/* $Id$ * * balo.c: BAget LOader * * Copyright (C) 1998 Gleb Raiko & Vladimir Roganov * */ #include #include #include #include #include #include "balo.h" /* Includes some kernel symbol values */ static char *banner = "\nBaget Linux Loader v0.2\n"; static void mem_move (long *to, long *from, long size) { while (size > 0) { *to++ = *from++; size -= sizeof(long); } } static volatile int *mem_limit = (volatile int*)KSEG1; static volatile int *mem_limit_dbe = (volatile int*)KSEG1; static int can_write (volatile int* p) { return p < (int*)(KSEG1+BALO_OFFSET) || p >= (int*)(KSEG1+BALO_OFFSET+BALO_SIZE); } static volatile enum balo_state_enum { BALO_INIT, MEM_INIT, MEM_PROBE, START_KERNEL } balo_state = BALO_INIT; static __inline__ void reset_and_jump(int start, int mem_upper) { __asm__ __volatile__( ".set\tnoreorder\n\t" ".set\tnoat\n\t" "mfc0\t$1,$12\n\t" "nop\n\t" "nop\n\t" "nop\n\t" "ori\t$1,$1,0xff00\n\t" "xori\t$1,$1,0xff00\n\t" "mtc0\t$1,$12\n\t" "nop\n\t" "nop\n\t" "nop\n\t" "move\t$4,%1\n\t" "jr\t%0\n\t" "nop\n\t" ".set\tat\n\t" ".set\treorder" : /* no outputs */ :"Ir" (start), "Ir" (mem_upper) :"$1", "$4", "memory"); } static void start_kernel(void) { extern char _vmlinux_start, _vmlinux_end; extern char _ramdisk_start, _ramdisk_end; outs( "Relocating Linux... " ); mem_move((long*)KSEG0, (long*)&_vmlinux_start, &_vmlinux_end-&_vmlinux_start); outs("done.\n"); if (&_ramdisk_start != &_ramdisk_end) { outs("Setting up RAMDISK... "); if (*(unsigned long*)RAMDISK_BASE != 0xBA) { outs("Bad RAMDISK_BASE signature in system image.\n"); balo_hungup(); } *(unsigned long*)RAMDISK_BASE = (unsigned long)&_ramdisk_start; *(unsigned long*)RAMDISK_SIZE = &_ramdisk_end -&_ramdisk_start; outs("done.\n"); } { extern void flush_cache_low(int isize, int dsize); flush_cache_low(256*1024,256*1024); } balo_printf( "Kernel entry: %x\n\n", START); balo_state = START_KERNEL; reset_and_jump(START, (int)mem_limit-KSEG1+KSEG0); } static void mem_probe(void) { balo_state = MEM_PROBE; outs("RAM: <"); while(mem_limit < mem_limit_dbe) { if (can_write(mem_limit) && *mem_limit != 0) break; /* cycle found */ outc('.'); if (can_write(mem_limit)) *mem_limit = -1; /* mark */ mem_limit += 0x40000; } outs(">\n"); start_kernel(); } volatile unsigned int int_cause; volatile unsigned int epc; volatile unsigned int badvaddr; static void print_regs(void) { balo_printf("CAUSE=%x EPC=%x BADVADDR=%x\n", int_cause, epc, badvaddr); } void int_handler(struct pt_regs *regs) { switch (balo_state) { case BALO_INIT: balo_printf("\nBALO: trap in balo itself.\n"); print_regs(); balo_hungup(); break; case MEM_INIT: if ((int_cause & CAUSE_MASK) != CAUSE_DBE) { balo_printf("\nBALO: unexpected trap during memory init.\n"); print_regs(); balo_hungup(); } else { mem_probe(); } break; case MEM_PROBE: balo_printf("\nBALO: unexpected trap during memory probe.\n"); print_regs(); balo_hungup(); break; case START_KERNEL: balo_printf("\nBALO: unexpected kernel trap.\n"); print_regs(); balo_hungup(); break; } balo_printf("\nBALO: unexpected return from handler.\n"); print_regs(); balo_hungup(); } static void mem_init(void) { balo_state = MEM_INIT; while(1) { *mem_limit_dbe; if (can_write(mem_limit_dbe)) *mem_limit_dbe = 0; mem_limit_dbe += 0x40000; /* +1M */ } /* no return: must go to int_handler */ } void balo_entry(void) { extern void except_vec3_generic(void); cli(); outs(banner); memcpy((void *)(KSEG0 + 0x80), &except_vec3_generic, 0x80); mem_init(); } /* Needed for linking */ int vsprintf(char *buf, const char *fmt, va_list arg) { outs("BALO: vsprintf called.\n"); balo_hungup(); return 0; }