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dwarf_eh.h
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dwarf_eh.h
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/**
* This file is Copyright PathScale 2010. Permission granted to distribute
* according to the terms of the MIT license (see COPYING.MIT)
*/
#include <assert.h>
#include <stdint.h>
// _GNU_SOURCE must be defined for unwind.h to expose some of the functions
// that we want. If it isn't, then we define it and undefine it to make sure
// that it doesn't impact the rest of the program.
#ifndef _GNU_SOURCE
# define _GNU_SOURCE 1
# include "unwind.h"
# undef _GNU_SOURCE
#else
# include "unwind.h"
#endif
/**
* Type used to store pointers to values computed by DWARF expressions.
*/
typedef unsigned char *dw_eh_ptr_t;
// Flag indicating a signed quantity
#define DW_EH_PE_signed 0x08
/// DWARF data encoding types
enum dwarf_data_encoding
{
// Unsigned, little-endian, base 128-encoded (variable length)
DW_EH_PE_uleb128 = 0x01,
// uint16
DW_EH_PE_udata2 = 0x02,
// uint32
DW_EH_PE_udata4 = 0x03,
// uint64
DW_EH_PE_udata8 = 0x04,
// Signed versions of the above:
DW_EH_PE_sleb128 = DW_EH_PE_uleb128 | DW_EH_PE_signed,
DW_EH_PE_sdata2 = DW_EH_PE_udata2 | DW_EH_PE_signed,
DW_EH_PE_sdata4 = DW_EH_PE_udata4 | DW_EH_PE_signed,
DW_EH_PE_sdata8 = DW_EH_PE_udata8 | DW_EH_PE_signed
};
static inline enum dwarf_data_encoding get_encoding(unsigned char x)
{
return (enum dwarf_data_encoding)(x & 0xf);
}
enum dwarf_data_relative
{
// Value is omitted
DW_EH_PE_omit = 0xff,
// Absolute pointer value
DW_EH_PE_absptr = 0x00,
// Value relative to program counter
DW_EH_PE_pcrel = 0x10,
// Value relative to the text segment
DW_EH_PE_textrel = 0x20,
// Value relative to the data segment
DW_EH_PE_datarel = 0x30,
// Value relative to the start of the function
DW_EH_PE_funcrel = 0x40,
// Aligned pointer (Not supported yet - are they actually used?)
DW_EH_PE_aligned = 0x50,
// Pointer points to address of real value
DW_EH_PE_indirect = 0x80
};
static inline enum dwarf_data_relative get_base(unsigned char x)
{
return (enum dwarf_data_relative)(x & 0x70);
}
static int is_indirect(unsigned char x)
{
return (x & DW_EH_PE_indirect);
}
static inline int dwarf_size_of_fixed_size_field(unsigned char type)
{
// Low three bits indicate size...
switch (type & 7)
{
case DW_EH_PE_udata2: return 2;
case DW_EH_PE_udata4: return 4;
case DW_EH_PE_udata8: return 8;
case DW_EH_PE_absptr: return sizeof(void*);
}
abort();
}
/**
* Read an unsigned, little-endian, base-128, DWARF value. Updates *data to
* point to the end of the value.
*/
static uint64_t read_leb128(unsigned char** data, int *b)
{
uint64_t uleb = 0;
unsigned int bit = 0;
unsigned char digit = 0;
// We have to read at least one octet, and keep reading until we get to one
// with the high bit unset
do
{
// This check is a bit too strict - we should also check the highest
// bit of the digit.
assert(bit < sizeof(uint64_t) * 8);
// Get the base 128 digit
digit = (**data) & 0x7f;
// Add it to the current value
uleb += digit << bit;
// Increase the shift value
bit += 7;
// Proceed to the next octet
(*data)++;
// Terminate when we reach a value that does not have the high bit set
// (i.e. which was not modified when we mask it with 0x7f)
} while ((*(*data - 1)) != digit);
*b = bit;
return uleb;
}
static int64_t read_uleb128(unsigned char** data)
{
int b;
return read_leb128(data, &b);
}
static int64_t read_sleb128(unsigned char** data)
{
int bits;
// Read as if it's signed
uint64_t uleb = read_leb128(data, &bits);
// If the most significant bit read is 1, then we need to sign extend it
if (uleb >> (bits-1) == 1)
{
// Sign extend by setting all bits in front of it to 1
uleb |= ((int64_t)-1) << bits;
}
return (int64_t)uleb;
}
static uint64_t read_value(char encoding, unsigned char **data)
{
enum dwarf_data_encoding type = get_encoding(encoding);
uint64_t v;
switch ((int)type)
{
// Read fixed-length types
#define READ(dwarf, type) \
case dwarf:\
v = (uint64_t)(*(type*)(*data));\
*data += sizeof(type);\
break;
READ(DW_EH_PE_udata2, uint16_t)
READ(DW_EH_PE_udata4, uint32_t)
READ(DW_EH_PE_udata8, uint64_t)
READ(DW_EH_PE_sdata2, int16_t)
READ(DW_EH_PE_sdata4, int32_t)
READ(DW_EH_PE_sdata8, int64_t)
case DW_EH_PE_absptr:
v = (uint64_t)(*(intptr_t*)(*data));
*data += sizeof(intptr_t);
break;
//READ(DW_EH_PE_absptr, intptr_t)
#undef READ
case DW_EH_PE_sleb128:
v = read_sleb128(data);
break;
case DW_EH_PE_uleb128:
v = read_uleb128(data);
break;
default: abort();
}
return v;
}
static uint64_t resolve_indirect_value(struct _Unwind_Context *c, unsigned char encoding, int64_t v, dw_eh_ptr_t start)
{
switch (get_base(encoding))
{
case DW_EH_PE_pcrel:
v += (uint64_t)(uintptr_t)start;
break;
case DW_EH_PE_textrel:
v += (uint64_t)(uintptr_t)_Unwind_GetTextRelBase(c);
break;
case DW_EH_PE_datarel:
v += (uint64_t)(uintptr_t)_Unwind_GetDataRelBase(c);
break;
case DW_EH_PE_funcrel:
v += (uint64_t)(uintptr_t)_Unwind_GetRegionStart(c);
default:
break;
}
// If this is an indirect value, then it is really the address of the real
// value
// TODO: Check whether this should really always be a pointer - it seems to
// be a GCC extensions, so not properly documented...
if (is_indirect(encoding))
{
v = (uint64_t)(uintptr_t)*(void**)(uintptr_t)v;
}
return v;
}
static inline void read_value_with_encoding(struct _Unwind_Context *context,
dw_eh_ptr_t *data,
uint64_t *out)
{
dw_eh_ptr_t start = *data;
unsigned char encoding = *((*data)++);
// If this value is omitted, skip it and don't touch the output value
if (encoding == DW_EH_PE_omit) { return; }
*out = read_value(encoding, data);
*out = resolve_indirect_value(context, encoding, *out, start);
}
struct dwarf_eh_lsda
{
dw_eh_ptr_t region_start;
dw_eh_ptr_t landing_pads;
dw_eh_ptr_t type_table;
unsigned char type_table_encoding;
dw_eh_ptr_t call_site_table;
dw_eh_ptr_t action_table;
unsigned char callsite_encoding;
};
static inline struct dwarf_eh_lsda parse_lsda(struct _Unwind_Context *context, unsigned char *data)
{
struct dwarf_eh_lsda lsda;
lsda.region_start = (dw_eh_ptr_t)(uintptr_t)_Unwind_GetRegionStart(context);
// If the landing pads are relative to anything other than the start of
// this region, find out where. This is @LPStart in the spec, although the
// encoding that GCC uses does not quite match the spec.
uint64_t v = (uint64_t)(uintptr_t)lsda.region_start;
read_value_with_encoding(context, &data, &v);
lsda.landing_pads = (dw_eh_ptr_t)(uintptr_t)v;
// If there is a type table, find out where it is. This is @TTBase in the
// spec. Note: we find whether there is a type table pointer by checking
// whether the leading byte is DW_EH_PE_omit (0xff), which is not what the
// spec says, but does seem to be how G++ indicates this.
lsda.type_table = 0;
lsda.type_table_encoding = *data++;
if (lsda.type_table_encoding != DW_EH_PE_omit)
{
v = read_uleb128(&data);
dw_eh_ptr_t type_table = data;
type_table += v;
lsda.type_table = type_table;
//lsda.type_table = (uintptr_t*)(data + v);
}
#if defined(__arm__) && !defined(__ARM_DWARF_EH__)
lsda.type_table_encoding = (DW_EH_PE_pcrel | DW_EH_PE_indirect);
#endif
lsda.callsite_encoding = (enum dwarf_data_encoding)(*(data++));
// Action table is immediately after the call site table
lsda.action_table = data;
uintptr_t callsite_size = (uintptr_t)read_uleb128(&data);
lsda.action_table = data + callsite_size;
// Call site table is immediately after the header
lsda.call_site_table = (dw_eh_ptr_t)data;
return lsda;
}
struct dwarf_eh_action
{
dw_eh_ptr_t landing_pad;
dw_eh_ptr_t action_record;
};
/**
* Look up the landing pad that corresponds to the current invoke.
*/
__attribute__((unused))
static struct dwarf_eh_action
dwarf_eh_find_callsite(struct _Unwind_Context *context, struct dwarf_eh_lsda *lsda)
{
struct dwarf_eh_action result = { 0, 0 };
uint64_t ip = _Unwind_GetIP(context) - _Unwind_GetRegionStart(context);
unsigned char *callsite_table = (unsigned char*)lsda->call_site_table;
while (callsite_table <= lsda->action_table)
{
// Once again, the layout deviates from the spec.
uint64_t call_site_start, call_site_size, landing_pad, action;
call_site_start = read_value(lsda->callsite_encoding, &callsite_table);
call_site_size = read_value(lsda->callsite_encoding, &callsite_table);
// Call site entries are started
if (call_site_start > ip) { break; }
landing_pad = read_value(lsda->callsite_encoding, &callsite_table);
action = read_uleb128(&callsite_table);
if (call_site_start <= ip && ip <= call_site_start + call_site_size)
{
if (action)
{
// Action records are 1-biased so both no-record and zeroth
// record can be stored.
result.action_record = lsda->action_table + action - 1;
}
// No landing pad means keep unwinding.
if (landing_pad)
{
// Landing pad is the offset from the value in the header
result.landing_pad = lsda->landing_pads + landing_pad;
}
break;
}
}
return result;
}
#define EXCEPTION_CLASS(a,b,c,d,e,f,g,h) ((((uint64_t)a) << 56) + (((uint64_t)b) << 48) + (((uint64_t)c) << 40) + (((uint64_t)d) << 32) + (((uint64_t)e) << 24) + (((uint64_t)f) << 16) + (((uint64_t)g) << 8) + (((uint64_t)h)))