src/post.c - seabios - Gitiles

 // 32bit code to Power On Self Test (POST) a machine.
 //
 // Copyright (C) 2008  Kevin O'Connor <kevin@koconnor.net>
 // Copyright (C) 2002  MandrakeSoft S.A.
 //
 // This file may be distributed under the terms of the GNU GPLv3 license.

 #include "ioport.h" // PORT_*
 #include "config.h" // CONFIG_*
 #include "cmos.h" // CMOS_*
 #include "util.h" // memset
 #include "biosvar.h" // struct bios_data_area_s
 #include "ata.h" // hard_drive_setup
 #include "disk.h" // floppy_drive_setup
 #include "memmap.h" // add_e820
 #include "pic.h" // pic_setup
 #include "pci.h" // create_pirtable
 #include "acpi.h" // acpi_bios_init
 #include "bregs.h" // struct bregs

 #define bda ((struct bios_data_area_s *)MAKE_FARPTR(SEG_BDA, 0))
 #define ebda ((struct extended_bios_data_area_s *)MAKE_FARPTR(SEG_EBDA, 0))

 void
 __set_irq(int vector, void *loc)
 {
     SET_BDA(ivecs[vector].seg, SEG_BIOS);
     SET_BDA(ivecs[vector].offset, (u32)loc - BUILD_BIOS_ADDR);
 }

 #define set_irq(vector, func) do {              \
         extern void func (void);                \
         __set_irq(vector, func);                \
     } while (0)

 static void
 init_bda()
 {
     dprintf(3, "init bda\n");
     memset(bda, 0, sizeof(*bda));

     SET_BDA(mem_size_kb, BASE_MEM_IN_K);

     // Initialize all vectors to a dummy handler.
     int i;
     for (i=0; i<256; i++)
         set_irq(i, dummy_iret_handler);

     // Initialize all hw vectors to a default hw handler.
     for (i=0x08; i<=0x0f; i++)
         set_irq(i, entry_hwirq);
     for (i=0x70; i<=0x77; i++)
         set_irq(i, entry_hwirq);

     // Initialize software handlers.
     set_irq(0x10, entry_10);
     set_irq(0x11, entry_11_official);
     set_irq(0x12, entry_12_official);
     set_irq(0x13, entry_13_official);
     set_irq(0x14, entry_14);
     set_irq(0x15, entry_15);
     set_irq(0x16, entry_16);
     set_irq(0x17, entry_17);
     set_irq(0x18, entry_18);
     set_irq(0x19, entry_19_official);
     set_irq(0x1a, entry_1a);
     set_irq(0x1c, entry_1c);
     set_irq(0x40, entry_40);

     // set vector 0x79 to zero
     // this is used by 'gardian angel' protection system
     SET_BDA(ivecs[0x79].seg, 0);
     SET_BDA(ivecs[0x79].offset, 0);

     __set_irq(0x1E, &diskette_param_table2);
 }

 static void
 init_ebda()
 {
     memset(ebda, 0, sizeof(*ebda));
     ebda->size = EBDA_SIZE;
     SET_BDA(ebda_seg, SEG_EBDA);
     SET_BDA(ivecs[0x41].seg, SEG_EBDA);
     SET_BDA(ivecs[0x41].offset
             , offsetof(struct extended_bios_data_area_s, fdpt[0]));
     SET_BDA(ivecs[0x46].seg, SEG_EBDA);
     SET_BDA(ivecs[0x41].offset
             , offsetof(struct extended_bios_data_area_s, fdpt[1]));
 }

 static void
 ram_probe(void)
 {
     dprintf(3, "Find memory size\n");
     if (CONFIG_COREBOOT) {
         coreboot_fill_map();
     } else {
         // On emulators, get memory size from nvram.
         u32 rs = ((inb_cmos(CMOS_MEM_EXTMEM2_LOW) << 16)
                   | (inb_cmos(CMOS_MEM_EXTMEM2_HIGH) << 24));
         if (rs)
             rs += 16 * 1024 * 1024;
         else
             rs = (((inb_cmos(CMOS_MEM_EXTMEM_LOW) << 10)
                    | (inb_cmos(CMOS_MEM_EXTMEM_HIGH) << 18))
                   + 1 * 1024 * 1024);
         SET_EBDA(ram_size, rs);
         add_e820(0, rs, E820_RAM);

         // Check for memory over 4Gig
         u64 high = ((inb_cmos(CMOS_MEM_HIGHMEM_LOW) << 16)
                     | (inb_cmos(CMOS_MEM_HIGHMEM_MID) << 24)
                     | ((u64)inb_cmos(CMOS_MEM_HIGHMEM_HIGH) << 32));
         SET_EBDA(ram_size_over4G, high);
         add_e820(0x100000000ull, high, E820_RAM);

         /* reserve 256KB BIOS area at the end of 4 GB */
         add_e820(0xfffc0000, 256*1024, E820_RESERVED);
     }

     // Don't declare any memory between 0xa0000 and 0x100000
     add_e820(0xa0000, 0x50000, E820_HOLE);

     // Mark known areas as reserved.
     add_e820((u32)MAKE_FARPTR(SEG_EBDA, 0), EBDA_SIZE * 1024, E820_RESERVED);
     add_e820(BUILD_BIOS_ADDR, BUILD_BIOS_SIZE, E820_RESERVED);

     dprintf(1, "ram_size=0x%08x\n", GET_EBDA(ram_size));
 }

 static void
 init_bios_tables(void)
 {
     if (CONFIG_COREBOOT)
         // XXX - not supported on coreboot yet.
         return;

     create_pirtable();

     mptable_init();

     smbios_init();

     acpi_bios_init();
 }

 static void
 init_boot_vectors()
 {
     if (! CONFIG_BOOT)
         return;
     dprintf(3, "init boot device ordering\n");

     // Floppy drive
     struct ipl_entry_s *ip = &ebda->ipl.table[0];
     ip->type = IPL_TYPE_FLOPPY;
     ip++;

     // First HDD
     ip->type = IPL_TYPE_HARDDISK;
     ip++;

     // CDROM
     if (CONFIG_CDROM_BOOT) {
         ip->type = IPL_TYPE_CDROM;
         ip++;
     }

     ebda->ipl.count = ip - ebda->ipl.table;
     ebda->ipl.sequence = 0xffff;
     if (CONFIG_COREBOOT) {
         // XXX - hardcode defaults for coreboot.
         ebda->ipl.bootorder = 0x00000231;
         ebda->ipl.checkfloppysig = 1;
     } else {
         // On emulators, get boot order from nvram.
         ebda->ipl.bootorder = (inb_cmos(CMOS_BIOS_BOOTFLAG2)
                                | ((inb_cmos(CMOS_BIOS_BOOTFLAG1) & 0xf0) << 4));
         if (!(inb_cmos(CMOS_BIOS_BOOTFLAG1) & 1))
             ebda->ipl.checkfloppysig = 1;
     }
 }

 // Main setup code.
 static void
 post()
 {
     init_bda();
     init_ebda();

     pic_setup();
     timer_setup();
     mathcp_setup();

     smp_probe_setup();

     memmap_setup();
     ram_probe();

     vga_setup();

     kbd_setup();
     lpt_setup();
     serial_setup();
     mouse_setup();

     pci_bios_setup();
     smm_init();

     init_bios_tables();
     memmap_finalize();

     floppy_drive_setup();
     hard_drive_setup();

     init_boot_vectors();

     optionrom_setup();
 }

 // 32-bit entry point.
 void VISIBLE32
 _start()
 {
     init_dma();

     debug_serial_setup();
     dprintf(1, "Start bios\n");

     // Allow writes to modify bios area (0xf0000)
     make_bios_writable();

     // Perform main setup code.
     post();

     // Present the user with a bootup menu.
     interactive_bootmenu();

     // Setup bios checksum.
     extern char bios_checksum;
     bios_checksum = -checksum((u8*)BUILD_BIOS_ADDR, BUILD_BIOS_SIZE - 1);

     // Prep for boot process.
     make_bios_readonly();

     // Invoke int 19 to start boot process.
     dprintf(3, "Jump to int19\n");
     struct bregs br;
     memset(&br, 0, sizeof(br));
     call16_int(0x19, &br);
 }

 // Ughh - some older gcc compilers have a bug which causes VISIBLE32
 // functions to not be exported as a global variable - force _start
 // to be global here.
 asm(".global _start");
	// 32bit code to Power On Self Test (POST) a machine.
	//
	// Copyright (C) 2008 Kevin O'Connor <kevin@koconnor.net>
	// Copyright (C) 2002 MandrakeSoft S.A.
	//
	// This file may be distributed under the terms of the GNU GPLv3 license.

	#include "ioport.h" // PORT_*
	#include "config.h" // CONFIG_*
	#include "cmos.h" // CMOS_*
	#include "util.h" // memset
	#include "biosvar.h" // struct bios_data_area_s
	#include "ata.h" // hard_drive_setup
	#include "disk.h" // floppy_drive_setup
	#include "memmap.h" // add_e820
	#include "pic.h" // pic_setup
	#include "pci.h" // create_pirtable
	#include "acpi.h" // acpi_bios_init
	#include "bregs.h" // struct bregs

	#define bda ((struct bios_data_area_s *)MAKE_FARPTR(SEG_BDA, 0))
	#define ebda ((struct extended_bios_data_area_s *)MAKE_FARPTR(SEG_EBDA, 0))

	void
	__set_irq(int vector, void *loc)
	{
	SET_BDA(ivecs[vector].seg, SEG_BIOS);
	SET_BDA(ivecs[vector].offset, (u32)loc - BUILD_BIOS_ADDR);
	}

	#define set_irq(vector, func) do { \
	extern void func (void); \
	__set_irq(vector, func); \
	} while (0)

	static void
	init_bda()
	{
	dprintf(3, "init bda\n");
	memset(bda, 0, sizeof(*bda));

	SET_BDA(mem_size_kb, BASE_MEM_IN_K);

	// Initialize all vectors to a dummy handler.
	int i;
	for (i=0; i<256; i++)
	set_irq(i, dummy_iret_handler);

	// Initialize all hw vectors to a default hw handler.
	for (i=0x08; i<=0x0f; i++)
	set_irq(i, entry_hwirq);
	for (i=0x70; i<=0x77; i++)
	set_irq(i, entry_hwirq);

	// Initialize software handlers.
	set_irq(0x10, entry_10);
	set_irq(0x11, entry_11_official);
	set_irq(0x12, entry_12_official);
	set_irq(0x13, entry_13_official);
	set_irq(0x14, entry_14);
	set_irq(0x15, entry_15);
	set_irq(0x16, entry_16);
	set_irq(0x17, entry_17);
	set_irq(0x18, entry_18);
	set_irq(0x19, entry_19_official);
	set_irq(0x1a, entry_1a);
	set_irq(0x1c, entry_1c);
	set_irq(0x40, entry_40);

	// set vector 0x79 to zero
	// this is used by 'gardian angel' protection system
	SET_BDA(ivecs[0x79].seg, 0);
	SET_BDA(ivecs[0x79].offset, 0);

	__set_irq(0x1E, &diskette_param_table2);
	}

	static void
	init_ebda()
	{
	memset(ebda, 0, sizeof(*ebda));
	ebda->size = EBDA_SIZE;
	SET_BDA(ebda_seg, SEG_EBDA);
	SET_BDA(ivecs[0x41].seg, SEG_EBDA);
	SET_BDA(ivecs[0x41].offset
	, offsetof(struct extended_bios_data_area_s, fdpt[0]));
	SET_BDA(ivecs[0x46].seg, SEG_EBDA);
	SET_BDA(ivecs[0x41].offset
	, offsetof(struct extended_bios_data_area_s, fdpt[1]));
	}

	static void
	ram_probe(void)
	{
	dprintf(3, "Find memory size\n");
	if (CONFIG_COREBOOT) {
	coreboot_fill_map();
	} else {
	// On emulators, get memory size from nvram.
	u32 rs = ((inb_cmos(CMOS_MEM_EXTMEM2_LOW) << 16)
	\| (inb_cmos(CMOS_MEM_EXTMEM2_HIGH) << 24));
	if (rs)
	rs += 16 * 1024 * 1024;
	else
	rs = (((inb_cmos(CMOS_MEM_EXTMEM_LOW) << 10)
	\| (inb_cmos(CMOS_MEM_EXTMEM_HIGH) << 18))
	+ 1 * 1024 * 1024);
	SET_EBDA(ram_size, rs);
	add_e820(0, rs, E820_RAM);

	// Check for memory over 4Gig
	u64 high = ((inb_cmos(CMOS_MEM_HIGHMEM_LOW) << 16)
	\| (inb_cmos(CMOS_MEM_HIGHMEM_MID) << 24)
	\| ((u64)inb_cmos(CMOS_MEM_HIGHMEM_HIGH) << 32));
	SET_EBDA(ram_size_over4G, high);
	add_e820(0x100000000ull, high, E820_RAM);

	/* reserve 256KB BIOS area at the end of 4 GB */
	add_e820(0xfffc0000, 256*1024, E820_RESERVED);
	}

	// Don't declare any memory between 0xa0000 and 0x100000
	add_e820(0xa0000, 0x50000, E820_HOLE);

	// Mark known areas as reserved.
	add_e820((u32)MAKE_FARPTR(SEG_EBDA, 0), EBDA_SIZE * 1024, E820_RESERVED);
	add_e820(BUILD_BIOS_ADDR, BUILD_BIOS_SIZE, E820_RESERVED);

	dprintf(1, "ram_size=0x%08x\n", GET_EBDA(ram_size));
	}

	static void
	init_bios_tables(void)
	{
	if (CONFIG_COREBOOT)
	// XXX - not supported on coreboot yet.
	return;

	create_pirtable();

	mptable_init();

	smbios_init();

	acpi_bios_init();
	}

	static void
	init_boot_vectors()
	{
	if (! CONFIG_BOOT)
	return;
	dprintf(3, "init boot device ordering\n");

	// Floppy drive
	struct ipl_entry_s *ip = &ebda->ipl.table[0];
	ip->type = IPL_TYPE_FLOPPY;
	ip++;

	// First HDD
	ip->type = IPL_TYPE_HARDDISK;
	ip++;

	// CDROM
	if (CONFIG_CDROM_BOOT) {
	ip->type = IPL_TYPE_CDROM;
	ip++;
	}

	ebda->ipl.count = ip - ebda->ipl.table;
	ebda->ipl.sequence = 0xffff;
	if (CONFIG_COREBOOT) {
	// XXX - hardcode defaults for coreboot.
	ebda->ipl.bootorder = 0x00000231;
	ebda->ipl.checkfloppysig = 1;
	} else {
	// On emulators, get boot order from nvram.
	ebda->ipl.bootorder = (inb_cmos(CMOS_BIOS_BOOTFLAG2)
	\| ((inb_cmos(CMOS_BIOS_BOOTFLAG1) & 0xf0) << 4));
	if (!(inb_cmos(CMOS_BIOS_BOOTFLAG1) & 1))
	ebda->ipl.checkfloppysig = 1;
	}
	}

	// Main setup code.
	static void
	post()
	{
	init_bda();
	init_ebda();

	pic_setup();
	timer_setup();
	mathcp_setup();

	smp_probe_setup();

	memmap_setup();
	ram_probe();

	vga_setup();

	kbd_setup();
	lpt_setup();
	serial_setup();
	mouse_setup();

	pci_bios_setup();
	smm_init();

	init_bios_tables();
	memmap_finalize();

	floppy_drive_setup();
	hard_drive_setup();

	init_boot_vectors();

	optionrom_setup();
	}

	// 32-bit entry point.
	void VISIBLE32
	_start()
	{
	init_dma();

	debug_serial_setup();
	dprintf(1, "Start bios\n");

	// Allow writes to modify bios area (0xf0000)
	make_bios_writable();

	// Perform main setup code.
	post();

	// Present the user with a bootup menu.
	interactive_bootmenu();

	// Setup bios checksum.
	extern char bios_checksum;
	bios_checksum = -checksum((u8*)BUILD_BIOS_ADDR, BUILD_BIOS_SIZE - 1);

	// Prep for boot process.
	make_bios_readonly();

	// Invoke int 19 to start boot process.
	dprintf(3, "Jump to int19\n");
	struct bregs br;
	memset(&br, 0, sizeof(br));
	call16_int(0x19, &br);
	}

	// Ughh - some older gcc compilers have a bug which causes VISIBLE32
	// functions to not be exported as a global variable - force _start
	// to be global here.
	asm(".global _start");