Prusa-Firmware/tools/elf_mem_map

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#!/usr/bin/env python3
import argparse
import elftools.elf.elffile
import elftools.dwarf.descriptions
from collections import namedtuple
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from struct import unpack
SRAM_OFFSET = 0x800000
EEPROM_OFFSET = 0x810000
FILL_BYTE = b'\0'
Entry = namedtuple('Entry', ['name', 'loc', 'size'])
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Member = namedtuple('Member', ['name', 'off', 'size'])
def array_inc(loc, dim, idx=0):
if idx == len(dim):
return True
loc[idx] += 1
if loc[idx] == dim[idx]:
loc[idx] = 0
return array_inc(loc, dim, idx+1)
return False
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def get_type_size(type_DIE):
while True:
if 'DW_AT_byte_size' in type_DIE.attributes:
return type_DIE, type_DIE.attributes.get('DW_AT_byte_size').value
if 'DW_AT_type' not in type_DIE.attributes:
return None
type_DIE = type_DIE.get_DIE_from_attribute('DW_AT_type')
def get_type_arrsize(type_DIE):
size = get_type_size(type_DIE)
if size is None:
return None
byte_size = size[1]
if size[0].tag != 'DW_TAG_pointer_type':
array_DIE = get_type_def(type_DIE, 'DW_TAG_array_type')
if array_DIE is not None:
for range_DIE in array_DIE.iter_children():
if range_DIE.tag == 'DW_TAG_subrange_type' and \
'DW_AT_upper_bound' in range_DIE.attributes:
dim = range_DIE.attributes['DW_AT_upper_bound'].value + 1
byte_size *= dim
return byte_size
def get_type_def(type_DIE, type_tag):
while True:
if type_DIE.tag == type_tag:
return type_DIE
if 'DW_AT_type' not in type_DIE.attributes:
return None
type_DIE = type_DIE.get_DIE_from_attribute('DW_AT_type')
def get_FORM_block1(attr):
if attr.form != 'DW_FORM_block1':
return None
if attr.value[0] == 3: # OP_addr
return int.from_bytes(attr.value[1:], 'little')
if attr.value[0] == 35: # OP_plus_uconst (ULEB128)
v = 0
s = 0
for b in attr.value[1:]:
v |= (b & 0x7f) << s
if b & 0x80 == 0:
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break
s += 7
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return v
return None
def get_elf_globals(path, expand_structs, struct_gaps=True):
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fd = open(path, "rb")
if fd is None:
return
elffile = elftools.elf.elffile.ELFFile(fd)
if elffile is None or not elffile.has_dwarf_info():
return
# probably not needed, since we're decoding expressions manually
elftools.dwarf.descriptions.set_global_machine_arch(elffile.get_machine_arch())
dwarfinfo = elffile.get_dwarf_info()
grefs = []
for CU in dwarfinfo.iter_CUs():
for DIE in CU.iter_DIEs():
# handle only variable types
if DIE.tag != 'DW_TAG_variable':
continue
if 'DW_AT_location' not in DIE.attributes:
continue
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if 'DW_AT_name' not in DIE.attributes and \
'DW_AT_abstract_origin' not in DIE.attributes:
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continue
# handle locations encoded directly as DW_OP_addr (leaf globals)
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loc = get_FORM_block1(DIE.attributes['DW_AT_location'])
if loc is None or loc < SRAM_OFFSET or loc >= EEPROM_OFFSET:
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continue
loc -= SRAM_OFFSET
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# variable name/type
if 'DW_AT_name' not in DIE.attributes and \
'DW_AT_abstract_origin' in DIE.attributes:
DIE = DIE.get_DIE_from_attribute('DW_AT_abstract_origin')
if 'DW_AT_location' in DIE.attributes:
# duplicate reference (handled directly), skip
continue
if 'DW_AT_name' not in DIE.attributes:
continue
if 'DW_AT_type' not in DIE.attributes:
continue
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name = DIE.attributes['DW_AT_name'].value.decode('ascii')
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# get final storage size
size = get_type_size(DIE)
if size is None:
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continue
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byte_size = size[1]
# fetch array dimensions (if known)
array_dim = []
array_DIE = get_type_def(DIE, 'DW_TAG_array_type')
if array_DIE is not None:
for range_DIE in array_DIE.iter_children():
if range_DIE.tag == 'DW_TAG_subrange_type' and \
'DW_AT_upper_bound' in range_DIE.attributes:
array_dim.append(range_DIE.attributes['DW_AT_upper_bound'].value + 1)
# fetch structure members (one level only)
members = []
if expand_structs and size[0].tag != 'DW_TAG_pointer_type':
struct_DIE = get_type_def(DIE, 'DW_TAG_structure_type')
if struct_DIE is not None:
for member_DIE in struct_DIE.iter_children():
if member_DIE.tag == 'DW_TAG_member' and 'DW_AT_name' in member_DIE.attributes:
m_name = member_DIE.attributes['DW_AT_name'].value.decode('ascii')
m_off = get_FORM_block1(member_DIE.attributes['DW_AT_data_member_location'])
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m_byte_size = get_type_size(member_DIE)[1]
# still expand member arrays
m_array_dim = []
m_array_DIE = get_type_def(member_DIE, 'DW_TAG_array_type')
if m_array_DIE is not None:
for range_DIE in m_array_DIE.iter_children():
if range_DIE.tag == 'DW_TAG_subrange_type' and \
'DW_AT_upper_bound' in range_DIE.attributes:
m_array_dim.append(range_DIE.attributes['DW_AT_upper_bound'].value + 1)
# likely string, remove one dimension
if m_byte_size == 1 and len(m_array_dim) > 1:
m_byte_size *= m_array_dim.pop()
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if len(m_array_dim) == 0 or (len(m_array_dim) == 1 and m_array_dim[0] == 1):
# plain entry
members.append(Member(m_name, m_off, m_byte_size))
elif len(m_array_dim) == 1 and m_byte_size == 1:
# likely string, avoid expansion
members.append(Member(m_name + '[]', m_off, m_array_dim[0]))
else:
# expand array entries
m_array_pos = m_off
m_array_loc = [0] * len(m_array_dim)
while True:
# location index
sfx = ''
for d in range(len(m_array_dim)):
sfx += '[{}]'.format(m_array_loc[d])
members.append(Member(m_name + sfx, m_array_pos, m_byte_size))
# advance
if array_inc(m_array_loc, m_array_dim):
break
m_array_pos += m_byte_size
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if struct_gaps and len(members):
# fill gaps in the middle
members = list(sorted(members, key=lambda x: x.off))
last_end = 0
for n in range(len(members)):
member = members[n]
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if member.off > last_end:
members.append(Member('*UNKNOWN*', last_end, member.off - last_end))
last_end = member.off + member.size
if struct_gaps and len(members):
# fill gap at the end
members = list(sorted(members, key=lambda x: x.off))
last = members[-1]
last_end = last.off + last.size
if byte_size > last_end:
members.append(Member('*UNKNOWN*', last_end, byte_size - last_end))
def expand_members(entry, members):
if len(members) == 0:
grefs.append(entry)
else:
for member in members:
grefs.append(Entry(entry.name + '.' + member.name,
entry.loc + member.off, member.size))
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# likely string, remove one dimension
if byte_size == 1 and len(array_dim) > 1:
byte_size *= array_dim.pop()
if len(array_dim) == 0 or (len(array_dim) == 1 and array_dim[0] == 1):
# plain entry
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expand_members(Entry(name, loc, byte_size), members)
elif len(array_dim) == 1 and byte_size == 1:
# likely string, avoid expansion
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grefs.append(Entry(name + '[]', loc, array_dim[0]))
else:
# expand array entries
array_pos = loc
array_loc = [0] * len(array_dim)
while True:
# location index
sfx = ''
for d in range(len(array_dim)):
sfx += '[{}]'.format(array_loc[d])
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expand_members(Entry(name + sfx, array_pos, byte_size), members)
# advance
if array_inc(array_loc, array_dim):
break
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array_pos += byte_size
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return grefs
def decode_dump(path):
fd = open(path, 'r')
if fd is None:
return None
buf_addr = None # starting address
buf_data = None # data
for line in fd:
tokens = line.split(maxsplit=1)
if len(tokens) == 0 or tokens[0] == 'ok':
break
elif len(tokens) < 2 or tokens[0] == 'D2':
continue
addr = int.from_bytes(bytes.fromhex(tokens[0]), 'big')
data = bytes.fromhex(tokens[1])
if buf_addr is None:
buf_addr = addr
buf_data = data
else:
# grow buffer as needed
if addr < buf_addr:
buf_data = FILL_BYTE * (buf_addr - addr)
buf_addr = addr
addr_end = addr + len(data)
buf_end = buf_addr + len(buf_data)
if addr_end > buf_end:
buf_data += FILL_BYTE * (addr_end - buf_end)
# replace new part
rep_start = addr - buf_addr
rep_end = rep_start + len(data)
buf_data = buf_data[:rep_start] + data + buf_data[rep_end:]
return (buf_addr, buf_data)
def annotate_refs(grefs, addr, data, width=46, gaps=True, overlaps=True):
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last_end = None
for entry in grefs:
if entry.loc < addr:
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continue
if entry.loc + entry.size > addr + len(data):
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continue
pos = entry.loc-addr
end_pos = pos + entry.size
buf = data[pos:end_pos]
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buf_repr = ''
if len(buf) in [1, 2, 4]:
# attempt to decode as integers
buf_repr += ' I:' + str(int.from_bytes(buf, 'little')).rjust(10)
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if len(buf) in [4, 8]:
# attempt to decode as floats
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typ = 'f' if len(buf) == 4 else 'd'
buf_repr += ' F:' + '{:10.3f}'.format(unpack(typ, buf)[0])
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if last_end is not None:
if gaps and last_end < pos:
# decode gaps
gap_size = pos - last_end
gap_buf = data[last_end:pos]
print('{:04x} {} {:4} R:{}'.format(addr+last_end, "*UNKNOWN*".ljust(width),
gap_size, gap_buf.hex()))
if overlaps and last_end > pos + 1:
gap_size = pos - last_end
print('{:04x} {} {:4}'.format(addr+last_end, "*OVERLAP*".ljust(width), gap_size))
print('{:04x} {} {:4}{} R:{}'.format(entry.loc, entry.name.ljust(width),
entry.size, buf_repr, buf.hex()))
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last_end = end_pos
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def print_map(grefs):
print('OFFSET\tSIZE\tNAME')
for entry in grefs:
print('{:x}\t{}\t{}'.format(entry.loc, entry.size, entry.name))
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def main():
ap = argparse.ArgumentParser(description="""
Generate a symbol table map starting directly from an ELF
firmware with DWARF2 debugging information.
When used along with a memory dump obtained from the D2 g-code,
show the value of each symbol which is within the address range.
""")
ap.add_argument('elf', help='ELF file containing DWARF2 debugging information')
ap.add_argument('--no-gaps', action='store_true',
help='do not dump memory inbetween known symbols')
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ap.add_argument('--no-expand-structs', action='store_true',
help='do not decode structure data')
ap.add_argument('--overlaps', action='store_true',
help='annotate overlaps greater than 1 byte')
ap.add_argument('--name-width', type=int, default=46,
help='set name column width')
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g = ap.add_mutually_exclusive_group(required=True)
g.add_argument('dump', nargs='?', help='RAM dump obtained from D2 g-code')
g.add_argument('--map', action='store_true', help='dump global memory map')
args = ap.parse_args()
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grefs = get_elf_globals(args.elf, expand_structs=not args.no_expand_structs)
grefs = list(sorted(grefs, key=lambda x: x.loc))
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if args.dump is None:
print_map(grefs)
else:
addr, data = decode_dump(args.dump)
annotate_refs(grefs, addr, data,
width=args.name_width,
gaps=not args.no_gaps,
overlaps=args.overlaps)
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if __name__ == '__main__':
exit(main())