//===-- DynamicRegisterInfoTest.cpp ---------------------------------------===// // // 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 "gmock/gmock.h" #include "gtest/gtest.h" #include "lldb/Target/DynamicRegisterInfo.h" #include "lldb/Utility/ArchSpec.h" #include using namespace lldb_private; static std::vector regs_to_vector(uint32_t *regs) { std::vector ret; if (regs) { while (*regs != LLDB_INVALID_REGNUM) ret.push_back(*regs++); } return ret; } class DynamicRegisterInfoRegisterTest : public ::testing::Test { protected: std::vector m_regs; DynamicRegisterInfo m_dyninfo; uint32_t AddTestRegister( const char *name, const char *group, uint32_t byte_size, std::function adder, std::vector value_regs = {}, std::vector invalidate_regs = {}) { DynamicRegisterInfo::Register new_reg{ConstString(name), ConstString(), ConstString(group), byte_size, LLDB_INVALID_INDEX32, lldb::eEncodingUint, lldb::eFormatUnsigned, LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM, LLDB_INVALID_REGNUM, static_cast(m_regs.size()), value_regs, invalidate_regs}; adder(new_reg); return m_regs.size() - 1; } void ExpectInRegs(uint32_t reg_num, const char *reg_name, std::vector value_regs, std::vector invalidate_regs) { ASSERT_GT(m_regs.size(), reg_num); const DynamicRegisterInfo::Register ® = m_regs[reg_num]; ConstString expected_reg_name{reg_name}; EXPECT_EQ(reg.name, expected_reg_name); EXPECT_EQ(reg.value_regs, value_regs); EXPECT_EQ(reg.invalidate_regs, invalidate_regs); } void ExpectInDynInfo(uint32_t reg_num, const char *reg_name, uint32_t byte_offset, std::vector value_regs = {}, std::vector invalidate_regs = {}) { const RegisterInfo *reg = m_dyninfo.GetRegisterInfoAtIndex(reg_num); ASSERT_NE(reg, nullptr); EXPECT_STREQ(reg->name, reg_name); EXPECT_EQ(reg->byte_offset, byte_offset); EXPECT_THAT(regs_to_vector(reg->value_regs), value_regs); EXPECT_THAT(regs_to_vector(reg->invalidate_regs), invalidate_regs); } }; #define EXPECT_IN_REGS(reg, ...) \ { \ SCOPED_TRACE("at register " #reg); \ ExpectInRegs(reg, #reg, __VA_ARGS__); \ } #define EXPECT_IN_DYNINFO(reg, ...) \ { \ SCOPED_TRACE("at register " #reg); \ ExpectInDynInfo(reg, #reg, __VA_ARGS__); \ } TEST_F(DynamicRegisterInfoRegisterTest, addSupplementaryRegister) { // Add a base register uint32_t rax = AddTestRegister( "rax", "group", 8, [this](const DynamicRegisterInfo::Register &r) { m_regs.push_back(r); }); // Add supplementary registers auto suppl_adder = [this](const DynamicRegisterInfo::Register &r) { addSupplementaryRegister(m_regs, r); }; uint32_t eax = AddTestRegister("eax", "supplementary", 4, suppl_adder, {rax}); uint32_t ax = AddTestRegister("ax", "supplementary", 2, suppl_adder, {rax}); uint32_t ah = AddTestRegister("ah", "supplementary", 1, suppl_adder, {rax}); uint32_t al = AddTestRegister("al", "supplementary", 1, suppl_adder, {rax}); m_regs[ah].value_reg_offset = 1; EXPECT_IN_REGS(rax, {}, {eax, ax, ah, al}); EXPECT_IN_REGS(eax, {rax}, {rax, ax, ah, al}); EXPECT_IN_REGS(ax, {rax}, {rax, eax, ah, al}); EXPECT_IN_REGS(ah, {rax}, {rax, eax, ax, al}); EXPECT_IN_REGS(al, {rax}, {rax, eax, ax, ah}); EXPECT_EQ(m_dyninfo.SetRegisterInfo(std::move(m_regs), ArchSpec()), m_regs.size()); EXPECT_IN_DYNINFO(rax, 0, {}, {eax, ax, ah, al}); EXPECT_IN_DYNINFO(eax, 0, {rax}, {rax, ax, ah, al}); EXPECT_IN_DYNINFO(ax, 0, {rax}, {rax, eax, ah, al}); EXPECT_IN_DYNINFO(ah, 1, {rax}, {rax, eax, ax, al}); EXPECT_IN_DYNINFO(al, 0, {rax}, {rax, eax, ax, ah}); } TEST_F(DynamicRegisterInfoRegisterTest, SetRegisterInfo) { auto adder = [this](const DynamicRegisterInfo::Register &r) { m_regs.push_back(r); }; // Add regular registers uint32_t b1 = AddTestRegister("b1", "base", 8, adder); uint32_t b2 = AddTestRegister("b2", "other", 8, adder); // Add a few sub-registers uint32_t s1 = AddTestRegister("s1", "base", 4, adder, {b1}); uint32_t s2 = AddTestRegister("s2", "other", 4, adder, {b2}); // Add a register with invalidate_regs uint32_t i1 = AddTestRegister("i1", "third", 8, adder, {}, {b1}); // Add a register with indirect invalidate regs to be expanded // TODO: why is it done conditionally to value_regs? uint32_t i2 = AddTestRegister("i2", "third", 4, adder, {b2}, {i1}); EXPECT_EQ(m_dyninfo.SetRegisterInfo(std::move(m_regs), ArchSpec()), m_regs.size()); EXPECT_IN_DYNINFO(b1, 0, {}, {}); EXPECT_IN_DYNINFO(b2, 8, {}, {}); EXPECT_IN_DYNINFO(s1, 0, {b1}, {}); EXPECT_IN_DYNINFO(s2, 8, {b2}, {}); EXPECT_IN_DYNINFO(i1, 16, {}, {b1}); EXPECT_IN_DYNINFO(i2, 8, {b2}, {b1, i1}); }