - i * 2 - 1]) + hex_to_dec(p[len - i * 2 - 2]) * 16; if (byte < 0 || byte > 255) return (NULL); #if ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN ((unsigned char *)&f)[i] = (unsigned char)(byte); #else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ ((unsigned char *)&f)[sizeof(double) - i - 1] = (unsigned char)(byte); #endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ } rtn_len = 64; limit = 0; again: if ((rtn = malloc(sizeof(char) * rtn_len)) == NULL) return (NULL); if (snprintf(rtn, rtn_len, "%fld", f) >= (int)rtn_len) { free(rtn); if (limit++ > FLOAT_SPRINTF_TRY_LIMIT) return (NULL); rtn_len *= BUFFER_GROWFACTOR; goto again; } return rtn; } static char * decode_fp_to_float(const char *p, size_t len) { size_t i, rtn_len, limit; float f; int byte; char *rtn; if (p == NULL || len == 0 || len % 2 != 0 || len / 2 > sizeof(float)) return (NULL); memset(&f, 0, sizeof(float)); for (i = 0; i < len / 2; ++i) { byte = hex_to_dec(p[len - i * 2 - 1]) + hex_to_dec(p[len - i * 2 - 2]) * 16; if (byte < 0 || byte > 255) return (NULL); #if ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN ((unsigned char *)&f)[i] = (unsigned char)(byte); #else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ ((unsigned char *)&f)[sizeof(float) - i - 1] = (unsigned char)(byte); #endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ } rtn_len = 64; limit = 0; again: if ((rtn = malloc(sizeof(char) * rtn_len)) == NULL) return (NULL); if (snprintf(rtn, rtn_len, "%ff", f) >= (int)rtn_len) { free(rtn); if (limit++ > FLOAT_SPRINTF_TRY_LIMIT) return (NULL); rtn_len *= BUFFER_GROWFACTOR; goto again; } return rtn; } static char * decode_fp_to_float128(const char *p, size_t len) { long double f; size_t rtn_len, limit, i; int byte; unsigned char buf[FLOAT_QUADRUPLE_BYTES]; char *rtn; switch(sizeof(long double)) { case FLOAT_QUADRUPLE_BYTES: return (decode_fp_to_long_double(p, len)); case FLOAT_EXTENED_BYTES: if (p == NULL || len == 0 || len % 2 != 0 || len / 2 > FLOAT_QUADRUPLE_BYTES) return (NULL); memset(buf, 0, FLOAT_QUADRUPLE_BYTES); for (i = 0; i < len / 2; ++i) { byte = hex_to_dec(p[len - i * 2 - 1]) + hex_to_dec(p[len - i * 2 - 2]) * 16; if (byte < 0 || byte > 255) return (NULL); #if ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN buf[i] = (unsigned char)(byte); #else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ buf[FLOAT_QUADRUPLE_BYTES - i -1] = (unsigned char)(byte); #endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ } memset(&f, 0, FLOAT_EXTENED_BYTES); #if ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN memcpy(&f, buf, FLOAT_EXTENED_BYTES); #else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ memcpy(&f, buf + 6, FLOAT_EXTENED_BYTES); #endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ rtn_len = 256; limit = 0; again: if ((rtn = malloc(sizeof(char) * rtn_len)) == NULL) return (NULL); if (snprintf(rtn, rtn_len, "%Lfd", f) >= (int)rtn_len) { free(rtn); if (limit++ > FLOAT_SPRINTF_TRY_LIMIT) return (NULL); rtn_len *= BUFFER_GROWFACTOR; goto again; } return (rtn); default: return (NULL); } } static char * decode_fp_to_float80(const char *p, size_t len) { long double f; size_t rtn_len, limit, i; int byte; unsigned char buf[FLOAT_EXTENED_BYTES]; char *rtn; switch(sizeof(long double)) { case FLOAT_QUADRUPLE_BYTES: if (p == NULL || len == 0 || len % 2 != 0 || len / 2 > FLOAT_EXTENED_BYTES) return (NULL); memset(buf, 0, FLOAT_EXTENED_BYTES); for (i = 0; i < len / 2; ++i) { byte = hex_to_dec(p[len - i * 2 - 1]) + hex_to_dec(p[len - i * 2 - 2]) * 16; if (byte < 0 || byte > 255) return (NULL); #if ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN buf[i] = (unsigned char)(byte); #else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ buf[FLOAT_EXTENED_BYTES - i -1] = (unsigned char)(byte); #endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ } memset(&f, 0, FLOAT_QUADRUPLE_BYTES); #if ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN memcpy(&f, buf, FLOAT_EXTENED_BYTES); #else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ memcpy((unsigned char *)(&f) + 6, buf, FLOAT_EXTENED_BYTES); #endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ rtn_len = 256; limit = 0; again: if ((rtn = malloc(sizeof(char) * rtn_len)) == NULL) return (NULL); if (snprintf(rtn, rtn_len, "%Lfd", f) >= (int)rtn_len) { free(rtn); if (limit++ > FLOAT_SPRINTF_TRY_LIMIT) return (NULL); rtn_len *= BUFFER_GROWFACTOR; goto again; } return (rtn); case FLOAT_EXTENED_BYTES: return (decode_fp_to_long_double(p, len)); default: return (NULL); } } static char * decode_fp_to_long_double(const char *p, size_t len) { long double f; size_t rtn_len, limit, i; int byte; char *rtn; if (p == NULL || len == 0 || len % 2 != 0 || len / 2 > sizeof(long double)) return (NULL); memset(&f, 0, sizeof(long double)); for (i = 0; i < len / 2; ++i) { byte = hex_to_dec(p[len - i * 2 - 1]) + hex_to_dec(p[len - i * 2 - 2]) * 16; if (byte < 0 || byte > 255) return (NULL); #if ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN ((unsigned char *)&f)[i] = (unsigned char)(byte); #else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ ((unsigned char *)&f)[sizeof(long double) - i - 1] = (unsigned char)(byte); #endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */ } rtn_len = 256; limit = 0; again: if ((rtn = malloc(sizeof(char) * rtn_len)) == NULL) return (NULL); if (snprintf(rtn, rtn_len, "%Lfd", f) >= (int)rtn_len) { free(rtn); if (limit++ > FLOAT_SPRINTF_TRY_LIMIT) return (NULL); rtn_len *= BUFFER_GROWFACTOR; goto again; } return (rtn); } /* Simple hex to integer function used by decode_to_* function. */ static int hex_to_dec(char c) { switch (c) { case '0': return (0); case '1': return (1); case '2': return (2); case '3': return (3); case '4': return (4); case '5': return (5); case '6': return (6); case '7': return (7); case '8': return (8); case '9': return (9); case 'a': return (10); case 'b': return (11); case 'c': return (12); case 'd': return (13); case 'e': return (14); case 'f': return (15); default: return (-1); } } /** * @brief Test input string is mangled by IA-64 C++ ABI style. * * Test string heads with "_Z" or "_GLOBAL__I_". * @return Return 0 at false. */ bool is_cpp_mangled_gnu3(const char *org) { size_t len; len = strlen(org); return ((len > 2 && *org == '_' && *(org + 1) == 'Z') || (len > 11 && !strncmp(org, "_GLOBAL__I_", 11))); } static void vector_read_cmd_dest(struct vector_read_cmd *v) { if (v == NULL) return; free(v->r_container); } static struct read_cmd_item * vector_read_cmd_find(struct vector_read_cmd *v, enum read_cmd dst) { int i; if (v == NULL || dst == READ_FAIL) return (NULL); for (i = (int) v->size - 1; i >= 0; i--) if (v->r_container[i].cmd == dst) return (&v->r_container[i]); return (NULL); } static int vector_read_cmd_init(struct vector_read_cmd *v) { if (v == NULL) return (0); v->size = 0; v->capacity = VECTOR_DEF_CAPACITY; if ((v->r_container = malloc(sizeof(*v->r_container) * v->capacity)) == NULL) return (0); return (1); } static int vector_read_cmd_pop(struct vector_read_cmd *v) { if (v == NULL || v->size == 0) return (0); --v->size; v->r_container[v->size].cmd = READ_FAIL; v->r_container[v->size].data = NULL; return (1); } static int vector_read_cmd_push(struct vector_read_cmd *v, enum read_cmd cmd, void *data) { struct read_cmd_item *tmp_r_ctn; size_t tmp_cap; size_t i; if (v == NULL) return (0); if (v->size == v->capacity) { - tmp_cap = v->capacity * BUFFER_GROWFACTOR; + tmp_cap = BUFFER_GROW(v->capacity); if ((tmp_r_ctn = malloc(sizeof(*tmp_r_ctn) * tmp_cap)) == NULL) return (0); for (i = 0; i < v->size; ++i) tmp_r_ctn[i] = v->r_container[i]; free(v->r_container); v->r_container = tmp_r_ctn; v->capacity = tmp_cap; } v->r_container[v->size].cmd = cmd; v->r_container[v->size].data = data; ++v->size; return (1); } static void vector_type_qualifier_dest(struct vector_type_qualifier *v) { if (v == NULL) return; free(v->q_container); vector_str_dest(&v->ext_name); } /* size, capacity, ext_name */ static int vector_type_qualifier_init(struct vector_type_qualifier *v) { if (v == NULL) return (0); v->size = 0; v->capacity = VECTOR_DEF_CAPACITY; if ((v->q_container = malloc(sizeof(enum type_qualifier) * v->capacity)) == NULL) return (0); assert(v->q_container != NULL); if (!vector_str_init(&v->ext_name)) { free(v->q_container); return (0); } return (1); } static int vector_type_qualifier_push(struct vector_type_qualifier *v, enum type_qualifier t) { enum type_qualifier *tmp_ctn; size_t tmp_cap; size_t i; if (v == NULL) return (0); if (v->size == v->capacity) { - tmp_cap = v->capacity * BUFFER_GROWFACTOR; + tmp_cap = BUFFER_GROW(v->capacity); if ((tmp_ctn = malloc(sizeof(enum type_qualifier) * tmp_cap)) == NULL) return (0); for (i = 0; i < v->size; ++i) tmp_ctn[i] = v->q_container[i]; free(v->q_container); v->q_container = tmp_ctn; v->capacity = tmp_cap; } v->q_container[v->size] = t; ++v->size; return (1); } Index: head/contrib/elftoolchain/libelftc/libelftc_vstr.c =================================================================== --- head/contrib/elftoolchain/libelftc/libelftc_vstr.c (revision 367321) +++ head/contrib/elftoolchain/libelftc/libelftc_vstr.c (revision 367322) @@ -1,359 +1,359 @@ /*- * Copyright (c) 2008 Hyogeol Lee * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer * in this position and unchanged. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include "_libelftc.h" ELFTC_VCSID("$Id: libelftc_vstr.c 3531 2017-06-05 05:08:43Z kaiwang27 $"); /** * @file vector_str.c * @brief Dynamic vector data for string implementation. * * Resemble to std::vector in C++. */ static size_t get_strlen_sum(const struct vector_str *v); static bool vector_str_grow(struct vector_str *v); static size_t get_strlen_sum(const struct vector_str *v) { size_t i, len = 0; if (v == NULL) return (0); assert(v->size > 0); for (i = 0; i < v->size; ++i) len += strlen(v->container[i]); return (len); } /** * @brief Deallocate resource in vector_str. */ void vector_str_dest(struct vector_str *v) { size_t i; if (v == NULL) return; for (i = 0; i < v->size; ++i) free(v->container[i]); free(v->container); } /** * @brief Find string in vector_str. * @param v Destination vector. * @param o String to find. * @param l Length of the string. * @return -1 at failed, 0 at not found, 1 at found. */ int vector_str_find(const struct vector_str *v, const char *o, size_t l) { size_t i; if (v == NULL || o == NULL) return (-1); for (i = 0; i < v->size; ++i) if (strncmp(v->container[i], o, l) == 0) return (1); return (0); } /** * @brief Get new allocated flat string from vector. * * If l is not NULL, return length of the string. * @param v Destination vector. * @param l Length of the string. * @return NULL at failed or NUL terminated new allocated string. */ char * vector_str_get_flat(const struct vector_str *v, size_t *l) { ssize_t elem_pos, elem_size, rtn_size; size_t i; char *rtn; if (v == NULL || v->size == 0) return (NULL); if ((rtn_size = get_strlen_sum(v)) == 0) return (NULL); if ((rtn = malloc(sizeof(char) * (rtn_size + 1))) == NULL) return (NULL); elem_pos = 0; for (i = 0; i < v->size; ++i) { elem_size = strlen(v->container[i]); memcpy(rtn + elem_pos, v->container[i], elem_size); elem_pos += elem_size; } rtn[rtn_size] = '\0'; if (l != NULL) *l = rtn_size; return (rtn); } static bool vector_str_grow(struct vector_str *v) { size_t i, tmp_cap; char **tmp_ctn; if (v == NULL) return (false); assert(v->capacity > 0); - tmp_cap = v->capacity * BUFFER_GROWFACTOR; + tmp_cap = BUFFER_GROW(v->capacity); assert(tmp_cap > v->capacity); if ((tmp_ctn = malloc(sizeof(char *) * tmp_cap)) == NULL) return (false); for (i = 0; i < v->size; ++i) tmp_ctn[i] = v->container[i]; free(v->container); v->container = tmp_ctn; v->capacity = tmp_cap; return (true); } /** * @brief Initialize vector_str. * @return false at failed, true at success. */ bool vector_str_init(struct vector_str *v) { if (v == NULL) return (false); v->size = 0; v->capacity = VECTOR_DEF_CAPACITY; assert(v->capacity > 0); if ((v->container = malloc(sizeof(char *) * v->capacity)) == NULL) return (false); assert(v->container != NULL); return (true); } /** * @brief Remove last element in vector_str. * @return false at failed, true at success. */ bool vector_str_pop(struct vector_str *v) { if (v == NULL) return (false); if (v->size == 0) return (true); --v->size; free(v->container[v->size]); v->container[v->size] = NULL; return (true); } /** * @brief Push back string to vector. * @return false at failed, true at success. */ bool vector_str_push(struct vector_str *v, const char *str, size_t len) { if (v == NULL || str == NULL) return (false); if (v->size == v->capacity && vector_str_grow(v) == false) return (false); if ((v->container[v->size] = malloc(sizeof(char) * (len + 1))) == NULL) return (false); snprintf(v->container[v->size], len + 1, "%s", str); ++v->size; return (true); } /** * @brief Push front org vector to det vector. * @return false at failed, true at success. */ bool vector_str_push_vector_head(struct vector_str *dst, struct vector_str *org) { size_t i, j, tmp_cap; char **tmp_ctn; if (dst == NULL || org == NULL) return (false); - tmp_cap = (dst->size + org->size) * BUFFER_GROWFACTOR; + tmp_cap = BUFFER_GROW(dst->size + org->size); if ((tmp_ctn = malloc(sizeof(char *) * tmp_cap)) == NULL) return (false); for (i = 0; i < org->size; ++i) if ((tmp_ctn[i] = strdup(org->container[i])) == NULL) { for (j = 0; j < i; ++j) free(tmp_ctn[j]); free(tmp_ctn); return (false); } for (i = 0; i < dst->size; ++i) tmp_ctn[i + org->size] = dst->container[i]; free(dst->container); dst->container = tmp_ctn; dst->capacity = tmp_cap; dst->size += org->size; return (true); } /** * @brief Push org vector to the tail of det vector. * @return false at failed, true at success. */ bool vector_str_push_vector(struct vector_str *dst, struct vector_str *org) { size_t i, j, tmp_cap; char **tmp_ctn; if (dst == NULL || org == NULL) return (false); - tmp_cap = (dst->size + org->size) * BUFFER_GROWFACTOR; + tmp_cap = BUFFER_GROW(dst->size + org->size); if ((tmp_ctn = malloc(sizeof(char *) * tmp_cap)) == NULL) return (false); for (i = 0; i < dst->size; ++i) tmp_ctn[i] = dst->container[i]; for (i = 0; i < org->size; ++i) if ((tmp_ctn[i + dst->size] = strdup(org->container[i])) == NULL) { for (j = 0; j < i + dst->size; ++j) free(tmp_ctn[j]); free(tmp_ctn); return (false); } free(dst->container); dst->container = tmp_ctn; dst->capacity = tmp_cap; dst->size += org->size; return (true); } /** * @brief Get new allocated flat string from vector between begin and end. * * If r_len is not NULL, string length will be returned. * @return NULL at failed or NUL terminated new allocated string. */ char * vector_str_substr(const struct vector_str *v, size_t begin, size_t end, size_t *r_len) { size_t cur, i, len; char *rtn; if (v == NULL || begin > end) return (NULL); len = 0; for (i = begin; i < end + 1; ++i) len += strlen(v->container[i]); if ((rtn = malloc(sizeof(char) * (len + 1))) == NULL) return (NULL); if (r_len != NULL) *r_len = len; cur = 0; for (i = begin; i < end + 1; ++i) { len = strlen(v->container[i]); memcpy(rtn + cur, v->container[i], len); cur += len; } rtn[cur] = '\0'; return (rtn); }