import subprocess
import re
+# See ETMv3 Signal Protocol table 7-11: 'Encoding of Exception[8:0]'.
+exc_names = [
+ 'No exception', 'IRQ1', 'IRQ2', 'IRQ3', 'IRQ4', 'IRQ5', 'IRQ6', 'IRQ7',
+ 'IRQ0', 'UsageFault', 'NMI', 'SVC', 'DebugMon', 'MemManage', 'PendSV',
+ 'SysTick', 'Reserved', 'Reset', 'BusFault', 'Reserved', 'Reserved'
+]
+
+for i in range(8, 496):
+ exc_names.append('IRQ%d' % i)
+
def parse_varint(bytes):
'''Parse an integer where the top bit is the continuation bit.
Returns value and number of parsed bytes.'''
if bytes[addrlen-1] & 0x80 != 0x00:
return None # Branch address not complete.
+ addr_bits = 7 * addrlen
+
have_exc_info = False
if branch_enc == 'original':
if addrlen == 5 and bytes[4] & 0x40:
have_exc_info = True
elif branch_enc == 'alternative':
- if addrlen >= 2 and bytes[addrlen - 1] & 0x40:
+ addr_bits -= 1 # Top bit of address indicates exc_info.
+ if addrlen >= 2 and addr & (1 << addr_bits):
have_exc_info = True
- addr &= ~(1 << (addrlen * 7 - 1))
+ addr &= ~(1 << addr_bits)
exc_info = None
if have_exc_info:
# Shift the address according to current CPU state.
if cpu_state == 'arm':
addr = (addr & 0xFFFFFFFE) << 1
+ addr_bits += 1
elif cpu_state == 'thumb':
addr = addr & 0xFFFFFFFE
elif cpu_state == 'jazelle':
addr = (addr & 0xFFFFFFFFE) >> 1
+ addr_bits -= 1
else:
raise NotImplementedError('Unhandled state: ' + cpu_state)
# If the address wasn't full, fill in with the previous address.
if addrlen < 5:
- bits = 7 * addrlen
- addr |= ref_addr & (0xFFFFFFFF << bits)
+ addr |= ref_addr & (0xFFFFFFFF << addr_bits)
return addr, addrlen, cpu_state, exc_info
{'id': 'objdump', 'desc': 'objdump path',
'default': 'arm-none-eabi-objdump'},
{'id': 'objdump_opts', 'desc': 'objdump options',
- 'default': '-lS'},
+ 'default': '-lSC'},
{'id': 'elffile', 'desc': '.elf path',
'default': ''},
{'id': 'branch_enc', 'desc': 'Branch encoding',
instpat = re.compile('\s*([0-9a-fA-F]+):\t+([0-9a-fA-F ]+)\t+([a-zA-Z][^;]+)\s*;?.*')
branchpat = re.compile('(b|bl|b..|bl..|cbnz|cbz)(?:\.[wn])?\s+(?:r[0-9]+,\s*)?([0-9a-fA-F]+)')
filepat = re.compile('[^\s]+[/\\\\]([a-zA-Z0-9._-]+:[0-9]+)(?:\s.*)?')
- funcpat = re.compile('[0-9a-fA-F]+\s*<([a-zA-Z0-9_-]+)>:.*')
+ funcpat = re.compile('[0-9a-fA-F]+\s*<([^>]+)>:.*')
prev_src = ''
prev_file = ''
m = funcpat.match(line)
if m:
prev_func = m.group(1)
+ prev_src = None
else:
m = filepat.match(line)
if m:
prev_file = m.group(1)
+ prev_src = None
else:
prev_src = line.strip()
instructions.
'''
+ if len(exec_status) == 0:
+ return
+
tdelta = max(1, (self.prevsample - self.startsample) / len(exec_status))
for i, exec_status in enumerate(exec_status):
return [0, ['Synchronization']]
def handle_exception_exit(self, buf):
- return [2, 'Exception exit']
+ return [2, ['Exception exit']]
def handle_exception_entry(self, buf):
- return [1, 'Exception entry']
+ return [2, ['Exception entry']]
def handle_i_sync(self, buf):
contextid_bytes = 0 # This is the default ETM config.
txt += ', to %s state' % cpu_state
self.cpu_state = cpu_state
+ annidx = 1
+
if exc_info:
+ annidx = 2
ns, exc, cancel, altisa, hyp, resume = exc_info
if ns:
txt += ', to non-secure state'
if exc:
- # TODO: Parse the exception value to text.
- txt += ', exception 0x%02x' % exc
+ if exc < len(exc_names):
+ txt += ', exception %s' % exc_names[exc]
+ else:
+ txt += ', exception 0x%02x' % exc
if cancel:
txt += ', instr cancelled'
if altisa:
if resume:
txt += ', instr resume 0x%02x' % resume
- return [1, ['Branch to 0x%08x%s' % (addr, txt),
- 'B 0x%08x%s' % (addr, txt)]]
+ return [annidx, ['Branch to 0x%08x%s' % (addr, txt),
+ 'B 0x%08x%s' % (addr, txt)]]
def decode(self, ss, es, data):
ptype, rxtx, pdata = data