Mercurial > hg > CbC > CbC_llvm
view lldb/examples/python/operating_system.py @ 252:1f2b6ac9f198 llvm-original
LLVM16-1
| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Fri, 18 Aug 2023 09:04:13 +0900 |
| parents | 79ff65ed7e25 |
| children |
line wrap: on
line source
#!/usr/bin/env python import lldb import struct class OperatingSystemPlugIn(object): """Class that provides data for an instance of a LLDB 'OperatingSystemPython' plug-in class""" def __init__(self, process): """Initialization needs a valid.SBProcess object. This plug-in will get created after a live process is valid and has stopped for the first time.""" self.process = None self.registers = None self.threads = None if isinstance(process, lldb.SBProcess) and process.IsValid(): self.process = process self.threads = None # Will be an dictionary containing info for each thread def get_target(self): # NOTE: Don't use "lldb.target" when trying to get your target as the "lldb.target" # tracks the current target in the LLDB command interpreter which isn't the # correct thing to use for this plug-in. return self.process.target def create_thread(self, tid, context): if tid == 0x444444444: thread_info = { "tid": tid, "name": "four", "queue": "queue4", "state": "stopped", "stop_reason": "none", } self.threads.append(thread_info) return thread_info return None def get_thread_info(self): if not self.threads: # The sample dictionary below shows the values that can be returned for a thread # tid => thread ID (mandatory) # name => thread name (optional key/value pair) # queue => thread dispatch queue name (optional key/value pair) # state => thred state (mandatory, set to 'stopped' for now) # stop_reason => thread stop reason. (mandatory, usually set to 'none') # Possible values include: # 'breakpoint' if the thread is stopped at a breakpoint # 'none' thread is just stopped because the process is stopped # 'trace' the thread just single stepped # The usual value for this while threads are in memory is 'none' # register_data_addr => the address of the register data in memory (optional key/value pair) # Specifying this key/value pair for a thread will avoid a call to get_register_data() # and can be used when your registers are in a thread context structure that is contiguous # in memory. Don't specify this if your register layout in memory doesn't match the layout # described by the dictionary returned from a call to the # get_register_info() method. self.threads = [ { "tid": 0x111111111, "name": "one", "queue": "queue1", "state": "stopped", "stop_reason": "breakpoint", }, { "tid": 0x222222222, "name": "two", "queue": "queue2", "state": "stopped", "stop_reason": "none", }, { "tid": 0x333333333, "name": "three", "queue": "queue3", "state": "stopped", "stop_reason": "trace", "register_data_addr": 0x100000000, }, ] return self.threads def get_register_info(self): if self.registers is None: self.registers = dict() triple = self.process.target.triple if triple: arch = triple.split("-")[0] if arch == "x86_64": self.registers["sets"] = ["GPR", "FPU", "EXC"] self.registers["registers"] = [ { "name": "rax", "bitsize": 64, "offset": 0, "encoding": "uint", "format": "hex", "set": 0, "gcc": 0, "dwarf": 0, }, { "name": "rbx", "bitsize": 64, "offset": 8, "encoding": "uint", "format": "hex", "set": 0, "gcc": 3, "dwarf": 3, }, { "name": "rcx", "bitsize": 64, "offset": 16, "encoding": "uint", "format": "hex", "set": 0, "gcc": 2, "dwarf": 2, "generic": "arg4", "alt-name": "arg4", }, { "name": "rdx", "bitsize": 64, "offset": 24, "encoding": "uint", "format": "hex", "set": 0, "gcc": 1, "dwarf": 1, "generic": "arg3", "alt-name": "arg3", }, { "name": "rdi", "bitsize": 64, "offset": 32, "encoding": "uint", "format": "hex", "set": 0, "gcc": 5, "dwarf": 5, "generic": "arg1", "alt-name": "arg1", }, { "name": "rsi", "bitsize": 64, "offset": 40, "encoding": "uint", "format": "hex", "set": 0, "gcc": 4, "dwarf": 4, "generic": "arg2", "alt-name": "arg2", }, { "name": "rbp", "bitsize": 64, "offset": 48, "encoding": "uint", "format": "hex", "set": 0, "gcc": 6, "dwarf": 6, "generic": "fp", "alt-name": "fp", }, { "name": "rsp", "bitsize": 64, "offset": 56, "encoding": "uint", "format": "hex", "set": 0, "gcc": 7, "dwarf": 7, "generic": "sp", "alt-name": "sp", }, { "name": "r8", "bitsize": 64, "offset": 64, "encoding": "uint", "format": "hex", "set": 0, "gcc": 8, "dwarf": 8, "generic": "arg5", "alt-name": "arg5", }, { "name": "r9", "bitsize": 64, "offset": 72, "encoding": "uint", "format": "hex", "set": 0, "gcc": 9, "dwarf": 9, "generic": "arg6", "alt-name": "arg6", }, { "name": "r10", "bitsize": 64, "offset": 80, "encoding": "uint", "format": "hex", "set": 0, "gcc": 10, "dwarf": 10, }, { "name": "r11", "bitsize": 64, "offset": 88, "encoding": "uint", "format": "hex", "set": 0, "gcc": 11, "dwarf": 11, }, { "name": "r12", "bitsize": 64, "offset": 96, "encoding": "uint", "format": "hex", "set": 0, "gcc": 12, "dwarf": 12, }, { "name": "r13", "bitsize": 64, "offset": 104, "encoding": "uint", "format": "hex", "set": 0, "gcc": 13, "dwarf": 13, }, { "name": "r14", "bitsize": 64, "offset": 112, "encoding": "uint", "format": "hex", "set": 0, "gcc": 14, "dwarf": 14, }, { "name": "r15", "bitsize": 64, "offset": 120, "encoding": "uint", "format": "hex", "set": 0, "gcc": 15, "dwarf": 15, }, { "name": "rip", "bitsize": 64, "offset": 128, "encoding": "uint", "format": "hex", "set": 0, "gcc": 16, "dwarf": 16, "generic": "pc", "alt-name": "pc", }, { "name": "rflags", "bitsize": 64, "offset": 136, "encoding": "uint", "format": "hex", "set": 0, "generic": "flags", "alt-name": "flags", }, { "name": "cs", "bitsize": 64, "offset": 144, "encoding": "uint", "format": "hex", "set": 0, }, { "name": "fs", "bitsize": 64, "offset": 152, "encoding": "uint", "format": "hex", "set": 0, }, { "name": "gs", "bitsize": 64, "offset": 160, "encoding": "uint", "format": "hex", "set": 0, }, ] return self.registers def get_register_data(self, tid): if tid == 0x111111111: return struct.pack( "21Q", 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, ) elif tid == 0x222222222: return struct.pack( "21Q", 11, 12, 13, 14, 15, 16, 17, 18, 19, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, ) elif tid == 0x333333333: return struct.pack( "21Q", 21, 22, 23, 24, 25, 26, 27, 28, 29, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, ) elif tid == 0x444444444: return struct.pack( "21Q", 31, 32, 33, 34, 35, 36, 37, 38, 39, 310, 311, 312, 313, 314, 315, 316, 317, 318, 319, 320, 321, ) else: return struct.pack( "21Q", 41, 42, 43, 44, 45, 46, 47, 48, 49, 410, 411, 412, 413, 414, 415, 416, 417, 418, 419, 420, 421, ) return None