Google Git
Sign in
llvm / llvm-project / 3e32f827e2647b6fa8022cbc76eac384b3c4e2b4 / . / lldb / examples / python / armv7_cortex_m_target_defintion.py
blob: e8f39ccb09e8bebf70d5e410ae09682230b1b9f3 [file] [log] [blame]
#!/usr/bin/env python
#===-- armv7_cortex_m_target_definition.py.py ------------------*- C++ -*-===//
#
# The LLVM Compiler Infrastructure
#
# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
# See https://llvm.org/LICENSE.txt for license information.
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
#
#===----------------------------------------------------------------------===//
#----------------------------------------------------------------------
# DESCRIPTION
#
# This file can be used with the following setting:
# plugin.process.gdb-remote.target-definition-file
# This setting should be used when you are trying to connect to a
# remote GDB server that doesn't support any of the register discovery
# packets that LLDB normally uses.
#
# Why is this necessary? LLDB doesn't require a new build of LLDB that
# targets each new architecture you will debug with. Instead, all
# architectures are supported and LLDB relies on extra GDB server
# packets to discover the target we are connecting to so that is can
# show the right registers for each target. This allows the GDB server
# to change and add new registers without requiring a new LLDB build
# just so we can see new registers.
#
# This file implements the x86_64 registers for the darwin version of
# GDB and allows you to connect to servers that use this register set.
#
# USAGE
#
# (lldb) settings set plugin.process.gdb-remote.target-definition-file /path/to/armv7_cortex_m_target_defintion.py
# (lldb) gdb-remote other.baz.com:1234
#
# The target definition file will get used if and only if the
# qRegisterInfo packets are not supported when connecting to a remote
# GDB server.
#----------------------------------------------------------------------
from lldb import *
# DWARF register numbers
name_to_dwarf_regnum = {
'r0' : 0 ,
'r1' : 1 ,
'r2' : 2 ,
'r3' : 3 ,
'r4' : 4 ,
'r5' : 5 ,
'r6' : 6 ,
'r7' : 7 ,
'r9' : 8 ,
'r10' : 9 ,
'r11' : 10,
'r12' : 11,
'sp' : 12,
'lr' : 13,
'pc' : 14,
'r15' : 15,
'xpsr' : 16,
};
name_to_generic_regnum = {
'pc' : LLDB_REGNUM_GENERIC_PC,
'sp' : LLDB_REGNUM_GENERIC_SP,
'r7' : LLDB_REGNUM_GENERIC_FP,
'lr' : LLDB_REGNUM_GENERIC_RA,
'r0' : LLDB_REGNUM_GENERIC_ARG1,
'r1' : LLDB_REGNUM_GENERIC_ARG2,
'r2' : LLDB_REGNUM_GENERIC_ARG3,
'r3' : LLDB_REGNUM_GENERIC_ARG4
};
def get_reg_num (reg_num_dict, reg_name):
if reg_name in reg_num_dict:
return reg_num_dict[reg_name]
return LLDB_INVALID_REGNUM
def get_reg_num (reg_num_dict, reg_name):
if reg_name in reg_num_dict:
return reg_num_dict[reg_name]
return LLDB_INVALID_REGNUM
armv7_register_infos = [
{ 'name':'r0' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'arg1' },
{ 'name':'r1' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'arg2' },
{ 'name':'r2' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'arg3' },
{ 'name':'r3' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'arg4' },
{ 'name':'r4' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'r5' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'r6' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'r7' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'fp' },
{ 'name':'r8' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'r9' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'r10' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'r11' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'r12' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo },
{ 'name':'sp' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'r13' },
{ 'name':'lr' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'r14' },
{ 'name':'pc' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'r15' },
{ 'name':'xpsr' , 'set':0, 'bitsize':32 , 'encoding':eEncodingUint , 'format':eFormatAddressInfo, 'alt-name':'cpsr' },
];
g_target_definition = None
def get_target_definition ():
global g_target_definition
if g_target_definition == None:
g_target_definition = {}
offset = 0
for reg_info in armv7_register_infos:
reg_name = reg_info['name']
if 'slice' not in reg_info and 'composite' not in reg_info:
reg_info['offset'] = offset
offset += reg_info['bitsize'] / 8
# Set the DWARF/eh_frame register number for this register if it has one
reg_num = get_reg_num(name_to_dwarf_regnum, reg_name)
if reg_num != LLDB_INVALID_REGNUM:
reg_info['gcc'] = reg_num
reg_info['ehframe'] = reg_num
# Set the generic register number for this register if it has one
reg_num = get_reg_num(name_to_generic_regnum, reg_name)
if reg_num != LLDB_INVALID_REGNUM:
reg_info['generic'] = reg_num
g_target_definition['sets'] = ['General Purpose Registers']
g_target_definition['registers'] = armv7_register_infos
g_target_definition['host-info'] = { 'triple' : 'armv7em--', 'endian': eByteOrderLittle }
g_target_definition['g-packet-size'] = offset
return g_target_definition
def get_dynamic_setting(target, setting_name):
if setting_name == 'gdb-server-target-definition':
return get_target_definition()