dolphin/Source/UnitTests/Core/MMIOTest.cpp

// Copyright 2014 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later

#include <gtest/gtest.h>

#include <memory>
#include <unordered_set>

#include "Common/CommonTypes.h"
#include "Core/HW/GPFifo.h"
#include "Core/HW/MMIO.h"
#include "Core/System.h"

// Tests that the UniqueID function returns a "unique enough" identifier
// number: that is, it is unique in the address ranges we care about.
TEST(UniqueID, UniqueEnough)
{
  std::unordered_set<u32> ids;
  for (u32 i = 0x0C000000; i < 0x0C010000; ++i)
  {
    u32 unique_id = MMIO::UniqueID(i);
    EXPECT_FALSE(ids.contains(unique_id));
    ids.insert(unique_id);
  }
  for (u32 i = 0x0D000000; i < 0x0D010000; ++i)
  {
    u32 unique_id = MMIO::UniqueID(i);
    EXPECT_FALSE(ids.contains(unique_id));
    ids.insert(unique_id);
  }
}

TEST(IsMMIOAddress, SpecialAddresses)
{
  constexpr bool is_wii = true;

  // WG Pipe address, should not be handled by MMIO.
  EXPECT_FALSE(MMIO::IsMMIOAddress(GPFifo::GATHER_PIPE_PHYSICAL_ADDRESS, is_wii));

  // Locked L1 cache allocation.
  EXPECT_FALSE(MMIO::IsMMIOAddress(0xE0000000, is_wii));

  // Uncached mirror of MEM1, shouldn't be handled by MMIO
  EXPECT_FALSE(MMIO::IsMMIOAddress(0xC0000000, is_wii));

  // Effective address of an MMIO register; MMIO only deals with physical
  // addresses.
  EXPECT_FALSE(MMIO::IsMMIOAddress(0xCC0000E0, is_wii));

  // And let's check some valid addresses too
  EXPECT_TRUE(MMIO::IsMMIOAddress(0x0C0000E0, is_wii));  // GameCube MMIOs
  EXPECT_TRUE(MMIO::IsMMIOAddress(0x0D00008C, is_wii));  // Wii MMIOs
  EXPECT_TRUE(MMIO::IsMMIOAddress(0x0D800F10, is_wii));  // Mirror of Wii MMIOs
}

class MappingTest : public testing::Test
{
protected:
  virtual void SetUp() override
  {
    m_system = &Core::System::GetInstance();
    m_mapping = std::make_unique<MMIO::Mapping>();
  }
  virtual void TearDown() override
  {
    m_system = nullptr;
    m_mapping.reset();
  }
  Core::System* m_system = nullptr;
  std::unique_ptr<MMIO::Mapping> m_mapping;
};

TEST_F(MappingTest, ReadConstant)
{
  m_mapping->Register(0x0C001234, MMIO::Constant<u8>(0x42), MMIO::Nop<u8>());
  m_mapping->Register(0x0C001234, MMIO::Constant<u16>(0x1234), MMIO::Nop<u16>());
  m_mapping->Register(0x0C001234, MMIO::Constant<u32>(0xdeadbeef), MMIO::Nop<u32>());

  u8 val8 = m_mapping->Read<u8>(*m_system, 0x0C001234);
  u16 val16 = m_mapping->Read<u16>(*m_system, 0x0C001234);
  u32 val32 = m_mapping->Read<u32>(*m_system, 0x0C001234);

  EXPECT_EQ(0x42, val8);
  EXPECT_EQ(0x1234, val16);
  EXPECT_EQ(0xdeadbeef, val32);
}

TEST_F(MappingTest, ReadWriteDirect)
{
  u8 target_8 = 0;
  u16 target_16 = 0;
  u32 target_32 = 0;

  m_mapping->Register(0x0C001234, MMIO::DirectRead<u8>(&target_8),
                      MMIO::DirectWrite<u8>(&target_8));
  m_mapping->Register(0x0C001234, MMIO::DirectRead<u16>(&target_16),
                      MMIO::DirectWrite<u16>(&target_16));
  m_mapping->Register(0x0C001234, MMIO::DirectRead<u32>(&target_32),
                      MMIO::DirectWrite<u32>(&target_32));

  for (u32 i = 0; i < 100; ++i)
  {
    u8 val8 = m_mapping->Read<u8>(*m_system, 0x0C001234);
    EXPECT_EQ(i, val8);
    u16 val16 = m_mapping->Read<u16>(*m_system, 0x0C001234);
    EXPECT_EQ(i, val16);
    u32 val32 = m_mapping->Read<u32>(*m_system, 0x0C001234);
    EXPECT_EQ(i, val32);

    val8 += 1;
    m_mapping->Write(*m_system, 0x0C001234, val8);
    val16 += 1;
    m_mapping->Write(*m_system, 0x0C001234, val16);
    val32 += 1;
    m_mapping->Write(*m_system, 0x0C001234, val32);
  }
}

TEST_F(MappingTest, ReadWriteComplex)
{
  bool read_called = false, write_called = false;

  m_mapping->Register(0x0C001234, MMIO::ComplexRead<u8>([&read_called](Core::System&, u32 addr) {
                        EXPECT_EQ(0x0C001234u, addr);
                        read_called = true;
                        return 0x12;
                      }),
                      MMIO::ComplexWrite<u8>([&write_called](Core::System&, u32 addr, u8 val) {
                        EXPECT_EQ(0x0C001234u, addr);
                        EXPECT_EQ(0x34, val);
                        write_called = true;
                      }));

  u8 val = m_mapping->Read<u8>(*m_system, 0x0C001234);
  EXPECT_EQ(0x12, val);
  m_mapping->Write(*m_system, 0x0C001234, (u8)0x34);

  EXPECT_TRUE(read_called);
  EXPECT_TRUE(write_called);
}
Add missing license headers 2015-05-24 06:32:32 +02:00			`// Copyright 2014 Dolphin Emulator Project`
treewide: convert GPLv2+ license info to SPDX tags SPDX standardizes how source code conveys its copyright and licensing information. See https://spdx.github.io/spdx-spec/1-rationale/ . SPDX tags are adopted in many large projects, including things like the Linux kernel. 2021-07-05 03:22:19 +02:00			`// SPDX-License-Identifier: GPL-2.0-or-later`
Add missing license headers 2015-05-24 06:32:32 +02:00
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00			`#include <gtest/gtest.h>`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00
			`#include <memory>`
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00			`#include <unordered_set>`

			`#include "Common/CommonTypes.h"`
Create constant for GPFifo physical address 2022-07-20 17:44:49 -07:00			`#include "Core/HW/GPFifo.h"`
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00			`#include "Core/HW/MMIO.h"`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`#include "Core/System.h"`
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00
			`// Tests that the UniqueID function returns a "unique enough" identifier`
			`// number: that is, it is unique in the address ranges we care about.`
			`TEST(UniqueID, UniqueEnough)`
			`{`
			`std::unordered_set<u32> ids;`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`for (u32 i = 0x0C000000; i < 0x0C010000; ++i)`
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00			`{`
			`u32 unique_id = MMIO::UniqueID(i);`
Use 'contains' method 2024-08-15 14:20:16 -07:00			`EXPECT_FALSE(ids.contains(unique_id));`
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00			`ids.insert(unique_id);`
			`}`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`for (u32 i = 0x0D000000; i < 0x0D010000; ++i)`
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00			`{`
			`u32 unique_id = MMIO::UniqueID(i);`
Use 'contains' method 2024-08-15 14:20:16 -07:00			`EXPECT_FALSE(ids.contains(unique_id));`
Add the infrastructure required to easily add unit tests and test it with a very simple test file. 2014-03-02 04:44:56 +01:00			`ids.insert(unique_id);`
			`}`
			`}`
Tests: Add more MMIO tests as an example. 2014-03-02 04:58:29 +01:00
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00			`TEST(IsMMIOAddress, SpecialAddresses)`
			`{`
Migrate SConfig::bWii to System. 2024-01-31 02:56:56 +01:00			`constexpr bool is_wii = true;`
Make the IsMMIOAddress function easier to read, add tests. This also makes IsMMIOAddress more restrictive. 2014-09-11 21:02:45 +12:00
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00			`// WG Pipe address, should not be handled by MMIO.`
Migrate SConfig::bWii to System. 2024-01-31 02:56:56 +01:00			`EXPECT_FALSE(MMIO::IsMMIOAddress(GPFifo::GATHER_PIPE_PHYSICAL_ADDRESS, is_wii));`
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`// Locked L1 cache allocation.`
Migrate SConfig::bWii to System. 2024-01-31 02:56:56 +01:00			`EXPECT_FALSE(MMIO::IsMMIOAddress(0xE0000000, is_wii));`
Make the IsMMIOAddress function easier to read, add tests. This also makes IsMMIOAddress more restrictive. 2014-09-11 21:02:45 +12:00
			`// Uncached mirror of MEM1, shouldn't be handled by MMIO`
Migrate SConfig::bWii to System. 2024-01-31 02:56:56 +01:00			`EXPECT_FALSE(MMIO::IsMMIOAddress(0xC0000000, is_wii));`
Make the IsMMIOAddress function easier to read, add tests. This also makes IsMMIOAddress more restrictive. 2014-09-11 21:02:45 +12:00
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`// Effective address of an MMIO register; MMIO only deals with physical`
			`// addresses.`
Migrate SConfig::bWii to System. 2024-01-31 02:56:56 +01:00			`EXPECT_FALSE(MMIO::IsMMIOAddress(0xCC0000E0, is_wii));`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00
Create constant for GPFifo physical address 2022-07-20 17:44:49 -07:00			`// And let's check some valid addresses too`
Migrate SConfig::bWii to System. 2024-01-31 02:56:56 +01:00			`EXPECT_TRUE(MMIO::IsMMIOAddress(0x0C0000E0, is_wii)); // GameCube MMIOs`
			`EXPECT_TRUE(MMIO::IsMMIOAddress(0x0D00008C, is_wii)); // Wii MMIOs`
			`EXPECT_TRUE(MMIO::IsMMIOAddress(0x0D800F10, is_wii)); // Mirror of Wii MMIOs`
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00			`}`

Tests: Add more MMIO tests as an example. 2014-03-02 04:58:29 +01:00			`class MappingTest : public testing::Test`
			`{`
			`protected:`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`virtual void SetUp() override`
			`{`
			`m_system = &Core::System::GetInstance();`
			`m_mapping = std::make_unique<MMIO::Mapping>();`
			`}`
			`virtual void TearDown() override`
			`{`
			`m_system = nullptr;`
			`m_mapping.reset();`
			`}`
			`Core::System* m_system = nullptr;`
			`std::unique_ptr<MMIO::Mapping> m_mapping;`
Tests: Add more MMIO tests as an example. 2014-03-02 04:58:29 +01:00			`};`

			`TEST_F(MappingTest, ReadConstant)`
			`{`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`m_mapping->Register(0x0C001234, MMIO::Constant<u8>(0x42), MMIO::Nop<u8>());`
			`m_mapping->Register(0x0C001234, MMIO::Constant<u16>(0x1234), MMIO::Nop<u16>());`
			`m_mapping->Register(0x0C001234, MMIO::Constant<u32>(0xdeadbeef), MMIO::Nop<u32>());`
Tests: Add more MMIO tests as an example. 2014-03-02 04:58:29 +01:00
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`u8 val8 = m_mapping->Read<u8>(*m_system, 0x0C001234);`
			`u16 val16 = m_mapping->Read<u16>(*m_system, 0x0C001234);`
			`u32 val32 = m_mapping->Read<u32>(*m_system, 0x0C001234);`
Tests: Add more MMIO tests as an example. 2014-03-02 04:58:29 +01:00
			`EXPECT_EQ(0x42, val8);`
			`EXPECT_EQ(0x1234, val16);`
			`EXPECT_EQ(0xdeadbeef, val32);`
			`}`

			`TEST_F(MappingTest, ReadWriteDirect)`
			`{`
			`u8 target_8 = 0;`
			`u16 target_16 = 0;`
			`u32 target_32 = 0;`
Reformat all the things. Have fun with merge conflicts. 2016-06-24 10:43:46 +02:00
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`m_mapping->Register(0x0C001234, MMIO::DirectRead<u8>(&target_8),`
			`MMIO::DirectWrite<u8>(&target_8));`
			`m_mapping->Register(0x0C001234, MMIO::DirectRead<u16>(&target_16),`
			`MMIO::DirectWrite<u16>(&target_16));`
			`m_mapping->Register(0x0C001234, MMIO::DirectRead<u32>(&target_32),`
			`MMIO::DirectWrite<u32>(&target_32));`
Reformat all the things. Have fun with merge conflicts. 2016-06-24 10:43:46 +02:00
MMIOTest: fix sign warning 2014-03-08 07:36:44 +01:00			`for (u32 i = 0; i < 100; ++i)`
Tests: Add more MMIO tests as an example. 2014-03-02 04:58:29 +01:00			`{`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`u8 val8 = m_mapping->Read<u8>(*m_system, 0x0C001234);`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`EXPECT_EQ(i, val8);`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`u16 val16 = m_mapping->Read<u16>(*m_system, 0x0C001234);`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`EXPECT_EQ(i, val16);`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`u32 val32 = m_mapping->Read<u32>(*m_system, 0x0C001234);`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`EXPECT_EQ(i, val32);`
Reformat all the things. Have fun with merge conflicts. 2016-06-24 10:43:46 +02:00
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`val8 += 1;`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`m_mapping->Write(*m_system, 0x0C001234, val8);`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`val16 += 1;`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`m_mapping->Write(*m_system, 0x0C001234, val16);`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`val32 += 1;`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`m_mapping->Write(*m_system, 0x0C001234, val32);`
Tests: Add more MMIO tests as an example. 2014-03-02 04:58:29 +01:00			`}`
			`}`
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00
			`TEST_F(MappingTest, ReadWriteComplex)`
			`{`
			`bool read_called = false, write_called = false;`
Reformat all the things. Have fun with merge conflicts. 2016-06-24 10:43:46 +02:00
HW: Pass System to MMIO handlers. 2022-10-14 02:17:09 +02:00			`m_mapping->Register(0x0C001234, MMIO::ComplexRead<u8>([&read_called](Core::System&, u32 addr) {`
Fix warnings 2015-03-16 10:56:16 +01:00			`EXPECT_EQ(0x0C001234u, addr);`
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00			`read_called = true;`
			`return 0x12;`
			`}),`
HW: Pass System to MMIO handlers. 2022-10-14 02:17:09 +02:00			`MMIO::ComplexWrite<u8>([&write_called](Core::System&, u32 addr, u8 val) {`
Fix warnings 2015-03-16 10:56:16 +01:00			`EXPECT_EQ(0x0C001234u, addr);`
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00			`EXPECT_EQ(0x34, val);`
			`write_called = true;`
			`}));`
Reformat all the things. Have fun with merge conflicts. 2016-06-24 10:43:46 +02:00
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`u8 val = m_mapping->Read<u8>(*m_system, 0x0C001234);`
Fix the addresses of MMIO registers. MMIO registers are located at 0x0C000000 and 0x0D000000, not 0xCC000000. The 0xCC000000 addresses are just an artifact of address translation. 2015-02-11 18:01:47 -08:00			`EXPECT_EQ(0x12, val);`
Core/HW/MMIO: Pass System through Read() and Write(). 2024-01-12 06:42:51 +01:00			`m_mapping->Write(*m_system, 0x0C001234, (u8)0x34);`
Reformat all the things. Have fun with merge conflicts. 2016-06-24 10:43:46 +02:00
Add more tests for Common and Core/MMIO 2014-03-09 14:27:04 +01:00			`EXPECT_TRUE(read_called);`
			`EXPECT_TRUE(write_called);`
			`}`