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sortix--sortix/sortix/kernel.cpp
Jonas 'Sortie' Termansen b4f47f0f79 Split descriptor_tables.cpp into a gdt.cpp and idt.cpp.
This was about time, since descriptor_tables was a really bad name!
2012-03-01 00:15:28 +01:00

316 lines
11 KiB
C++

/*******************************************************************************
COPYRIGHT(C) JONAS 'SORTIE' TERMANSEN 2011, 2012.
This file is part of Sortix.
Sortix is free software: you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation, either version 3 of the License, or (at your option) any later
version.
Sortix is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
details.
You should have received a copy of the GNU General Public License along with
Sortix. If not, see <http://www.gnu.org/licenses/>.
kernel.cpp
The main kernel initialization routine. Configures hardware and starts an
initial process from the init ramdisk, allowing a full operating system.
*******************************************************************************/
#include "platform.h"
#include <libmaxsi/memory.h>
#include <libmaxsi/string.h>
#include <libmaxsi/format.h>
#include "log.h"
#include "panic.h"
#include "x86-family/gdt.h"
#include "time.h"
#include "keyboard.h"
#include "multiboot.h"
#include "memorymanagement.h"
#include "thread.h"
#include "process.h"
#include "scheduler.h"
#include "syscall.h"
#include "pci.h"
#include "uart.h"
#include "terminal.h"
#include "serialterminal.h"
#include "vgaterminal.h"
#include "elf.h"
#include "initrd.h"
#include "vga.h"
#include "sound.h"
#include "io.h"
#include "pipe.h"
#include "filesystem.h"
#include "mount.h"
#include "directory.h"
#include "interrupt.h"
using namespace Maxsi;
void* RunApplication(void* Parameter);
// Keep the stack size aligned with $CPU/base.s
extern "C" { size_t stack[64*1024] = {0}; }
namespace Sortix
{
#ifdef PLATFORM_HTTP
namespace HTTP { void Init(); }
#endif
void DoBSoD()
{
#ifdef PLATFORM_SERIAL
UART::WriteChar(27);
UART::WriteChar(91);
UART::WriteChar(48 + 4);
UART::WriteChar(48 + 4);
UART::WriteChar(109);
#endif
Log::Print(" ");
Log::Print(" ");
Log::Print("Windows Boot Manager has experienced a problem. ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" Status: 0xc000000f ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" Info: An error occured during transferring execution. ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" ");
Log::Print("You can try to recover the system with the Microsoft Windows System Recovery ");
Log::Print("Tools. (You might need to restart the system manually). ");
Log::Print(" ");
Log::Print("If the problem continues, please contact your system administrator or computer ");
Log::Print("manufacturer. ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" ");
Log::Print(" ");
#ifdef JSSORTIX
JSSortix::Exit();
#else
while ( true ) { }
#endif
}
void DoMaxsiLogo()
{
Log::Print("\e[37;41m\e[2J"); // Make the background color red.
Log::Print(" _ \n");
Log::Print(" / \\ \n");
Log::Print(" /\\ /\\ / \\ \n");
Log::Print(" / \\ / \\ | | \n");
Log::Print(" / \\/ \\ | | \n");
Log::Print(" | O O \\_______________________ / | \n");
Log::Print(" | | \n");
Log::Print(" | \\_______/ / \n");
Log::Print(" \\ / \n");
Log::Print(" ------ --------------- ---/ \n");
Log::Print(" / \\ / \\ \n");
Log::Print(" / \\ / \\ \n");
Log::Print(" / \\ / \\ \n");
Log::Print(" /_____________\\ /____________\\ \n");
Log::Print(" \n");
Log::Print(" BOOTING OPERATING SYSTEM... ");
}
void DoWelcome()
{
#ifdef BSOD
DoBSoD();
#endif
DoMaxsiLogo();
}
extern "C" void KernelInit(unsigned long Magic, multiboot_info_t* BootInfo)
{
#ifdef JSSORTIX
// TODO: Make JSVM multiboot compliant.
multiboot_info_t MBInfo; BootInfo = &MBInfo;
multiboot_memory_map_t MBMMap;
MBMMap.addr = 0x100000;
MBMMap.len = 0xC00000;
MBMMap.type = MULTIBOOT_MEMORY_AVAILABLE;
MBMMap.size = sizeof(MBMMap) - sizeof(MBMMap.size);
BootInfo->flags = MULTIBOOT_INFO_MEM_MAP;
BootInfo->mmap_addr = (multiboot_uint32_t) &MBMMap;
BootInfo->mmap_length = sizeof(MBMMap);
#endif
// Initialize system calls.
Syscall::Init();
// Initialize the default terminal.
Maxsi::Format::Callback logcallback;
void* logpointer;
#if PLATFORM_SERIAL
// Initialize the serial driver.
UART::Init();
SerialTerminal::Init();
logcallback = SerialTerminal::Print;
logpointer = NULL;
#else
VGATerminal::Init();
logcallback = VGATerminal::Print;
logpointer = NULL;
#endif
// Initialize the kernel log.
Log::Init(logcallback, logpointer);
// Display the boot welcome screen.
DoWelcome();
if ( BootInfo == NULL ) { Panic("kernel.cpp: The bootinfo structure was NULL. Are your bootloader multiboot compliant?"); }
addr_t initrd = NULL;
size_t initrdsize = 0;
#ifndef JSSORTIX
uint32_t* modules = (uint32_t*) BootInfo->mods_addr;
for ( uint32_t I = 0; I < BootInfo->mods_count; I++ )
{
initrdsize = modules[2*I+1] - modules[2*I+0];
initrd = (addr_t) modules[2*I+0];
break;
}
if ( !initrd ) { PanicF("No init ramdisk provided"); }
#else
// TODO: UGLY HACK because JSVM doesn't support multiboot yet!
initrd = (addr_t) 0x180000UL;
initrdsize = 0x280000; // 2 MiB 512 KiB
#endif
Memory::RegisterInitRDSize(initrdsize);
// Initialize the paging and virtual memory.
Memory::Init(BootInfo);
// Initialize the GDT and TSS structures.
GDT::Init();
// Initialize the interrupt handler table and enable interrupts.
Interrupt::Init();
// Initialize the kernel heap.
Maxsi::Memory::Init();
// Initialize the keyboard.
Keyboard::Init();
// Initialize the terminal.
Terminal::Init();
// Initialize the VGA driver.
VGA::Init();
// Initialize the sound driver.
Sound::Init();
// Initialize the process system.
Process::Init();
// Initialize the thread system.
Thread::Init();
// Initialize the IO system.
IO::Init();
// Initialize the pipe system.
Pipe::Init();
// Initialize the filesystem system.
FileSystem::Init();
// Initialize the directory system.
Directory::Init();
// Initialize the mount system.
Mount::Init();
// Initialize the scheduler.
Scheduler::Init();
// Set up the initial ram disk.
InitRD::Init(initrd, initrdsize);
#ifndef JSSORTIX
// Search for PCI devices and load their drivers.
PCI::Init();
#endif
// Alright, now the system's drivers are loaded and initialized. It is
// time to load the initial user-space programs and start execution of
// the actual operating system.
byte* program;
size_t programsize;
// Create an address space for the idle process.
addr_t idleaddrspace = Memory::Fork();
if ( !idleaddrspace ) { Panic("could not fork an idle process address space"); }
// Create an address space for the initial process.
addr_t initaddrspace = Memory::Fork();
if ( !initaddrspace ) { Panic("could not fork an initial process address space"); }
// Create the system idle process.
Process* idle = new Process;
if ( !idle ) { Panic("could not allocate idle process"); }
idle->addrspace = idleaddrspace;
Memory::SwitchAddressSpace(idleaddrspace);
Scheduler::SetDummyThreadOwner(idle);
program = InitRD::Open("idle", &programsize);
if ( program == NULL ) { PanicF("initrd did not contain 'idle'"); }
addr_t idlestart = ELF::Construct(idle, program, programsize);
if ( !idlestart ) { Panic("could not construct ELF image for idle process"); }
Thread* idlethread = CreateThread(idlestart);
if ( !idlethread ) { Panic("could not create thread for the idle process"); }
Scheduler::SetIdleThread(idlethread);
// Create the initial process.
Process* init = new Process;
if ( !init ) { Panic("could not allocate init process"); }
init->addrspace = initaddrspace;
Memory::SwitchAddressSpace(initaddrspace);
Scheduler::SetDummyThreadOwner(init);
program = InitRD::Open("init", &programsize);
if ( program == NULL ) { PanicF("initrd did not contain 'init'"); }
addr_t initstart = ELF::Construct(init, program, programsize);
if ( !initstart ) { Panic("could not construct ELF image for init process"); }
Thread* initthread = CreateThread(initstart);
if ( !initthread ) { Panic("could not create thread for the init process"); }
Scheduler::SetInitProcess(init);
// Lastly set up the timer driver and we are ready to run the OS.
Time::Init();
// Run the OS.
Scheduler::MainLoop();
}
}