182 lines
5.6 KiB
Python
182 lines
5.6 KiB
Python
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# This uses pyocd to control a Cortex M core, set a breakpoint and dump the stack.
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# It is expected that you modify it for your particular case.
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from pyocd.core.helpers import ConnectHelper
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from pyocd.core.target import Target
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from pyocd.debug.elf.symbols import ELFSymbolProvider
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from pyocd.flash.file_programmer import FileProgrammer
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import logging
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# logging.basicConfig(level=logging.DEBUG)
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import sys
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import time
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board = sys.argv[1]
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# Connect to the target.
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with ConnectHelper.session_with_chosen_probe(target_override="nrf52840") as session:
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target = session.target
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# Set ELF file on target.
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filename = f"build-{board}/firmware.elf"
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target.elf = filename
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e = target.elf._elf
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# Look up address of reset_into_safe_mode().
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provider = ELFSymbolProvider(target.elf)
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addr = provider.get_symbol_value("reset_into_safe_mode")
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print("reset_into_safe_mode() address: 0x%X" % addr)
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for section in target.elf.sections:
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print(section)
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print()
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print("loading", filename)
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# FileProgrammer(session).program(filename, file_format="elf")
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print("load done")
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# Set breakpoint.
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target.set_breakpoint(addr)
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# target.set_watchpoint(0x20010558, 4, Target.WatchpointType.WRITE)
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# Reset and run.
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target.reset_and_halt()
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for i in range(1):
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target.resume()
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print("resuming")
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start = time.monotonic()
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# Wait 10s until breakpoint is hit.
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while target.get_state() != Target.State.HALTED and time.monotonic() - start < 10:
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pass
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# value = target.read_memory(0x20010558)
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# print(f"{value:08x}")
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# time.sleep(2)
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target.halt()
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# print("_sidata", hex(provider.get_symbol_value("_sidata")))
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# flash_start = 0x000affe8
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# ram_start = 0x20010000
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# for i in range(0, 0x55c, 4):
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# flash_value = target.read_memory(flash_start + i)
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# value = target.read_memory(ram_start + i)
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# diff = ""
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# if flash_value != value:
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# diff = "*"
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# print(f"{ram_start + i:08x} {flash_value:08x} {value:08x} {diff}")
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# Print PC.
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pc = target.read_core_register("pc")
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print("pc: 0x%X" % pc)
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print(target.elf.symbol_decoder.get_symbol_for_address(pc))
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sp = target.read_core_register("sp")
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print("sp: 0x%X" % sp)
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msp = target.read_core_register("msp")
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print("msp: 0x%X" % msp)
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psp = target.read_core_register("psp")
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print("psp: 0x%X" % psp)
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print(e.has_dwarf_info())
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d = e.get_dwarf_info()
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# print(dir(d))
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aranges = d.get_aranges()
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cu_offset = aranges.cu_offset_at_addr(pc)
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if not cu_offset:
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cu_offset = 0
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main_cu = d.get_CU_at(cu_offset)
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lines = d.line_program_for_CU(main_cu).get_entries()
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lines_by_address = {}
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for line in lines:
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if not line.state:
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# print(line)
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continue
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lines_by_address[line.state.address] = line.state
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call_frames = None
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# if d.has_CFI():
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# print("CFI")
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# call_frames = d.CFI_entries()
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# if d.has_EH_CFI():
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# print("EH CFI")
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# call_frames = d.EH_CFI_entries()
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all_frames = {}
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# for frame in call_frames:
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# decoded = frame.get_decoded()
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# for entry in decoded.table:
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# entry_pc = entry["pc"]
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# all_frames[entry_pc] = decoded
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# for r in d.range_lists().iter_range_lists():
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# print(r)
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if pc in all_frames:
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print(all_frames[pc])
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ad = target.elf.address_decoder
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function = ad.get_function_for_address(pc)
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if function:
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print(" ", function)
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line = ad.get_line_for_address(pc)
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if line:
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print(" ", line)
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mm = target.get_memory_map()
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ram = mm.get_region_for_address(sp)
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if not ram:
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sp_guess = 0x20013BCC
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print("stack pointer bad using 0x{%08x}")
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ram = mm.get_region_for_address(sp_guess)
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stack_address = sp
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offset = 0
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while ram and sp + offset <= ram.end:
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stack_address = sp + offset
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value = target.read_memory(stack_address)
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symbol = target.elf.symbol_decoder.get_symbol_for_address(value)
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print(f"{stack_address:08x} {offset:04x} {value:08x} {symbol}")
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function = ad.get_function_for_address(value)
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if function:
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print(" ", function)
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line = ad.get_line_for_address(value)
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if line:
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print(" ", line)
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# value -= 0x27000
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# if value in all_frames:
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# print(all_frames[value])
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# if value in lines_by_address:
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# print(lines_by_address[value])
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offset += 4
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top_symbol = target.elf.symbol_decoder.get_symbol_for_address(target.read_memory(sp))
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if True or (top_symbol and top_symbol.name == "HardFault_Handler"):
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lr = target.read_core_register("lr")
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print("lr: 0x%08X" % lr)
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cfsr = target.read_memory(0xE000ED28)
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print("cfsr: 0x%08X" % cfsr)
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hfsr = target.read_memory(0xE000ED2C)
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print("hfsr: 0x%08X" % hfsr)
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if hfsr & 0x4000_0000:
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print("hard fault forced")
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bfsr = (cfsr >> 8) & 0xFF
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if bfsr & 0x80 != 0:
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bad_address = target.read_memory(0xE000ED38)
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print(f"bus fault with address 0x{bad_address:08x}")
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bits = ["IBUSERR", "PRECISERR", "IMPRECISERR", "UNSTKERR", "STKERR", "LSPERR"]
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for i, bit in enumerate(bits):
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if bfsr & (1 << i):
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print(bit)
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for i in range(13):
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reg = f"r{i}"
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value = target.read_core_register(reg)
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print(f"{reg} 0x{value:08x}")
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# print(hex(target.read_memory(provider.get_symbol_value("prescaler"))))
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# Remove breakpoint.
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target.remove_breakpoint(addr)
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