#include <multiboot2.h>
#include <init.h>
#include <mm_virt.h>
-#include <mp.h>
+#include <pmemmap.h>
+#include <semaphore.h>
#define VGA_ERRORS 0
+#define KERNEL_LOAD 0x100000 // 1MiB
#define MAX_ARGSTR_POS (0x400000-0x2000)
+#define MAX_PMEMMAP_ENTS 16
// === IMPORTS ===
-extern void Heap_Install(void);
-extern void Desctab_Install(void);
+extern char gKernelEnd[];
extern void MM_PreinitVirtual(void);
-extern void MM_Install(tMBoot_Info *MBoot);
+extern void MM_Install(int NPMemRanges, tPMemMapEnt *PMemRanges);
extern void MM_InstallVirtual(void);
-extern void Threads_Init(void);
extern int Time_Setup(void);
-// --- Core ---
-extern void System_Init(char *Commandline);
+extern int ACPICA_Initialise(void);
+// - Modules/Display/VESA
+extern void VBE_int_SetBootMode(Uint16 ModeID, const void *ModeInfo);
// === PROTOTYPES ===
int kmain(Uint MbMagic, void *MbInfoPtr);
// === GLOBALS ===
char *gsBootCmdLine = NULL;
-struct {
- Uint32 PBase;
- void *Base;
- Uint Size;
- char *ArgString;
-} *gaArch_BootModules;
+tBootModule *gaArch_BootModules;
int giArch_NumBootModules = 0;
// === CODE ===
int kmain(Uint MbMagic, void *MbInfoPtr)
{
- int i;
- tMBoot_Module *mods;
tMBoot_Info *mbInfo;
+ tPMemMapEnt pmemmap[MAX_PMEMMAP_ENTS];
+ int nPMemMapEnts;
- LogF("Acess2 x86-"PLATFORM" v"EXPAND_STR(KERNEL_VERSION)"\n");
- LogF(" Build %i, Git Hash %s\n", BUILD_NUM, gsGitHash);
+ LogF("%s\r\n", gsBuildInfo);
- Log("MbMagic = %08x, MbInfoPtr = %p", MbMagic, MbInfoPtr);
-
- // Set up non-boot info dependent stuff
- Desctab_Install(); // Set up GDT and IDT
MM_PreinitVirtual(); // Initialise virtual mappings
-
+
+ mbInfo = MbInfoPtr;
+
switch(MbMagic)
{
// Multiboot 1
- case MULTIBOOT_MAGIC:
- // Adjust Multiboot structure address
- mbInfo = (void*)( (Uint)MbInfoPtr + KERNEL_BASE );
+ case MULTIBOOT_MAGIC: {
+ // TODO: Handle when this isn't in the mapped area
+ ASSERT( mbInfo->CommandLine < 4*1024*1024 );
gsBootCmdLine = (char*)(mbInfo->CommandLine + KERNEL_BASE);
+
+ // Adjust Multiboot structure address
+ mbInfo = (void*)( (tVAddr)MbInfoPtr + KERNEL_BASE );
+
+ // Parse memory map
+ // - mbInfo->Flags is checked in this function
+ nPMemMapEnts = Multiboot_LoadMemoryMap(mbInfo, KERNEL_BASE, pmemmap, MAX_PMEMMAP_ENTS,
+ KERNEL_LOAD, (tVAddr)&gKernelEnd - KERNEL_BASE);
- MM_Install( mbInfo ); // Set up physical memory manager
- break;
+
+ // Get video mode
+ Debug("mbInfo->Flags = 0x%x", mbInfo->Flags);
+ if( mbInfo->Flags & (1 << 11) )
+ {
+ // TODO: Ensure address is in mapped area
+ ASSERT( mbInfo->vbe_mode_info < 4*1024*1024 );
+ VBE_int_SetBootMode(mbInfo->vbe_mode, (void*)(mbInfo->vbe_mode_info + KERNEL_BASE));
+ }
+
+ break; }
// Multiboot 2
case MULTIBOOT2_MAGIC:
MbMagic, MULTIBOOT_MAGIC, MULTIBOOT2_MAGIC);
return 0;
}
+
+ // Set up physical memory manager
+ MM_Install(nPMemMapEnts, pmemmap);
MM_InstallVirtual(); // Clean up virtual address space
Heap_Install(); // Create initial heap
+ Time_Setup(); // Initialise timing
// Start Multitasking
Threads_Init();
-
- // Start Timers
- Time_Setup();
-
+
+ #if USE_ACPICA
+ // Poke ACPICA
+ ACPICA_Initialise();
+ #endif
+
Log_Log("Arch", "Starting VFS...");
// Load Virtual Filesystem
VFS_Init();
// Load initial modules
- mods = (void*)( mbInfo->Modules + KERNEL_BASE );
- giArch_NumBootModules = mbInfo->ModuleCount;
- gaArch_BootModules = malloc( giArch_NumBootModules * sizeof(*gaArch_BootModules) );
- for( i = 0; i < mbInfo->ModuleCount; i ++ )
- {
- int ofs;
-
- Log_Log("Arch", "Multiboot Module at 0x%08x, 0x%08x bytes (String at 0x%08x)",
- mods[i].Start, mods[i].End-mods[i].Start, mods[i].String);
-
- gaArch_BootModules[i].PBase = mods[i].Start;
- gaArch_BootModules[i].Size = mods[i].End - mods[i].Start;
-
- // Always HW map the module data
- ofs = mods[i].Start&0xFFF;
- gaArch_BootModules[i].Base = (void*)( MM_MapHWPages(mods[i].Start,
- (gaArch_BootModules[i].Size+ofs+0xFFF) / 0x1000
- ) + ofs );
-
- // Only map the string if needed
- if( (tVAddr)mods[i].String > MAX_ARGSTR_POS )
- {
- // Assumes the string is < 4096 bytes long)
- gaArch_BootModules[i].ArgString = (void*)(
- MM_MapHWPages(mods[i].String, 2) + (mods[i].String&0xFFF)
- );
- }
- else
- gaArch_BootModules[i].ArgString = (char *)mods[i].String + KERNEL_BASE;
- }
+ gaArch_BootModules = Multiboot_LoadModules(mbInfo, KERNEL_BASE, &giArch_NumBootModules);
// Pass on to Independent Loader
Log_Log("Arch", "Starting system");
void Arch_LoadBootModules(void)
{
- int i, j, numPages;
- for( i = 0; i < giArch_NumBootModules; i ++ )
+ for( int i = 0; i < giArch_NumBootModules; i ++ )
{
- Log_Log("Arch", "Loading '%s'", gaArch_BootModules[i].ArgString);
+ const tBootModule *mod = &gaArch_BootModules[i];
+ Log_Log("Arch", "Loading (%p[%P]+%x) '%s'",
+ mod->Base, mod->PBase, mod->Size,
+ mod->ArgString);
- if( !Module_LoadMem( gaArch_BootModules[i].Base, gaArch_BootModules[i].Size, gaArch_BootModules[i].ArgString ) )
- {
+ if( !Module_LoadMem( mod->Base, mod->Size, mod->ArgString) ) {
Log_Warning("Arch", "Unable to load module");
+ continue ;
}
-
- // Unmap and free
- numPages = (gaArch_BootModules[i].Size + ((Uint)gaArch_BootModules[i].Base&0xFFF) + 0xFFF) >> 12;
- MM_UnmapHWPages( (tVAddr)gaArch_BootModules[i].Base, numPages );
-
- for( j = 0; j < numPages; j++ )
- MM_DerefPhys( gaArch_BootModules[i].PBase + (j << 12) );
-
- if( (tVAddr) gaArch_BootModules[i].ArgString > MAX_ARGSTR_POS )
- MM_UnmapHWPages( (tVAddr)gaArch_BootModules[i].ArgString, 2 );
}
Log_Log("Arch", "Boot modules loaded");
- free( gaArch_BootModules );
+ Multiboot_FreeModules(giArch_NumBootModules, gaArch_BootModules);
+ giArch_NumBootModules = 0;
+ gaArch_BootModules = NULL;
}