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| //===-- ABISysV_s390x.cpp ---------------------------------------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "ABISysV_s390x.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/Triple.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/PluginManager.h"
#include "lldb/Core/Value.h"
#include "lldb/Core/ValueObjectConstResult.h"
#include "lldb/Core/ValueObjectMemory.h"
#include "lldb/Core/ValueObjectRegister.h"
#include "lldb/Symbol/UnwindPlan.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/RegisterContext.h"
#include "lldb/Target/StackFrame.h"
#include "lldb/Target/Target.h"
#include "lldb/Target/Thread.h"
#include "lldb/Utility/ConstString.h"
#include "lldb/Utility/DataExtractor.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/RegisterValue.h"
#include "lldb/Utility/Status.h"
using namespace lldb;
using namespace lldb_private;
enum dwarf_regnums {
// General Purpose Registers
dwarf_r0_s390x = 0,
dwarf_r1_s390x,
dwarf_r2_s390x,
dwarf_r3_s390x,
dwarf_r4_s390x,
dwarf_r5_s390x,
dwarf_r6_s390x,
dwarf_r7_s390x,
dwarf_r8_s390x,
dwarf_r9_s390x,
dwarf_r10_s390x,
dwarf_r11_s390x,
dwarf_r12_s390x,
dwarf_r13_s390x,
dwarf_r14_s390x,
dwarf_r15_s390x,
// Floating Point Registers / Vector Registers 0-15
dwarf_f0_s390x = 16,
dwarf_f2_s390x,
dwarf_f4_s390x,
dwarf_f6_s390x,
dwarf_f1_s390x,
dwarf_f3_s390x,
dwarf_f5_s390x,
dwarf_f7_s390x,
dwarf_f8_s390x,
dwarf_f10_s390x,
dwarf_f12_s390x,
dwarf_f14_s390x,
dwarf_f9_s390x,
dwarf_f11_s390x,
dwarf_f13_s390x,
dwarf_f15_s390x,
// Access Registers
dwarf_acr0_s390x = 48,
dwarf_acr1_s390x,
dwarf_acr2_s390x,
dwarf_acr3_s390x,
dwarf_acr4_s390x,
dwarf_acr5_s390x,
dwarf_acr6_s390x,
dwarf_acr7_s390x,
dwarf_acr8_s390x,
dwarf_acr9_s390x,
dwarf_acr10_s390x,
dwarf_acr11_s390x,
dwarf_acr12_s390x,
dwarf_acr13_s390x,
dwarf_acr14_s390x,
dwarf_acr15_s390x,
// Program Status Word
dwarf_pswm_s390x = 64,
dwarf_pswa_s390x,
// Vector Registers 16-31
dwarf_v16_s390x = 68,
dwarf_v18_s390x,
dwarf_v20_s390x,
dwarf_v22_s390x,
dwarf_v17_s390x,
dwarf_v19_s390x,
dwarf_v21_s390x,
dwarf_v23_s390x,
dwarf_v24_s390x,
dwarf_v26_s390x,
dwarf_v28_s390x,
dwarf_v30_s390x,
dwarf_v25_s390x,
dwarf_v27_s390x,
dwarf_v29_s390x,
dwarf_v31_s390x,
};
// RegisterKind: EHFrame, DWARF, Generic, Process Plugin, LLDB
#define DEFINE_REG(name, size, alt, generic) \
{ \
#name, alt, size, 0, eEncodingUint, eFormatHex, \
{dwarf_##name##_s390x, dwarf_##name##_s390x, generic, \
LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM }, \
nullptr, nullptr, nullptr, 0 \
}
static RegisterInfo g_register_infos[] = {
DEFINE_REG(r0, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r1, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r2, 8, "arg1", LLDB_REGNUM_GENERIC_ARG1),
DEFINE_REG(r3, 8, "arg2", LLDB_REGNUM_GENERIC_ARG2),
DEFINE_REG(r4, 8, "arg3", LLDB_REGNUM_GENERIC_ARG3),
DEFINE_REG(r5, 8, "arg4", LLDB_REGNUM_GENERIC_ARG4),
DEFINE_REG(r6, 8, "arg5", LLDB_REGNUM_GENERIC_ARG5),
DEFINE_REG(r7, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r8, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r9, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r10, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r11, 8, "fp", LLDB_REGNUM_GENERIC_FP),
DEFINE_REG(r12, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r13, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r14, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(r15, 8, "sp", LLDB_REGNUM_GENERIC_SP),
DEFINE_REG(acr0, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr1, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr2, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr3, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr4, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr5, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr6, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr7, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr8, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr9, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr10, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr11, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr12, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr13, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr14, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(acr15, 4, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(pswm, 8, "flags", LLDB_REGNUM_GENERIC_FLAGS),
DEFINE_REG(pswa, 8, "pc", LLDB_REGNUM_GENERIC_PC),
DEFINE_REG(f0, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f1, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f2, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f3, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f4, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f5, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f6, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f7, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f8, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f9, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f10, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f11, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f12, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f13, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f14, 8, nullptr, LLDB_INVALID_REGNUM),
DEFINE_REG(f15, 8, nullptr, LLDB_INVALID_REGNUM),
};
static const uint32_t k_num_register_infos =
llvm::array_lengthof(g_register_infos);
static bool g_register_info_names_constified = false;
const lldb_private::RegisterInfo *
ABISysV_s390x::GetRegisterInfoArray(uint32_t &count) {
// Make the C-string names and alt_names for the register infos into const
// C-string values by having the ConstString unique the names in the global
// constant C-string pool.
if (!g_register_info_names_constified) {
g_register_info_names_constified = true;
for (uint32_t i = 0; i < k_num_register_infos; ++i) {
if (g_register_infos[i].name)
g_register_infos[i].name =
ConstString(g_register_infos[i].name).GetCString();
if (g_register_infos[i].alt_name)
g_register_infos[i].alt_name =
ConstString(g_register_infos[i].alt_name).GetCString();
}
}
count = k_num_register_infos;
return g_register_infos;
}
size_t ABISysV_s390x::GetRedZoneSize() const { return 0; }
// Static Functions
ABISP
ABISysV_s390x::CreateInstance(lldb::ProcessSP process_sp, const ArchSpec &arch) {
if (arch.GetTriple().getArch() == llvm::Triple::systemz) {
return ABISP(new ABISysV_s390x(std::move(process_sp), MakeMCRegisterInfo(arch)));
}
return ABISP();
}
bool ABISysV_s390x::PrepareTrivialCall(Thread &thread, addr_t sp,
addr_t func_addr, addr_t return_addr,
llvm::ArrayRef<addr_t> args) const {
Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_EXPRESSIONS));
if (log) {
StreamString s;
s.Printf("ABISysV_s390x::PrepareTrivialCall (tid = 0x%" PRIx64
", sp = 0x%" PRIx64 ", func_addr = 0x%" PRIx64
", return_addr = 0x%" PRIx64,
thread.GetID(), (uint64_t)sp, (uint64_t)func_addr,
(uint64_t)return_addr);
for (size_t i = 0; i < args.size(); ++i)
s.Printf(", arg%" PRIu64 " = 0x%" PRIx64, static_cast<uint64_t>(i + 1),
args[i]);
s.PutCString(")");
log->PutString(s.GetString());
}
RegisterContext *reg_ctx = thread.GetRegisterContext().get();
if (!reg_ctx)
return false;
const RegisterInfo *pc_reg_info =
reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_PC);
const RegisterInfo *sp_reg_info =
reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_SP);
const RegisterInfo *ra_reg_info = reg_ctx->GetRegisterInfoByName("r14", 0);
ProcessSP process_sp(thread.GetProcess());
// Allocate a new stack frame and space for stack arguments if necessary
addr_t arg_pos = 0;
if (args.size() > 5) {
sp -= 8 * (args.size() - 5);
arg_pos = sp;
}
sp -= 160;
// Process arguments
for (size_t i = 0; i < args.size(); ++i) {
if (i < 5) {
const RegisterInfo *reg_info = reg_ctx->GetRegisterInfo(
eRegisterKindGeneric, LLDB_REGNUM_GENERIC_ARG1 + i);
LLDB_LOGF(log, "About to write arg%" PRIu64 " (0x%" PRIx64 ") into %s",
static_cast<uint64_t>(i + 1), args[i], reg_info->name);
if (!reg_ctx->WriteRegisterFromUnsigned(reg_info, args[i]))
return false;
} else {
Status error;
LLDB_LOGF(log, "About to write arg%" PRIu64 " (0x%" PRIx64 ") onto stack",
static_cast<uint64_t>(i + 1), args[i]);
if (!process_sp->WritePointerToMemory(arg_pos, args[i], error))
return false;
arg_pos += 8;
}
}
// %r14 is set to the return address
LLDB_LOGF(log, "Writing RA: 0x%" PRIx64, (uint64_t)return_addr);
if (!reg_ctx->WriteRegisterFromUnsigned(ra_reg_info, return_addr))
return false;
// %r15 is set to the actual stack value.
LLDB_LOGF(log, "Writing SP: 0x%" PRIx64, (uint64_t)sp);
if (!reg_ctx->WriteRegisterFromUnsigned(sp_reg_info, sp))
return false;
// %pc is set to the address of the called function.
LLDB_LOGF(log, "Writing PC: 0x%" PRIx64, (uint64_t)func_addr);
if (!reg_ctx->WriteRegisterFromUnsigned(pc_reg_info, func_addr))
return false;
return true;
}
static bool ReadIntegerArgument(Scalar &scalar, unsigned int bit_width,
bool is_signed, Thread &thread,
uint32_t *argument_register_ids,
unsigned int ¤t_argument_register,
addr_t ¤t_stack_argument) {
if (bit_width > 64)
return false; // Scalar can't hold large integer arguments
if (current_argument_register < 5) {
scalar = thread.GetRegisterContext()->ReadRegisterAsUnsigned(
argument_register_ids[current_argument_register], 0);
current_argument_register++;
if (is_signed)
scalar.SignExtend(bit_width);
} else {
uint32_t byte_size = (bit_width + (8 - 1)) / 8;
Status error;
if (thread.GetProcess()->ReadScalarIntegerFromMemory(
current_stack_argument + 8 - byte_size, byte_size, is_signed,
scalar, error)) {
current_stack_argument += 8;
return true;
}
return false;
}
return true;
}
bool ABISysV_s390x::GetArgumentValues(Thread &thread, ValueList &values) const {
unsigned int num_values = values.GetSize();
unsigned int value_index;
// Extract the register context so we can read arguments from registers
RegisterContext *reg_ctx = thread.GetRegisterContext().get();
if (!reg_ctx)
return false;
// Get the pointer to the first stack argument so we have a place to start
// when reading data
addr_t sp = reg_ctx->GetSP(0);
if (!sp)
return false;
addr_t current_stack_argument = sp + 160;
uint32_t argument_register_ids[5];
argument_register_ids[0] =
reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_ARG1)
->kinds[eRegisterKindLLDB];
argument_register_ids[1] =
reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_ARG2)
->kinds[eRegisterKindLLDB];
argument_register_ids[2] =
reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_ARG3)
->kinds[eRegisterKindLLDB];
argument_register_ids[3] =
reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_ARG4)
->kinds[eRegisterKindLLDB];
argument_register_ids[4] =
reg_ctx->GetRegisterInfo(eRegisterKindGeneric, LLDB_REGNUM_GENERIC_ARG5)
->kinds[eRegisterKindLLDB];
unsigned int current_argument_register = 0;
for (value_index = 0; value_index < num_values; ++value_index) {
Value *value = values.GetValueAtIndex(value_index);
if (!value)
return false;
// We currently only support extracting values with Clang QualTypes. Do we
// care about others?
CompilerType compiler_type = value->GetCompilerType();
llvm::Optional<uint64_t> bit_size = compiler_type.GetBitSize(&thread);
if (!bit_size)
return false;
bool is_signed;
if (compiler_type.IsIntegerOrEnumerationType(is_signed)) {
ReadIntegerArgument(value->GetScalar(), *bit_size, is_signed, thread,
argument_register_ids, current_argument_register,
current_stack_argument);
} else if (compiler_type.IsPointerType()) {
ReadIntegerArgument(value->GetScalar(), *bit_size, false, thread,
argument_register_ids, current_argument_register,
current_stack_argument);
}
}
return true;
}
Status ABISysV_s390x::SetReturnValueObject(lldb::StackFrameSP &frame_sp,
lldb::ValueObjectSP &new_value_sp) {
Status error;
if (!new_value_sp) {
error.SetErrorString("Empty value object for return value.");
return error;
}
CompilerType compiler_type = new_value_sp->GetCompilerType();
if (!compiler_type) {
error.SetErrorString("Null clang type for return value.");
return error;
}
Thread *thread = frame_sp->GetThread().get();
bool is_signed;
uint32_t count;
bool is_complex;
RegisterContext *reg_ctx = thread->GetRegisterContext().get();
bool set_it_simple = false;
if (compiler_type.IsIntegerOrEnumerationType(is_signed) ||
compiler_type.IsPointerType()) {
const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoByName("r2", 0);
DataExtractor data;
Status data_error;
size_t num_bytes = new_value_sp->GetData(data, data_error);
if (data_error.Fail()) {
error.SetErrorStringWithFormat(
"Couldn't convert return value to raw data: %s",
data_error.AsCString());
return error;
}
lldb::offset_t offset = 0;
if (num_bytes <= 8) {
uint64_t raw_value = data.GetMaxU64(&offset, num_bytes);
if (reg_ctx->WriteRegisterFromUnsigned(reg_info, raw_value))
set_it_simple = true;
} else {
error.SetErrorString("We don't support returning longer than 64 bit "
"integer values at present.");
}
} else if (compiler_type.IsFloatingPointType(count, is_complex)) {
if (is_complex)
error.SetErrorString(
"We don't support returning complex values at present");
else {
llvm::Optional<uint64_t> bit_width =
compiler_type.GetBitSize(frame_sp.get());
if (!bit_width) {
error.SetErrorString("can't get type size");
return error;
}
if (*bit_width <= 64) {
const RegisterInfo *f0_info = reg_ctx->GetRegisterInfoByName("f0", 0);
RegisterValue f0_value;
DataExtractor data;
Status data_error;
size_t num_bytes = new_value_sp->GetData(data, data_error);
if (data_error.Fail()) {
error.SetErrorStringWithFormat(
"Couldn't convert return value to raw data: %s",
data_error.AsCString());
return error;
}
unsigned char buffer[8];
ByteOrder byte_order = data.GetByteOrder();
data.CopyByteOrderedData(0, num_bytes, buffer, 8, byte_order);
f0_value.SetBytes(buffer, 8, byte_order);
reg_ctx->WriteRegister(f0_info, f0_value);
set_it_simple = true;
} else {
// FIXME - don't know how to do long doubles yet.
error.SetErrorString(
"We don't support returning float values > 64 bits at present");
}
}
}
if (!set_it_simple) {
// Okay we've got a structure or something that doesn't fit in a simple
// register. We should figure out where it really goes, but we don't
// support this yet.
error.SetErrorString("We only support setting simple integer and float "
"return types at present.");
}
return error;
}
ValueObjectSP ABISysV_s390x::GetReturnValueObjectSimple(
Thread &thread, CompilerType &return_compiler_type) const {
ValueObjectSP return_valobj_sp;
Value value;
if (!return_compiler_type)
return return_valobj_sp;
// value.SetContext (Value::eContextTypeClangType, return_value_type);
value.SetCompilerType(return_compiler_type);
RegisterContext *reg_ctx = thread.GetRegisterContext().get();
if (!reg_ctx)
return return_valobj_sp;
const uint32_t type_flags = return_compiler_type.GetTypeInfo();
if (type_flags & eTypeIsScalar) {
value.SetValueType(Value::eValueTypeScalar);
bool success = false;
if (type_flags & eTypeIsInteger) {
// Extract the register context so we can read arguments from registers.
llvm::Optional<uint64_t> byte_size =
return_compiler_type.GetByteSize(nullptr);
if (!byte_size)
return return_valobj_sp;
uint64_t raw_value = thread.GetRegisterContext()->ReadRegisterAsUnsigned(
reg_ctx->GetRegisterInfoByName("r2", 0), 0);
const bool is_signed = (type_flags & eTypeIsSigned) != 0;
switch (*byte_size) {
default:
break;
case sizeof(uint64_t):
if (is_signed)
value.GetScalar() = (int64_t)(raw_value);
else
value.GetScalar() = (uint64_t)(raw_value);
success = true;
break;
case sizeof(uint32_t):
if (is_signed)
value.GetScalar() = (int32_t)(raw_value & UINT32_MAX);
else
value.GetScalar() = (uint32_t)(raw_value & UINT32_MAX);
success = true;
break;
case sizeof(uint16_t):
if (is_signed)
value.GetScalar() = (int16_t)(raw_value & UINT16_MAX);
else
value.GetScalar() = (uint16_t)(raw_value & UINT16_MAX);
success = true;
break;
case sizeof(uint8_t):
if (is_signed)
value.GetScalar() = (int8_t)(raw_value & UINT8_MAX);
else
value.GetScalar() = (uint8_t)(raw_value & UINT8_MAX);
success = true;
break;
}
} else if (type_flags & eTypeIsFloat) {
if (type_flags & eTypeIsComplex) {
// Don't handle complex yet.
} else {
llvm::Optional<uint64_t> byte_size =
return_compiler_type.GetByteSize(nullptr);
if (byte_size && *byte_size <= sizeof(long double)) {
const RegisterInfo *f0_info = reg_ctx->GetRegisterInfoByName("f0", 0);
RegisterValue f0_value;
if (reg_ctx->ReadRegister(f0_info, f0_value)) {
DataExtractor data;
if (f0_value.GetData(data)) {
lldb::offset_t offset = 0;
if (*byte_size == sizeof(float)) {
value.GetScalar() = (float)data.GetFloat(&offset);
success = true;
} else if (*byte_size == sizeof(double)) {
value.GetScalar() = (double)data.GetDouble(&offset);
success = true;
} else if (*byte_size == sizeof(long double)) {
// Don't handle long double yet.
}
}
}
}
}
}
if (success)
return_valobj_sp = ValueObjectConstResult::Create(
thread.GetStackFrameAtIndex(0).get(), value, ConstString(""));
} else if (type_flags & eTypeIsPointer) {
unsigned r2_id =
reg_ctx->GetRegisterInfoByName("r2", 0)->kinds[eRegisterKindLLDB];
value.GetScalar() =
(uint64_t)thread.GetRegisterContext()->ReadRegisterAsUnsigned(r2_id, 0);
value.SetValueType(Value::eValueTypeScalar);
return_valobj_sp = ValueObjectConstResult::Create(
thread.GetStackFrameAtIndex(0).get(), value, ConstString(""));
}
return return_valobj_sp;
}
ValueObjectSP ABISysV_s390x::GetReturnValueObjectImpl(
Thread &thread, CompilerType &return_compiler_type) const {
ValueObjectSP return_valobj_sp;
if (!return_compiler_type)
return return_valobj_sp;
ExecutionContext exe_ctx(thread.shared_from_this());
return_valobj_sp = GetReturnValueObjectSimple(thread, return_compiler_type);
if (return_valobj_sp)
return return_valobj_sp;
RegisterContextSP reg_ctx_sp = thread.GetRegisterContext();
if (!reg_ctx_sp)
return return_valobj_sp;
if (return_compiler_type.IsAggregateType()) {
// FIXME: This is just taking a guess, r2 may very well no longer hold the
// return storage location.
// If we are going to do this right, when we make a new frame we should
// check to see if it uses a memory return, and if we are at the first
// instruction and if so stash away the return location. Then we would
// only return the memory return value if we know it is valid.
unsigned r2_id =
reg_ctx_sp->GetRegisterInfoByName("r2", 0)->kinds[eRegisterKindLLDB];
lldb::addr_t storage_addr =
(uint64_t)thread.GetRegisterContext()->ReadRegisterAsUnsigned(r2_id, 0);
return_valobj_sp = ValueObjectMemory::Create(
&thread, "", Address(storage_addr, nullptr), return_compiler_type);
}
return return_valobj_sp;
}
bool ABISysV_s390x::CreateFunctionEntryUnwindPlan(UnwindPlan &unwind_plan) {
unwind_plan.Clear();
unwind_plan.SetRegisterKind(eRegisterKindDWARF);
UnwindPlan::RowSP row(new UnwindPlan::Row);
// Our Call Frame Address is the stack pointer value + 160
row->GetCFAValue().SetIsRegisterPlusOffset(dwarf_r15_s390x, 160);
// The previous PC is in r14
row->SetRegisterLocationToRegister(dwarf_pswa_s390x, dwarf_r14_s390x, true);
// All other registers are the same.
unwind_plan.AppendRow(row);
unwind_plan.SetSourceName("s390x at-func-entry default");
unwind_plan.SetSourcedFromCompiler(eLazyBoolNo);
return true;
}
bool ABISysV_s390x::CreateDefaultUnwindPlan(UnwindPlan &unwind_plan) {
// There's really no default way to unwind on s390x. Trust the .eh_frame CFI,
// which should always be good.
return false;
}
bool ABISysV_s390x::GetFallbackRegisterLocation(
const RegisterInfo *reg_info,
UnwindPlan::Row::RegisterLocation &unwind_regloc) {
// If a volatile register is being requested, we don't want to forward the
// next frame's register contents up the stack -- the register is not
// retrievable at this frame.
if (RegisterIsVolatile(reg_info)) {
unwind_regloc.SetUndefined();
return true;
}
return false;
}
bool ABISysV_s390x::RegisterIsVolatile(const RegisterInfo *reg_info) {
return !RegisterIsCalleeSaved(reg_info);
}
bool ABISysV_s390x::RegisterIsCalleeSaved(const RegisterInfo *reg_info) {
if (reg_info) {
// Preserved registers are :
// r6-r13, r15
// f8-f15
const char *name = reg_info->name;
if (name[0] == 'r') {
switch (name[1]) {
case '6': // r6
case '7': // r7
case '8': // r8
case '9': // r9
return name[2] == '\0';
case '1': // r10, r11, r12, r13, r15
if ((name[2] >= '0' && name[2] <= '3') || name[2] == '5')
return name[3] == '\0';
break;
default:
break;
}
}
if (name[0] == 'f') {
switch (name[1]) {
case '8': // r8
case '9': // r9
return name[2] == '\0';
case '1': // r10, r11, r12, r13, r14, r15
if (name[2] >= '0' && name[2] <= '5')
return name[3] == '\0';
break;
default:
break;
}
}
// Accept shorter-variant versions
if (name[0] == 's' && name[1] == 'p' && name[2] == '\0') // sp
return true;
if (name[0] == 'f' && name[1] == 'p' && name[2] == '\0') // fp
return true;
if (name[0] == 'p' && name[1] == 'c' && name[2] == '\0') // pc
return true;
}
return false;
}
void ABISysV_s390x::Initialize() {
PluginManager::RegisterPlugin(
GetPluginNameStatic(), "System V ABI for s390x targets", CreateInstance);
}
void ABISysV_s390x::Terminate() {
PluginManager::UnregisterPlugin(CreateInstance);
}
lldb_private::ConstString ABISysV_s390x::GetPluginNameStatic() {
static ConstString g_name("sysv-s390x");
return g_name;
}
// PluginInterface protocol
lldb_private::ConstString ABISysV_s390x::GetPluginName() {
return GetPluginNameStatic();
}
uint32_t ABISysV_s390x::GetPluginVersion() { return 1; }
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