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https://github.com/LadybirdBrowser/ladybird.git
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572bbf28cc
This adds the -t command-line argument for the profile tool. Using this argument you can filter which event types you want in your profile.
318 lines
10 KiB
C++
318 lines
10 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Types.h>
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#include <Kernel/ACPI/DynamicParser.h>
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#include <Kernel/ACPI/Initialize.h>
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#include <Kernel/ACPI/MultiProcessorParser.h>
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#include <Kernel/Arch/x86/CPU.h>
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#include <Kernel/CMOS.h>
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#include <Kernel/CommandLine.h>
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#include <Kernel/DMI.h>
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#include <Kernel/Devices/FullDevice.h>
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#include <Kernel/Devices/HID/HIDManagement.h>
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#include <Kernel/Devices/MemoryDevice.h>
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#include <Kernel/Devices/NullDevice.h>
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#include <Kernel/Devices/PCISerialDevice.h>
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#include <Kernel/Devices/RandomDevice.h>
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#include <Kernel/Devices/SB16.h>
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#include <Kernel/Devices/SerialDevice.h>
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#include <Kernel/Devices/USB/UHCIController.h>
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#include <Kernel/Devices/VMWareBackdoor.h>
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#include <Kernel/Devices/ZeroDevice.h>
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#include <Kernel/FileSystem/Ext2FileSystem.h>
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#include <Kernel/FileSystem/VirtualFileSystem.h>
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#include <Kernel/Graphics/GraphicsManagement.h>
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#include <Kernel/Heap/SlabAllocator.h>
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#include <Kernel/Heap/kmalloc.h>
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#include <Kernel/Interrupts/APIC.h>
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#include <Kernel/Interrupts/InterruptManagement.h>
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#include <Kernel/Interrupts/PIC.h>
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#include <Kernel/KSyms.h>
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#include <Kernel/Multiboot.h>
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#include <Kernel/Net/E1000NetworkAdapter.h>
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#include <Kernel/Net/LoopbackAdapter.h>
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#include <Kernel/Net/NE2000NetworkAdapter.h>
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#include <Kernel/Net/NetworkTask.h>
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#include <Kernel/Net/RTL8139NetworkAdapter.h>
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#include <Kernel/PCI/Access.h>
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#include <Kernel/PCI/Initializer.h>
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#include <Kernel/Panic.h>
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#include <Kernel/Process.h>
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#include <Kernel/RTC.h>
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#include <Kernel/Random.h>
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#include <Kernel/Scheduler.h>
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#include <Kernel/Storage/StorageManagement.h>
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#include <Kernel/TTY/ConsoleManagement.h>
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#include <Kernel/TTY/PTYMultiplexer.h>
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#include <Kernel/TTY/VirtualConsole.h>
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#include <Kernel/Tasks/FinalizerTask.h>
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#include <Kernel/Tasks/SyncTask.h>
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#include <Kernel/Time/TimeManagement.h>
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#include <Kernel/VM/MemoryManager.h>
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#include <Kernel/VirtIO/VirtIO.h>
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#include <Kernel/WorkQueue.h>
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#include <Kernel/kstdio.h>
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// Defined in the linker script
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typedef void (*ctor_func_t)();
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extern ctor_func_t start_heap_ctors;
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extern ctor_func_t end_heap_ctors;
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extern ctor_func_t start_ctors;
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extern ctor_func_t end_ctors;
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extern u32 __stack_chk_guard;
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u32 __stack_chk_guard;
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extern "C" u8* start_of_safemem_text;
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extern "C" u8* end_of_safemem_text;
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extern "C" u8* start_of_safemem_atomic_text;
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extern "C" u8* end_of_safemem_atomic_text;
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extern "C" u8* end_of_kernel_image;
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multiboot_module_entry_t multiboot_copy_boot_modules_array[16];
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size_t multiboot_copy_boot_modules_count;
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extern "C" const char kernel_cmdline[4096];
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namespace Kernel {
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[[noreturn]] static void init_stage2(void*);
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static void setup_serial_debug();
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// boot.S expects these functions to exactly have the following signatures.
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// We declare them here to ensure their signatures don't accidentally change.
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extern "C" void init_finished(u32 cpu) __attribute__((used));
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extern "C" [[noreturn]] void init_ap(u32 cpu, Processor* processor_info);
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extern "C" [[noreturn]] void init();
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READONLY_AFTER_INIT VirtualConsole* tty0;
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static Processor s_bsp_processor; // global but let's keep it "private"
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// SerenityOS Kernel C++ entry point :^)
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//
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// This is where C++ execution begins, after boot.S transfers control here.
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//
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// The purpose of init() is to start multi-tasking. It does the bare minimum
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// amount of work needed to start the scheduler.
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//
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// Once multi-tasking is ready, we spawn a new thread that starts in the
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// init_stage2() function. Initialization continues there.
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extern "C" UNMAP_AFTER_INIT [[noreturn]] void init()
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{
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if ((FlatPtr)&end_of_kernel_image >= 0xc2000000u) {
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// The kernel has grown too large again!
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asm volatile("cli;hlt");
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}
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setup_serial_debug();
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// We need to copy the command line before kmalloc is initialized,
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// as it may overwrite parts of multiboot!
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CommandLine::early_initialize(kernel_cmdline);
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memcpy(multiboot_copy_boot_modules_array, (u8*)low_physical_to_virtual(multiboot_info_ptr->mods_addr), multiboot_info_ptr->mods_count * sizeof(multiboot_module_entry_t));
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multiboot_copy_boot_modules_count = multiboot_info_ptr->mods_count;
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s_bsp_processor.early_initialize(0);
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// Invoke the constructors needed for the kernel heap
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for (ctor_func_t* ctor = &start_heap_ctors; ctor < &end_heap_ctors; ctor++)
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(*ctor)();
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kmalloc_init();
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slab_alloc_init();
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ConsoleDevice::initialize();
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s_bsp_processor.initialize(0);
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CommandLine::initialize();
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MemoryManager::initialize(0);
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// Ensure that the safemem sections are not empty. This could happen if the linker accidentally discards the sections.
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VERIFY(&start_of_safemem_text != &end_of_safemem_text);
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VERIFY(&start_of_safemem_atomic_text != &end_of_safemem_atomic_text);
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// Invoke all static global constructors in the kernel.
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// Note that we want to do this as early as possible.
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for (ctor_func_t* ctor = &start_ctors; ctor < &end_ctors; ctor++)
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(*ctor)();
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APIC::initialize();
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InterruptManagement::initialize();
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ACPI::initialize();
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// Initialize the PCI Bus as early as possible, for early boot (PCI based) serial logging
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PCI::initialize();
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PCISerialDevice::detect();
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VFS::initialize();
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dmesgln("Starting SerenityOS...");
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TimeManagement::initialize(0);
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__stack_chk_guard = get_fast_random<u32>();
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NullDevice::initialize();
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if (!get_serial_debug())
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new SerialDevice(IOAddress(SERIAL_COM1_ADDR), 64);
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new SerialDevice(IOAddress(SERIAL_COM2_ADDR), 65);
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new SerialDevice(IOAddress(SERIAL_COM3_ADDR), 66);
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new SerialDevice(IOAddress(SERIAL_COM4_ADDR), 67);
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VMWareBackdoor::the(); // don't wait until first mouse packet
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HIDManagement::initialize();
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GraphicsManagement::the().initialize();
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ConsoleManagement::the().initialize();
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Thread::initialize();
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Process::initialize();
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Scheduler::initialize();
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WorkQueue::initialize();
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{
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RefPtr<Thread> init_stage2_thread;
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Process::create_kernel_process(init_stage2_thread, "init_stage2", init_stage2, nullptr);
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// We need to make sure we drop the reference for init_stage2_thread
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// before calling into Scheduler::start, otherwise we will have a
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// dangling Thread that never gets cleaned up
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}
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Scheduler::start();
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VERIFY_NOT_REACHED();
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}
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//
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// This is where C++ execution begins for APs, after boot.S transfers control here.
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//
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// The purpose of init_ap() is to initialize APs for multi-tasking.
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//
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extern "C" UNMAP_AFTER_INIT [[noreturn]] void init_ap(u32 cpu, Processor* processor_info)
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{
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processor_info->early_initialize(cpu);
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processor_info->initialize(cpu);
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MemoryManager::initialize(cpu);
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Scheduler::set_idle_thread(APIC::the().get_idle_thread(cpu));
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Scheduler::start();
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VERIFY_NOT_REACHED();
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}
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//
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// This method is called once a CPU enters the scheduler and its idle thread
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// At this point the initial boot stack can be freed
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//
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extern "C" UNMAP_AFTER_INIT void init_finished(u32 cpu)
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{
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if (cpu == 0) {
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// TODO: we can reuse the boot stack, maybe for kmalloc()?
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} else {
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APIC::the().init_finished(cpu);
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TimeManagement::initialize(cpu);
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}
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}
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void init_stage2(void*)
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{
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if (APIC::initialized() && APIC::the().enabled_processor_count() > 1) {
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// We can't start the APs until we have a scheduler up and running.
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// We need to be able to process ICI messages, otherwise another
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// core may send too many and end up deadlocking once the pool is
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// exhausted
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APIC::the().boot_aps();
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}
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SyncTask::spawn();
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FinalizerTask::spawn();
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auto boot_profiling = kernel_command_line().is_boot_profiling_enabled();
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USB::UHCIController::detect();
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DMIExpose::initialize();
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VirtIO::detect();
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E1000NetworkAdapter::detect();
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NE2000NetworkAdapter::detect();
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RTL8139NetworkAdapter::detect();
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LoopbackAdapter::the();
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Syscall::initialize();
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new MemoryDevice;
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new ZeroDevice;
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new FullDevice;
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new RandomDevice;
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PTYMultiplexer::initialize();
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SB16::detect();
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StorageManagement::initialize(kernel_command_line().root_device(), kernel_command_line().is_force_pio());
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if (!VFS::the().mount_root(StorageManagement::the().root_filesystem())) {
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PANIC("VFS::mount_root failed");
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}
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Process::current()->set_root_directory(VFS::the().root_custody());
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load_kernel_symbol_table();
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// NOTE: Everything marked READONLY_AFTER_INIT becomes non-writable after this point.
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MM.protect_readonly_after_init_memory();
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// NOTE: Everything marked UNMAP_AFTER_INIT becomes inaccessible after this point.
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MM.unmap_memory_after_init();
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int error;
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// FIXME: It would be nicer to set the mode from userspace.
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// FIXME: It would be smarter to not hardcode that the first tty is the only graphical one
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ConsoleManagement::the().first_tty()->set_graphical(GraphicsManagement::the().framebuffer_devices_exist());
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RefPtr<Thread> thread;
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auto userspace_init = kernel_command_line().userspace_init();
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auto init_args = kernel_command_line().userspace_init_args();
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Process::create_user_process(thread, userspace_init, (uid_t)0, (gid_t)0, ProcessID(0), error, move(init_args), {}, tty0);
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if (error != 0) {
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PANIC("init_stage2: Error spawning SystemServer: {}", error);
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}
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thread->set_priority(THREAD_PRIORITY_HIGH);
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if (boot_profiling) {
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dbgln("Starting full system boot profiling");
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auto result = Process::current()->sys$profiling_enable(-1, ~0ull);
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VERIFY(!result.is_error());
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}
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NetworkTask::spawn();
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Process::current()->sys$exit(0);
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VERIFY_NOT_REACHED();
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}
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UNMAP_AFTER_INIT void setup_serial_debug()
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{
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// serial_debug will output all the dbgln() data to COM1 at
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// 8-N-1 57600 baud. this is particularly useful for debugging the boot
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// process on live hardware.
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if (StringView(kernel_cmdline).contains("serial_debug")) {
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set_serial_debug(true);
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}
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}
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extern "C" {
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multiboot_info_t* multiboot_info_ptr;
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}
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// Define some Itanium C++ ABI methods to stop the linker from complaining.
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// If we actually call these something has gone horribly wrong
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void* __dso_handle __attribute__((visibility("hidden")));
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}
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