#include "console.h"
+#include "loader.h"
+#include <output.h>
+#include <minilib.h>
#include <io.h>
+#include <smram.h>
+#include <multiboot.h>
+#include <smi.h>
+#include <pci.h>
+
+#define INFO_SIGNATURE 0x5754454E
extern char _binary_realmode_bin_start[];
extern int _binary_realmode_bin_size;
-struct mb_info
+struct info_section
{
- unsigned long flags;
- unsigned long mem_lower, mem_upper;
- unsigned long boot_dev;
- char *cmdline;
- unsigned long mod_cnt;
- struct mod_info *mods;
+ unsigned int signature;
+ void (*firstrun)();
};
-struct mod_info
+void panic(const char *msg)
{
- void *mod_start;
- void *mod_end;
- char *mod_string;
- void *reserved;
-};
+ outputf("PANIC: %s\nSystem halted\n", msg);
+ while(1) { __asm__("hlt"); }
+}
-void c_start(unsigned int magic, struct mb_info *wee)
+void c_start(unsigned int magic, struct mb_info *mbinfo)
{
- unsigned short *grubptr = (unsigned short *)0x7CFE;
- unsigned char smramc;
+ struct mod_info *mods = mbinfo->mods;
+ smram_state_t old_smramc;
+ struct info_section * info;
int i;
void (*realmode)() = (void (*)()) 0x4000;
show_cursor();
- puts("NetWatch loader\n");
+ outputf("NetWatch loader");
- if (magic != 0x2BADB002)
- {
- puts("Bootloader was not multiboot compliant; cannot continue.\n");
- while(1) asm("hlt");
- }
+ if (magic != MULTIBOOT_LOADER_MAGIC)
+ panic("Bootloader was not multiboot compliant; cannot continue.");
- for (i = 0; i < wee->mod_cnt; i++)
- {
- puts("Module found:\n");
- puts(" Start: "); puthex(wee->mods[i].mod_start); puts("\n");
- puts(" Size: "); puthex(wee->mods[i].mod_end - wee->mods[i].mod_start); puts("\n");
- puts(" Name: "); puts(wee->mods[i].mod_string); puts("\n");
- }
-
- if (wee->mod_cnt != 1)
+ for (i = 0; i < mbinfo->mod_cnt; i++)
{
- puts("Expected exactly one module; cannot continue.\n");
- while(1) asm("hlt");
+ outputf("Module found:");
+ outputf(" Start: %08x", (unsigned long) mods[i].mod_start);
+ outputf(" Size: %08x", (unsigned long)mods[i].mod_end - (unsigned long)mods[i].mod_start);
+ outputf(" Name: %s", mods[i].mod_string);
}
- puts("Current USB state is: "); puthex(pci_read16(0, 31, 2, 0xC0)); puts(" "); puthex(pci_read16(0, 31, 4, 0xC0)); puts("\n");
- puts("Current SMI state is: "); puthex(inl(0x830)); puts("\n");
- puts("Current SMRAMC state is: "); puthex(pci_read8(0, 0, 0, 0x70)); puts("\n");
+ if (mbinfo->mod_cnt != 1)
+ panic("Expected exactly one module; cannot continue.");
+ outputf("Current SMRAMC state is: %02x", pci_read8(0, 0, 0, 0x70));
+ outputf("Current USB state is: %04x %04x", pci_read16(0, 31, 2, 0xC0), pci_read16(0, 31, 4, 0xC0));
+ outputf("Current SMI state is: %08x", inl(0x830));
- outl(0x830, inl(0x830) & ~0x1); /* turn off SMIs */
+ smi_disable();
/* Try really hard to shut up USB_LEGKEY. */
pci_write16(0, 31, 2, 0xC0, pci_read16(0, 31, 2, 0xC0));
pci_write16(0, 31, 2, 0xC0, 0);
pci_write16(0, 31, 4, 0xC0, pci_read16(0, 31, 4, 0xC0));
pci_write16(0, 31, 4, 0xC0, 0);
- smramc = pci_read8(0, 0, 0, 0x70);
- pci_write8(0, 0, 0, 0x70, (smramc & 0xF0) | 0x04);
- load_elf(wee->mods[0].mod_start, wee->mods[0].mod_end - wee->mods[0].mod_start);
- pci_write8(0, 0, 0, 0x70, smramc);
- outb(0x830, inb(0x830) | 0x41); /* turn on the SMIs we want */
+/*
+ pci_bus_enum();
+*/
+ /* Open the SMRAM aperture and load our ELF. */
+ old_smramc = smram_save_state();
+
+ if (smram_aseg_set_state(SMRAM_ASEG_OPEN) != 0)
+ panic("Opening SMRAM failed; cannot load ELF.");
+
+ load_elf(mods[0].mod_start, (unsigned long)mods[0].mod_end - (unsigned long)mods[0].mod_start);
+
+ info = (struct info_section *)0x10000;
+ if (info->signature != INFO_SIGNATURE)
+ {
+ smram_restore_state(old_smramc); /* Restore so that video ram is touchable again. */
+ panic("Info section signature mismatch.");
+ }
+
+ info->firstrun();
+ smram_restore_state(old_smramc);
+ outputf("New SMRAMC state is: %02x", pci_read8(0, 0, 0, 0x70));
+
puts("Waiting for a bit before returning to real mode...");
for (i=0; i<0x500000; i++)
{
}
puts("\n");
- puts("Now returning to real mode.\n");
- memcpy(0x4000, _binary_realmode_bin_start, (int)&_binary_realmode_bin_size);
+ outputf("Now returning to real mode.");
+ memcpy((void *)0x4000, _binary_realmode_bin_start, (int)&_binary_realmode_bin_size);
realmode(); // goodbye!
}