1 //===-- RegisterContextPOSIX_arm64.cpp --------------------------*- C++ -*-===//
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
7 //===----------------------------------------------------------------------===//
13 #include "lldb/Target/Process.h"
14 #include "lldb/Target/Target.h"
15 #include "lldb/Target/Thread.h"
16 #include "lldb/Utility/DataBufferHeap.h"
17 #include "lldb/Utility/DataExtractor.h"
18 #include "lldb/Utility/Endian.h"
19 #include "lldb/Utility/RegisterValue.h"
20 #include "lldb/Utility/Scalar.h"
21 #include "llvm/Support/Compiler.h"
23 #include "RegisterContextPOSIX_arm64.h"
26 using namespace lldb_private;
28 // ARM64 general purpose registers.
29 const uint32_t g_gpr_regnums_arm64[] = {
30 gpr_x0_arm64, gpr_x1_arm64, gpr_x2_arm64, gpr_x3_arm64,
31 gpr_x4_arm64, gpr_x5_arm64, gpr_x6_arm64, gpr_x7_arm64,
32 gpr_x8_arm64, gpr_x9_arm64, gpr_x10_arm64, gpr_x11_arm64,
33 gpr_x12_arm64, gpr_x13_arm64, gpr_x14_arm64, gpr_x15_arm64,
34 gpr_x16_arm64, gpr_x17_arm64, gpr_x18_arm64, gpr_x19_arm64,
35 gpr_x20_arm64, gpr_x21_arm64, gpr_x22_arm64, gpr_x23_arm64,
36 gpr_x24_arm64, gpr_x25_arm64, gpr_x26_arm64, gpr_x27_arm64,
37 gpr_x28_arm64, gpr_fp_arm64, gpr_lr_arm64, gpr_sp_arm64,
38 gpr_pc_arm64, gpr_cpsr_arm64, gpr_w0_arm64, gpr_w1_arm64,
39 gpr_w2_arm64, gpr_w3_arm64, gpr_w4_arm64, gpr_w5_arm64,
40 gpr_w6_arm64, gpr_w7_arm64, gpr_w8_arm64, gpr_w9_arm64,
41 gpr_w10_arm64, gpr_w11_arm64, gpr_w12_arm64, gpr_w13_arm64,
42 gpr_w14_arm64, gpr_w15_arm64, gpr_w16_arm64, gpr_w17_arm64,
43 gpr_w18_arm64, gpr_w19_arm64, gpr_w20_arm64, gpr_w21_arm64,
44 gpr_w22_arm64, gpr_w23_arm64, gpr_w24_arm64, gpr_w25_arm64,
45 gpr_w26_arm64, gpr_w27_arm64, gpr_w28_arm64,
46 LLDB_INVALID_REGNUM // register sets need to end with this flag
48 static_assert(((sizeof g_gpr_regnums_arm64 / sizeof g_gpr_regnums_arm64[0]) -
49 1) == k_num_gpr_registers_arm64,
50 "g_gpr_regnums_arm64 has wrong number of register infos");
52 // ARM64 floating point registers.
53 static const uint32_t g_fpu_regnums_arm64[] = {
54 fpu_v0_arm64, fpu_v1_arm64, fpu_v2_arm64, fpu_v3_arm64,
55 fpu_v4_arm64, fpu_v5_arm64, fpu_v6_arm64, fpu_v7_arm64,
56 fpu_v8_arm64, fpu_v9_arm64, fpu_v10_arm64, fpu_v11_arm64,
57 fpu_v12_arm64, fpu_v13_arm64, fpu_v14_arm64, fpu_v15_arm64,
58 fpu_v16_arm64, fpu_v17_arm64, fpu_v18_arm64, fpu_v19_arm64,
59 fpu_v20_arm64, fpu_v21_arm64, fpu_v22_arm64, fpu_v23_arm64,
60 fpu_v24_arm64, fpu_v25_arm64, fpu_v26_arm64, fpu_v27_arm64,
61 fpu_v28_arm64, fpu_v29_arm64, fpu_v30_arm64, fpu_v31_arm64,
62 fpu_s0_arm64, fpu_s1_arm64, fpu_s2_arm64, fpu_s3_arm64,
63 fpu_s4_arm64, fpu_s5_arm64, fpu_s6_arm64, fpu_s7_arm64,
64 fpu_s8_arm64, fpu_s9_arm64, fpu_s10_arm64, fpu_s11_arm64,
65 fpu_s12_arm64, fpu_s13_arm64, fpu_s14_arm64, fpu_s15_arm64,
66 fpu_s16_arm64, fpu_s17_arm64, fpu_s18_arm64, fpu_s19_arm64,
67 fpu_s20_arm64, fpu_s21_arm64, fpu_s22_arm64, fpu_s23_arm64,
68 fpu_s24_arm64, fpu_s25_arm64, fpu_s26_arm64, fpu_s27_arm64,
69 fpu_s28_arm64, fpu_s29_arm64, fpu_s30_arm64, fpu_s31_arm64,
71 fpu_d0_arm64, fpu_d1_arm64, fpu_d2_arm64, fpu_d3_arm64,
72 fpu_d4_arm64, fpu_d5_arm64, fpu_d6_arm64, fpu_d7_arm64,
73 fpu_d8_arm64, fpu_d9_arm64, fpu_d10_arm64, fpu_d11_arm64,
74 fpu_d12_arm64, fpu_d13_arm64, fpu_d14_arm64, fpu_d15_arm64,
75 fpu_d16_arm64, fpu_d17_arm64, fpu_d18_arm64, fpu_d19_arm64,
76 fpu_d20_arm64, fpu_d21_arm64, fpu_d22_arm64, fpu_d23_arm64,
77 fpu_d24_arm64, fpu_d25_arm64, fpu_d26_arm64, fpu_d27_arm64,
78 fpu_d28_arm64, fpu_d29_arm64, fpu_d30_arm64, fpu_d31_arm64,
79 fpu_fpsr_arm64, fpu_fpcr_arm64,
80 LLDB_INVALID_REGNUM // register sets need to end with this flag
82 static_assert(((sizeof g_fpu_regnums_arm64 / sizeof g_fpu_regnums_arm64[0]) -
83 1) == k_num_fpr_registers_arm64,
84 "g_fpu_regnums_arm64 has wrong number of register infos");
86 // Number of register sets provided by this context.
87 enum { k_num_register_sets = 2 };
89 // Register sets for ARM64.
90 static const lldb_private::RegisterSet g_reg_sets_arm64[k_num_register_sets] = {
91 {"General Purpose Registers", "gpr", k_num_gpr_registers_arm64,
93 {"Floating Point Registers", "fpu", k_num_fpr_registers_arm64,
94 g_fpu_regnums_arm64}};
96 bool RegisterContextPOSIX_arm64::IsGPR(unsigned reg) {
97 return reg <= m_reg_info.last_gpr; // GPR's come first.
100 bool RegisterContextPOSIX_arm64::IsFPR(unsigned reg) {
101 return (m_reg_info.first_fpr <= reg && reg <= m_reg_info.last_fpr);
104 RegisterContextPOSIX_arm64::RegisterContextPOSIX_arm64(
105 lldb_private::Thread &thread, uint32_t concrete_frame_idx,
106 lldb_private::RegisterInfoInterface *register_info)
107 : lldb_private::RegisterContext(thread, concrete_frame_idx) {
108 m_register_info_up.reset(register_info);
110 switch (register_info->m_target_arch.GetMachine()) {
111 case llvm::Triple::aarch64:
112 case llvm::Triple::aarch64_32:
113 m_reg_info.num_registers = k_num_registers_arm64;
114 m_reg_info.num_gpr_registers = k_num_gpr_registers_arm64;
115 m_reg_info.num_fpr_registers = k_num_fpr_registers_arm64;
116 m_reg_info.last_gpr = k_last_gpr_arm64;
117 m_reg_info.first_fpr = k_first_fpr_arm64;
118 m_reg_info.last_fpr = k_last_fpr_arm64;
119 m_reg_info.first_fpr_v = fpu_v0_arm64;
120 m_reg_info.last_fpr_v = fpu_v31_arm64;
121 m_reg_info.gpr_flags = gpr_cpsr_arm64;
124 assert(false && "Unhandled target architecture.");
128 ::memset(&m_fpr, 0, sizeof m_fpr);
131 RegisterContextPOSIX_arm64::~RegisterContextPOSIX_arm64() {}
133 void RegisterContextPOSIX_arm64::Invalidate() {}
135 void RegisterContextPOSIX_arm64::InvalidateAllRegisters() {}
137 unsigned RegisterContextPOSIX_arm64::GetRegisterOffset(unsigned reg) {
138 assert(reg < m_reg_info.num_registers && "Invalid register number.");
139 return GetRegisterInfo()[reg].byte_offset;
142 unsigned RegisterContextPOSIX_arm64::GetRegisterSize(unsigned reg) {
143 assert(reg < m_reg_info.num_registers && "Invalid register number.");
144 return GetRegisterInfo()[reg].byte_size;
147 size_t RegisterContextPOSIX_arm64::GetRegisterCount() {
148 size_t num_registers =
149 m_reg_info.num_gpr_registers + m_reg_info.num_fpr_registers;
150 return num_registers;
153 size_t RegisterContextPOSIX_arm64::GetGPRSize() {
154 return m_register_info_up->GetGPRSize();
157 const lldb_private::RegisterInfo *
158 RegisterContextPOSIX_arm64::GetRegisterInfo() {
159 // Commonly, this method is overridden and g_register_infos is copied and
160 // specialized. So, use GetRegisterInfo() rather than g_register_infos in
162 return m_register_info_up->GetRegisterInfo();
165 const lldb_private::RegisterInfo *
166 RegisterContextPOSIX_arm64::GetRegisterInfoAtIndex(size_t reg) {
167 if (reg < m_reg_info.num_registers)
168 return &GetRegisterInfo()[reg];
173 size_t RegisterContextPOSIX_arm64::GetRegisterSetCount() {
175 for (size_t set = 0; set < k_num_register_sets; ++set) {
176 if (IsRegisterSetAvailable(set))
183 const lldb_private::RegisterSet *
184 RegisterContextPOSIX_arm64::GetRegisterSet(size_t set) {
185 if (IsRegisterSetAvailable(set)) {
186 switch (m_register_info_up->m_target_arch.GetMachine()) {
187 case llvm::Triple::aarch64:
188 case llvm::Triple::aarch64_32:
189 return &g_reg_sets_arm64[set];
191 assert(false && "Unhandled target architecture.");
198 const char *RegisterContextPOSIX_arm64::GetRegisterName(unsigned reg) {
199 assert(reg < m_reg_info.num_registers && "Invalid register offset.");
200 return GetRegisterInfo()[reg].name;
203 lldb::ByteOrder RegisterContextPOSIX_arm64::GetByteOrder() {
204 // Get the target process whose privileged thread was used for the register
206 lldb::ByteOrder byte_order = lldb::eByteOrderInvalid;
207 lldb_private::Process *process = CalculateProcess().get();
210 byte_order = process->GetByteOrder();
214 bool RegisterContextPOSIX_arm64::IsRegisterSetAvailable(size_t set_index) {
215 return set_index < k_num_register_sets;
218 // Used when parsing DWARF and EH frame information and any other object file
219 // sections that contain register numbers in them.
220 uint32_t RegisterContextPOSIX_arm64::ConvertRegisterKindToRegisterNumber(
221 lldb::RegisterKind kind, uint32_t num) {
222 const uint32_t num_regs = GetRegisterCount();
224 assert(kind < lldb::kNumRegisterKinds);
225 for (uint32_t reg_idx = 0; reg_idx < num_regs; ++reg_idx) {
226 const lldb_private::RegisterInfo *reg_info =
227 GetRegisterInfoAtIndex(reg_idx);
229 if (reg_info->kinds[kind] == num)
233 return LLDB_INVALID_REGNUM;