ladybird/Kernel/CMakeLists.txt

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if (ENABLE_EXTRA_KERNEL_DEBUG_SYMBOLS)
add_compile_options(-Og)
add_compile_options(-ggdb3)
else()
add_compile_options(-Os)
endif()
if ("${SERENITY_ARCH}" STREQUAL "i686")
set(KERNEL_ARCH i386)
elseif("${SERENITY_ARCH}" STREQUAL "x86_64")
set(KERNEL_ARCH x86_64)
endif()
set(KERNEL_HEAP_SOURCES
Heap/SlabAllocator.cpp
Heap/kmalloc.cpp
)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS_STATIC}")
set(KERNEL_SOURCES
ACPI/DynamicParser.cpp
ACPI/Initialize.cpp
ACPI/MultiProcessorParser.cpp
ACPI/Parser.cpp
Kernel: Initial integration of Kernel Address Sanitizer (KASAN) KASAN is a dynamic analysis tool that finds memory errors. It focuses mostly on finding use-after-free and out-of-bound read/writes bugs. KASAN works by allocating a "shadow memory" region which is used to store whether each byte of memory is safe to access. The compiler then instruments the kernel code and a check is inserted which validates the state of the shadow memory region on every memory access (load or store). To fully integrate KASAN into the SerenityOS kernel we need to: a) Implement the KASAN interface to intercept the injected loads/stores. void __asan_load*(address); void __asan_store(address); b) Setup KASAN region and determine the shadow memory offset + translation. This might be challenging since Serenity is only 32bit at this time. Ex: Linux implements kernel address -> shadow address translation like: static inline void *kasan_mem_to_shadow(const void *addr) { return ((unsigned long)addr >> KASAN_SHADOW_SCALE_SHIFT) + KASAN_SHADOW_OFFSET; } c) Integrating KASAN with Kernel allocators. The kernel allocators need to be taught how to record allocation state in the shadow memory region. This commit only implements the initial steps of this long process: - A new (default OFF) CMake build flag `ENABLE_KERNEL_ADDRESS_SANITIZER` - Stubs out enough of the KASAN interface to allow the Kernel to link clean. Currently the KASAN kernel crashes on boot (triple fault because of the crash in strlen other sanitizer are seeing) but the goal here is to just get started, and this should help others jump in and continue making progress on KASAN. References: * ASAN Paper: https://static.googleusercontent.com/media/research.google.com/en//pubs/archive/37752.pdf * KASAN Docs: https://github.com/google/kasan * NetBSD KASAN Blog: https://blog.netbsd.org/tnf/entry/kernel_address_sanitizer_part_3 * LWN KASAN Article: https://lwn.net/Articles/612153/ * Tracking Issue #5351
2021-02-14 20:47:10 +00:00
AddressSanitizer.cpp
Arch/PC/BIOS.cpp
Arch/x86/SmapDisabler.h
Bus/PCI/Access.cpp
Bus/PCI/Device.cpp
Bus/PCI/DeviceController.cpp
Bus/PCI/IOAccess.cpp
Bus/PCI/MMIOAccess.cpp
Bus/PCI/Initializer.cpp
Bus/PCI/WindowedMMIOAccess.cpp
Bus/USB/UHCIController.cpp
Bus/USB/USBDevice.cpp
Bus/USB/USBPipe.cpp
Bus/USB/USBTransfer.cpp
CMOS.cpp
CommandLine.cpp
ConsoleDevice.cpp
CoreDump.cpp
Devices/AsyncDeviceRequest.cpp
Devices/BlockDevice.cpp
Devices/CharacterDevice.cpp
Devices/Device.cpp
Devices/FullDevice.cpp
Devices/MemoryDevice.cpp
Devices/NullDevice.cpp
Devices/PCISerialDevice.cpp
Devices/PCSpeaker.cpp
Devices/RandomDevice.cpp
Devices/SB16.cpp
Devices/SerialDevice.cpp
Devices/VMWareBackdoor.cpp
Devices/ZeroDevice.cpp
Devices/HID/I8042Controller.cpp
Devices/HID/HIDManagement.cpp
Devices/HID/KeyboardDevice.cpp
Devices/HID/MouseDevice.cpp
Devices/HID/PS2KeyboardDevice.cpp
Devices/HID/PS2MouseDevice.cpp
Devices/HID/VMWareMouseDevice.cpp
GlobalProcessExposed.cpp
Graphics/Bochs/GraphicsAdapter.cpp
Graphics/Console/GenericFramebufferConsole.cpp
Graphics/Console/ContiguousFramebufferConsole.cpp
Graphics/Console/TextModeConsole.cpp
Graphics/Console/VGAConsole.cpp
Graphics/FramebufferDevice.cpp
Graphics/GraphicsManagement.cpp
Graphics/Intel/NativeGraphicsAdapter.cpp
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Graphics/VirtIOGPU/VirtIOFrameBufferDevice.cpp
Graphics/VirtIOGPU/VirtIOGPUConsole.cpp
Graphics/VirtIOGPU/VirtIOGPU.cpp
Graphics/VirtIOGPU/VirtIOGraphicsAdapter.cpp
Graphics/VGACompatibleAdapter.cpp
Storage/Partition/DiskPartition.cpp
Storage/Partition/DiskPartitionMetadata.cpp
Storage/Partition/EBRPartitionTable.cpp
Storage/Partition/GUIDPartitionTable.cpp
Storage/Partition/MBRPartitionTable.cpp
Storage/Partition/PartitionTable.cpp
Storage/StorageDevice.cpp
Storage/AHCIController.cpp
Storage/AHCIPort.cpp
Storage/AHCIPortHandler.cpp
Storage/SATADiskDevice.cpp
Storage/BMIDEChannel.cpp
Storage/IDEController.cpp
Storage/IDEChannel.cpp
Storage/PATADiskDevice.cpp
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Storage/RamdiskController.cpp
Storage/RamdiskDevice.cpp
Storage/StorageManagement.cpp
DoubleBuffer.cpp
FileSystem/AnonymousFile.cpp
FileSystem/BlockBasedFileSystem.cpp
FileSystem/Custody.cpp
FileSystem/DevFS.cpp
FileSystem/DevPtsFS.cpp
FileSystem/Ext2FileSystem.cpp
FileSystem/FIFO.cpp
FileSystem/File.cpp
FileSystem/FileBackedFileSystem.cpp
FileSystem/FileDescription.cpp
FileSystem/FileSystem.cpp
FileSystem/Inode.cpp
FileSystem/InodeFile.cpp
FileSystem/InodeWatcher.cpp
FileSystem/Mount.cpp
FileSystem/Plan9FileSystem.cpp
FileSystem/ProcFS.cpp
FileSystem/SysFS.cpp
FileSystem/SysFSComponent.cpp
FileSystem/TmpFS.cpp
FileSystem/VirtualFileSystem.cpp
FutexQueue.cpp
Interrupts/APIC.cpp
Interrupts/GenericInterruptHandler.cpp
Interrupts/IOAPIC.cpp
Interrupts/IRQHandler.cpp
Interrupts/InterruptManagement.cpp
Interrupts/PIC.cpp
Interrupts/SharedIRQHandler.cpp
Interrupts/SpuriousInterruptHandler.cpp
Interrupts/UnhandledInterruptHandler.cpp
KBufferBuilder.cpp
KLexicalPath.cpp
KString.cpp
KSyms.cpp
Lock.cpp
Net/E1000ENetworkAdapter.cpp
Net/E1000NetworkAdapter.cpp
Net/IPv4Socket.cpp
Net/LocalSocket.cpp
Net/LoopbackAdapter.cpp
Net/NE2000NetworkAdapter.cpp
Net/NetworkAdapter.cpp
Net/NetworkingManagement.cpp
Net/NetworkTask.cpp
Net/RTL8139NetworkAdapter.cpp
Net/RTL8168NetworkAdapter.cpp
Net/Routing.cpp
Net/Socket.cpp
Net/TCPSocket.cpp
Net/UDPSocket.cpp
Panic.cpp
PerformanceEventBuffer.cpp
Process.cpp
Kernel: Introduce the new ProcFS design The new ProcFS design consists of two main parts: 1. The representative ProcFS class, which is derived from the FS class. The ProcFS and its inodes are much more lean - merely 3 classes to represent the common type of inodes - regular files, symbolic links and directories. They're backed by a ProcFSExposedComponent object, which is responsible for the functional operation behind the scenes. 2. The backend of the ProcFS - the ProcFSComponentsRegistrar class and all derived classes from the ProcFSExposedComponent class. These together form the entire backend and handle all the functions you can expect from the ProcFS. The ProcFSExposedComponent derived classes split to 3 types in the manner of lifetime in the kernel: 1. Persistent objects - this category includes all basic objects, like the root folder, /proc/bus folder, main blob files in the root folders, etc. These objects are persistent and cannot die ever. 2. Semi-persistent objects - this category includes all PID folders, and subdirectories to the PID folders. It also includes exposed objects like the unveil JSON'ed blob. These object are persistent as long as the the responsible process they represent is still alive. 3. Dynamic objects - this category includes files in the subdirectories of a PID folder, like /proc/PID/fd/* or /proc/PID/stacks/*. Essentially, these objects are always created dynamically and when no longer in need after being used, they're deallocated. Nevertheless, the new allocated backend objects and inodes try to use the same InodeIndex if possible - this might change only when a thread dies and a new thread is born with a new thread stack, or when a file descriptor is closed and a new one within the same file descriptor number is opened. This is needed to actually be able to do something useful with these objects. The new design assures that many ProcFS instances can be used at once, with one backend for usage for all instances.
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ProcessExposed.cpp
ProcessSpecificExposed.cpp
ProcessGroup.cpp
RTC.cpp
Random.cpp
Scheduler.cpp
StdLib.cpp
Syscall.cpp
Syscalls/anon_create.cpp
Syscalls/access.cpp
Syscalls/alarm.cpp
Syscalls/beep.cpp
Syscalls/chdir.cpp
Syscalls/chmod.cpp
Syscalls/chown.cpp
Syscalls/chroot.cpp
Syscalls/clock.cpp
Syscalls/debug.cpp
Syscalls/disown.cpp
Syscalls/dup2.cpp
Syscalls/emuctl.cpp
Syscalls/execve.cpp
Syscalls/exit.cpp
Syscalls/fcntl.cpp
Syscalls/fork.cpp
Syscalls/ftruncate.cpp
Syscalls/futex.cpp
Syscalls/get_dir_entries.cpp
Syscalls/get_stack_bounds.cpp
Syscalls/getrandom.cpp
Syscalls/getuid.cpp
Syscalls/hostname.cpp
Syscalls/ioctl.cpp
Syscalls/keymap.cpp
Syscalls/kill.cpp
Syscalls/link.cpp
Syscalls/lseek.cpp
Syscalls/mkdir.cpp
Syscalls/mknod.cpp
Syscalls/mmap.cpp
Syscalls/module.cpp
Syscalls/mount.cpp
Syscalls/open.cpp
Syscalls/perf_event.cpp
Syscalls/pipe.cpp
Syscalls/pledge.cpp
Syscalls/prctl.cpp
Syscalls/process.cpp
Syscalls/profiling.cpp
Syscalls/ptrace.cpp
Syscalls/purge.cpp
Syscalls/read.cpp
Syscalls/readlink.cpp
Syscalls/realpath.cpp
Syscalls/rename.cpp
Syscalls/rmdir.cpp
Syscalls/sched.cpp
Syscalls/select.cpp
Syscalls/sendfd.cpp
Syscalls/setpgid.cpp
Syscalls/setuid.cpp
Syscalls/shutdown.cpp
Syscalls/sigaction.cpp
Syscalls/socket.cpp
Syscalls/stat.cpp
Syscalls/statvfs.cpp
Syscalls/sync.cpp
Syscalls/sysconf.cpp
Syscalls/thread.cpp
Syscalls/times.cpp
Syscalls/ttyname.cpp
Syscalls/umask.cpp
Syscalls/uname.cpp
Syscalls/unlink.cpp
Syscalls/unveil.cpp
Syscalls/utime.cpp
Syscalls/waitid.cpp
Syscalls/inode_watcher.cpp
Syscalls/write.cpp
TTY/ConsoleManagement.cpp
TTY/MasterPTY.cpp
TTY/PTYMultiplexer.cpp
TTY/SlavePTY.cpp
TTY/TTY.cpp
TTY/VirtualConsole.cpp
Tasks/FinalizerTask.cpp
Tasks/SyncTask.cpp
Thread.cpp
ThreadBlockers.cpp
ThreadTracer.cpp
Time/APICTimer.cpp
Time/HPET.cpp
Time/HPETComparator.cpp
Time/PIT.cpp
Time/RTC.cpp
Time/TimeManagement.cpp
TimerQueue.cpp
UBSanitizer.cpp
UserOrKernelBuffer.cpp
VirtIO/VirtIO.cpp
VirtIO/VirtIOConsole.cpp
VirtIO/VirtIOConsolePort.cpp
VirtIO/VirtIOQueue.cpp
VirtIO/VirtIORNG.cpp
VM/AnonymousVMObject.cpp
VM/ContiguousVMObject.cpp
VM/InodeVMObject.cpp
VM/MemoryManager.cpp
VM/PageDirectory.cpp
VM/PhysicalPage.cpp
VM/PhysicalRegion.cpp
VM/PhysicalZone.cpp
VM/PrivateInodeVMObject.cpp
VM/ProcessPagingScope.cpp
VM/PurgeablePageRanges.cpp
VM/Range.cpp
VM/RangeAllocator.cpp
VM/Region.cpp
2021-05-12 14:58:05 +00:00
VM/RingBuffer.cpp
VM/ScatterGatherList.cpp
VM/SharedInodeVMObject.cpp
VM/Space.cpp
VM/VMObject.cpp
WaitQueue.cpp
WorkQueue.cpp
init.cpp
kprintf.cpp
)
set(KERNEL_SOURCES
${KERNEL_SOURCES}
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/${KERNEL_ARCH}/ASM_wrapper.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/${KERNEL_ARCH}/Boot/ap_setup.S
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/${KERNEL_ARCH}/InterruptEntry.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/${KERNEL_ARCH}/Processor.cpp
)
set(KERNEL_SOURCES
${KERNEL_SOURCES}
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/ASM_wrapper.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/Boot/boot.S
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/Boot/multiboot.S
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/CPU.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/Interrupts.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/Processor.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/ProcessorInfo.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/SafeMem.cpp
${CMAKE_CURRENT_SOURCE_DIR}/Arch/x86/common/TrapFrame.cpp
)
set(AK_SOURCES
../AK/FlyString.cpp
../AK/GenericLexer.cpp
../AK/Hex.cpp
../AK/String.cpp
../AK/StringBuilder.cpp
../AK/StringImpl.cpp
../AK/StringUtils.cpp
../AK/StringView.cpp
../AK/Time.cpp
../AK/Format.cpp
../AK/UUID.cpp
)
set(ELF_SOURCES
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../Userland/Libraries/LibELF/Image.cpp
../Userland/Libraries/LibELF/Validation.cpp
)
generate_state_machine(../Userland/Libraries/LibVT/StateMachine.txt ../Userland/Libraries/LibVT/EscapeSequenceStateMachine.h)
set(VT_SOURCES
2021-01-12 11:17:30 +00:00
../Userland/Libraries/LibVT/Terminal.cpp
../Userland/Libraries/LibVT/Line.cpp
../Userland/Libraries/LibVT/EscapeSequenceParser.cpp
)
set(KEYBOARD_SOURCES
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../Userland/Libraries/LibKeyboard/CharacterMap.cpp
)
set(CRYPTO_SOURCES
2021-01-12 11:17:30 +00:00
../Userland/Libraries/LibCrypto/Cipher/AES.cpp
../Userland/Libraries/LibCrypto/Hash/SHA2.cpp
)
set(SOURCES
${KERNEL_SOURCES}
${AK_SOURCES}
${ELF_SOURCES}
${VT_SOURCES}
${KEYBOARD_SOURCES}
${CRYPTO_SOURCES}
)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wno-unknown-warning-option -Wvla -Wnull-dereference")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fno-rtti -ffreestanding -fbuiltin")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mno-80387 -mno-mmx -mno-sse -mno-sse2")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fno-asynchronous-unwind-tables")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fstack-protector-strong")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fno-exceptions")
if (NOT ${CMAKE_HOST_SYSTEM_NAME} MATCHES SerenityOS)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -nostdlib -nostdinc -nostdinc++")
endif()
if ("${SERENITY_ARCH}" STREQUAL "x86_64")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -mcmodel=large -fno-pic -mno-red-zone")
else()
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -pie -fPIE")
endif()
# Kernel Undefined Behavior Sanitizer (KUBSAN)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fsanitize=undefined")
Kernel: Initial integration of Kernel Address Sanitizer (KASAN) KASAN is a dynamic analysis tool that finds memory errors. It focuses mostly on finding use-after-free and out-of-bound read/writes bugs. KASAN works by allocating a "shadow memory" region which is used to store whether each byte of memory is safe to access. The compiler then instruments the kernel code and a check is inserted which validates the state of the shadow memory region on every memory access (load or store). To fully integrate KASAN into the SerenityOS kernel we need to: a) Implement the KASAN interface to intercept the injected loads/stores. void __asan_load*(address); void __asan_store(address); b) Setup KASAN region and determine the shadow memory offset + translation. This might be challenging since Serenity is only 32bit at this time. Ex: Linux implements kernel address -> shadow address translation like: static inline void *kasan_mem_to_shadow(const void *addr) { return ((unsigned long)addr >> KASAN_SHADOW_SCALE_SHIFT) + KASAN_SHADOW_OFFSET; } c) Integrating KASAN with Kernel allocators. The kernel allocators need to be taught how to record allocation state in the shadow memory region. This commit only implements the initial steps of this long process: - A new (default OFF) CMake build flag `ENABLE_KERNEL_ADDRESS_SANITIZER` - Stubs out enough of the KASAN interface to allow the Kernel to link clean. Currently the KASAN kernel crashes on boot (triple fault because of the crash in strlen other sanitizer are seeing) but the goal here is to just get started, and this should help others jump in and continue making progress on KASAN. References: * ASAN Paper: https://static.googleusercontent.com/media/research.google.com/en//pubs/archive/37752.pdf * KASAN Docs: https://github.com/google/kasan * NetBSD KASAN Blog: https://blog.netbsd.org/tnf/entry/kernel_address_sanitizer_part_3 * LWN KASAN Article: https://lwn.net/Articles/612153/ * Tracking Issue #5351
2021-02-14 20:47:10 +00:00
# Kernel Address Sanitize (KASAN) implementation is still a work in progress, this option
# is not currently meant to be used, besides when developing Kernel ASAN support.
#
if (ENABLE_KERNEL_ADDRESS_SANITIZER)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fsanitize=kernel-address")
endif()
add_compile_definitions(KERNEL)
# HACK: This is a workaround for CLion to grok the kernel sources.
# It's needed because CLion doesn't understand the way we switch compilers mid-build.
add_compile_definitions(__serenity__)
add_link_options(LINKER:-T ${CMAKE_CURRENT_SOURCE_DIR}/linker.ld -nostdlib)
add_library(kernel_heap STATIC ${KERNEL_HEAP_SOURCES})
if (${CMAKE_HOST_SYSTEM_NAME} MATCHES SerenityOS)
include_directories(/usr/local/include/c++/${GCC_VERSION}/)
else()
if (NOT EXISTS ${TOOLCHAIN_ROOT}/${SERENITY_ARCH}-pc-serenity/include/c++/${GCC_VERSION}/)
message(FATAL_ERROR "Toolchain version ${GCC_VERSION} appears to be missing! Please run: Meta/serenity.sh rebuild-toolchain")
endif()
include_directories(${TOOLCHAIN_ROOT}/${SERENITY_ARCH}-pc-serenity/include/c++/${GCC_VERSION}/)
include_directories(${TOOLCHAIN_ROOT}/${SERENITY_ARCH}-pc-serenity/include/c++/${GCC_VERSION}/${SERENITY_ARCH}-pc-serenity/)
link_directories(${TOOLCHAIN_ROOT}/${SERENITY_ARCH}-pc-serenity/lib)
link_directories(${TOOLCHAIN_ROOT}/lib/gcc/${SERENITY_ARCH}-pc-serenity/${GCC_VERSION}/)
endif()
if ("${SERENITY_ARCH}" STREQUAL "i686")
set(KERNEL_TARGET Kernel32)
else()
set(KERNEL_TARGET Kernel64)
endif()
add_executable(${KERNEL_TARGET} ${SOURCES})
add_dependencies(${KERNEL_TARGET} generate_EscapeSequenceStateMachine.h)
set_target_properties(${KERNEL_TARGET} PROPERTIES LINK_DEPENDS ${CMAKE_CURRENT_SOURCE_DIR}/linker.ld)
if (ENABLE_KERNEL_LTO)
include(CheckIPOSupported)
check_ipo_supported()
set_property(TARGET ${KERNEL_TARGET} PROPERTY INTERPROCEDURAL_OPTIMIZATION TRUE)
endif()
target_link_libraries(${KERNEL_TARGET} kernel_heap gcc)
add_dependencies(${KERNEL_TARGET} kernel_heap)
add_custom_command(
TARGET ${KERNEL_TARGET} POST_BUILD
COMMAND ${TOOLCHAIN_PREFIX}objcopy -O elf32-i386 ${CMAKE_CURRENT_BINARY_DIR}/${KERNEL_TARGET} ${CMAKE_CURRENT_BINARY_DIR}/Kernel
COMMAND sh ${CMAKE_CURRENT_SOURCE_DIR}/mkmap.sh
COMMAND sh ${CMAKE_CURRENT_SOURCE_DIR}/embedmap.sh
BYPRODUCTS ${CMAKE_CURRENT_BINARY_DIR}/Kernel ${CMAKE_CURRENT_BINARY_DIR}/kernel.map
)
install(FILES "${CMAKE_CURRENT_BINARY_DIR}/Kernel" DESTINATION boot)
install(FILES "${CMAKE_CURRENT_BINARY_DIR}/kernel.map" DESTINATION res)
serenity_install_headers(Kernel)
serenity_install_sources(Kernel)
add_subdirectory(Modules)