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/* Manage address space lookup table for libdwfl.
Copyright (C) 2008, 2009, 2010, 2013, 2015 Red Hat, Inc.
This file is part of elfutils.
This file is free software; you can redistribute it and/or modify
it under the terms of either
* the GNU Lesser General Public License as published by the Free
Software Foundation; either version 3 of the License, or (at
your option) any later version
or
* the GNU General Public License as published by the Free
Software Foundation; either version 2 of the License, or (at
your option) any later version
or both in parallel, as here.
elfutils is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received copies of the GNU General Public License and
the GNU Lesser General Public License along with this program. If
not, see <http://www.gnu.org/licenses/>. */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include "libdwflP.h"
GElf_Addr
internal_function
__libdwfl_segment_start (Dwfl *dwfl, GElf_Addr start)
{
if (dwfl->segment_align > 1)
start &= -dwfl->segment_align;
return start;
}
GElf_Addr
internal_function
__libdwfl_segment_end (Dwfl *dwfl, GElf_Addr end)
{
if (dwfl->segment_align > 1)
end = (end + dwfl->segment_align - 1) & -dwfl->segment_align;
return end;
}
static bool
insert (Dwfl *dwfl, size_t i, GElf_Addr start, GElf_Addr end, int segndx)
{
bool need_start = (i == 0 || dwfl->lookup_addr[i - 1] != start);
bool need_end = (i + 1 >= dwfl->lookup_elts
|| dwfl->lookup_addr[i + 1] != end);
size_t need = need_start + need_end;
if (need == 0)
return false;
if (dwfl->lookup_alloc - dwfl->lookup_elts < need)
{
size_t n = dwfl->lookup_alloc == 0 ? 16 : dwfl->lookup_alloc * 2;
GElf_Addr *naddr = realloc (dwfl->lookup_addr, sizeof naddr[0] * n);
if (unlikely (naddr == NULL))
return true;
int *nsegndx = realloc (dwfl->lookup_segndx, sizeof nsegndx[0] * n);
if (unlikely (nsegndx == NULL))
{
if (naddr != dwfl->lookup_addr)
free (naddr);
return true;
}
dwfl->lookup_alloc = n;
dwfl->lookup_addr = naddr;
dwfl->lookup_segndx = nsegndx;
if (dwfl->lookup_module != NULL)
{
/* Make sure this array is big enough too. */
Dwfl_Module **old = dwfl->lookup_module;
dwfl->lookup_module = realloc (dwfl->lookup_module,
sizeof dwfl->lookup_module[0] * n);
if (unlikely (dwfl->lookup_module == NULL))
{
free (old);
return true;
}
}
}
if (unlikely (i < dwfl->lookup_elts))
{
const size_t move = dwfl->lookup_elts - i;
memmove (&dwfl->lookup_addr[i + need], &dwfl->lookup_addr[i],
move * sizeof dwfl->lookup_addr[0]);
memmove (&dwfl->lookup_segndx[i + need], &dwfl->lookup_segndx[i],
move * sizeof dwfl->lookup_segndx[0]);
if (dwfl->lookup_module != NULL)
memmove (&dwfl->lookup_module[i + need], &dwfl->lookup_module[i],
move * sizeof dwfl->lookup_module[0]);
}
if (need_start)
{
dwfl->lookup_addr[i] = start;
dwfl->lookup_segndx[i] = segndx;
if (dwfl->lookup_module != NULL)
dwfl->lookup_module[i] = NULL;
++i;
}
else
dwfl->lookup_segndx[i - 1] = segndx;
if (need_end)
{
dwfl->lookup_addr[i] = end;
dwfl->lookup_segndx[i] = -1;
if (dwfl->lookup_module != NULL)
dwfl->lookup_module[i] = NULL;
}
dwfl->lookup_elts += need;
return false;
}
static int
lookup (Dwfl *dwfl, GElf_Addr address, int hint)
{
if (hint >= 0
&& address >= dwfl->lookup_addr[hint]
&& ((size_t) hint + 1 == dwfl->lookup_elts
|| address < dwfl->lookup_addr[hint + 1]))
return hint;
/* Do binary search on the array indexed by module load address. */
size_t l = 0, u = dwfl->lookup_elts;
while (l < u)
{
size_t idx = (l + u) / 2;
if (address < dwfl->lookup_addr[idx])
u = idx;
else
{
l = idx + 1;
if (l == dwfl->lookup_elts || address < dwfl->lookup_addr[l])
return idx;
}
}
return -1;
}
static bool
reify_segments (Dwfl *dwfl)
{
int hint = -1;
int highest = -1;
bool fixup = false;
for (Dwfl_Module *mod = dwfl->modulelist; mod != NULL; mod = mod->next)
if (! mod->gc)
{
const GElf_Addr start = __libdwfl_segment_start (dwfl, mod->low_addr);
const GElf_Addr end = __libdwfl_segment_end (dwfl, mod->high_addr);
bool resized = false;
int idx = lookup (dwfl, start, hint);
if (unlikely (idx < 0))
{
/* Module starts below any segment. Insert a low one. */
if (unlikely (insert (dwfl, 0, start, end, -1)))
return true;
idx = 0;
resized = true;
}
else if (dwfl->lookup_addr[idx] > start)
{
/* The module starts in the middle of this segment. Split it. */
if (unlikely (insert (dwfl, idx + 1, start, end,
dwfl->lookup_segndx[idx])))
return true;
++idx;
resized = true;
}
else if (dwfl->lookup_addr[idx] < start)
{
/* The module starts past the end of this segment.
Add a new one. */
if (unlikely (insert (dwfl, idx + 1, start, end, -1)))
return true;
++idx;
resized = true;
}
if ((size_t) idx + 1 < dwfl->lookup_elts
&& end < dwfl->lookup_addr[idx + 1])
{
/* The module ends in the middle of this segment. Split it. */
if (unlikely (insert (dwfl, idx + 1,
end, dwfl->lookup_addr[idx + 1], -1)))
return true;
resized = true;
}
if (dwfl->lookup_module == NULL)
{
dwfl->lookup_module = calloc (dwfl->lookup_alloc,
sizeof dwfl->lookup_module[0]);
if (unlikely (dwfl->lookup_module == NULL))
return true;
}
/* Cache a backpointer in the module. */
mod->segment = idx;
/* Put MOD in the table for each segment that's inside it. */
do
dwfl->lookup_module[idx++] = mod;
while ((size_t) idx < dwfl->lookup_elts
&& dwfl->lookup_addr[idx] < end);
assert (dwfl->lookup_module[mod->segment] == mod);
if (resized && idx - 1 >= highest)
/* Expanding the lookup tables invalidated backpointers
we've already stored. Reset those ones. */
fixup = true;
highest = idx - 1;
hint = (size_t) idx < dwfl->lookup_elts ? idx : -1;
}
if (fixup)
/* Reset backpointer indices invalidated by table insertions. */
for (size_t idx = 0; idx < dwfl->lookup_elts; ++idx)
if (dwfl->lookup_module[idx] != NULL)
dwfl->lookup_module[idx]->segment = idx;
return false;
}
int
dwfl_addrsegment (Dwfl *dwfl, Dwarf_Addr address, Dwfl_Module **mod)
{
if (unlikely (dwfl == NULL))
return -1;
if (unlikely (dwfl->lookup_module == NULL)
&& mod != NULL
&& unlikely (reify_segments (dwfl)))
{
__libdwfl_seterrno (DWFL_E_NOMEM);
return -1;
}
int idx = lookup (dwfl, address, -1);
if (likely (mod != NULL))
{
if (unlikely (idx < 0) || unlikely (dwfl->lookup_module == NULL))
*mod = NULL;
else
{
*mod = dwfl->lookup_module[idx];
/* If this segment does not have a module, but the address is
the upper boundary of the previous segment's module, use that. */
if (*mod == NULL && idx > 0 && dwfl->lookup_addr[idx] == address)
{
*mod = dwfl->lookup_module[idx - 1];
if (*mod != NULL && (*mod)->high_addr != address)
*mod = NULL;
}
}
}
if (likely (idx >= 0))
/* Translate internal segment table index to user segment index. */
idx = dwfl->lookup_segndx[idx];
return idx;
}
INTDEF (dwfl_addrsegment)
int
dwfl_report_segment (Dwfl *dwfl, int ndx, const GElf_Phdr *phdr, GElf_Addr bias,
const void *ident)
{
if (dwfl == NULL)
return -1;
if (ndx < 0)
ndx = dwfl->lookup_tail_ndx;
if (phdr->p_align > 1 && (dwfl->segment_align <= 1 ||
phdr->p_align < dwfl->segment_align))
dwfl->segment_align = phdr->p_align;
if (unlikely (dwfl->lookup_module != NULL))
{
free (dwfl->lookup_module);
dwfl->lookup_module = NULL;
}
GElf_Addr start = __libdwfl_segment_start (dwfl, bias + phdr->p_vaddr);
GElf_Addr end = __libdwfl_segment_end (dwfl,
bias + phdr->p_vaddr + phdr->p_memsz);
/* Coalesce into the last one if contiguous and matching. */
if (ndx != dwfl->lookup_tail_ndx
|| ident == NULL
|| ident != dwfl->lookup_tail_ident
|| start != dwfl->lookup_tail_vaddr
|| phdr->p_offset != dwfl->lookup_tail_offset)
{
/* Normally just appending keeps us sorted. */
size_t i = dwfl->lookup_elts;
while (i > 0 && unlikely (start < dwfl->lookup_addr[i - 1]))
--i;
if (unlikely (insert (dwfl, i, start, end, ndx)))
{
__libdwfl_seterrno (DWFL_E_NOMEM);
return -1;
}
}
dwfl->lookup_tail_ident = ident;
dwfl->lookup_tail_vaddr = end;
dwfl->lookup_tail_offset = end - bias - phdr->p_vaddr + phdr->p_offset;
dwfl->lookup_tail_ndx = ndx + 1;
return ndx;
}
INTDEF (dwfl_report_segment)
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