/*-*- mode:c;indent-tabs-mode:t;c-basic-offset:8;tab-width:8;coding:utf-8 -*-│
│ vi: set noet ft=c ts=8 sw=8 fenc=utf-8 :vi │
╞══════════════════════════════════════════════════════════════════════════════╡
│ Copyright (c) 2007 Hyogeol Lee <hyogeollee@gmail.com> │
│ Copyright (c) 2015-2017 Kai Wang <kaiwang27@gmail.com> │
│ Copyright (c) 2024 Justine Tunney <jtunney@gmail.com> │
│ 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 <stdalign.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
__notice(demangle_notice, "\
Cosmopolitan libelftc demangle (BSD-2)\n\
Copyright (c) 2007 Hyogeol Lee <hyogeollee@gmail.com>\n\
Copyright (c) 2015-2017 Kai Wang <kaiwang27@gmail.com>\n\
Copyright (c) 2024 Justine Tunney <jtunney@gmail.com>");
// https://sourceforge.net/p/elftoolchain/code/HEAD/tree/trunk/libelftc/libelftc_dem_gnu3.c
// https://github.com/freebsd/freebsd-src/blob/2176c9ab71c85efd90a6c7af4a9e04fe8e3d49ca/contrib/libcxxrt/libelftc_dem_gnu3.c
// clang-format off
/**
* @file demangle.c
* @brief Decode IA-64 C++ ABI style implementation.
*
* See the following IA-64 standard ABI(Itanium C++ ABI) references:
*
* - http://www.codesourcery.com/cxx-abi/abi.html#mangling
* - http://www.codesourcery.com/cxx-abi/abi-mangling.html
*
* This file has been forked and modified by Cosmopolitan Libc. We found
* it in the FreeBSD codebase, who got it from libcxxrt, who got it from
* libelftc on SourceForge. Here's what we changed:
*
* - We fixed a memory corruption bug (since upstreamed to libcxxrt)
*
* - We ensured slightly better conformance to libcxxabi test suites.
*
* - We renovated this module to not use malloc(). Our modified version
* uses a new __demangle() API we defined with an strlcpy()-style. The
* output buffer provided by the caller is used internally as a heap.
*
* - This is now the only C++ demangler that's asynchronous signal safe.
* You now have the power to print C++ backtraces from signal handlers
* without needing to block signals, because this code is reentrant,
* and 100% lockless, and uses absolutely no writable static memory.
* That makes it also great for kernel and embedded development.
*
* - We made it go 2x faster. It's almost as fast as libcxxabi now. The
* lightweight Dennis Ritchie style demangle_malloc() implementation
* helped. What also helped is introducing stack_str and strlcpy().
*
* - We made it use 3x less memory. This came with the tradeoff of
* imposing limitations similar to embedded software. Rather than
* using pointers, we use 16-bit indexes into a heap that can grow no
* larger than 64kb. Please note that a buffer size of 20kb is more
* than sufficient to pass all the libcxxabi test cases.
*
* - We made it have zero dependencies. If you compile this file with
* GCC -ffreestanding flag then it won't link a single libc function.
* Using heavyweight libc strings library functions doesn't make any
* sense for a C++ demangler, which wokrs on strings a few chars long.
*
* - The floating point support is disabled by default, but it can be
* re-enabled by commenting out `DEMANGLE_NO_FLOATING_POINT`. Although
* Doing this will undermine the kernel / signal safety guarantees.
*
* Linking this demangler introduces at least 20kb of binary footprint.
*
*/
#define DEMANGLE_NO_FLOATING_POINT
#define ASSERT(x) (void)0
#define BUFFER_GROWFACTOR 2
#define BUFFER_GROW(x) (((x) + 1) * BUFFER_GROWFACTOR)
#define ELFTC_FAILURE 0
#define ELFTC_ISDIGIT(C) ('0' <= (C) && (C) <= '9')
#define ELFTC_SUCCESS 1
#define VECTOR_DEF_CAPACITY 1
typedef unsigned short index_t;
struct stack_str {
char *str;
int len;
int cap;
char buf[128];
};
struct vector_str {
int size;
int capacity;
index_t *container;
};
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 {
int 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 {
int size, capacity;
struct read_cmd_item *r_container;
};
enum push_qualifier {
PUSH_ALL_QUALIFIER,
PUSH_CV_QUALIFIER,
PUSH_NON_CV_QUALIFIER,
};
struct demangle_data {
int hoff;
index_t free;
uintptr_t heap;
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 */
bool is_guard_variable; /* guarden varis */
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 */
intptr_t jmpbuf[5];
};
struct type_delimit {
bool paren;
bool firstp;
};
#define 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) demangle_push_str((d), (s), demangle_strlen(s))
#define VEC_PUSH_STR(d, s) \
demangle_vector_str_push(ddata, (d), (s), demangle_strlen(s))
#define VEC_STR(d, v, i) ((char *)((d)->heap + (v)->container[i]))
static int demangle_read_encoding(struct demangle_data *);
static int demangle_read_expr_primary(struct demangle_data *);
static int demangle_read_expression(struct demangle_data *);
static int demangle_read_function(struct demangle_data *, int *,
struct vector_type_qualifier *);
static int demangle_read_name(struct demangle_data *);
static int demangle_read_name_flat(struct demangle_data *, char **);
static int demangle_read_sname(struct demangle_data *);
static int demangle_read_subst(struct demangle_data *);
static int demangle_read_type(struct demangle_data *, struct type_delimit *);
static privileged size_t
demangle_strlen(const char *s)
{
size_t n = 0;
while (*s++)
++n;
return n;
}
static privileged char *
demangle_stpcpy(char *d, const char *s)
{
size_t i = 0;
for (;;) {
if (!(d[i] = s[i]))
return d + i;
++i;
}
}
static privileged void *
demangle_mempcpy(void *a, const void *b, size_t n)
{
char *d = a;
const char *s = b;
while (n--)
*d++ = *s++;
return d;
}
static privileged void *
demangle_memcpy(void *a, const void *b, size_t n)
{
demangle_mempcpy(a, b, n);
return a;
}
static privileged int
demangle_strncmp(const char *a, const char *b, size_t n)
{
size_t i = 0;
if (!n-- || a == b)
return 0;
while (i < n && a[i] == b[i] && b[i])
++i;
return (a[i] & 0xff) - (b[i] & 0xff);
}
static privileged int
demangle_memcmp(const void *a, const void *b, size_t n)
{
int c;
const unsigned char *p, *q;
if ((p = a) == (q = b) || !n)
return 0;
if ((c = *p - *q))
return c;
for (; n; ++p, ++q, --n)
if ((c = *p - *q))
return c;
return 0;
}
static privileged void
demangle_strlcpy(char *dst, const char *src, size_t dsize)
{
size_t remain;
if ((remain = dsize))
while (--remain)
if (!(*dst++ = *src++))
break;
if (!remain && dsize)
*dst = 0;
}
static privileged long
demangle_strtol(const char *s, int base)
{
static const uint8_t demangle_base36[80] = { 1, 2, 3, 4, 5, 6, 7, 8, 9,
10, 0, 0, 0, 0, 0, 0, 0, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20,
21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36,
0, 0, 0, 0, 0, 0, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21,
22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 0,
0, 0, 0, 0 };
int c;
long x = 0;
while ((c = *s++ & 255) < 128 && c - '0' >= 0 &&
(c = demangle_base36[c - '0']) && --c < base)
x = x * base + c;
return x;
}
static privileged char *
demangle_strstr(const char *haystack, const char *needle)
{
size_t i;
if (haystack == needle || !*needle)
return (void *)haystack;
for (;;) {
for (i = 0;; ++i) {
if (!needle[i])
return (/*unconst*/ char *)haystack;
if (!haystack[i])
break;
if (needle[i] != haystack[i])
break;
}
if (!*haystack++)
break;
}
return 0;
}
static privileged char *
demangle_utoa(char *p, unsigned long long x)
{
char t;
size_t i, a, b;
i = 0;
do {
p[i++] = x % 10 + '0';
x = x / 10;
} while (x > 0);
p[i] = '\0';
if (i) {
for (a = 0, b = i - 1; a < b; ++a, --b) {
t = p[a];
p[a] = p[b];
p[b] = t;
}
}
return p + i;
}
static privileged char *
demangle_itoa(char *p, long long x)
{
if (x < 0)
*p++ = '-', x = -(unsigned long long)x;
return demangle_utoa(p, x);
}
static privileged void
demangle_free(struct demangle_data *h, void *ptr)
{
index_t base;
uintptr_t mem;
if (ptr) {
mem = (uintptr_t)ptr;
base = mem - h->heap;
if (base - sizeof(index_t) == h->hoff) {
h->hoff += ((index_t *)mem)[-1];
} else {
*(index_t *)mem = h->free;
h->free = base;
}
}
}
static privileged returnspointerwithnoaliases returnsnonnull void *
demangle_malloc(struct demangle_data *h, int a, int n)
{
int rem;
uintptr_t ptr;
index_t next, next2;
index_t *link, *link2;
int b = sizeof(index_t);
/* Roundup size. */
n += a - 1;
n &= -a;
n += b - 1;
n &= -b;
/* Try free list. */
next = h->free;
link = &h->free;
while (next) {
link2 = (index_t *)(h->heap + next);
next2 = *link2;
if (!(next & (a - 1)) && (rem = link2[-1] - n) >= 0) {
if (rem < (b << 1)) {
*link = next2;
} else {
/* Split chunk. */
link2[-1] = n;
*link = next + n + b;
link = (index_t *)(h->heap + next + n + b);
link[-1] = rem - b;
link[0] = next2;
}
return link2;
}
next = next2;
link = link2;
}
/* Allocate new memory. */
rem = h->hoff;
h->hoff -= n;
h->hoff &= -a;
h->hoff &= -b;
if (h->hoff >= (b << 1)) {
n = rem - h->hoff;
ptr = h->heap + h->hoff;
h->hoff -= b;
((index_t *)ptr)[-1] = n;
return (void *)ptr;
} else {
__builtin_longjmp(h->jmpbuf, 1);
}
}
static privileged returnspointerwithnoaliases char *
demangle_strdup(struct demangle_data *h, const char *s)
{
char *d = 0;
if (s) {
size_t n = demangle_strlen(s) + 1;
d = (char *)demangle_malloc(h, 1, n);
demangle_memcpy(d, s, n);
}
return d;
}
static privileged void
demangle_vector_str_dest(struct demangle_data *h, struct vector_str *v)
{
int i;
for (i = 0; i < v->size; ++i)
demangle_free(h, VEC_STR(h, v, v->size - i - 1));
demangle_free(h, v->container);
}
static privileged void
demangle_vector_type_qualifier_dest(struct demangle_data *d,
struct vector_type_qualifier *v)
{
demangle_free(d, v->q_container);
demangle_vector_str_dest(d, &v->ext_name);
}
static privileged void
demangle_stack_str_init(struct stack_str *ss)
{
ss->str = ss->buf;
ss->buf[0] = 0;
ss->len = 0;
ss->cap = sizeof(ss->buf);
}
static privileged void
demangle_stack_str_append(struct demangle_data *h, struct stack_str *ss,
const char *str, size_t len)
{
int len2 = ss->len + len;
int need = len2 + 1;
if (need > ss->cap) {
int cap2;
char *str2;
cap2 = need + (ss->cap >> 1);
str2 = (char *)demangle_malloc(h, 1, cap2);
demangle_memcpy(str2, ss->str, ss->len);
ss->str = str2;
ss->cap = cap2;
}
demangle_memcpy(ss->str + ss->len, str, len);
ss->str[len2] = 0;
ss->len = len2;
}
#define demangle_stack_str_append_str(h, ss, s) \
demangle_stack_str_append(h, ss, s, demangle_strlen(s))
static privileged size_t
demangle_get_strlen_sum(struct demangle_data *h, const struct vector_str *v)
{
size_t i, len = 0;
ASSERT(v->size > 0);
for (i = 0; i < v->size; ++i)
len += demangle_strlen(VEC_STR(h, v, i));
return len;
}
static privileged int
demangle_demangle_strncmp(const char *a, const char *b, size_t n)
{
size_t i = 0;
if (!n-- || a == b)
return 0;
while (i < n && a[i] == b[i] && b[i])
++i;
return (a[i] & 0xff) - (b[i] & 0xff);
}
/**
* @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.
*/
static privileged int
demangle_vector_str_find(struct demangle_data *h, const struct vector_str *v,
const char *o, size_t l)
{
size_t i;
if (!o)
return -1;
for (i = 0; i < v->size; ++i)
if (!demangle_demangle_strncmp(VEC_STR(h, v, i), o, l))
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.
*/
static privileged char *
demangle_vector_str_get_flat(struct demangle_data *ddata,
const struct vector_str *v, size_t *l)
{
size_t i;
char *rtn, *p;
size_t rtn_size;
if (!v->size)
return 0;
if (!(rtn_size = demangle_get_strlen_sum(ddata, v)))
return 0;
rtn = (char *)demangle_malloc(ddata, 1, rtn_size + 1);
p = rtn;
for (i = 0; i < v->size; ++i)
p = demangle_stpcpy(p, VEC_STR(ddata, v, i));
if (l)
*l = rtn_size;
return rtn;
}
static privileged void
demangle_vector_str_grow(struct demangle_data *ddata, struct vector_str *v)
{
size_t i, tmp_cap;
index_t *tmp_ctn;
ASSERT(v->capacity > 0);
tmp_cap = BUFFER_GROW(v->capacity);
ASSERT(tmp_cap > v->capacity);
tmp_ctn = (index_t *)demangle_malloc(ddata, alignof(index_t),
sizeof(index_t) * tmp_cap);
for (i = 0; i < v->size; ++i)
tmp_ctn[i] = v->container[i];
demangle_free(ddata, v->container);
v->container = tmp_ctn;
v->capacity = tmp_cap;
}
/**
* @brief Initialize vector_str.
* @return false at failed, true at success.
*/
static privileged void
demangle_vector_str_init(struct demangle_data *ddata, struct vector_str *v)
{
v->size = 0;
v->capacity = VECTOR_DEF_CAPACITY;
ASSERT(v->capacity > 0);
v->container = (index_t *)demangle_malloc(ddata, alignof(index_t),
sizeof(index_t) * v->capacity);
}
/**
* @brief Remove last element in vector_str.
* @return false at failed, true at success.
*/
static privileged bool
demangle_vector_str_pop(struct vector_str *v)
{
if (!v)
return false;
if (!v->size)
return true;
--v->size;
v->container[v->size] = 0;
return true;
}
/**
* @brief Push back string to vector.
* @return false at failed, true at success.
*/
static privileged bool
demangle_vector_str_push(struct demangle_data *ddata, struct vector_str *v,
const char *str, size_t len)
{
if (!v || !str)
return false;
if (v->size == v->capacity)
demangle_vector_str_grow(ddata, v);
v->container[v->size] = (uintptr_t)demangle_malloc(ddata, 1, len + 1) -
ddata->heap;
demangle_strlcpy(VEC_STR(ddata, v, v->size), str, len + 1);
++v->size;
return true;
}
/**
* @brief Push front org vector to det vector.
* @return false at failed, true at success.
*/
static privileged bool
demangle_vector_str_push_vector_head(struct demangle_data *ddata,
struct vector_str *dst, struct vector_str *org)
{
size_t i, tmp_cap;
index_t *tmp_ctn;
tmp_cap = BUFFER_GROW(dst->size + org->size);
tmp_ctn = (index_t *)demangle_malloc(ddata, alignof(index_t),
sizeof(index_t) * tmp_cap);
for (i = 0; i < org->size; ++i)
tmp_ctn[i] = (uintptr_t)demangle_strdup(ddata,
VEC_STR(ddata, org, i)) -
ddata->heap;
for (i = 0; i < dst->size; ++i)
tmp_ctn[i + org->size] = dst->container[i];
demangle_free(ddata, 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.
*/
static privileged bool
demangle_vector_str_push_vector(struct demangle_data *ddata,
struct vector_str *dst, struct vector_str *org)
{
size_t i, tmp_cap;
index_t *tmp_ctn;
if (!dst || !org)
return false;
tmp_cap = BUFFER_GROW(dst->size + org->size);
tmp_ctn = (index_t *)demangle_malloc(ddata, alignof(index_t),
sizeof(index_t) * tmp_cap);
for (i = 0; i < dst->size; ++i)
tmp_ctn[i] = dst->container[i];
for (i = 0; i < org->size; ++i)
tmp_ctn[i + dst->size] = (uintptr_t)demangle_strdup(ddata,
VEC_STR(ddata, org, i)) -
ddata->heap;
demangle_free(ddata, 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.
*/
static privileged returnspointerwithnoaliases char *
demangle_vector_str_substr(struct demangle_data *ddata,
const struct vector_str *v, size_t begin, size_t end, size_t *r_len)
{
char *rtn, *p;
size_t i, len;
if (!v || begin > end)
return 0;
len = 0;
for (i = begin; i < end + 1; ++i)
len += demangle_strlen(VEC_STR(ddata, v, i));
rtn = (char *)demangle_malloc(ddata, 1, len + 1);
if (r_len)
*r_len = len;
p = rtn;
for (i = begin; i < end + 1; ++i)
p = demangle_stpcpy(p, VEC_STR(ddata, v, i));
return rtn;
}
static privileged int
demangle_vector_read_cmd_pop(struct vector_read_cmd *v)
{
if (!v->size)
return 0;
--v->size;
v->r_container[v->size].cmd = READ_FAIL;
v->r_container[v->size].data = NULL;
return 1;
}
static privileged void
demangle_vector_read_cmd_init(struct demangle_data *ddata,
struct vector_read_cmd *v)
{
v->size = 0;
v->capacity = VECTOR_DEF_CAPACITY;
v->r_container = (struct read_cmd_item *)demangle_malloc(ddata,
alignof(*v->r_container), sizeof(*v->r_container) * v->capacity);
}
static privileged void
demangle_data_init(struct demangle_data *d, const char *cur)
{
demangle_vector_str_init(d, &d->output);
demangle_vector_str_init(d, &d->subst);
demangle_vector_str_init(d, &d->tmpl);
demangle_vector_str_init(d, &d->class_type);
demangle_vector_read_cmd_init(d, &d->cmd);
ASSERT(d->output.container);
ASSERT(d->subst.container);
ASSERT(d->tmpl.container);
ASSERT(d->class_type.container);
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->is_guard_variable = false;
d->push_qualifier = PUSH_ALL_QUALIFIER;
d->func_type = 0;
d->cur = cur;
d->cur_output = &d->output;
d->last_sname = NULL;
}
static privileged int
demangle_push_str(struct demangle_data *ddata, const char *str, size_t len)
{
if (!str || !len)
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 demangle_vector_str_push(ddata, ddata->cur_output, str, len);
}
#ifndef DEMANGLE_NO_FLOATING_POINT
static privileged int
demangle_push_fp(struct demangle_data *ddata,
char *decoder(struct demangle_data *, const char *, size_t))
{
size_t len;
int rtn;
const char *fp;
char *f;
if (!decoder)
return 0;
fp = ddata->cur;
while (*ddata->cur != 'E')
++ddata->cur;
if (!(f = decoder(ddata, fp, ddata->cur - fp)))
return 0;
rtn = 0;
if ((len = demangle_strlen(f)) > 0)
rtn = demangle_push_str(ddata, f, len);
++ddata->cur;
return rtn;
}
#endif // DEMANGLE_NO_FLOATING_POINT
static privileged int
demangle_pop_str(struct demangle_data *ddata)
{
return demangle_vector_str_pop(ddata->cur_output);
}
static privileged int
demangle_push_subst(struct demangle_data *ddata, const char *str, size_t len)
{
if (!str || !len)
return 0;
if (!demangle_vector_str_find(ddata, &ddata->subst, str, len))
return demangle_vector_str_push(ddata, &ddata->subst, str, len);
return 1;
}
static privileged int
demangle_push_subst_v(struct demangle_data *ddata, struct vector_str *v)
{
int rtn;
char *str;
size_t str_len;
if (!v)
return 0;
if (!(str = demangle_vector_str_get_flat(ddata, v, &str_len)))
return 0;
rtn = demangle_push_subst(ddata, str, str_len);
demangle_free(ddata, str);
return rtn;
}
static privileged int
demangle_push_type_qualifier(struct demangle_data *ddata,
struct vector_type_qualifier *v, const char *type_str)
{
struct stack_str subst_v;
enum type_qualifier t;
size_t idx, e_idx, e_len;
char *buf;
bool cv;
if (!v)
return 0;
if (!(idx = v->size))
return 1;
if (type_str) {
demangle_stack_str_init(&subst_v);
demangle_stack_str_append_str(ddata, &subst_v, type_str);
}
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, "*"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
"*");
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
break;
case TYPE_REF:
cv = false;
if (ddata->push_qualifier == PUSH_CV_QUALIFIER)
break;
if (!DEM_PUSH_STR(ddata, "&"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
"&");
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
break;
case TYPE_RREF:
cv = false;
if (ddata->push_qualifier == PUSH_CV_QUALIFIER)
break;
if (!DEM_PUSH_STR(ddata, "&&"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
"&&");
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
break;
case TYPE_CMX:
cv = false;
if (ddata->push_qualifier == PUSH_CV_QUALIFIER)
break;
if (!DEM_PUSH_STR(ddata, " complex"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
" complex");
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
break;
case TYPE_IMG:
cv = false;
if (ddata->push_qualifier == PUSH_CV_QUALIFIER)
break;
if (!DEM_PUSH_STR(ddata, " imaginary"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
" imaginary");
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
break;
case TYPE_EXT:
cv = false;
if (ddata->push_qualifier == PUSH_CV_QUALIFIER)
break;
if (!v->ext_name.size || e_idx > v->ext_name.size - 1)
return 0;
if (!(e_len = demangle_strlen(
VEC_STR(ddata, (&v->ext_name), e_idx))))
return 0;
buf = (char *)demangle_malloc(ddata, 1, e_len + 2);
buf[0] = ' ';
demangle_memcpy(buf + 1,
VEC_STR(ddata, &v->ext_name, e_idx), e_len + 1);
if (!DEM_PUSH_STR(ddata, buf))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
buf);
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
++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"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
" restrict");
if (idx - 1 > 0) {
t = v->q_container[idx - 2];
if (t == TYPE_RST || t == TYPE_VAT ||
t == TYPE_CST)
break;
}
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
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"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
" volatile");
if (idx - 1 > 0) {
t = v->q_container[idx - 2];
if (t == TYPE_RST || t == TYPE_VAT ||
t == TYPE_CST)
break;
}
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
break;
case TYPE_CST:
if (ddata->push_qualifier == PUSH_NON_CV_QUALIFIER &&
cv && !ddata->is_functype) { /* [jart] upstream */
break;
}
if (ddata->push_qualifier == PUSH_CV_QUALIFIER && !cv) {
break;
}
if (!DEM_PUSH_STR(ddata, " const"))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
" const");
if (idx - 1 > 0) {
t = v->q_container[idx - 2];
if (t == TYPE_RST || t == TYPE_VAT ||
t == TYPE_CST)
break;
}
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
break;
case TYPE_VEC: {
char *p;
cv = false;
if (ddata->push_qualifier == PUSH_CV_QUALIFIER)
break;
if (!v->ext_name.size || e_idx > v->ext_name.size - 1)
return 0;
if (!(e_len = demangle_strlen(
VEC_STR(ddata, &v->ext_name, e_idx))))
return 0;
buf = (char *)demangle_malloc(ddata, 1, e_len + 12);
p = buf;
p = demangle_stpcpy(p, " __vector(");
p = (char *)demangle_mempcpy(p,
VEC_STR(ddata, &v->ext_name, e_idx), e_len);
p = demangle_stpcpy(p, ")");
if (!DEM_PUSH_STR(ddata, buf))
return 0;
if (type_str) {
demangle_stack_str_append_str(ddata, &subst_v,
buf);
if (!demangle_push_subst(ddata, subst_v.str,
subst_v.len))
return 0;
}
++e_idx;
break;
}
}
--idx;
}
return 1;
}
static privileged int
demangle_get_subst(struct demangle_data *ddata, size_t idx)
{
size_t len;
if (ddata->subst.size <= idx)
return 0;
if (!(len = demangle_strlen(VEC_STR(ddata, &ddata->subst, idx))))
return 0;
if (!demangle_push_str(ddata, VEC_STR(ddata, &ddata->subst, idx), len))
return 0;
/* skip '_' */
++ddata->cur;
return 1;
}
static privileged int
demangle_get_tmpl_param(struct demangle_data *ddata, size_t idx)
{
size_t len;
if (ddata->tmpl.size <= idx)
return 0;
if (!(len = demangle_strlen(VEC_STR(ddata, &ddata->tmpl, idx))))
return 0;
if (!demangle_push_str(ddata, VEC_STR(ddata, &ddata->tmpl, idx), len))
return 0;
++ddata->cur;
return 1;
}
static privileged int
demangle_read_array(struct demangle_data *ddata)
{
size_t i, num_len, exp_len, p_idx, idx;
const char *num;
char *exp;
if (!*(++ddata->cur))
return 0;
if (*ddata->cur == '_') {
if (!*(++ddata->cur))
return 0;
if (!demangle_read_type(ddata, NULL))
return 0;
if (!DEM_PUSH_STR(ddata, " []"))
return 0;
} else {
if (ELFTC_ISDIGIT(*ddata->cur)) {
num = ddata->cur;
while (ELFTC_ISDIGIT(*ddata->cur))
++ddata->cur;
if (*ddata->cur != '_')
return 0;
num_len = ddata->cur - num;
ASSERT(num_len > 0);
if (*(++ddata->cur) == '\0')
return 0;
if (!demangle_read_type(ddata, NULL))
return 0;
if (!DEM_PUSH_STR(ddata, " ["))
return 0;
if (!demangle_push_str(ddata, num, num_len))
return 0;
if (!DEM_PUSH_STR(ddata, "]"))
return 0;
} else {
p_idx = ddata->output.size;
if (!demangle_read_expression(ddata))
return 0;
if (!(exp = demangle_vector_str_substr(ddata,
&ddata->output, p_idx, ddata->output.size - 1,
&exp_len)))
return 0;
idx = ddata->output.size;
for (i = p_idx; i < idx; ++i)
if (!demangle_vector_str_pop(&ddata->output))
return 0;
if (*ddata->cur != '_')
return 0;
++ddata->cur;
if (*ddata->cur == '\0')
return 0;
if (!demangle_read_type(ddata, NULL))
return 0;
if (!DEM_PUSH_STR(ddata, " ["))
return 0;
if (!demangle_push_str(ddata, exp, exp_len))
return 0;
if (!DEM_PUSH_STR(ddata, "]"))
return 0;
}
}
return 1;
}
#ifndef DEMANGLE_NO_FLOATING_POINT
/* Simple hex to integer function used by decode_to_* function. */
static privileged 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;
}
}
/*
* Decode floating point representation to string
* Return new allocated string or NULL
*
* Todo
* Replace these functions to macro.
*/
static privileged returnspointerwithnoaliases char *
decode_fp_to_double(struct demangle_data *ddata, const char *p, size_t len)
{
double f;
size_t rtn_len, limit, i;
int byte;
char *rtn;
if (!p || !len || len % 2 || len / 2 > sizeof(double))
return 0;
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 0;
#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:
rtn = (char *)demangle_malloc(ddata, alignof(char),
sizeof(char) * rtn_len);
if (snprintf(rtn, rtn_len, "%fld", f) >= (int)rtn_len) {
if (limit++ > FLOAT_SPRINTF_TRY_LIMIT)
return 0;
rtn_len *= BUFFER_GROWFACTOR;
goto again;
}
return rtn;
}
static privileged returnspointerwithnoaliases char *
decode_fp_to_float(struct demangle_data *ddata, const char *p, size_t len)
{
size_t i, rtn_len, limit;
float f;
int byte;
char *rtn;
if (!p || !len || len % 2 || len / 2 > sizeof(float))
return 0;
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 0;
#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:
rtn = (char *)demangle_malloc(ddata, alignof(char),
sizeof(char) * rtn_len);
if (snprintf(rtn, rtn_len, "%ff", f) >= (int)rtn_len) {
if (limit++ > FLOAT_SPRINTF_TRY_LIMIT)
return 0;
rtn_len *= BUFFER_GROWFACTOR;
goto again;
}
return rtn;
}
static privileged returnspointerwithnoaliases char *
decode_fp_to_long_double(struct demangle_data *ddata, const char *p, size_t len)
{
long double f;
size_t rtn_len, limit, i;
int byte;
char *rtn;
if (!p || !len || len % 2 || len / 2 > sizeof(long double))
return 0;
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 0;
#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:
rtn = (char *)demangle_malloc(ddata, alignof(char),
sizeof(char) * rtn_len);
if (snprintf(rtn, rtn_len, "%Lfd", f) >= (int)rtn_len) {
if (limit++ > FLOAT_SPRINTF_TRY_LIMIT)
return 0;
rtn_len *= BUFFER_GROWFACTOR;
goto again;
}
return rtn;
}
static privileged returnspointerwithnoaliases char *
decode_fp_to_float128(struct demangle_data *ddata, 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(ddata, p, len);
case FLOAT_EXTENED_BYTES:
if (!p || !len || len % 2 || len / 2 > FLOAT_QUADRUPLE_BYTES)
return 0;
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 0;
#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
demangle_memcpy(&f, buf, FLOAT_EXTENED_BYTES);
#else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */
demangle_memcpy(&f, buf + 6, FLOAT_EXTENED_BYTES);
#endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */
rtn_len = 256;
limit = 0;
again:
rtn = (char *)demangle_malloc(ddata, alignof(char),
sizeof(char) * rtn_len);
if (snprintf(rtn, rtn_len, "%Lfd", f) >= (int)rtn_len) {
if (limit++ > FLOAT_SPRINTF_TRY_LIMIT)
return 0;
rtn_len *= BUFFER_GROWFACTOR;
goto again;
}
return rtn;
default:
return 0;
}
}
static privileged returnspointerwithnoaliases char *
decode_fp_to_float80(struct demangle_data *ddata, 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 || !len || len % 2 || len / 2 > FLOAT_EXTENED_BYTES)
return 0;
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 0;
#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
demangle_memcpy(&f, buf, FLOAT_EXTENED_BYTES);
#else /* ELFTC_BYTE_ORDER != ELFTC_BYTE_ORDER_LITTLE_ENDIAN */
demangle_memcpy((unsigned char *)(&f) + 6, buf,
FLOAT_EXTENED_BYTES);
#endif /* ELFTC_BYTE_ORDER == ELFTC_BYTE_ORDER_LITTLE_ENDIAN */
rtn_len = 256;
limit = 0;
again:
rtn = (char *)demangle_malloc(ddata, alignof(char),
sizeof(char) * rtn_len);
if (snprintf(rtn, rtn_len, "%Lfd", f) >= (int)rtn_len) {
if (limit++ > FLOAT_SPRINTF_TRY_LIMIT)
return 0;
rtn_len *= BUFFER_GROWFACTOR;
goto again;
}
return rtn;
case FLOAT_EXTENED_BYTES:
return decode_fp_to_long_double(ddata, p, len);
default:
return 0;
}
}
#endif // DEMANGLE_NO_FLOATING_POINT
static privileged int
demangle_read_expr_primary(struct demangle_data *ddata)
{
const char *num;
if (*(++ddata->cur) == '\0')
return 0;
if (*ddata->cur == '_' && *(ddata->cur + 1) == 'Z') {
ddata->cur += 2;
if (*ddata->cur == '\0')
return 0;
if (!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;
}
#ifndef DEMANGLE_NO_FLOATING_POINT
case 'd':
++ddata->cur;
return demangle_push_fp(ddata, decode_fp_to_double);
case 'e':
++ddata->cur;
if (sizeof(long double) == 10)
return demangle_push_fp(ddata, decode_fp_to_double);
return demangle_push_fp(ddata, decode_fp_to_float80);
case 'f':
++ddata->cur;
return demangle_push_fp(ddata, decode_fp_to_float);
case 'g':
++ddata->cur;
if (sizeof(long double) == 16)
return demangle_push_fp(ddata, decode_fp_to_double);
return demangle_push_fp(ddata, decode_fp_to_float128);
#endif // DEMANGLE_NO_FLOATING_POINT
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 demangle_push_str(ddata, num, ddata->cur - num - 1);
default:
return 0;
}
}
/*
* 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 privileged int
demangle_local_source_name(struct demangle_data *ddata)
{
/* L */
if (*ddata->cur != 'L')
return 0;
++ddata->cur;
/* source name */
if (!demangle_read_sname(ddata))
return 0;
/* discriminator */
if (*ddata->cur == '_') {
++ddata->cur;
while (ELFTC_ISDIGIT(*ddata->cur))
++ddata->cur;
}
return 1;
}
/*
* read unqualified-name, unqualified name are operator-name, ctor-dtor-name,
* source-name
*/
static privileged int
demangle_read_uqname(struct demangle_data *ddata)
{
size_t len;
if (*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 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 (!demangle_push_str(ddata, ddata->cur + 1, 1))
return 0;
ddata->cur += 2;
return 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'):
case SIMPLE_HASH('C', '4'):
case SIMPLE_HASH('C', '5'):
if (!ddata->last_sname)
return 0;
if (!(len = demangle_strlen(ddata->last_sname)))
return 0;
if (!DEM_PUSH_STR(ddata, "::"))
return 0;
if (!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'):
case SIMPLE_HASH('D', '3'):
case SIMPLE_HASH('D', '4'):
case SIMPLE_HASH('D', '5'):
if (!ddata->last_sname)
return 0;
if (!(len = demangle_strlen(ddata->last_sname)))
return 0;
if (!DEM_PUSH_STR(ddata, "::~"))
return 0;
if (!demangle_push_str(ddata, ddata->last_sname, len))
return 0;
ddata->cur += 2;
return 1;
}
/* source name */
if (ELFTC_ISDIGIT(*ddata->cur))
return demangle_read_sname(ddata);
/* local source name */
if (*ddata->cur == 'L')
return demangle_local_source_name(ddata);
return 1;
}
/*
* Read template parameter that forms in 'T[number]_'.
* This function much like to read_subst but only for types.
*/
static privileged int
demangle_read_tmpl_param(struct demangle_data *ddata)
{
long nth;
if (*ddata->cur != 'T')
return 0;
++ddata->cur;
if (*ddata->cur == '_') {
return demangle_get_tmpl_param(ddata, 0);
} else {
nth = demangle_strtol(ddata->cur, 36);
/* T_ is first */
++nth;
while (*ddata->cur != '_')
++ddata->cur;
ASSERT(nth > 0);
return demangle_get_tmpl_param(ddata, nth);
}
/* NOTREACHED */
return 0;
}
static privileged int
demangle_vector_read_cmd_push(struct demangle_data *ddata,
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)
return 0;
if (v->size == v->capacity) {
tmp_cap = BUFFER_GROW(v->capacity);
tmp_r_ctn = (struct read_cmd_item *)demangle_malloc(ddata,
alignof(*tmp_r_ctn), sizeof(*tmp_r_ctn) * tmp_cap);
for (i = 0; i < v->size; ++i)
tmp_r_ctn[i] = v->r_container[i];
demangle_free(ddata, 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 privileged int
demangle_read_tmpl_arg(struct demangle_data *ddata)
{
if (*ddata->cur == '\0')
return 0;
switch (*ddata->cur) {
case 'L':
return demangle_read_expr_primary(ddata);
case 'X':
++ddata->cur;
if (!demangle_read_expression(ddata))
return 0;
return *ddata->cur++ == 'E';
}
return demangle_read_type(ddata, NULL);
}
static privileged int
demangle_read_tmpl_args(struct demangle_data *ddata)
{
struct vector_str *v;
size_t arg_len, idx, limit;
char *arg;
if (*ddata->cur == '\0')
return 0;
++ddata->cur;
if (!demangle_vector_read_cmd_push(ddata, &ddata->cmd, READ_TMPL, NULL))
return 0;
if (!DEM_PUSH_STR(ddata, "<"))
return 0;
limit = 0;
v = ddata->cur_output;
for (;;) {
idx = v->size;
if (!demangle_read_tmpl_arg(ddata))
return 0;
if (!(arg = demangle_vector_str_substr(ddata, v, idx,
v->size - 1, &arg_len)))
return 0;
if (!demangle_vector_str_find(ddata, &ddata->tmpl, arg,
arg_len) &&
!demangle_vector_str_push(ddata, &ddata->tmpl, arg,
arg_len)) {
demangle_free(ddata, arg);
return 0;
}
demangle_free(ddata, arg);
if (*ddata->cur == 'E') {
++ddata->cur;
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++ > DEMANGLE_TRY_LIMIT)
return 0;
}
return demangle_vector_read_cmd_pop(&ddata->cmd);
}
static privileged int
demangle_read_expression_trinary(struct demangle_data *ddata, const char *name1,
size_t len1, const char *name2, size_t len2)
{
if (!name1 || !len1 || !name2 || !len2)
return 0;
if (!demangle_read_expression(ddata))
return 0;
if (!demangle_push_str(ddata, name1, len1))
return 0;
if (!demangle_read_expression(ddata))
return 0;
if (!demangle_push_str(ddata, name2, len2))
return 0;
return demangle_read_expression(ddata);
}
static privileged int
demangle_read_expression_unary(struct demangle_data *ddata, const char *name,
size_t len)
{
if (!name || !len)
return 0;
if (!demangle_read_expression(ddata))
return 0;
return demangle_push_str(ddata, name, len);
}
static privileged int
demangle_read_expression_binary(struct demangle_data *ddata, const char *name,
size_t len)
{
if (!name || !len)
return 0;
if (!demangle_read_expression(ddata))
return 0;
if (!demangle_push_str(ddata, name, len))
return 0;
return demangle_read_expression(ddata);
}
static privileged int
demangle_read_expression(struct demangle_data *ddata)
{
if (*ddata->cur == '\0')
return 0;
switch (SIMPLE_HASH(*ddata->cur, *(ddata->cur + 1))) {
case SIMPLE_HASH('s', 't'):
ddata->cur += 2;
return demangle_read_type(ddata, NULL);
case SIMPLE_HASH('s', 'r'):
ddata->cur += 2;
if (!demangle_read_type(ddata, NULL))
return 0;
if (!demangle_read_uqname(ddata))
return 0;
if (*ddata->cur == 'I')
return demangle_read_tmpl_args(ddata);
return 1;
case SIMPLE_HASH('a', 'a'):
/* operator && */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "&&", 2);
case SIMPLE_HASH('a', 'd'):
/* operator & (unary) */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "&", 1);
case SIMPLE_HASH('a', 'n'):
/* operator & */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "&", 1);
case SIMPLE_HASH('a', 'N'):
/* operator &= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "&=", 2);
case SIMPLE_HASH('a', 'S'):
/* operator = */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "=", 1);
case SIMPLE_HASH('c', 'l'):
/* operator () */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "()", 2);
case SIMPLE_HASH('c', 'm'):
/* operator , */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, ",", 1);
case SIMPLE_HASH('c', 'o'):
/* operator ~ */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "~", 1);
case SIMPLE_HASH('c', 'v'):
/* operator (cast) */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "(cast)", 6);
case SIMPLE_HASH('d', 'a'):
/* operator delete [] */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "delete []", 9);
case SIMPLE_HASH('d', 'e'):
/* operator * (unary) */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "*", 1);
case SIMPLE_HASH('d', 'l'):
/* operator delete */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "delete", 6);
case SIMPLE_HASH('d', 'v'):
/* operator / */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "/", 1);
case SIMPLE_HASH('d', 'V'):
/* operator /= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "/=", 2);
case SIMPLE_HASH('e', 'o'):
/* operator ^ */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "^", 1);
case SIMPLE_HASH('e', 'O'):
/* operator ^= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "^=", 2);
case SIMPLE_HASH('e', 'q'):
/* operator == */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "==", 2);
case SIMPLE_HASH('g', 'e'):
/* operator >= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, ">=", 2);
case SIMPLE_HASH('g', 't'):
/* operator > */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, ">", 1);
case SIMPLE_HASH('i', 'x'):
/* operator [] */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "[]", 2);
case SIMPLE_HASH('l', 'e'):
/* operator <= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "<=", 2);
case SIMPLE_HASH('l', 's'):
/* operator << */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "<<", 2);
case SIMPLE_HASH('l', 'S'):
/* operator <<= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "<<=", 3);
case SIMPLE_HASH('l', 't'):
/* operator < */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "<", 1);
case SIMPLE_HASH('m', 'i'):
/* operator - */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "-", 1);
case SIMPLE_HASH('m', 'I'):
/* operator -= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "-=", 2);
case SIMPLE_HASH('m', 'l'):
/* operator * */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "*", 1);
case SIMPLE_HASH('m', 'L'):
/* operator *= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "*=", 2);
case SIMPLE_HASH('m', 'm'):
/* operator -- */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "--", 2);
case SIMPLE_HASH('n', 'a'):
/* operator new[] */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "new []", 6);
case SIMPLE_HASH('n', 'e'):
/* operator != */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "!=", 2);
case SIMPLE_HASH('n', 'g'):
/* operator - (unary) */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "-", 1);
case SIMPLE_HASH('n', 't'):
/* operator ! */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "!", 1);
case SIMPLE_HASH('n', 'w'):
/* operator new */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "new", 3);
case SIMPLE_HASH('o', 'o'):
/* operator || */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "||", 2);
case SIMPLE_HASH('o', 'r'):
/* operator | */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "|", 1);
case SIMPLE_HASH('o', 'R'):
/* operator |= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "|=", 2);
case SIMPLE_HASH('p', 'l'):
/* operator + */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "+", 1);
case SIMPLE_HASH('p', 'L'):
/* operator += */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "+=", 2);
case SIMPLE_HASH('p', 'm'):
/* operator ->* */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "->*", 3);
case SIMPLE_HASH('p', 'p'):
/* operator ++ */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "++", 2);
case SIMPLE_HASH('p', 's'):
/* operator + (unary) */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "+", 1);
case SIMPLE_HASH('p', 't'):
/* operator -> */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "->", 2);
case SIMPLE_HASH('q', 'u'):
/* operator ? */
ddata->cur += 2;
return demangle_read_expression_trinary(ddata, "?", 1, ":", 1);
case SIMPLE_HASH('r', 'm'):
/* operator % */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "%", 1);
case SIMPLE_HASH('r', 'M'):
/* operator %= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, "%=", 2);
case SIMPLE_HASH('r', 's'):
/* operator >> */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, ">>", 2);
case SIMPLE_HASH('r', 'S'):
/* operator >>= */
ddata->cur += 2;
return demangle_read_expression_binary(ddata, ">>=", 3);
case SIMPLE_HASH('r', 'z'):
/* operator sizeof */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "sizeof", 6);
case SIMPLE_HASH('s', 'v'):
/* operator sizeof */
ddata->cur += 2;
return demangle_read_expression_unary(ddata, "sizeof", 6);
}
switch (*ddata->cur) {
case 'L':
return demangle_read_expr_primary(ddata);
case 'T':
return demangle_read_tmpl_param(ddata);
}
return 0;
}
static privileged int
demangle_read_expression_flat(struct 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 (!demangle_read_expression(ddata))
return 0;
if (!(exp = demangle_vector_str_substr(ddata, output, p_idx,
output->size - 1, &exp_len)))
return 0;
idx = output->size;
for (i = p_idx; i < idx; ++i)
if (!demangle_vector_str_pop(output))
return 0;
*str = exp;
return 1;
}
/* size, capacity, ext_name */
static privileged void
demangle_vector_type_qualifier_init(struct demangle_data *ddata,
struct vector_type_qualifier *v)
{
v->size = 0;
v->capacity = VECTOR_DEF_CAPACITY;
v->q_container = (enum type_qualifier *)demangle_malloc(ddata,
alignof(enum type_qualifier),
sizeof(enum type_qualifier) * v->capacity);
ASSERT(v->q_container);
demangle_vector_str_init(ddata, &v->ext_name);
}
static privileged struct read_cmd_item *
demangle_vector_read_cmd_find(struct vector_read_cmd *v, enum read_cmd dst)
{
int i;
if (!v || dst == READ_FAIL)
return 0;
for (i = (int)v->size - 1; i >= 0; i--)
if (v->r_container[i].cmd == dst)
return &v->r_container[i];
return 0;
}
static privileged int
demangle_read_function(struct 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->cur != 'F')
return 0;
++ddata->cur;
if (*ddata->cur == 'Y') {
if (ext_c)
*ext_c = 1;
++ddata->cur;
}
/* Return type */
if (!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 = demangle_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 (!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))
return 0;
class_type = VEC_STR(ddata, &ddata->class_type,
class_type_size - 1);
if (!class_type)
return 0;
if (!(class_type_len = demangle_strlen(class_type)))
return 0;
if (!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 (!demangle_push_type_qualifier(ddata,
(struct vector_type_qualifier *)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 (!demangle_read_type(ddata, &td))
return 0;
if (*ddata->cur == 'E')
break;
if (limit++ > 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 (!demangle_push_type_qualifier(ddata, v, NULL))
return 0;
ddata->push_qualifier = PUSH_ALL_QUALIFIER;
/* Release type qualifier vector. */
demangle_vector_type_qualifier_init(ddata, v);
/* 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;
}
static privileged int
demangle_read_offset_number(struct demangle_data *ddata)
{
bool negative;
const char *start;
if (*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);
if (!demangle_push_str(ddata, start, ddata->cur - start))
return 0;
if (!DEM_PUSH_STR(ddata, " "))
return 0;
++ddata->cur;
return 1;
}
static privileged int
demangle_read_nv_offset(struct demangle_data *ddata)
{
if (!DEM_PUSH_STR(ddata, "offset : "))
return 0;
return demangle_read_offset_number(ddata);
}
static privileged int
demangle_read_v_offset(struct demangle_data *ddata)
{
if (!DEM_PUSH_STR(ddata, "offset : "))
return 0;
if (!demangle_read_offset_number(ddata))
return 0;
if (!DEM_PUSH_STR(ddata, "virtual offset : "))
return 0;
return !demangle_read_offset_number(ddata);
}
/* read offset, offset are nv-offset, v-offset */
static privileged int
demangle_read_offset(struct demangle_data *ddata)
{
if (*ddata->cur == 'h') {
++ddata->cur;
return demangle_read_nv_offset(ddata);
} else if (*ddata->cur == 'v') {
++ddata->cur;
return demangle_read_v_offset(ddata);
}
return 0;
}
static privileged int
demangle_read_type_flat(struct 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 (!demangle_read_type(ddata, NULL))
return 0;
if (!(type = demangle_vector_str_substr(ddata, output, p_idx,
output->size - 1, &type_len)))
return 0;
idx = output->size;
for (i = p_idx; i < idx; ++i)
if (!demangle_vector_str_pop(output))
return 0;
*str = type;
return 1;
}
/*
* read number
* number ::= [n] <decimal>
*/
static privileged int
demangle_read_number(struct demangle_data *ddata, long *rtn)
{
long len, negative_factor;
if (!rtn)
return 0;
negative_factor = 1;
if (*ddata->cur == 'n') {
negative_factor = -1;
++ddata->cur;
}
if (!ELFTC_ISDIGIT(*ddata->cur))
return 0;
len = demangle_strtol(ddata->cur, 10);
while (ELFTC_ISDIGIT(*ddata->cur))
++ddata->cur;
ASSERT(len >= 0);
ASSERT(negative_factor == 1 || negative_factor == -1);
*rtn = len * negative_factor;
return 1;
}
static privileged int
demangle_read_number_as_string(struct demangle_data *ddata, char **str)
{
long n;
char buf[21];
if (!demangle_read_number(ddata, &n)) {
*str = NULL;
return 0;
}
demangle_itoa(buf, n);
*str = demangle_strdup(ddata, buf);
return 1;
}
/* read encoding, encoding are function name, data name, special-name */
static privileged int
demangle_read_encoding(struct demangle_data *ddata)
{
char *name, *type, *num_str;
long offset;
int rtn;
if (*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 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 (!demangle_read_name_flat(ddata, &name))
return 0;
rtn = 0;
if (!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:
demangle_free(ddata, num_str);
clean1:
demangle_free(ddata, 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 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->is_guard_variable = true;
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 (!demangle_read_offset(ddata))
return 0;
if (!demangle_read_offset(ddata))
return 0;
return 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 (!demangle_read_type_flat(ddata, &type))
return 0;
if (!demangle_read_number(ddata, &offset))
return 0;
if (*ddata->cur++ != '_')
return 0;
if (!demangle_read_type(ddata, NULL))
return 0;
if (!DEM_PUSH_STR(ddata, "-in-"))
return 0;
if (!DEM_PUSH_STR(ddata, type))
return 0;
return 1;
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 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 (!demangle_read_nv_offset(ddata))
return 0;
return 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 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 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 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 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 (!demangle_read_v_offset(ddata))
return 0;
return 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 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 demangle_read_name(ddata);
}
static privileged int
demangle_read_local_name(struct demangle_data *ddata)
{
struct vector_str local_name;
struct type_delimit td;
size_t limit;
bool more_type;
if (*(++ddata->cur) == '\0')
return 0;
demangle_vector_str_init(ddata, &local_name);
ddata->cur_output = &local_name;
if (!demangle_read_encoding(ddata))
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 (!demangle_read_type(ddata, NULL))
return 0;
more_type = true;
}
/* Now we can push the name after possible return type is handled. */
if (!demangle_vector_str_push_vector(ddata, &ddata->output,
&local_name))
return 0;
while (*ddata->cur != '\0') {
if (!demangle_read_type(ddata, &td))
return 0;
if (more_type)
more_type = false;
if (*ddata->cur == 'E')
break;
if (limit++ > DEMANGLE_TRY_LIMIT)
return 0;
}
if (more_type)
return 0;
if (*(++ddata->cur) == '\0')
return 0;
if (td.paren) {
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 (!demangle_read_name(ddata))
return 0;
}
if (*ddata->cur == '_') {
++ddata->cur;
while (ELFTC_ISDIGIT(*ddata->cur))
++ddata->cur;
}
return 1;
}
static privileged int
demangle_read_nested_name(struct demangle_data *ddata)
{
struct stack_str v;
struct vector_str *output;
size_t limit, p_idx, subst_str_len;
char *subst_str;
if (*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;
demangle_stack_str_init(&v);
limit = 0;
for (;;) {
p_idx = output->size;
switch (*ddata->cur) {
case 'I':
if (!demangle_read_tmpl_args(ddata))
return 0;
break;
case 'S':
if (!demangle_read_subst(ddata))
return 0;
break;
case 'T':
if (!demangle_read_tmpl_param(ddata))
return 0;
break;
default:
if (!demangle_read_uqname(ddata))
return 0;
}
if (p_idx == output->size)
goto next_comp;
if (!(subst_str = demangle_vector_str_substr(ddata, output,
p_idx, output->size - 1, &subst_str_len)))
return 0;
demangle_stack_str_append(ddata, &v, subst_str, subst_str_len);
demangle_free(ddata, subst_str);
if (!demangle_push_subst(ddata, v.str, v.len))
return 0;
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, "::"))
return 0;
demangle_stack_str_append_str(ddata, &v, "::");
}
if (limit++ > DEMANGLE_TRY_LIMIT)
return 0;
}
++ddata->cur;
return 1;
}
static privileged int
demangle_read_name(struct demangle_data *ddata)
{
struct stack_str v;
struct vector_str *output;
size_t p_idx, subst_str_len;
char *subst_str;
int rtn;
if (*ddata->cur == '\0')
return 0;
output = ddata->cur_output;
subst_str = NULL;
switch (*ddata->cur) {
case 'S':
return demangle_read_subst(ddata);
case 'N':
return demangle_read_nested_name(ddata);
case 'Z':
return demangle_read_local_name(ddata);
}
demangle_stack_str_init(&v);
p_idx = output->size;
rtn = 0;
if (!demangle_read_uqname(ddata))
goto clean;
if (!(subst_str = demangle_vector_str_substr(ddata, output, p_idx,
output->size - 1, &subst_str_len)))
goto clean;
if (subst_str_len > 8 && demangle_strstr(subst_str, "operator")) {
rtn = 1;
goto clean;
}
demangle_stack_str_append(ddata, &v, subst_str, subst_str_len);
if (!demangle_push_subst(ddata, v.str, v.len))
goto clean;
if (*ddata->cur == 'I') {
p_idx = output->size;
if (!demangle_read_tmpl_args(ddata))
goto clean;
if (!(subst_str = demangle_vector_str_substr(ddata, output,
p_idx, output->size - 1, &subst_str_len)))
goto clean;
demangle_stack_str_append(ddata, &v, subst_str, subst_str_len);
if (!demangle_push_subst(ddata, v.str, v.len))
goto clean;
}
rtn = 1;
clean:
demangle_free(ddata, subst_str);
return rtn;
}
static privileged int
demangle_read_name_flat(struct 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 (!demangle_read_name(ddata))
return 0;
if (!(name = demangle_vector_str_substr(ddata, output, p_idx,
output->size - 1, &name_len)))
return 0;
idx = output->size;
for (i = p_idx; i < idx; ++i)
if (!demangle_vector_str_pop(output))
return 0;
*str = name;
return 1;
}
static privileged int
demangle_read_pointer_to_member(struct 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->cur != 'M' || *(++ddata->cur) == '\0')
return 0;
p_idx = ddata->output.size;
if (!demangle_read_type(ddata, NULL))
return 0;
if (!(class_type = demangle_vector_str_substr(ddata, &ddata->output,
p_idx, ddata->output.size - 1, &class_type_len)))
return 0;
rtn = 0;
idx = ddata->output.size;
for (i = p_idx; i < idx; ++i)
if (!demangle_vector_str_pop(&ddata->output))
goto clean1;
if (!demangle_vector_read_cmd_push(ddata, &ddata->cmd, READ_PTRMEM, v))
goto clean1;
if (!demangle_vector_str_push(ddata, &ddata->class_type, class_type,
class_type_len))
goto clean2;
p_func_type = ddata->func_type;
if (!demangle_read_type(ddata, NULL))
goto clean3;
if (p_func_type == ddata->func_type) {
if (!DEM_PUSH_STR(ddata, " "))
goto clean3;
if (!demangle_push_str(ddata, class_type, class_type_len))
goto clean3;
if (!DEM_PUSH_STR(ddata, "::*"))
goto clean3;
}
rtn = 1;
clean3:
if (!demangle_vector_str_pop(&ddata->class_type))
rtn = 0;
clean2:
if (!demangle_vector_read_cmd_pop(&ddata->cmd))
rtn = 0;
clean1:
demangle_vector_type_qualifier_init(ddata, v);
return rtn;
}
/* read source-name, source-name is <len> <ID> */
static privileged int
demangle_read_sname(struct demangle_data *ddata)
{
long len;
int err;
if (!demangle_read_number(ddata, &len) || len <= 0)
return 0;
if (len == 12 && !demangle_memcmp("_GLOBAL__N_1", ddata->cur, 12))
err = DEM_PUSH_STR(ddata, "(anonymous namespace)");
else
err = demangle_push_str(ddata, ddata->cur, len);
if (!err)
return 0;
ASSERT(ddata->cur_output->size > 0);
if (!demangle_vector_read_cmd_find(&ddata->cmd, READ_TMPL))
ddata->last_sname = VEC_STR(ddata, ddata->cur_output,
ddata->cur_output->size - 1);
ddata->cur += len;
return 1;
}
static privileged int
demangle_read_subst_stdtmpl(struct demangle_data *ddata, const char *str)
{
struct vector_str *output;
size_t p_idx, substr_len, len;
char *subst_str, *substr;
if (!str)
return 0;
if (!(len = demangle_strlen(str)))
return 0;
output = ddata->cur_output;
p_idx = output->size;
substr = NULL;
subst_str = NULL;
if (!demangle_read_tmpl_args(ddata))
return 0;
if (!(substr = demangle_vector_str_substr(ddata, output, p_idx,
output->size - 1, &substr_len)))
return 0;
subst_str = (char *)demangle_malloc(ddata, alignof(char),
sizeof(char) * (substr_len + len + 1));
demangle_memcpy(subst_str, str, len);
demangle_memcpy(subst_str + len, substr, substr_len);
subst_str[substr_len + len] = '\0';
if (!demangle_push_subst(ddata, subst_str, substr_len + len))
return 0;
return 1;
}
static privileged int
demangle_read_subst_std(struct demangle_data *ddata)
{
struct vector_str *output, v;
size_t p_idx, subst_str_len;
char *subst_str;
demangle_vector_str_init(ddata, &v);
subst_str = NULL;
if (!DEM_PUSH_STR(ddata, "std::"))
return 0;
if (!VEC_PUSH_STR(&v, "std::"))
return 0;
ddata->cur += 2;
output = ddata->cur_output;
p_idx = output->size;
if (!demangle_read_uqname(ddata))
return 0;
if (!(subst_str = demangle_vector_str_substr(ddata, output, p_idx,
output->size - 1, &subst_str_len)))
return 0;
if (!demangle_vector_str_push(ddata, &v, subst_str, subst_str_len))
return 0;
if (!demangle_push_subst_v(ddata, &v))
return 0;
if (*ddata->cur == 'I') {
p_idx = output->size;
if (!demangle_read_tmpl_args(ddata))
return 0;
if (!(subst_str = demangle_vector_str_substr(ddata, output,
p_idx, output->size - 1, &subst_str_len)))
return 0;
if (!demangle_vector_str_push(ddata, &v, subst_str,
subst_str_len))
return 0;
if (!demangle_push_subst_v(ddata, &v))
return 0;
}
return 1;
}
static privileged int
demangle_read_subst(struct demangle_data *ddata)
{
long nth;
if (*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 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 demangle_read_subst_stdtmpl(ddata,
"std::basic_string");
return 1;
case SIMPLE_HASH('S', 'd'):
/* std::basic_iostream<char, std::char_traits<char>> */
if (!DEM_PUSH_STR(ddata,
"std::basic_iostream<char, "
"std::char_traits<char>>"))
return 0;
ddata->last_sname = "basic_iostream";
ddata->cur += 2;
if (*ddata->cur == 'I')
return demangle_read_subst_stdtmpl(ddata,
"std::basic_iostream<char, std::char_traits"
"<char>>");
return 1;
case SIMPLE_HASH('S', 'i'):
/* std::basic_istream<char, std::char_traits<char>> */
if (!DEM_PUSH_STR(ddata,
"std::basic_istream<char, "
"std::char_traits<char>>"))
return 0;
ddata->last_sname = "basic_istream";
ddata->cur += 2;
if (*ddata->cur == 'I')
return demangle_read_subst_stdtmpl(ddata,
"std::basic_istream<char, std::char_traits"
"<char>>");
return 1;
case SIMPLE_HASH('S', 'o'):
/* std::basic_ostream<char, std::char_traits<char>> */
if (!DEM_PUSH_STR(ddata,
"std::basic_ostream<char, "
"std::char_traits<char>>"))
return 0;
ddata->last_sname = "basic_ostream";
ddata->cur += 2;
if (*ddata->cur == 'I')
return demangle_read_subst_stdtmpl(ddata,
"std::basic_ostream<char, std::char_traits"
"<char>>");
return 1;
case SIMPLE_HASH('S', 's'):
/*
* std::string<char, std::char_traits<char>,
* std::allocator<char>>
*
* a.k.a std::string
*
* [jart] made it std::string for consistency with libcxxabi
*/
if (!DEM_PUSH_STR(ddata, "std::string"))
return 0;
ddata->last_sname = "string";
ddata->cur += 2;
if (*ddata->cur == 'I')
return demangle_read_subst_stdtmpl(ddata,
"std::string");
return 1;
case SIMPLE_HASH('S', 't'):
/* std:: */
return 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 demangle_get_subst(ddata, 0);
else {
/* substitution number is base 36 */
nth = demangle_strtol(ddata->cur, 36);
/* first was '_', so increase one */
++nth;
while (*ddata->cur != '_')
++ddata->cur;
ASSERT(nth > 0);
return demangle_get_subst(ddata, nth);
}
/* NOTREACHED */
return 0;
}
static privileged int
demangle_vector_type_qualifier_push(struct demangle_data *ddata,
struct vector_type_qualifier *v, enum type_qualifier t)
{
enum type_qualifier *tmp_ctn;
size_t tmp_cap;
size_t i;
if (!v)
return 0;
if (v->size == v->capacity) {
tmp_cap = BUFFER_GROW(v->capacity);
tmp_ctn = (enum type_qualifier *)demangle_malloc(ddata,
alignof(enum type_qualifier),
sizeof(enum type_qualifier) * tmp_cap);
for (i = 0; i < v->size; ++i)
tmp_ctn[i] = v->q_container[i];
demangle_free(ddata, v->q_container);
v->q_container = tmp_ctn;
v->capacity = tmp_cap;
}
v->q_container[v->size] = t;
++v->size;
return 1;
}
static privileged int
demangle_read_type(struct 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;
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);
/*
* [r, V, K] [P, R, O, C, G, U] builtin, function, class-enum, array
* pointer-to-member, template-param, template-template-param, subst
*/
demangle_vector_type_qualifier_init(ddata, &v);
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"))
return 0;
++ddata->cur;
goto rtn;
case 'A':
/* array type */
if (!demangle_read_array(ddata))
return 0;
is_builtin = 0;
goto rtn;
case 'b':
/* bool */
if (!DEM_PUSH_STR(ddata, "bool"))
return 0;
++ddata->cur;
goto rtn;
case 'C':
/* complex pair */
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_CMX))
return 0;
++ddata->cur;
if (td)
td->firstp = false;
goto again;
case 'c':
/* char */
if (!DEM_PUSH_STR(ddata, "char"))
return 0;
++ddata->cur;
goto rtn;
case 'd':
/* double */
if (!DEM_PUSH_STR(ddata, "double"))
return 0;
++ddata->cur;
goto rtn;
case 'D':
++ddata->cur;
switch (*ddata->cur) {
case 'a':
/* auto */
if (!DEM_PUSH_STR(ddata, "auto"))
return 0;
++ddata->cur;
break;
case 'c':
/* decltype(auto) */
if (!DEM_PUSH_STR(ddata, "decltype(auto)"))
return 0;
++ddata->cur;
break;
case 'd':
/* IEEE 754r decimal floating point (64 bits) */
if (!DEM_PUSH_STR(ddata, "decimal64"))
return 0;
++ddata->cur;
break;
case 'e':
/* IEEE 754r decimal floating point (128 bits) */
if (!DEM_PUSH_STR(ddata, "decimal128"))
return 0;
++ddata->cur;
break;
case 'f':
/* IEEE 754r decimal floating point (32 bits) */
if (!DEM_PUSH_STR(ddata, "decimal32"))
return 0;
++ddata->cur;
break;
case 'h':
/* IEEE 754r half-precision floating point (16 bits) */
if (!DEM_PUSH_STR(ddata, "half"))
return 0;
++ddata->cur;
break;
case 'i':
/* char32_t */
if (!DEM_PUSH_STR(ddata, "char32_t"))
return 0;
++ddata->cur;
break;
case 'n':
/* std::nullptr_t (i.e., decltype(nullptr)) */
if (!DEM_PUSH_STR(ddata, "decltype(nullptr)"))
return 0;
++ddata->cur;
break;
case 's':
/* char16_t */
if (!DEM_PUSH_STR(ddata, "char16_t"))
return 0;
++ddata->cur;
break;
case 'v':
/* gcc vector_size extension. */
++ddata->cur;
if (*ddata->cur == '_') {
++ddata->cur;
if (!demangle_read_expression_flat(ddata,
&exp_str))
return 0;
if (!VEC_PUSH_STR(&v.ext_name, exp_str))
return 0;
} else {
if (!demangle_read_number_as_string(ddata,
&num_str))
return 0;
if (!VEC_PUSH_STR(&v.ext_name, num_str))
return 0;
}
if (*ddata->cur != '_')
return 0;
++ddata->cur;
if (!demangle_vector_type_qualifier_push(ddata, &v,
TYPE_VEC))
return 0;
if (td)
td->firstp = false;
goto again;
default:
return 0;
}
goto rtn;
case 'e':
/* long double */
if (!DEM_PUSH_STR(ddata, "long double"))
return 0;
++ddata->cur;
goto rtn;
case 'E':
/* unexpected end (except some things) */
if (ddata->is_guard_variable)
td->paren = false;
if (ddata->is_guard_variable ||
(ddata->ref_qualifier && ddata->is_functype)) {
skip_ref_qualifier = true;
/* Pop the delimiter. */
demangle_pop_str(ddata);
goto rtn;
}
return 0;
case 'f':
/* float */
if (!DEM_PUSH_STR(ddata, "float"))
return 0;
++ddata->cur;
goto rtn;
case 'F':
/* function */
if (!demangle_read_function(ddata, &extern_c, &v))
return 0;
is_builtin = 0;
goto rtn;
case 'g':
/* __float128 */
if (!DEM_PUSH_STR(ddata, "__float128"))
return 0;
++ddata->cur;
goto rtn;
case 'G':
/* imaginary */
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_IMG))
return 0;
++ddata->cur;
if (td)
td->firstp = false;
goto again;
case 'h':
/* unsigned char */
if (!DEM_PUSH_STR(ddata, "unsigned char"))
return 0;
++ddata->cur;
goto rtn;
case 'i':
/* int */
if (!DEM_PUSH_STR(ddata, "int"))
return 0;
++ddata->cur;
goto rtn;
case 'I':
/* template args. */
/* handles <substitute><template-args> */
p_idx = output->size;
if (!demangle_read_tmpl_args(ddata))
goto clean;
if (!(subst_str = demangle_vector_str_substr(ddata, output,
p_idx, output->size - 1, &subst_str_len)))
goto clean;
demangle_vector_str_init(ddata, &sv);
if (!demangle_vector_str_push(ddata, &sv, subst_str,
subst_str_len)) {
demangle_free(ddata, subst_str);
demangle_vector_str_dest(ddata, &sv);
goto clean;
}
demangle_free(ddata, subst_str);
if (!demangle_push_subst_v(ddata, &sv)) {
demangle_vector_str_dest(ddata, &sv);
goto clean;
}
demangle_vector_str_dest(ddata, &sv);
goto rtn;
case 'j':
/* unsigned int */
if (!DEM_PUSH_STR(ddata, "unsigned int"))
return 0;
++ddata->cur;
goto rtn;
case 'K':
/* const */
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_CST))
return 0;
++ddata->cur;
if (td)
td->firstp = false;
goto again;
case 'l':
/* long */
if (!DEM_PUSH_STR(ddata, "long"))
return 0;
++ddata->cur;
goto rtn;
case 'm':
/* unsigned long */
if (!DEM_PUSH_STR(ddata, "unsigned long"))
return 0;
++ddata->cur;
goto rtn;
case 'M':
/* pointer to member */
if (!demangle_read_pointer_to_member(ddata, &v))
return 0;
is_builtin = 0;
goto rtn;
case 'n':
/* __int128 */
if (!DEM_PUSH_STR(ddata, "__int128"))
return 0;
++ddata->cur;
goto rtn;
case 'o':
/* unsigned __int128 */
if (!DEM_PUSH_STR(ddata, "unsigned __int128"))
return 0;
++ddata->cur;
goto rtn;
case 'O':
/* rvalue reference */
if (ddata->ref_qualifier)
return 0;
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_RREF))
return 0;
ddata->ref_qualifier = true;
ddata->ref_qualifier_type = TYPE_RREF;
++ddata->cur;
if (td)
td->firstp = false;
goto again;
case 'P':
/* pointer */
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_PTR))
return 0;
++ddata->cur;
if (td)
td->firstp = false;
goto again;
case 'r':
/* restrict */
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_RST))
return 0;
++ddata->cur;
if (td)
td->firstp = false;
goto again;
case 'R':
/* reference */
if (ddata->ref_qualifier)
return 0;
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_REF))
return 0;
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"))
return 0;
++ddata->cur;
goto rtn;
case 'S':
/* substitution */
if (!demangle_read_subst(ddata))
return 0;
is_builtin = 0;
goto rtn;
case 't':
/* unsigned short */
if (!DEM_PUSH_STR(ddata, "unsigned short"))
return 0;
++ddata->cur;
goto rtn;
case 'T':
/* template parameter */
if (!demangle_read_tmpl_param(ddata))
return 0;
is_builtin = 0;
goto rtn;
case 'u':
/* vendor extended builtin */
++ddata->cur;
if (!demangle_read_sname(ddata))
return 0;
is_builtin = 0;
goto rtn;
case 'U':
/* vendor extended type qualifier */
++ddata->cur;
if (!demangle_read_number(ddata, &len))
return 0;
if (len <= 0)
return 0;
if (!demangle_vector_str_push(ddata, &v.ext_name, ddata->cur,
len))
return 0;
ddata->cur += len;
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_EXT))
return 0;
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"))
return 0;
++ddata->cur;
goto rtn;
case 'V':
/* volatile */
if (!demangle_vector_type_qualifier_push(ddata, &v, TYPE_VAT))
return 0;
++ddata->cur;
if (td)
td->firstp = false;
goto again;
case 'w':
/* wchar_t */
if (!DEM_PUSH_STR(ddata, "wchar_t"))
return 0;
++ddata->cur;
goto rtn;
case 'x':
/* long long */
if (!DEM_PUSH_STR(ddata, "long long"))
return 0;
++ddata->cur;
goto rtn;
case 'y':
/* unsigned long long */
if (!DEM_PUSH_STR(ddata, "unsigned long long"))
return 0;
++ddata->cur;
goto rtn;
case 'z':
/* ellipsis */
if (!DEM_PUSH_STR(ddata, "..."))
return 0;
++ddata->cur;
goto rtn;
}
if (!demangle_read_name(ddata))
return 0;
is_builtin = 0;
rtn:
type_str = demangle_vector_str_substr(ddata, output, p_idx,
output->size - 1, &type_str_len);
if (is_builtin == 0) {
if (!demangle_vector_str_find(ddata, &ddata->subst, type_str,
type_str_len) &&
!demangle_vector_str_push(ddata, &ddata->subst, type_str,
type_str_len))
goto clean;
}
if (!skip_ref_qualifier &&
!demangle_push_type_qualifier(ddata, &v, type_str))
goto clean;
if (td)
td->firstp = false;
demangle_free(ddata, type_str);
demangle_free(ddata, exp_str);
demangle_free(ddata, num_str);
demangle_vector_type_qualifier_dest(ddata, &v);
return 1;
clean:
demangle_free(ddata, type_str);
demangle_free(ddata, exp_str);
demangle_free(ddata, num_str);
demangle_vector_type_qualifier_dest(ddata, &v);
return 0;
}
static privileged int
demangle_copy_output(struct demangle_data *ddata, char *buf,
const struct vector_str *v, size_t buflen)
{
size_t i, j, len = 0;
for (i = 0; i < v->size; ++i)
for (j = 0; VEC_STR(ddata, v, i)[j]; ++j) {
if (len < buflen)
buf[len] = VEC_STR(ddata, v, i)[j];
++len;
}
if (buflen) {
i = len;
if (i >= buflen)
i = buflen - 1;
buf[i] = 0;
}
if (len < buflen)
return len;
else
return -1;
}
static privileged int
demangle_failure(char *buf, const char *org, size_t buflen)
{
demangle_strlcpy(buf, org, buflen);
return -1;
}
static privileged int
demangle(struct demangle_data *ddata, char *buf, const char *org, size_t buflen)
{
struct vector_str ret_type;
struct type_delimit td;
size_t org_len;
unsigned int limit;
bool has_ret = false, more_type = false;
/* Use output buffer as heap memory. */
int max_align = sizeof(char *);
buflen = buflen > 0xfff0 ? 0xfff0 : buflen;
ddata->free = 0;
ddata->heap = ((uintptr_t)buf + max_align - 1) & -max_align;
ddata->hoff = (buflen & -max_align) - (ddata->heap - (uintptr_t)buf);
/* Try demangling as a type for short encodings. */
org_len = demangle_strlen(org);
if ((org_len < 2) || (org[0] != '_' || org[1] != 'Z')) {
demangle_data_init(ddata, org);
if (!demangle_read_type(ddata, 0))
return demangle_failure(buf, org, buflen);
return demangle_copy_output(ddata, buf, &ddata->output, buflen);
}
if (org_len > 11 && !demangle_strncmp(org, "_GLOBAL__I_", 11)) {
demangle_vector_str_init(ddata, &ret_type);
if (!VEC_PUSH_STR(&ret_type, "global constructors keyed to "))
return demangle_failure(buf, org, buflen);
if (!VEC_PUSH_STR(&ret_type, org + 11))
return demangle_failure(buf, org, buflen);
return demangle_copy_output(ddata, buf, &ddata->output, buflen);
}
demangle_data_init(ddata, org + 2);
if (!demangle_read_encoding(ddata))
return demangle_failure(buf, org, buflen);
/*
* Pop function name from substitution candidate list.
*/
if (*ddata->cur && ddata->subst.size >= 1) {
if (!demangle_vector_str_pop(&ddata->subst))
return demangle_failure(buf, org, buflen);
}
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;
demangle_vector_str_init(ddata, &ret_type);
ddata->cur_output = &ret_type;
has_ret = true;
}
while (*ddata->cur) {
/*
* GCC optimizations make symbols like foobu.constprop.1
*/
if (*ddata->cur == '.')
break;
/*
* 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 (!demangle_read_type(ddata, NULL))
return demangle_failure(buf, org, buflen);
} else {
/* Read function arg type */
if (!demangle_read_type(ddata, &td))
return demangle_failure(buf, org, buflen);
}
if (has_ret) {
/* Push return type to the beginning */
if (!VEC_PUSH_STR(&ret_type, " "))
return demangle_failure(buf, org, buflen);
if (!demangle_vector_str_push_vector_head(ddata,
&ddata->output, &ret_type))
return demangle_failure(buf, org, buflen);
ddata->cur_output = &ddata->output;
has_ret = false;
more_type = true;
} else if (more_type) {
more_type = false;
}
if (limit++ > DEMANGLE_TRY_LIMIT)
return demangle_failure(buf, org, buflen);
}
if (more_type)
return demangle_failure(buf, org, buflen);
if (!ddata->output.size)
return demangle_failure(buf, org, buflen);
if (td.paren && !VEC_PUSH_STR(&ddata->output, ")"))
return demangle_failure(buf, org, buflen);
if (ddata->mem_vat && !VEC_PUSH_STR(&ddata->output, " volatile"))
return demangle_failure(buf, org, buflen);
if (ddata->mem_cst && !VEC_PUSH_STR(&ddata->output, " const"))
return demangle_failure(buf, org, buflen);
if (ddata->mem_rst && !VEC_PUSH_STR(&ddata->output, " restrict"))
return demangle_failure(buf, org, buflen);
if (ddata->mem_ref && !VEC_PUSH_STR(&ddata->output, " &"))
return demangle_failure(buf, org, buflen);
if (ddata->mem_rref && !VEC_PUSH_STR(&ddata->output, " &&"))
return demangle_failure(buf, org, buflen);
if (ddata->hoff < 32)
return demangle_failure(buf, org, buflen);
return demangle_copy_output(ddata, buf, &ddata->output, ddata->hoff);
}
/**
* Decodes IA-64 C++ ABI style symbol.
*
* This function is designed to be safe to call from asynchronous signal
* handlers, since dynamic memory is allocated from the end of `buf`. As
* such it's important to provide a very generous amount of memory here.
*
* If you expect your symbols to be 100 characters long, you should pass
* at least 2000 bytes of buffer. If this function runs out of memory it
* will still create a NUL-terminated string in buf. On complete failure
* this will simply be the original string copied. On truncation it will
* be a partially copied result. In both cases, -1 is returned. The size
* of the output is only returned if this routine is fully succesful. To
* successfully cover nearly all the test cases from libcxxabi use 65536
* and to be able to print 99% of the symbols LLVM's libcxx.a, use 5632.
*
* It's important to call __is_mangled() before this, since some symbols
* have a special meaning; for example, "g" will return "__float128". It
* should be noted that this routine won't decode c++ symbols containing
* floating point numbers.
*
* **WARNING**: This implementation isn't as mature as __cxa_demangle().
* It passes 27,124 out of the 29,798 libcxxabi test cases.
*
* @param buf is where nul-terminated output string is stored
* @param buflen should have at least 8192 bytes of memory
* @return bytes of output name or -1 upon error or truncation
* @asyncsignalsafe
*/
privileged int
__demangle(char *buf, const char *org, size_t buflen)
{
struct demangle_data ddata[1];
if (!__builtin_setjmp(ddata->jmpbuf))
return demangle(ddata, buf, org, buflen);
return demangle_failure(buf, org, buflen);
}
/**
* Returns true if string is mangled by IA-64 C++ ABI style.
*
* This means it starts with either "_Z" or "_GLOBAL__I_".
*/
privileged int
__is_mangled(const char *org)
{
if (!org)
return false;
if (org[0] != '_')
return false;
if (org[1] == 'Z')
return true;
return !demangle_strncmp(org, "_GLOBAL__I_", 11);
}