freebsd-dev/contrib/elftoolchain/libdwarf/libdwarf_frame.c
Mark Johnston ab3b51df28 libdwarf: Fix a memory leak in _dwarf_frame_section_init().
If frame length validation failed we would leak memory.

CID:		1193366
MFC after:	1 week
Sponsored by:	The FreeBSD Foundation
2020-02-04 21:15:29 +00:00

1609 lines
39 KiB
C

/*-
* Copyright (c) 2009-2011,2014 Kai Wang
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 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 AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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 "_libdwarf.h"
ELFTC_VCSID("$Id: libdwarf_frame.c 3589 2018-03-13 20:34:33Z kaiwang27 $");
static int
_dwarf_frame_find_cie(Dwarf_FrameSec fs, Dwarf_Unsigned offset,
Dwarf_Cie *ret_cie)
{
Dwarf_Cie cie;
STAILQ_FOREACH(cie, &fs->fs_cielist, cie_next) {
if (cie->cie_offset == offset)
break;
}
if (cie == NULL)
return (DW_DLE_NO_ENTRY);
if (ret_cie != NULL)
*ret_cie = cie;
return (DW_DLE_NONE);
}
static int
_dwarf_frame_read_lsb_encoded(Dwarf_Debug dbg, Dwarf_Cie cie, uint64_t *val,
uint8_t *data, uint64_t *offsetp, uint8_t encode, Dwarf_Addr pc,
Dwarf_Error *error)
{
uint8_t application;
if (encode == DW_EH_PE_omit)
return (DW_DLE_NONE);
application = encode & 0xf0;
encode &= 0x0f;
switch (encode) {
case DW_EH_PE_absptr:
*val = dbg->read(data, offsetp, cie->cie_addrsize);
break;
case DW_EH_PE_uleb128:
*val = _dwarf_read_uleb128(data, offsetp);
break;
case DW_EH_PE_udata2:
*val = dbg->read(data, offsetp, 2);
break;
case DW_EH_PE_udata4:
*val = dbg->read(data, offsetp, 4);
break;
case DW_EH_PE_udata8:
*val = dbg->read(data, offsetp, 8);
break;
case DW_EH_PE_sleb128:
*val = _dwarf_read_sleb128(data, offsetp);
break;
case DW_EH_PE_sdata2:
*val = (int16_t) dbg->read(data, offsetp, 2);
break;
case DW_EH_PE_sdata4:
*val = (int32_t) dbg->read(data, offsetp, 4);
break;
case DW_EH_PE_sdata8:
*val = dbg->read(data, offsetp, 8);
break;
default:
DWARF_SET_ERROR(dbg, error, DW_DLE_FRAME_AUGMENTATION_UNKNOWN);
return (DW_DLE_FRAME_AUGMENTATION_UNKNOWN);
}
if (application == DW_EH_PE_pcrel) {
/*
* Value is relative to .eh_frame section virtual addr.
*/
switch (encode) {
case DW_EH_PE_uleb128:
case DW_EH_PE_udata2:
case DW_EH_PE_udata4:
case DW_EH_PE_udata8:
*val += pc;
break;
case DW_EH_PE_sleb128:
case DW_EH_PE_sdata2:
case DW_EH_PE_sdata4:
case DW_EH_PE_sdata8:
*val = pc + (int64_t) *val;
break;
default:
/* DW_EH_PE_absptr is absolute value. */
break;
}
}
/* XXX Applications other than DW_EH_PE_pcrel are not handled. */
return (DW_DLE_NONE);
}
static int
_dwarf_frame_parse_lsb_cie_augment(Dwarf_Debug dbg, Dwarf_Cie cie,
Dwarf_Error *error)
{
uint8_t *aug_p, *augdata_p;
uint64_t val, offset;
uint8_t encode;
int ret;
assert(cie->cie_augment != NULL && *cie->cie_augment == 'z');
/*
* Here we're only interested in the presence of augment 'R'
* and associated CIE augment data, which describes the
* encoding scheme of FDE PC begin and range.
*/
aug_p = &cie->cie_augment[1];
augdata_p = cie->cie_augdata;
while (*aug_p != '\0') {
switch (*aug_p) {
case 'S':
break;
case 'L':
/* Skip one augment in augment data. */
augdata_p++;
break;
case 'P':
/* Skip two augments in augment data. */
encode = *augdata_p++;
offset = 0;
ret = _dwarf_frame_read_lsb_encoded(dbg, cie, &val,
augdata_p, &offset, encode, 0, error);
if (ret != DW_DLE_NONE)
return (ret);
augdata_p += offset;
break;
case 'R':
cie->cie_fde_encode = *augdata_p++;
break;
default:
DWARF_SET_ERROR(dbg, error,
DW_DLE_FRAME_AUGMENTATION_UNKNOWN);
return (DW_DLE_FRAME_AUGMENTATION_UNKNOWN);
}
aug_p++;
}
return (DW_DLE_NONE);
}
static int
_dwarf_frame_add_cie(Dwarf_Debug dbg, Dwarf_FrameSec fs, Dwarf_Section *ds,
Dwarf_Unsigned *off, Dwarf_Cie *ret_cie, Dwarf_Error *error)
{
Dwarf_Cie cie;
uint64_t length;
int dwarf_size, ret;
char *p;
/* Check if we already added this CIE. */
if (_dwarf_frame_find_cie(fs, *off, &cie) != DW_DLE_NO_ENTRY) {
*off += cie->cie_length + 4;
return (DW_DLE_NONE);
}
if ((cie = calloc(1, sizeof(struct _Dwarf_Cie))) == NULL) {
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
STAILQ_INSERT_TAIL(&fs->fs_cielist, cie, cie_next);
cie->cie_dbg = dbg;
cie->cie_index = fs->fs_cielen;
cie->cie_offset = *off;
length = dbg->read(ds->ds_data, off, 4);
if (length == 0xffffffff) {
dwarf_size = 8;
length = dbg->read(ds->ds_data, off, 8);
} else
dwarf_size = 4;
if (length > ds->ds_size - *off) {
DWARF_SET_ERROR(dbg, error, DW_DLE_DEBUG_FRAME_LENGTH_BAD);
return (DW_DLE_DEBUG_FRAME_LENGTH_BAD);
}
(void) dbg->read(ds->ds_data, off, dwarf_size); /* Skip CIE id. */
cie->cie_length = length;
cie->cie_version = dbg->read(ds->ds_data, off, 1);
if (cie->cie_version != 1 && cie->cie_version != 3 &&
cie->cie_version != 4) {
DWARF_SET_ERROR(dbg, error, DW_DLE_FRAME_VERSION_BAD);
return (DW_DLE_FRAME_VERSION_BAD);
}
cie->cie_augment = ds->ds_data + *off;
p = (char *) ds->ds_data;
while (p[(*off)++] != '\0')
;
/* We only recognize normal .dwarf_frame and GNU .eh_frame sections. */
if (*cie->cie_augment != 0 && *cie->cie_augment != 'z') {
*off = cie->cie_offset + ((dwarf_size == 4) ? 4 : 12) +
cie->cie_length;
return (DW_DLE_NONE);
}
/* Optional EH Data field for .eh_frame section. */
if (strstr((char *)cie->cie_augment, "eh") != NULL)
cie->cie_ehdata = dbg->read(ds->ds_data, off,
dbg->dbg_pointer_size);
/* DWARF4 added "address_size" and "segment_size". */
if (cie->cie_version == 4) {
cie->cie_addrsize = dbg->read(ds->ds_data, off, 1);
cie->cie_segmentsize = dbg->read(ds->ds_data, off, 1);
} else {
/*
* Otherwise (DWARF[23]) we just set CIE addrsize to the
* debug context pointer size.
*/
cie->cie_addrsize = dbg->dbg_pointer_size;
}
cie->cie_caf = _dwarf_read_uleb128(ds->ds_data, off);
cie->cie_daf = _dwarf_read_sleb128(ds->ds_data, off);
/* Return address register. */
if (cie->cie_version == 1)
cie->cie_ra = dbg->read(ds->ds_data, off, 1);
else
cie->cie_ra = _dwarf_read_uleb128(ds->ds_data, off);
/* Optional CIE augmentation data for .eh_frame section. */
if (*cie->cie_augment == 'z') {
cie->cie_auglen = _dwarf_read_uleb128(ds->ds_data, off);
cie->cie_augdata = ds->ds_data + *off;
*off += cie->cie_auglen;
/*
* XXX Use DW_EH_PE_absptr for default FDE PC start/range,
* in case _dwarf_frame_parse_lsb_cie_augment fails to
* find out the real encode.
*/
cie->cie_fde_encode = DW_EH_PE_absptr;
ret = _dwarf_frame_parse_lsb_cie_augment(dbg, cie, error);
if (ret != DW_DLE_NONE)
return (ret);
}
/* CIE Initial instructions. */
cie->cie_initinst = ds->ds_data + *off;
if (dwarf_size == 4)
cie->cie_instlen = cie->cie_offset + 4 + length - *off;
else
cie->cie_instlen = cie->cie_offset + 12 + length - *off;
*off += cie->cie_instlen;
#ifdef FRAME_DEBUG
printf("cie:\n");
printf("\tcie_version=%u cie_offset=%ju cie_length=%ju cie_augment=%s"
" cie_instlen=%ju cie->cie_caf=%ju cie->cie_daf=%jd off=%ju\n",
cie->cie_version, cie->cie_offset, cie->cie_length,
(char *)cie->cie_augment, cie->cie_instlen, cie->cie_caf,
cie->cie_daf, *off);
#endif
if (ret_cie != NULL)
*ret_cie = cie;
fs->fs_cielen++;
return (DW_DLE_NONE);
}
static int
_dwarf_frame_add_fde(Dwarf_Debug dbg, Dwarf_FrameSec fs, Dwarf_Section *ds,
Dwarf_Unsigned *off, int eh_frame, Dwarf_Error *error)
{
Dwarf_Cie cie;
Dwarf_Fde fde;
Dwarf_Unsigned cieoff;
uint64_t length, val;
int dwarf_size, ret;
if ((fde = calloc(1, sizeof(struct _Dwarf_Fde))) == NULL) {
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
STAILQ_INSERT_TAIL(&fs->fs_fdelist, fde, fde_next);
fde->fde_dbg = dbg;
fde->fde_fs = fs;
fde->fde_addr = ds->ds_data + *off;
fde->fde_offset = *off;
length = dbg->read(ds->ds_data, off, 4);
if (length == 0xffffffff) {
dwarf_size = 8;
length = dbg->read(ds->ds_data, off, 8);
} else
dwarf_size = 4;
if (length > ds->ds_size - *off) {
DWARF_SET_ERROR(dbg, error, DW_DLE_DEBUG_FRAME_LENGTH_BAD);
return (DW_DLE_DEBUG_FRAME_LENGTH_BAD);
}
fde->fde_length = length;
if (eh_frame) {
fde->fde_cieoff = dbg->read(ds->ds_data, off, 4);
cieoff = *off - (4 + fde->fde_cieoff);
/* This delta should never be 0. */
if (cieoff == fde->fde_offset) {
DWARF_SET_ERROR(dbg, error, DW_DLE_NO_CIE_FOR_FDE);
return (DW_DLE_NO_CIE_FOR_FDE);
}
} else {
fde->fde_cieoff = dbg->read(ds->ds_data, off, dwarf_size);
cieoff = fde->fde_cieoff;
}
if (_dwarf_frame_find_cie(fs, cieoff, &cie) ==
DW_DLE_NO_ENTRY) {
ret = _dwarf_frame_add_cie(dbg, fs, ds, &cieoff, &cie,
error);
if (ret != DW_DLE_NONE)
return (ret);
}
fde->fde_cie = cie;
if (eh_frame) {
/*
* The FDE PC start/range for .eh_frame is encoded according
* to the LSB spec's extension to DWARF2.
*/
ret = _dwarf_frame_read_lsb_encoded(dbg, cie, &val,
ds->ds_data, off, cie->cie_fde_encode, ds->ds_addr + *off,
error);
if (ret != DW_DLE_NONE)
return (ret);
fde->fde_initloc = val;
/*
* FDE PC range should not be relative value to anything.
* So pass 0 for pc value.
*/
ret = _dwarf_frame_read_lsb_encoded(dbg, cie, &val,
ds->ds_data, off, cie->cie_fde_encode, 0, error);
if (ret != DW_DLE_NONE)
return (ret);
fde->fde_adrange = val;
} else {
fde->fde_initloc = dbg->read(ds->ds_data, off,
cie->cie_addrsize);
fde->fde_adrange = dbg->read(ds->ds_data, off,
cie->cie_addrsize);
}
/* Optional FDE augmentation data for .eh_frame section. (ignored) */
if (eh_frame && *cie->cie_augment == 'z') {
fde->fde_auglen = _dwarf_read_uleb128(ds->ds_data, off);
fde->fde_augdata = ds->ds_data + *off;
*off += fde->fde_auglen;
}
fde->fde_inst = ds->ds_data + *off;
if (dwarf_size == 4)
fde->fde_instlen = fde->fde_offset + 4 + length - *off;
else
fde->fde_instlen = fde->fde_offset + 12 + length - *off;
*off += fde->fde_instlen;
#ifdef FRAME_DEBUG
printf("fde:");
if (eh_frame)
printf("(eh_frame)");
putchar('\n');
printf("\tfde_offset=%ju fde_length=%ju fde_cieoff=%ju"
" fde_instlen=%ju off=%ju\n", fde->fde_offset, fde->fde_length,
fde->fde_cieoff, fde->fde_instlen, *off);
#endif
fs->fs_fdelen++;
return (DW_DLE_NONE);
}
static void
_dwarf_frame_section_cleanup(Dwarf_FrameSec fs)
{
Dwarf_Cie cie, tcie;
Dwarf_Fde fde, tfde;
STAILQ_FOREACH_SAFE(cie, &fs->fs_cielist, cie_next, tcie) {
STAILQ_REMOVE(&fs->fs_cielist, cie, _Dwarf_Cie, cie_next);
free(cie);
}
STAILQ_FOREACH_SAFE(fde, &fs->fs_fdelist, fde_next, tfde) {
STAILQ_REMOVE(&fs->fs_fdelist, fde, _Dwarf_Fde, fde_next);
free(fde);
}
if (fs->fs_ciearray != NULL)
free(fs->fs_ciearray);
if (fs->fs_fdearray != NULL)
free(fs->fs_fdearray);
free(fs);
}
static int
_dwarf_frame_section_init(Dwarf_Debug dbg, Dwarf_FrameSec *frame_sec,
Dwarf_Section *ds, int eh_frame, Dwarf_Error *error)
{
Dwarf_FrameSec fs;
Dwarf_Cie cie;
Dwarf_Fde fde;
uint64_t length, offset, cie_id, entry_off;
int dwarf_size, i, ret;
assert(frame_sec != NULL);
assert(*frame_sec == NULL);
if ((fs = calloc(1, sizeof(struct _Dwarf_FrameSec))) == NULL) {
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
STAILQ_INIT(&fs->fs_cielist);
STAILQ_INIT(&fs->fs_fdelist);
offset = 0;
while (offset < ds->ds_size) {
entry_off = offset;
length = dbg->read(ds->ds_data, &offset, 4);
if (length == 0xffffffff) {
dwarf_size = 8;
length = dbg->read(ds->ds_data, &offset, 8);
} else
dwarf_size = 4;
if (length > ds->ds_size - offset ||
(length == 0 && !eh_frame)) {
ret = DW_DLE_DEBUG_FRAME_LENGTH_BAD;
DWARF_SET_ERROR(dbg, error, ret);
goto fail_cleanup;
}
/* Check terminator for .eh_frame */
if (eh_frame && length == 0)
break;
cie_id = dbg->read(ds->ds_data, &offset, dwarf_size);
if (eh_frame) {
/* GNU .eh_frame use CIE id 0. */
if (cie_id == 0)
ret = _dwarf_frame_add_cie(dbg, fs, ds,
&entry_off, NULL, error);
else
ret = _dwarf_frame_add_fde(dbg, fs, ds,
&entry_off, 1, error);
} else {
/* .dwarf_frame use CIE id ~0 */
if ((dwarf_size == 4 && cie_id == ~0U) ||
(dwarf_size == 8 && cie_id == ~0ULL))
ret = _dwarf_frame_add_cie(dbg, fs, ds,
&entry_off, NULL, error);
else
ret = _dwarf_frame_add_fde(dbg, fs, ds,
&entry_off, 0, error);
}
if (ret != DW_DLE_NONE)
goto fail_cleanup;
offset = entry_off;
}
/* Create CIE array. */
if (fs->fs_cielen > 0) {
if ((fs->fs_ciearray = malloc(sizeof(Dwarf_Cie) *
fs->fs_cielen)) == NULL) {
ret = DW_DLE_MEMORY;
DWARF_SET_ERROR(dbg, error, ret);
goto fail_cleanup;
}
i = 0;
STAILQ_FOREACH(cie, &fs->fs_cielist, cie_next) {
fs->fs_ciearray[i++] = cie;
}
assert((Dwarf_Unsigned)i == fs->fs_cielen);
}
/* Create FDE array. */
if (fs->fs_fdelen > 0) {
if ((fs->fs_fdearray = malloc(sizeof(Dwarf_Fde) *
fs->fs_fdelen)) == NULL) {
ret = DW_DLE_MEMORY;
DWARF_SET_ERROR(dbg, error, ret);
goto fail_cleanup;
}
i = 0;
STAILQ_FOREACH(fde, &fs->fs_fdelist, fde_next) {
fs->fs_fdearray[i++] = fde;
}
assert((Dwarf_Unsigned)i == fs->fs_fdelen);
}
*frame_sec = fs;
return (DW_DLE_NONE);
fail_cleanup:
_dwarf_frame_section_cleanup(fs);
return (ret);
}
static int
_dwarf_frame_run_inst(Dwarf_Debug dbg, Dwarf_Regtable3 *rt, uint8_t addr_size,
uint8_t *insts, Dwarf_Unsigned len, Dwarf_Unsigned caf, Dwarf_Signed daf,
Dwarf_Addr pc, Dwarf_Addr pc_req, Dwarf_Addr *row_pc, Dwarf_Error *error)
{
Dwarf_Regtable3 *init_rt, *saved_rt;
uint8_t *p, *pe;
uint8_t high2, low6;
uint64_t reg, reg2, uoff, soff;
int ret;
#define CFA rt->rt3_cfa_rule
#define INITCFA init_rt->rt3_cfa_rule
#define RL rt->rt3_rules
#define INITRL init_rt->rt3_rules
#define CHECK_TABLE_SIZE(x) \
do { \
if ((x) >= rt->rt3_reg_table_size) { \
DWARF_SET_ERROR(dbg, error, \
DW_DLE_DF_REG_NUM_TOO_HIGH); \
ret = DW_DLE_DF_REG_NUM_TOO_HIGH; \
goto program_done; \
} \
} while(0)
#ifdef FRAME_DEBUG
printf("frame_run_inst: (caf=%ju, daf=%jd)\n", caf, daf);
#endif
ret = DW_DLE_NONE;
init_rt = saved_rt = NULL;
*row_pc = pc;
/* Save a copy of the table as initial state. */
_dwarf_frame_regtable_copy(dbg, &init_rt, rt, error);
p = insts;
pe = p + len;
while (p < pe) {
#ifdef FRAME_DEBUG
printf("p=%p pe=%p pc=%#jx pc_req=%#jx\n", p, pe, pc, pc_req);
#endif
if (*p == DW_CFA_nop) {
#ifdef FRAME_DEBUG
printf("DW_CFA_nop\n");
#endif
p++;
continue;
}
high2 = *p & 0xc0;
low6 = *p & 0x3f;
p++;
if (high2 > 0) {
switch (high2) {
case DW_CFA_advance_loc:
pc += low6 * caf;
#ifdef FRAME_DEBUG
printf("DW_CFA_advance_loc(%#jx(%u))\n", pc,
low6);
#endif
if (pc_req < pc)
goto program_done;
break;
case DW_CFA_offset:
*row_pc = pc;
CHECK_TABLE_SIZE(low6);
RL[low6].dw_offset_relevant = 1;
RL[low6].dw_value_type = DW_EXPR_OFFSET;
RL[low6].dw_regnum = dbg->dbg_frame_cfa_value;
RL[low6].dw_offset_or_block_len =
_dwarf_decode_uleb128(&p) * daf;
#ifdef FRAME_DEBUG
printf("DW_CFA_offset(%jd)\n",
RL[low6].dw_offset_or_block_len);
#endif
break;
case DW_CFA_restore:
*row_pc = pc;
CHECK_TABLE_SIZE(low6);
memcpy(&RL[low6], &INITRL[low6],
sizeof(Dwarf_Regtable_Entry3));
#ifdef FRAME_DEBUG
printf("DW_CFA_restore(%u)\n", low6);
#endif
break;
default:
DWARF_SET_ERROR(dbg, error,
DW_DLE_FRAME_INSTR_EXEC_ERROR);
ret = DW_DLE_FRAME_INSTR_EXEC_ERROR;
goto program_done;
}
continue;
}
switch (low6) {
case DW_CFA_set_loc:
pc = dbg->decode(&p, addr_size);
#ifdef FRAME_DEBUG
printf("DW_CFA_set_loc(pc=%#jx)\n", pc);
#endif
if (pc_req < pc)
goto program_done;
break;
case DW_CFA_advance_loc1:
pc += dbg->decode(&p, 1) * caf;
#ifdef FRAME_DEBUG
printf("DW_CFA_set_loc1(pc=%#jx)\n", pc);
#endif
if (pc_req < pc)
goto program_done;
break;
case DW_CFA_advance_loc2:
pc += dbg->decode(&p, 2) * caf;
#ifdef FRAME_DEBUG
printf("DW_CFA_set_loc2(pc=%#jx)\n", pc);
#endif
if (pc_req < pc)
goto program_done;
break;
case DW_CFA_advance_loc4:
pc += dbg->decode(&p, 4) * caf;
#ifdef FRAME_DEBUG
printf("DW_CFA_set_loc4(pc=%#jx)\n", pc);
#endif
if (pc_req < pc)
goto program_done;
break;
case DW_CFA_offset_extended:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
uoff = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 1;
RL[reg].dw_value_type = DW_EXPR_OFFSET;
RL[reg].dw_regnum = dbg->dbg_frame_cfa_value;
RL[reg].dw_offset_or_block_len = uoff * daf;
#ifdef FRAME_DEBUG
printf("DW_CFA_offset_extended(reg=%ju,uoff=%ju)\n",
reg, uoff);
#endif
break;
case DW_CFA_restore_extended:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
memcpy(&RL[reg], &INITRL[reg],
sizeof(Dwarf_Regtable_Entry3));
#ifdef FRAME_DEBUG
printf("DW_CFA_restore_extended(%ju)\n", reg);
#endif
break;
case DW_CFA_undefined:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 0;
RL[reg].dw_regnum = dbg->dbg_frame_undefined_value;
#ifdef FRAME_DEBUG
printf("DW_CFA_undefined(%ju)\n", reg);
#endif
break;
case DW_CFA_same_value:
reg = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 0;
RL[reg].dw_regnum = dbg->dbg_frame_same_value;
#ifdef FRAME_DEBUG
printf("DW_CFA_same_value(%ju)\n", reg);
#endif
break;
case DW_CFA_register:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
reg2 = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 0;
RL[reg].dw_regnum = reg2;
#ifdef FRAME_DEBUG
printf("DW_CFA_register(reg=%ju,reg2=%ju)\n", reg,
reg2);
#endif
break;
case DW_CFA_remember_state:
_dwarf_frame_regtable_copy(dbg, &saved_rt, rt, error);
#ifdef FRAME_DEBUG
printf("DW_CFA_remember_state\n");
#endif
break;
case DW_CFA_restore_state:
*row_pc = pc;
_dwarf_frame_regtable_copy(dbg, &rt, saved_rt, error);
#ifdef FRAME_DEBUG
printf("DW_CFA_restore_state\n");
#endif
break;
case DW_CFA_def_cfa:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
uoff = _dwarf_decode_uleb128(&p);
CFA.dw_offset_relevant = 1;
CFA.dw_value_type = DW_EXPR_OFFSET;
CFA.dw_regnum = reg;
CFA.dw_offset_or_block_len = uoff;
#ifdef FRAME_DEBUG
printf("DW_CFA_def_cfa(reg=%ju,uoff=%ju)\n", reg, uoff);
#endif
break;
case DW_CFA_def_cfa_register:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
CFA.dw_regnum = reg;
/*
* Note that DW_CFA_def_cfa_register change the CFA
* rule register while keep the old offset. So we
* should not touch the CFA.dw_offset_relevant flag
* here.
*/
#ifdef FRAME_DEBUG
printf("DW_CFA_def_cfa_register(%ju)\n", reg);
#endif
break;
case DW_CFA_def_cfa_offset:
*row_pc = pc;
uoff = _dwarf_decode_uleb128(&p);
CFA.dw_offset_relevant = 1;
CFA.dw_value_type = DW_EXPR_OFFSET;
CFA.dw_offset_or_block_len = uoff;
#ifdef FRAME_DEBUG
printf("DW_CFA_def_cfa_offset(%ju)\n", uoff);
#endif
break;
case DW_CFA_def_cfa_expression:
*row_pc = pc;
CFA.dw_offset_relevant = 0;
CFA.dw_value_type = DW_EXPR_EXPRESSION;
CFA.dw_offset_or_block_len = _dwarf_decode_uleb128(&p);
CFA.dw_block_ptr = p;
p += CFA.dw_offset_or_block_len;
#ifdef FRAME_DEBUG
printf("DW_CFA_def_cfa_expression\n");
#endif
break;
case DW_CFA_expression:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 0;
RL[reg].dw_value_type = DW_EXPR_EXPRESSION;
RL[reg].dw_offset_or_block_len =
_dwarf_decode_uleb128(&p);
RL[reg].dw_block_ptr = p;
p += RL[reg].dw_offset_or_block_len;
#ifdef FRAME_DEBUG
printf("DW_CFA_expression\n");
#endif
break;
case DW_CFA_offset_extended_sf:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
soff = _dwarf_decode_sleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 1;
RL[reg].dw_value_type = DW_EXPR_OFFSET;
RL[reg].dw_regnum = dbg->dbg_frame_cfa_value;
RL[reg].dw_offset_or_block_len = soff * daf;
#ifdef FRAME_DEBUG
printf("DW_CFA_offset_extended_sf(reg=%ju,soff=%jd)\n",
reg, soff);
#endif
break;
case DW_CFA_def_cfa_sf:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
soff = _dwarf_decode_sleb128(&p);
CFA.dw_offset_relevant = 1;
CFA.dw_value_type = DW_EXPR_OFFSET;
CFA.dw_regnum = reg;
CFA.dw_offset_or_block_len = soff * daf;
#ifdef FRAME_DEBUG
printf("DW_CFA_def_cfa_sf(reg=%ju,soff=%jd)\n", reg,
soff);
#endif
break;
case DW_CFA_def_cfa_offset_sf:
*row_pc = pc;
soff = _dwarf_decode_sleb128(&p);
CFA.dw_offset_relevant = 1;
CFA.dw_value_type = DW_EXPR_OFFSET;
CFA.dw_offset_or_block_len = soff * daf;
#ifdef FRAME_DEBUG
printf("DW_CFA_def_cfa_offset_sf(soff=%jd)\n", soff);
#endif
break;
case DW_CFA_val_offset:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
uoff = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 1;
RL[reg].dw_value_type = DW_EXPR_VAL_OFFSET;
RL[reg].dw_regnum = dbg->dbg_frame_cfa_value;
RL[reg].dw_offset_or_block_len = uoff * daf;
#ifdef FRAME_DEBUG
printf("DW_CFA_val_offset(reg=%ju,uoff=%ju)\n", reg,
uoff);
#endif
break;
case DW_CFA_val_offset_sf:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
soff = _dwarf_decode_sleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 1;
RL[reg].dw_value_type = DW_EXPR_VAL_OFFSET;
RL[reg].dw_regnum = dbg->dbg_frame_cfa_value;
RL[reg].dw_offset_or_block_len = soff * daf;
#ifdef FRAME_DEBUG
printf("DW_CFA_val_offset_sf(reg=%ju,soff=%jd)\n", reg,
soff);
#endif
break;
case DW_CFA_val_expression:
*row_pc = pc;
reg = _dwarf_decode_uleb128(&p);
CHECK_TABLE_SIZE(reg);
RL[reg].dw_offset_relevant = 0;
RL[reg].dw_value_type = DW_EXPR_VAL_EXPRESSION;
RL[reg].dw_offset_or_block_len =
_dwarf_decode_uleb128(&p);
RL[reg].dw_block_ptr = p;
p += RL[reg].dw_offset_or_block_len;
#ifdef FRAME_DEBUG
printf("DW_CFA_val_expression\n");
#endif
break;
default:
DWARF_SET_ERROR(dbg, error,
DW_DLE_FRAME_INSTR_EXEC_ERROR);
ret = DW_DLE_FRAME_INSTR_EXEC_ERROR;
goto program_done;
}
}
program_done:
free(init_rt->rt3_rules);
free(init_rt);
if (saved_rt) {
free(saved_rt->rt3_rules);
free(saved_rt);
}
return (ret);
#undef CFA
#undef INITCFA
#undef RL
#undef INITRL
#undef CHECK_TABLE_SIZE
}
static int
_dwarf_frame_convert_inst(Dwarf_Debug dbg, uint8_t addr_size, uint8_t *insts,
Dwarf_Unsigned len, Dwarf_Unsigned *count, Dwarf_Frame_Op *fop,
Dwarf_Frame_Op3 *fop3, Dwarf_Error *error)
{
uint8_t *p, *pe;
uint8_t high2, low6;
uint64_t reg, reg2, uoff, soff, blen;
#define SET_BASE_OP(x) \
do { \
if (fop != NULL) \
fop[*count].fp_base_op = (x) >> 6; \
if (fop3 != NULL) \
fop3[*count].fp_base_op = (x) >> 6; \
} while(0)
#define SET_EXTENDED_OP(x) \
do { \
if (fop != NULL) \
fop[*count].fp_extended_op = (x); \
if (fop3 != NULL) \
fop3[*count].fp_extended_op = (x); \
} while(0)
#define SET_REGISTER(x) \
do { \
if (fop != NULL) \
fop[*count].fp_register = (x); \
if (fop3 != NULL) \
fop3[*count].fp_register = (x); \
} while(0)
#define SET_OFFSET(x) \
do { \
if (fop != NULL) \
fop[*count].fp_offset = (x); \
if (fop3 != NULL) \
fop3[*count].fp_offset_or_block_len = \
(x); \
} while(0)
#define SET_INSTR_OFFSET(x) \
do { \
if (fop != NULL) \
fop[*count].fp_instr_offset = (x); \
if (fop3 != NULL) \
fop3[*count].fp_instr_offset = (x); \
} while(0)
#define SET_BLOCK_LEN(x) \
do { \
if (fop3 != NULL) \
fop3[*count].fp_offset_or_block_len = \
(x); \
} while(0)
#define SET_EXPR_BLOCK(addr, len) \
do { \
if (fop3 != NULL) { \
fop3[*count].fp_expr_block = \
malloc((size_t) (len)); \
if (fop3[*count].fp_expr_block == NULL) { \
DWARF_SET_ERROR(dbg, error, \
DW_DLE_MEMORY); \
return (DW_DLE_MEMORY); \
} \
memcpy(&fop3[*count].fp_expr_block, \
(addr), (len)); \
} \
} while(0)
*count = 0;
p = insts;
pe = p + len;
while (p < pe) {
SET_INSTR_OFFSET(p - insts);
if (*p == DW_CFA_nop) {
p++;
(*count)++;
continue;
}
high2 = *p & 0xc0;
low6 = *p & 0x3f;
p++;
if (high2 > 0) {
switch (high2) {
case DW_CFA_advance_loc:
SET_BASE_OP(high2);
SET_OFFSET(low6);
break;
case DW_CFA_offset:
SET_BASE_OP(high2);
SET_REGISTER(low6);
uoff = _dwarf_decode_uleb128(&p);
SET_OFFSET(uoff);
break;
case DW_CFA_restore:
SET_BASE_OP(high2);
SET_REGISTER(low6);
break;
default:
DWARF_SET_ERROR(dbg, error,
DW_DLE_FRAME_INSTR_EXEC_ERROR);
return (DW_DLE_FRAME_INSTR_EXEC_ERROR);
}
(*count)++;
continue;
}
SET_EXTENDED_OP(low6);
switch (low6) {
case DW_CFA_set_loc:
uoff = dbg->decode(&p, addr_size);
SET_OFFSET(uoff);
break;
case DW_CFA_advance_loc1:
uoff = dbg->decode(&p, 1);
SET_OFFSET(uoff);
break;
case DW_CFA_advance_loc2:
uoff = dbg->decode(&p, 2);
SET_OFFSET(uoff);
break;
case DW_CFA_advance_loc4:
uoff = dbg->decode(&p, 4);
SET_OFFSET(uoff);
break;
case DW_CFA_offset_extended:
case DW_CFA_def_cfa:
case DW_CFA_val_offset:
reg = _dwarf_decode_uleb128(&p);
uoff = _dwarf_decode_uleb128(&p);
SET_REGISTER(reg);
SET_OFFSET(uoff);
break;
case DW_CFA_restore_extended:
case DW_CFA_undefined:
case DW_CFA_same_value:
case DW_CFA_def_cfa_register:
reg = _dwarf_decode_uleb128(&p);
SET_REGISTER(reg);
break;
case DW_CFA_register:
reg = _dwarf_decode_uleb128(&p);
reg2 = _dwarf_decode_uleb128(&p);
SET_REGISTER(reg);
SET_OFFSET(reg2);
break;
case DW_CFA_remember_state:
case DW_CFA_restore_state:
break;
case DW_CFA_def_cfa_offset:
uoff = _dwarf_decode_uleb128(&p);
SET_OFFSET(uoff);
break;
case DW_CFA_def_cfa_expression:
blen = _dwarf_decode_uleb128(&p);
SET_BLOCK_LEN(blen);
SET_EXPR_BLOCK(p, blen);
p += blen;
break;
case DW_CFA_expression:
case DW_CFA_val_expression:
reg = _dwarf_decode_uleb128(&p);
blen = _dwarf_decode_uleb128(&p);
SET_REGISTER(reg);
SET_BLOCK_LEN(blen);
SET_EXPR_BLOCK(p, blen);
p += blen;
break;
case DW_CFA_offset_extended_sf:
case DW_CFA_def_cfa_sf:
case DW_CFA_val_offset_sf:
reg = _dwarf_decode_uleb128(&p);
soff = _dwarf_decode_sleb128(&p);
SET_REGISTER(reg);
SET_OFFSET(soff);
break;
case DW_CFA_def_cfa_offset_sf:
soff = _dwarf_decode_sleb128(&p);
SET_OFFSET(soff);
break;
default:
DWARF_SET_ERROR(dbg, error,
DW_DLE_FRAME_INSTR_EXEC_ERROR);
return (DW_DLE_FRAME_INSTR_EXEC_ERROR);
}
(*count)++;
}
return (DW_DLE_NONE);
}
int
_dwarf_frame_get_fop(Dwarf_Debug dbg, uint8_t addr_size, uint8_t *insts,
Dwarf_Unsigned len, Dwarf_Frame_Op **ret_oplist, Dwarf_Signed *ret_opcnt,
Dwarf_Error *error)
{
Dwarf_Frame_Op *oplist;
Dwarf_Unsigned count;
int ret;
ret = _dwarf_frame_convert_inst(dbg, addr_size, insts, len, &count,
NULL, NULL, error);
if (ret != DW_DLE_NONE)
return (ret);
if ((oplist = calloc(count, sizeof(Dwarf_Frame_Op))) == NULL) {
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
ret = _dwarf_frame_convert_inst(dbg, addr_size, insts, len, &count,
oplist, NULL, error);
if (ret != DW_DLE_NONE) {
free(oplist);
return (ret);
}
*ret_oplist = oplist;
*ret_opcnt = count;
return (DW_DLE_NONE);
}
int
_dwarf_frame_regtable_copy(Dwarf_Debug dbg, Dwarf_Regtable3 **dest,
Dwarf_Regtable3 *src, Dwarf_Error *error)
{
int i;
assert(dest != NULL);
assert(src != NULL);
if (*dest == NULL) {
if ((*dest = malloc(sizeof(Dwarf_Regtable3))) == NULL) {
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
(*dest)->rt3_reg_table_size = src->rt3_reg_table_size;
(*dest)->rt3_rules = malloc(src->rt3_reg_table_size *
sizeof(Dwarf_Regtable_Entry3));
if ((*dest)->rt3_rules == NULL) {
free(*dest);
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
}
memcpy(&(*dest)->rt3_cfa_rule, &src->rt3_cfa_rule,
sizeof(Dwarf_Regtable_Entry3));
for (i = 0; i < (*dest)->rt3_reg_table_size &&
i < src->rt3_reg_table_size; i++)
memcpy(&(*dest)->rt3_rules[i], &src->rt3_rules[i],
sizeof(Dwarf_Regtable_Entry3));
for (; i < (*dest)->rt3_reg_table_size; i++)
(*dest)->rt3_rules[i].dw_regnum =
dbg->dbg_frame_undefined_value;
return (DW_DLE_NONE);
}
int
_dwarf_frame_get_internal_table(Dwarf_Fde fde, Dwarf_Addr pc_req,
Dwarf_Regtable3 **ret_rt, Dwarf_Addr *ret_row_pc, Dwarf_Error *error)
{
Dwarf_Debug dbg;
Dwarf_Cie cie;
Dwarf_Regtable3 *rt;
Dwarf_Addr row_pc;
int i, ret;
assert(ret_rt != NULL);
dbg = fde->fde_dbg;
assert(dbg != NULL);
rt = dbg->dbg_internal_reg_table;
/* Clear the content of regtable from previous run. */
memset(&rt->rt3_cfa_rule, 0, sizeof(Dwarf_Regtable_Entry3));
memset(rt->rt3_rules, 0, rt->rt3_reg_table_size *
sizeof(Dwarf_Regtable_Entry3));
/* Set rules to initial values. */
for (i = 0; i < rt->rt3_reg_table_size; i++)
rt->rt3_rules[i].dw_regnum = dbg->dbg_frame_rule_initial_value;
/* Run initial instructions in CIE. */
cie = fde->fde_cie;
assert(cie != NULL);
ret = _dwarf_frame_run_inst(dbg, rt, cie->cie_addrsize,
cie->cie_initinst, cie->cie_instlen, cie->cie_caf, cie->cie_daf, 0,
~0ULL, &row_pc, error);
if (ret != DW_DLE_NONE)
return (ret);
/* Run instructions in FDE. */
if (pc_req >= fde->fde_initloc) {
ret = _dwarf_frame_run_inst(dbg, rt, cie->cie_addrsize,
fde->fde_inst, fde->fde_instlen, cie->cie_caf,
cie->cie_daf, fde->fde_initloc, pc_req, &row_pc, error);
if (ret != DW_DLE_NONE)
return (ret);
}
*ret_rt = rt;
*ret_row_pc = row_pc;
return (DW_DLE_NONE);
}
void
_dwarf_frame_cleanup(Dwarf_Debug dbg)
{
Dwarf_Regtable3 *rt;
assert(dbg != NULL && dbg->dbg_mode == DW_DLC_READ);
if (dbg->dbg_internal_reg_table) {
rt = dbg->dbg_internal_reg_table;
free(rt->rt3_rules);
free(rt);
dbg->dbg_internal_reg_table = NULL;
}
if (dbg->dbg_frame) {
_dwarf_frame_section_cleanup(dbg->dbg_frame);
dbg->dbg_frame = NULL;
}
if (dbg->dbg_eh_frame) {
_dwarf_frame_section_cleanup(dbg->dbg_eh_frame);
dbg->dbg_eh_frame = NULL;
}
}
int
_dwarf_frame_section_load(Dwarf_Debug dbg, Dwarf_Error *error)
{
Dwarf_Section *ds;
if ((ds = _dwarf_find_section(dbg, ".debug_frame")) != NULL) {
return (_dwarf_frame_section_init(dbg, &dbg->dbg_frame,
ds, 0, error));
}
return (DW_DLE_NONE);
}
int
_dwarf_frame_section_load_eh(Dwarf_Debug dbg, Dwarf_Error *error)
{
Dwarf_Section *ds;
if ((ds = _dwarf_find_section(dbg, ".eh_frame")) != NULL) {
return (_dwarf_frame_section_init(dbg, &dbg->dbg_eh_frame,
ds, 1, error));
}
return (DW_DLE_NONE);
}
void
_dwarf_frame_params_init(Dwarf_Debug dbg)
{
/* Initialise call frame related parameters. */
dbg->dbg_frame_rule_table_size = DW_FRAME_LAST_REG_NUM;
dbg->dbg_frame_rule_initial_value = DW_FRAME_REG_INITIAL_VALUE;
dbg->dbg_frame_cfa_value = DW_FRAME_CFA_COL3;
dbg->dbg_frame_same_value = DW_FRAME_SAME_VAL;
dbg->dbg_frame_undefined_value = DW_FRAME_UNDEFINED_VAL;
}
int
_dwarf_frame_interal_table_init(Dwarf_Debug dbg, Dwarf_Error *error)
{
Dwarf_Regtable3 *rt;
if (dbg->dbg_internal_reg_table != NULL)
return (DW_DLE_NONE);
/* Initialise internal register table. */
if ((rt = calloc(1, sizeof(Dwarf_Regtable3))) == NULL) {
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
rt->rt3_reg_table_size = dbg->dbg_frame_rule_table_size;
if ((rt->rt3_rules = calloc(rt->rt3_reg_table_size,
sizeof(Dwarf_Regtable_Entry3))) == NULL) {
free(rt);
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
dbg->dbg_internal_reg_table = rt;
return (DW_DLE_NONE);
}
#define _FDE_INST_INIT_SIZE 128
int
_dwarf_frame_fde_add_inst(Dwarf_P_Fde fde, Dwarf_Small op, Dwarf_Unsigned val1,
Dwarf_Unsigned val2, Dwarf_Error *error)
{
Dwarf_P_Debug dbg;
uint8_t high2, low6;
int ret;
#define ds fde
#define ds_data fde_inst
#define ds_cap fde_instcap
#define ds_size fde_instlen
assert(fde != NULL && fde->fde_dbg != NULL);
dbg = fde->fde_dbg;
if (fde->fde_inst == NULL) {
fde->fde_instcap = _FDE_INST_INIT_SIZE;
fde->fde_instlen = 0;
if ((fde->fde_inst = malloc((size_t) fde->fde_instcap)) ==
NULL) {
DWARF_SET_ERROR(dbg, error, DW_DLE_MEMORY);
return (DW_DLE_MEMORY);
}
}
assert(fde->fde_instcap != 0);
RCHECK(WRITE_VALUE(op, 1));
if (op == DW_CFA_nop)
return (DW_DLE_NONE);
high2 = op & 0xc0;
low6 = op & 0x3f;
if (high2 > 0) {
switch (high2) {
case DW_CFA_advance_loc:
case DW_CFA_restore:
break;
case DW_CFA_offset:
RCHECK(WRITE_ULEB128(val1));
break;
default:
DWARF_SET_ERROR(dbg, error,
DW_DLE_FRAME_INSTR_EXEC_ERROR);
return (DW_DLE_FRAME_INSTR_EXEC_ERROR);
}
return (DW_DLE_NONE);
}
switch (low6) {
case DW_CFA_set_loc:
RCHECK(WRITE_VALUE(val1, dbg->dbg_pointer_size));
break;
case DW_CFA_advance_loc1:
RCHECK(WRITE_VALUE(val1, 1));
break;
case DW_CFA_advance_loc2:
RCHECK(WRITE_VALUE(val1, 2));
break;
case DW_CFA_advance_loc4:
RCHECK(WRITE_VALUE(val1, 4));
break;
case DW_CFA_offset_extended:
case DW_CFA_def_cfa:
case DW_CFA_register:
RCHECK(WRITE_ULEB128(val1));
RCHECK(WRITE_ULEB128(val2));
break;
case DW_CFA_restore_extended:
case DW_CFA_undefined:
case DW_CFA_same_value:
case DW_CFA_def_cfa_register:
case DW_CFA_def_cfa_offset:
RCHECK(WRITE_ULEB128(val1));
break;
case DW_CFA_remember_state:
case DW_CFA_restore_state:
break;
default:
DWARF_SET_ERROR(dbg, error, DW_DLE_FRAME_INSTR_EXEC_ERROR);
return (DW_DLE_FRAME_INSTR_EXEC_ERROR);
}
return (DW_DLE_NONE);
gen_fail:
return (ret);
#undef ds
#undef ds_data
#undef ds_cap
#undef ds_size
}
static int
_dwarf_frame_gen_cie(Dwarf_P_Debug dbg, Dwarf_P_Section ds, Dwarf_P_Cie cie,
Dwarf_Error *error)
{
Dwarf_Unsigned len;
uint64_t offset;
int ret;
assert(dbg != NULL && ds != NULL && cie != NULL);
cie->cie_offset = offset = ds->ds_size;
cie->cie_length = 0;
cie->cie_version = 1;
/* Length placeholder. */
RCHECK(WRITE_VALUE(cie->cie_length, 4));
/* .debug_frame use CIE id ~0. */
RCHECK(WRITE_VALUE(~0U, 4));
/* .debug_frame version is 1. (DWARF2) */
RCHECK(WRITE_VALUE(cie->cie_version, 1));
/* Write augmentation, if present. */
if (cie->cie_augment != NULL)
RCHECK(WRITE_BLOCK(cie->cie_augment,
strlen((char *) cie->cie_augment) + 1));
else
RCHECK(WRITE_VALUE(0, 1));
/* Write caf, daf and ra. */
RCHECK(WRITE_ULEB128(cie->cie_caf));
RCHECK(WRITE_SLEB128(cie->cie_daf));
RCHECK(WRITE_VALUE(cie->cie_ra, 1));
/* Write initial instructions, if present. */
if (cie->cie_initinst != NULL)
RCHECK(WRITE_BLOCK(cie->cie_initinst, cie->cie_instlen));
/* Add padding. */
len = ds->ds_size - cie->cie_offset - 4;
cie->cie_length = roundup(len, dbg->dbg_pointer_size);
while (len++ < cie->cie_length)
RCHECK(WRITE_VALUE(DW_CFA_nop, 1));
/* Fill in the length field. */
dbg->write(ds->ds_data, &offset, cie->cie_length, 4);
return (DW_DLE_NONE);
gen_fail:
return (ret);
}
static int
_dwarf_frame_gen_fde(Dwarf_P_Debug dbg, Dwarf_P_Section ds,
Dwarf_Rel_Section drs, Dwarf_P_Fde fde, Dwarf_Error *error)
{
Dwarf_Unsigned len;
uint64_t offset;
int ret;
assert(dbg != NULL && ds != NULL && drs != NULL);
assert(fde != NULL && fde->fde_cie != NULL);
fde->fde_offset = offset = ds->ds_size;
fde->fde_length = 0;
fde->fde_cieoff = fde->fde_cie->cie_offset;
/* Length placeholder. */
RCHECK(WRITE_VALUE(fde->fde_length, 4));
/* Write CIE pointer. */
RCHECK(_dwarf_reloc_entry_add(dbg, drs, ds, dwarf_drt_data_reloc, 4,
ds->ds_size, 0, fde->fde_cieoff, ".debug_frame", error));
/* Write FDE initial location. */
RCHECK(_dwarf_reloc_entry_add(dbg, drs, ds, dwarf_drt_data_reloc,
dbg->dbg_pointer_size, ds->ds_size, fde->fde_symndx,
fde->fde_initloc, NULL, error));
/*
* Write FDE address range. Use a pair of relocation entries if
* application provided end symbol index. Otherwise write the
* length without assoicating any relocation info.
*/
if (fde->fde_esymndx > 0)
RCHECK(_dwarf_reloc_entry_add_pair(dbg, drs, ds,
dbg->dbg_pointer_size, ds->ds_size, fde->fde_symndx,
fde->fde_esymndx, fde->fde_initloc, fde->fde_eoff, error));
else
RCHECK(WRITE_VALUE(fde->fde_adrange, dbg->dbg_pointer_size));
/* Write FDE frame instructions. */
RCHECK(WRITE_BLOCK(fde->fde_inst, fde->fde_instlen));
/* Add padding. */
len = ds->ds_size - fde->fde_offset - 4;
fde->fde_length = roundup(len, dbg->dbg_pointer_size);
while (len++ < fde->fde_length)
RCHECK(WRITE_VALUE(DW_CFA_nop, 1));
/* Fill in the length field. */
dbg->write(ds->ds_data, &offset, fde->fde_length, 4);
return (DW_DLE_NONE);
gen_fail:
return (ret);
}
int
_dwarf_frame_gen(Dwarf_P_Debug dbg, Dwarf_Error *error)
{
Dwarf_P_Section ds;
Dwarf_Rel_Section drs;
Dwarf_P_Cie cie;
Dwarf_P_Fde fde;
int ret;
if (STAILQ_EMPTY(&dbg->dbgp_cielist))
return (DW_DLE_NONE);
/* Create .debug_frame section. */
if ((ret = _dwarf_section_init(dbg, &ds, ".debug_frame", 0, error)) !=
DW_DLE_NONE)
goto gen_fail0;
/* Create relocation section for .debug_frame */
RCHECK(_dwarf_reloc_section_init(dbg, &drs, ds, error));
/* Generate list of CIE. */
STAILQ_FOREACH(cie, &dbg->dbgp_cielist, cie_next)
RCHECK(_dwarf_frame_gen_cie(dbg, ds, cie, error));
/* Generate list of FDE. */
STAILQ_FOREACH(fde, &dbg->dbgp_fdelist, fde_next)
RCHECK(_dwarf_frame_gen_fde(dbg, ds, drs, fde, error));
/* Inform application the creation of .debug_frame ELF section. */
RCHECK(_dwarf_section_callback(dbg, ds, SHT_PROGBITS, 0, 0, 0, error));
/* Finalize relocation section for .debug_frame */
RCHECK(_dwarf_reloc_section_finalize(dbg, drs, error));
return (DW_DLE_NONE);
gen_fail:
_dwarf_reloc_section_free(dbg, &drs);
gen_fail0:
_dwarf_section_free(dbg, &ds);
return (ret);
}
void
_dwarf_frame_pro_cleanup(Dwarf_P_Debug dbg)
{
Dwarf_P_Cie cie, tcie;
Dwarf_P_Fde fde, tfde;
assert(dbg != NULL && dbg->dbg_mode == DW_DLC_WRITE);
STAILQ_FOREACH_SAFE(cie, &dbg->dbgp_cielist, cie_next, tcie) {
STAILQ_REMOVE(&dbg->dbgp_cielist, cie, _Dwarf_Cie, cie_next);
if (cie->cie_augment)
free(cie->cie_augment);
if (cie->cie_initinst)
free(cie->cie_initinst);
free(cie);
}
dbg->dbgp_cielen = 0;
STAILQ_FOREACH_SAFE(fde, &dbg->dbgp_fdelist, fde_next, tfde) {
STAILQ_REMOVE(&dbg->dbgp_fdelist, fde, _Dwarf_Fde, fde_next);
if (fde->fde_inst != NULL)
free(fde->fde_inst);
free(fde);
}
dbg->dbgp_fdelen = 0;
}