1//===-- RegisterContextPOSIXCore_arm64.cpp --------------------------------===//
2//
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
6//
7//===----------------------------------------------------------------------===//
8
9#include "RegisterContextPOSIXCore_arm64.h"
10#include "Plugins/Process/Utility/RegisterInfoPOSIX_arm64.h"
11
12#include "Plugins/Process/Utility/AuxVector.h"
13#include "Plugins/Process/Utility/RegisterFlagsLinux_arm64.h"
14#include "Plugins/Process/elf-core/ProcessElfCore.h"
15#include "Plugins/Process/elf-core/RegisterUtilities.h"
16#include "lldb/Target/Thread.h"
17#include "lldb/Utility/RegisterValue.h"
18
19#include <memory>
20
21using namespace lldb_private;
22
23std::unique_ptr<RegisterContextCorePOSIX_arm64>
24RegisterContextCorePOSIX_arm64::Create(Thread &thread, const ArchSpec &arch,
25 const DataExtractor &gpregset,
26 llvm::ArrayRef<CoreNote> notes) {
27 Flags opt_regsets = RegisterInfoPOSIX_arm64::eRegsetMaskDefault;
28
29 DataExtractor ssve_data =
30 getRegset(Notes: notes, Triple: arch.GetTriple(), RegsetDescs: AARCH64_SSVE_Desc);
31 if (ssve_data.GetByteSize() >= sizeof(sve::user_sve_header))
32 opt_regsets.Set(RegisterInfoPOSIX_arm64::eRegsetMaskSSVE);
33
34 DataExtractor sve_data = getRegset(Notes: notes, Triple: arch.GetTriple(), RegsetDescs: AARCH64_SVE_Desc);
35 if (sve_data.GetByteSize() >= sizeof(sve::user_sve_header))
36 opt_regsets.Set(RegisterInfoPOSIX_arm64::eRegsetMaskSVE);
37
38 // Pointer Authentication register set data is based on struct
39 // user_pac_mask declared in ptrace.h. See reference implementation
40 // in Linux kernel source at arch/arm64/include/uapi/asm/ptrace.h.
41 DataExtractor pac_data = getRegset(Notes: notes, Triple: arch.GetTriple(), RegsetDescs: AARCH64_PAC_Desc);
42 if (pac_data.GetByteSize() >= sizeof(uint64_t) * 2)
43 opt_regsets.Set(RegisterInfoPOSIX_arm64::eRegsetMaskPAuth);
44
45 DataExtractor tls_data = getRegset(Notes: notes, Triple: arch.GetTriple(), RegsetDescs: AARCH64_TLS_Desc);
46 // A valid note will always contain at least one register, "tpidr". It may
47 // expand in future.
48 if (tls_data.GetByteSize() >= sizeof(uint64_t))
49 opt_regsets.Set(RegisterInfoPOSIX_arm64::eRegsetMaskTLS);
50
51 DataExtractor za_data = getRegset(Notes: notes, Triple: arch.GetTriple(), RegsetDescs: AARCH64_ZA_Desc);
52 // Nothing if ZA is not present, just the header if it is disabled.
53 if (za_data.GetByteSize() >= sizeof(sve::user_za_header))
54 opt_regsets.Set(RegisterInfoPOSIX_arm64::eRegsetMaskZA);
55
56 DataExtractor mte_data = getRegset(Notes: notes, Triple: arch.GetTriple(), RegsetDescs: AARCH64_MTE_Desc);
57 if (mte_data.GetByteSize() >= sizeof(uint64_t))
58 opt_regsets.Set(RegisterInfoPOSIX_arm64::eRegsetMaskMTE);
59
60 DataExtractor zt_data = getRegset(Notes: notes, Triple: arch.GetTriple(), RegsetDescs: AARCH64_ZT_Desc);
61 // Although ZT0 can be in a disabled state like ZA can, the kernel reports
62 // its content as 0s in that state. Therefore even a disabled ZT0 will have
63 // a note containing those 0s. ZT0 is a 512 bit / 64 byte register.
64 if (zt_data.GetByteSize() >= 64)
65 opt_regsets.Set(RegisterInfoPOSIX_arm64::eRegsetMaskZT);
66
67 auto register_info_up =
68 std::make_unique<RegisterInfoPOSIX_arm64>(args: arch, args&: opt_regsets);
69 return std::unique_ptr<RegisterContextCorePOSIX_arm64>(
70 new RegisterContextCorePOSIX_arm64(thread, std::move(register_info_up),
71 gpregset, notes));
72}
73
74RegisterContextCorePOSIX_arm64::RegisterContextCorePOSIX_arm64(
75 Thread &thread, std::unique_ptr<RegisterInfoPOSIX_arm64> register_info,
76 const DataExtractor &gpregset, llvm::ArrayRef<CoreNote> notes)
77 : RegisterContextPOSIX_arm64(thread, std::move(register_info)) {
78 ::memset(s: &m_sme_pseudo_regs, c: 0, n: sizeof(m_sme_pseudo_regs));
79
80 ProcessElfCore *process =
81 static_cast<ProcessElfCore *>(thread.GetProcess().get());
82 if (process->GetArchitecture().GetTriple().getOS() == llvm::Triple::Linux) {
83 AuxVector aux_vec(process->GetAuxvData());
84 std::optional<uint64_t> auxv_at_hwcap =
85 aux_vec.GetAuxValue(entry_type: AuxVector::AUXV_AT_HWCAP);
86 std::optional<uint64_t> auxv_at_hwcap2 =
87 aux_vec.GetAuxValue(entry_type: AuxVector::AUXV_AT_HWCAP2);
88
89 m_linux_register_flags.DetectFields(hwcap: auxv_at_hwcap.value_or(u: 0),
90 hwcap2: auxv_at_hwcap2.value_or(u: 0));
91 m_linux_register_flags.UpdateRegisterInfo(reg_info: GetRegisterInfo(),
92 num_regs: GetRegisterCount());
93 }
94
95 m_gpr_data.SetData(data_sp: std::make_shared<DataBufferHeap>(args: gpregset.GetDataStart(),
96 args: gpregset.GetByteSize()));
97 m_gpr_data.SetByteOrder(gpregset.GetByteOrder());
98
99 const llvm::Triple &target_triple =
100 m_register_info_up->GetTargetArchitecture().GetTriple();
101 m_fpr_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: FPR_Desc);
102
103 if (m_register_info_up->IsSSVEPresent()) {
104 m_sve_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: AARCH64_SSVE_Desc);
105 lldb::offset_t flags_offset = 12;
106 uint16_t flags = m_sve_data.GetU32(offset_ptr: &flags_offset);
107 if ((flags & sve::ptrace_regs_mask) == sve::ptrace_regs_sve)
108 m_sve_state = SVEState::Streaming;
109 }
110
111 if (m_sve_state != SVEState::Streaming && m_register_info_up->IsSVEPresent())
112 m_sve_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: AARCH64_SVE_Desc);
113
114 if (m_register_info_up->IsPAuthPresent())
115 m_pac_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: AARCH64_PAC_Desc);
116
117 if (m_register_info_up->IsTLSPresent())
118 m_tls_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: AARCH64_TLS_Desc);
119
120 if (m_register_info_up->IsZAPresent())
121 m_za_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: AARCH64_ZA_Desc);
122
123 if (m_register_info_up->IsMTEPresent())
124 m_mte_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: AARCH64_MTE_Desc);
125
126 if (m_register_info_up->IsZTPresent())
127 m_zt_data = getRegset(Notes: notes, Triple: target_triple, RegsetDescs: AARCH64_ZT_Desc);
128
129 ConfigureRegisterContext();
130}
131
132RegisterContextCorePOSIX_arm64::~RegisterContextCorePOSIX_arm64() = default;
133
134bool RegisterContextCorePOSIX_arm64::ReadGPR() { return true; }
135
136bool RegisterContextCorePOSIX_arm64::ReadFPR() { return false; }
137
138bool RegisterContextCorePOSIX_arm64::WriteGPR() {
139 assert(0);
140 return false;
141}
142
143bool RegisterContextCorePOSIX_arm64::WriteFPR() {
144 assert(0);
145 return false;
146}
147
148const uint8_t *RegisterContextCorePOSIX_arm64::GetSVEBuffer(uint64_t offset) {
149 return m_sve_data.GetDataStart() + offset;
150}
151
152void RegisterContextCorePOSIX_arm64::ConfigureRegisterContext() {
153 if (m_sve_data.GetByteSize() > sizeof(sve::user_sve_header)) {
154 uint64_t sve_header_field_offset = 8;
155 m_sve_vector_length = m_sve_data.GetU16(offset_ptr: &sve_header_field_offset);
156
157 if (m_sve_state != SVEState::Streaming) {
158 sve_header_field_offset = 12;
159 uint16_t sve_header_flags_field =
160 m_sve_data.GetU16(offset_ptr: &sve_header_field_offset);
161 if ((sve_header_flags_field & sve::ptrace_regs_mask) ==
162 sve::ptrace_regs_fpsimd)
163 m_sve_state = SVEState::FPSIMD;
164 else if ((sve_header_flags_field & sve::ptrace_regs_mask) ==
165 sve::ptrace_regs_sve)
166 m_sve_state = SVEState::Full;
167 }
168
169 if (!sve::vl_valid(vl: m_sve_vector_length)) {
170 m_sve_state = SVEState::Disabled;
171 m_sve_vector_length = 0;
172 }
173 } else
174 m_sve_state = SVEState::Disabled;
175
176 if (m_sve_state != SVEState::Disabled)
177 m_register_info_up->ConfigureVectorLengthSVE(
178 sve_vq: sve::vq_from_vl(vl: m_sve_vector_length));
179
180 if (m_sve_state == SVEState::Streaming)
181 m_sme_pseudo_regs.ctrl_reg |= 1;
182
183 if (m_za_data.GetByteSize() >= sizeof(sve::user_za_header)) {
184 lldb::offset_t vlen_offset = 8;
185 uint16_t svl = m_za_data.GetU16(offset_ptr: &vlen_offset);
186 m_sme_pseudo_regs.svg_reg = svl / 8;
187 m_register_info_up->ConfigureVectorLengthZA(za_vq: svl / 16);
188
189 // If there is register data then ZA is active. The size of the note may be
190 // misleading here so we use the size field of the embedded header.
191 lldb::offset_t size_offset = 0;
192 uint32_t size = m_za_data.GetU32(offset_ptr: &size_offset);
193 if (size > sizeof(sve::user_za_header))
194 m_sme_pseudo_regs.ctrl_reg |= 1 << 1;
195 }
196}
197
198uint32_t RegisterContextCorePOSIX_arm64::CalculateSVEOffset(
199 const RegisterInfo *reg_info) {
200 // Start of Z0 data is after GPRs plus 8 bytes of vg register
201 uint32_t sve_reg_offset = LLDB_INVALID_INDEX32;
202 if (m_sve_state == SVEState::FPSIMD) {
203 const uint32_t reg = reg_info->kinds[lldb::eRegisterKindLLDB];
204 sve_reg_offset = sve::ptrace_fpsimd_offset + (reg - GetRegNumSVEZ0()) * 16;
205 } else if (m_sve_state == SVEState::Full ||
206 m_sve_state == SVEState::Streaming) {
207 uint32_t sve_z0_offset = GetGPRSize() + 16;
208 sve_reg_offset =
209 sve::SigRegsOffset() + reg_info->byte_offset - sve_z0_offset;
210 }
211
212 return sve_reg_offset;
213}
214
215bool RegisterContextCorePOSIX_arm64::ReadRegister(const RegisterInfo *reg_info,
216 RegisterValue &value) {
217 Status error;
218 lldb::offset_t offset;
219
220 offset = reg_info->byte_offset;
221 if (offset + reg_info->byte_size <= GetGPRSize()) {
222 value.SetFromMemoryData(reg_info: *reg_info, src: m_gpr_data.GetDataStart() + offset,
223 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle, error);
224 return error.Success();
225 }
226
227 const uint32_t reg = reg_info->kinds[lldb::eRegisterKindLLDB];
228 if (reg == LLDB_INVALID_REGNUM)
229 return false;
230
231 if (IsFPR(reg)) {
232 if (m_sve_state == SVEState::Disabled) {
233 // SVE is disabled take legacy route for FPU register access
234 offset -= GetGPRSize();
235 if (offset < m_fpr_data.GetByteSize()) {
236 value.SetFromMemoryData(reg_info: *reg_info, src: m_fpr_data.GetDataStart() + offset,
237 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle,
238 error);
239 return error.Success();
240 }
241 } else {
242 // FPSR and FPCR will be located right after Z registers in
243 // SVEState::FPSIMD while in SVEState::Full/SVEState::Streaming they will
244 // be located at the end of register data after an alignment correction
245 // based on currently selected vector length.
246 uint32_t sve_reg_num = LLDB_INVALID_REGNUM;
247 if (reg == GetRegNumFPSR()) {
248 sve_reg_num = reg;
249 if (m_sve_state == SVEState::Full || m_sve_state == SVEState::Streaming)
250 offset = sve::PTraceFPSROffset(vq: sve::vq_from_vl(vl: m_sve_vector_length));
251 else if (m_sve_state == SVEState::FPSIMD)
252 offset = sve::ptrace_fpsimd_offset + (32 * 16);
253 } else if (reg == GetRegNumFPCR()) {
254 sve_reg_num = reg;
255 if (m_sve_state == SVEState::Full || m_sve_state == SVEState::Streaming)
256 offset = sve::PTraceFPCROffset(vq: sve::vq_from_vl(vl: m_sve_vector_length));
257 else if (m_sve_state == SVEState::FPSIMD)
258 offset = sve::ptrace_fpsimd_offset + (32 * 16) + 4;
259 } else {
260 // Extract SVE Z register value register number for this reg_info
261 if (reg_info->value_regs &&
262 reg_info->value_regs[0] != LLDB_INVALID_REGNUM)
263 sve_reg_num = reg_info->value_regs[0];
264 offset = CalculateSVEOffset(reg_info: GetRegisterInfoAtIndex(reg: sve_reg_num));
265 }
266
267 assert(sve_reg_num != LLDB_INVALID_REGNUM);
268 assert(offset < m_sve_data.GetByteSize());
269 value.SetFromMemoryData(reg_info: *reg_info, src: GetSVEBuffer(offset),
270 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle,
271 error);
272 }
273 } else if (IsSVE(reg)) {
274 if (IsSVEVG(reg)) {
275 value = GetSVERegVG();
276 return true;
277 }
278
279 switch (m_sve_state) {
280 case SVEState::FPSIMD: {
281 // In FPSIMD state SVE payload mirrors legacy fpsimd struct and so just
282 // copy 16 bytes of v register to the start of z register. All other
283 // SVE register will be set to zero.
284 uint64_t byte_size = 1;
285 uint8_t zeros = 0;
286 const uint8_t *src = &zeros;
287 if (IsSVEZ(reg)) {
288 byte_size = 16;
289 offset = CalculateSVEOffset(reg_info);
290 assert(offset < m_sve_data.GetByteSize());
291 src = GetSVEBuffer(offset);
292 }
293 value.SetFromMemoryData(reg_info: *reg_info, src, src_len: byte_size, src_byte_order: lldb::eByteOrderLittle,
294 error);
295 } break;
296 case SVEState::Full:
297 case SVEState::Streaming:
298 offset = CalculateSVEOffset(reg_info);
299 assert(offset < m_sve_data.GetByteSize());
300 value.SetFromMemoryData(reg_info: *reg_info, src: GetSVEBuffer(offset),
301 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle,
302 error);
303 break;
304 case SVEState::Disabled:
305 default:
306 return false;
307 }
308 } else if (IsPAuth(reg)) {
309 offset = reg_info->byte_offset - m_register_info_up->GetPAuthOffset();
310 assert(offset < m_pac_data.GetByteSize());
311 value.SetFromMemoryData(reg_info: *reg_info, src: m_pac_data.GetDataStart() + offset,
312 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle, error);
313 } else if (IsTLS(reg)) {
314 offset = reg_info->byte_offset - m_register_info_up->GetTLSOffset();
315 assert(offset < m_tls_data.GetByteSize());
316 value.SetFromMemoryData(reg_info: *reg_info, src: m_tls_data.GetDataStart() + offset,
317 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle, error);
318 } else if (IsMTE(reg)) {
319 offset = reg_info->byte_offset - m_register_info_up->GetMTEOffset();
320 assert(offset < m_mte_data.GetByteSize());
321 value.SetFromMemoryData(reg_info: *reg_info, src: m_mte_data.GetDataStart() + offset,
322 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle, error);
323 } else if (IsSME(reg)) {
324 // If you had SME in the process, active or otherwise, there will at least
325 // be a ZA header. No header, no SME at all.
326 if (m_za_data.GetByteSize() < sizeof(sve::user_za_header))
327 return false;
328
329 if (m_register_info_up->IsSMERegZA(reg)) {
330 // Don't use the size of the note to tell whether ZA is enabled. There may
331 // be non-register padding data after the header. Use the embedded
332 // header's size field instead.
333 lldb::offset_t size_offset = 0;
334 uint32_t size = m_za_data.GetU32(offset_ptr: &size_offset);
335 bool za_enabled = size > sizeof(sve::user_za_header);
336
337 size_t za_note_size = m_za_data.GetByteSize();
338 // For a disabled ZA we fake a value of all 0s.
339 if (!za_enabled) {
340 uint64_t svl = m_sme_pseudo_regs.svg_reg * 8;
341 za_note_size = sizeof(sve::user_za_header) + (svl * svl);
342 }
343
344 const uint8_t *src = nullptr;
345 std::vector<uint8_t> disabled_za_data;
346
347 if (za_enabled)
348 src = m_za_data.GetDataStart();
349 else {
350 disabled_za_data.resize(new_size: za_note_size);
351 std::fill(first: disabled_za_data.begin(), last: disabled_za_data.end(), value: 0);
352 src = disabled_za_data.data();
353 }
354
355 value.SetFromMemoryData(reg_info: *reg_info, src: src + sizeof(sve::user_za_header),
356 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle,
357 error);
358 } else if (m_register_info_up->IsSMERegZT(reg)) {
359 value.SetFromMemoryData(reg_info: *reg_info, src: m_zt_data.GetDataStart(),
360 src_len: reg_info->byte_size, src_byte_order: lldb::eByteOrderLittle,
361 error);
362 } else {
363 offset = reg_info->byte_offset - m_register_info_up->GetSMEOffset();
364 assert(offset < sizeof(m_sme_pseudo_regs));
365 // Host endian since these values are derived instead of being read from a
366 // core file note.
367 value.SetFromMemoryData(
368 reg_info: *reg_info, src: reinterpret_cast<uint8_t *>(&m_sme_pseudo_regs) + offset,
369 src_len: reg_info->byte_size, src_byte_order: lldb_private::endian::InlHostByteOrder(), error);
370 }
371 } else
372 return false;
373
374 return error.Success();
375}
376
377bool RegisterContextCorePOSIX_arm64::ReadAllRegisterValues(
378 lldb::WritableDataBufferSP &data_sp) {
379 return false;
380}
381
382bool RegisterContextCorePOSIX_arm64::WriteRegister(const RegisterInfo *reg_info,
383 const RegisterValue &value) {
384 return false;
385}
386
387bool RegisterContextCorePOSIX_arm64::WriteAllRegisterValues(
388 const lldb::DataBufferSP &data_sp) {
389 return false;
390}
391
392bool RegisterContextCorePOSIX_arm64::HardwareSingleStep(bool enable) {
393 return false;
394}
395

source code of lldb/source/Plugins/Process/elf-core/RegisterContextPOSIXCore_arm64.cpp