/* * * (c) 2004-2005 Laurent Vivier * */ #define __NO_INLINE__ #include #include #include #include #include #include #include "bank.h" #include "memory.h" #if defined(ARCH_M68K) #if defined(__LINUX__) #include "bootinfo.h" #elif defined(__NETBSD__) #include "bootenv.h" #endif #endif #ifdef ARCH_PPC #include "bootx.h" #endif #include "arch.h" #include "misc.h" #include "load.h" #include "console.h" #include "vga.h" #include "driver.h" #include "config.h" #include "enter_kernel.h" #ifdef ARCH_M68K #define KERNEL_ALIGN (256L * 1024L) // Kernel alignment, on 256K boundary #if defined(__LINUX__) #define BI_ALLOC_SIZE (4096L) // Allocate 4K for bootinfo #elif defined(__NETBSD__) #define BI_ALLOC_SIZE (4096L) #endif #endif int start(emile_l2_header_t* info) { char * kernel; #ifdef ARCH_M68K entry_t entry; unsigned long physImage; #ifdef USE_MMU unsigned long physical; #ifdef __LINUX__ unsigned long aligned_size; unsigned long aligned_addr; #endif /* __LINUX__ */ #endif /* USE_MMU */ unsigned long start_mem; unsigned long entry_point; #endif /* ARCH_M68K */ #ifdef ARCH_PPC PPCRegisterList regs; #endif int ret; char *ramdisk_start; int bootstrap_size; unsigned long kernel_size; unsigned long ramdisk_size; char *kernel_path; char *ramdisk_path; char *command_line; printf("EMILE v"VERSION" (c) 2004,2005 Laurent Vivier\n"); arch_init(); init_memory_map(); #ifdef BANK_DUMP bank_dump(); #endif printf("Available Memory: %ld kB\n", bank_mem_avail() / 1024); enter_kernel_init(); #ifdef ARCH_M68K if (arch_type == gestalt68k) { #if defined(__LINUX__) /* and BI_ALLOC_SIZE for bootinfo */ bootstrap_size = BI_ALLOC_SIZE + end_enter_kernel - enter_kernel; #elif defined(__NETBSD__) bootstrap_size = BI_ALLOC_SIZE + end_enter_kernel - enter_kernel; #endif } #ifndef ARCH_PPC else error("EMILE doesn't support your architecture"); #endif #endif if (read_config(info, &kernel_path, &command_line, &ramdisk_path) != 0) error("cannot read configuration\n"); /* load kernel */ kernel = load_kernel(kernel_path, bootstrap_size, &start_mem, &entry_point, &kernel_size); if (kernel == NULL) error("Cannot load and uncompress kernel image\n"); #ifdef ARCH_M68K if (arch_type == gestalt68k) { unsigned long enter_size = end_enter_kernel - enter_kernel; /* copy enter_kernel at end of kernel */ memcpy((char*)kernel + kernel_size + bootstrap_size - enter_size, (char*)enter_kernel, enter_size); end_enter_kernel = (unsigned long)kernel + kernel_size + bootstrap_size; enter_kernel = (unsigned long)kernel + bootstrap_size - enter_size + kernel_size; } #endif /* load ramdisk if needed */ if (ramdisk_path) { ramdisk_start = load_ramdisk(ramdisk_path, &ramdisk_size); if (ramdisk_start == NULL) error("Cannot open ramdisk\n"); } else { ramdisk_start = 0; printf("no RAMDISK\n"); } #ifdef ARCH_M68K if (arch_type == gestalt68k) { /* compute final address of kernel */ if (mmu_type == gestaltNoMMU) { unsigned long size = end_enter_kernel - enter_kernel; #if defined(__LINUX__) /* initialize bootinfo structure */ bootinfo_init(command_line, ramdisk_start, ramdisk_size); /* set bootinfo at end of kernel image */ set_kernel_bootinfo(kernel + kernel_size); physImage = (unsigned long)kernel; #endif entry = (entry_t)(start_mem - size); printf("\n"); printf("Ok, booting the kernel.\n"); memcpy(entry, (char*)enter_kernel, size); } else #ifndef USE_MMU error("Unsupported MMU"); #else { ret = logical2physical((unsigned long)kernel, &physImage); /* disable and flush cache */ disable_cache(); #if defined(__LINUX__) /* initialize bootinfo structure */ bootinfo_init(command_line, ramdisk_start, ramdisk_size); /* add KERNEL_ALIGN if we have to align */ aligned_size = boot_info.memory[0].addr & (KERNEL_ALIGN - 1); if ( aligned_size > 0 ) { aligned_size = KERNEL_ALIGN - aligned_size; aligned_addr = boot_info.memory[0].addr + aligned_size; aligned_size = boot_info.memory[0].size - aligned_size; boot_info.memory[0].addr = aligned_addr; boot_info.memory[0].size = aligned_size; } /* set bootinfo at end of kernel image */ set_kernel_bootinfo(kernel + kernel_size); #elif defined(__NETBSD__) bootenv_init(kernel + kernel_size); #endif printf("\n"); printf("Ok, booting the kernel.\n"); ret = logical2physical(enter_kernel, &physical); entry = (entry_t)physical; if ( (ret == 0) && (enter_kernel != (unsigned long)entry) ) { unsigned long logi; unsigned long size = end_enter_kernel - enter_kernel; logi = vga_get_video(); ret = logical2physical(logi, &physical); entry = (entry_t)physical; memcpy((char*)logi, (char*)enter_kernel, size); memcpy((char*)entry, (char*)enter_kernel, size); } } #endif /* USE_MMU */ } else #ifndef ARCH_PPC error("EMILE doesn't support your architecture"); #endif #endif /* ARCH_M68K */ #ifdef ARCH_PPC if (arch_type == gestaltPowerPC) { bootx_init(command_line, ramdisk_start, ramdisk_size); regs.PC = (u_int32_t)kernel; #define BOOT_KERNEL_STACK_SIZE 65536 regs.GPR[1] = (u_int32_t)malloc_contiguous(BOOT_KERNEL_STACK_SIZE) + BOOT_KERNEL_STACK_SIZE - 512; regs.GPR[2] = 0; regs.GPR[3] = 'BooX'; regs.GPR[4] = (u_int32_t)&bootx_infos; /* Set up the info for BAT mapping on Nubus */ regs.GPR[5] = vga_get_videobase() & 0xFF800000UL; regs.GPR[11] = 1; printf("\n"); printf("Ok, booting the kernel.\n"); } else error("EMILE doesn't support your architecture"); #endif turn_off_interrupts(); asm("ori.w #0x0700,%sr"); /* kick off */ #ifdef ARCH_M68K if (arch_type == gestalt68k) entry(physImage, kernel_size + BI_ALLOC_SIZE, start_mem, entry_point); #endif #ifdef ARCH_PPC if (arch_type == gestaltPowerPC) enter_kernelPPC((unsigned long)kernel, ®s); #endif error("Kernel startup failed"); return 0; }