zbsdmod.c revision 1.4.4.2
1 1.4.4.1 rmind /* $NetBSD: zbsdmod.c,v 1.4.4.2 2011/05/31 03:04:25 rmind Exp $ */ 2 1.1 peter /* $OpenBSD: zbsdmod.c,v 1.7 2005/05/02 02:45:29 uwe Exp $ */ 3 1.1 peter 4 1.1 peter /* 5 1.1 peter * Copyright (c) 2005 Uwe Stuehler <uwe (at) bsdx.de> 6 1.1 peter * 7 1.1 peter * Permission to use, copy, modify, and distribute this software for any 8 1.1 peter * purpose with or without fee is hereby granted, provided that the above 9 1.1 peter * copyright notice and this permission notice appear in all copies. 10 1.1 peter * 11 1.1 peter * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 12 1.1 peter * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 13 1.1 peter * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 14 1.1 peter * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 15 1.1 peter * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 16 1.1 peter * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 17 1.1 peter * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 18 1.1 peter */ 19 1.1 peter 20 1.1 peter /* 21 1.1 peter * Zaurus NetBSD bootstrap loader. 22 1.1 peter */ 23 1.1 peter 24 1.1 peter #include "compat_linux.h" 25 1.1 peter 26 1.1 peter #include <machine/bootinfo.h> 27 1.1 peter 28 1.1 peter #define ZBOOTDEV_MAJOR 99 29 1.1 peter #define ZBOOTDEV_MODE 0222 30 1.1 peter #define ZBOOTDEV_NAME "zboot" 31 1.1 peter #define ZBOOTMOD_NAME "zbsdmod" 32 1.1 peter 33 1.1 peter /* Prototypes */ 34 1.1 peter int init_module(void); 35 1.1 peter void cleanup_module(void); 36 1.1 peter 37 1.1 peter static ssize_t zbsdmod_write(struct file *, const char *, size_t, loff_t *); 38 1.1 peter static int zbsdmod_open(struct inode *, struct file *); 39 1.1 peter static int zbsdmod_close(struct inode *, struct file *); 40 1.1 peter 41 1.1 peter static void elf32bsdboot(void); 42 1.1 peter 43 1.1 peter static struct file_operations fops = { 44 1.1 peter 0, /* struct module *owner */ 45 1.1 peter 0, /* lseek */ 46 1.1 peter 0, /* read */ 47 1.1 peter zbsdmod_write, /* write */ 48 1.1 peter 0, /* readdir */ 49 1.1 peter 0, /* poll */ 50 1.1 peter 0, /* ioctl */ 51 1.1 peter 0, /* mmap */ 52 1.1 peter zbsdmod_open, /* open */ 53 1.1 peter 0, /* flush */ 54 1.1 peter zbsdmod_close, /* release */ 55 1.1 peter 0, /* sync */ 56 1.1 peter 0, /* async */ 57 1.1 peter 0, /* check media change */ 58 1.1 peter 0, /* revalidate */ 59 1.1 peter 0, /* lock */ 60 1.1 peter }; 61 1.1 peter 62 1.1 peter static int isopen; 63 1.1 peter static loff_t position; 64 1.1 peter 65 1.1 peter /* Outcast local variables to avoid stack usage in elf32bsdboot(). */ 66 1.1 peter static int cpsr; 67 1.1 peter static unsigned int sz; 68 1.1 peter static int i; 69 1.1 peter static vaddr_t minv, maxv, posv; 70 1.1 peter static vaddr_t elfv, shpv; 71 1.1 peter static int *addr; 72 1.1 peter static vaddr_t *esymp; 73 1.1 peter static Elf_Shdr *shp; 74 1.1 peter static Elf_Off off; 75 1.1 peter static int havesyms; 76 1.1 peter 77 1.4.4.2 rmind /* The maximum size of a kernel image is restricted to 5MB. */ 78 1.4.4.2 rmind static u_int bsdimage[5242880/sizeof(u_int)]; /* XXX use kmalloc() */ 79 1.1 peter static char bootargs[BOOTARGS_BUFSIZ]; 80 1.1 peter 81 1.1 peter /* 82 1.1 peter * Boot the loaded BSD kernel image, or return if an error is found. 83 1.1 peter * Part of this routine is borrowed from sys/lib/libsa/loadfile.c. 84 1.1 peter */ 85 1.1 peter static void 86 1.1 peter elf32bsdboot(void) 87 1.1 peter { 88 1.1 peter 89 1.1 peter #define elf ((Elf32_Ehdr *)bsdimage) 90 1.1 peter #define phdr ((Elf32_Phdr *)((char *)elf + elf->e_phoff)) 91 1.1 peter 92 1.1 peter if (memcmp(elf->e_ident, ELFMAG, SELFMAG) != 0 || 93 1.1 peter elf->e_ident[EI_CLASS] != ELFCLASS32) 94 1.1 peter return; 95 1.1 peter 96 1.1 peter minv = (vaddr_t)~0; 97 1.1 peter maxv = (vaddr_t)0; 98 1.1 peter posv = (vaddr_t)0; 99 1.1 peter esymp = 0; 100 1.1 peter 101 1.1 peter /* 102 1.1 peter * Get min and max addresses used by the loaded kernel. 103 1.1 peter */ 104 1.1 peter for (i = 0; i < elf->e_phnum; i++) { 105 1.1 peter 106 1.1 peter if (phdr[i].p_type != PT_LOAD || 107 1.1 peter (phdr[i].p_flags & (PF_W|PF_R|PF_X)) == 0) 108 1.1 peter continue; 109 1.1 peter 110 1.1 peter #define IS_TEXT(p) (p.p_flags & PF_X) 111 1.1 peter #define IS_DATA(p) ((p.p_flags & PF_X) == 0) 112 1.1 peter #define IS_BSS(p) (p.p_filesz < p.p_memsz) 113 1.1 peter /* 114 1.1 peter * XXX: Assume first address is lowest 115 1.1 peter */ 116 1.1 peter if (IS_TEXT(phdr[i]) || IS_DATA(phdr[i])) { 117 1.1 peter posv = phdr[i].p_vaddr; 118 1.1 peter if (minv > posv) 119 1.1 peter minv = posv; 120 1.1 peter posv += phdr[i].p_filesz; 121 1.1 peter if (maxv < posv) 122 1.1 peter maxv = posv; 123 1.1 peter } 124 1.1 peter if (IS_DATA(phdr[i]) && IS_BSS(phdr[i])) { 125 1.1 peter posv += phdr[i].p_memsz; 126 1.1 peter if (maxv < posv) 127 1.1 peter maxv = posv; 128 1.1 peter } 129 1.1 peter /* 130 1.1 peter * 'esym' is the first word in the .data section, 131 1.1 peter * and marks the end of the symbol table. 132 1.1 peter */ 133 1.1 peter if (IS_DATA(phdr[i]) && !IS_BSS(phdr[i])) 134 1.1 peter esymp = (vaddr_t *)phdr[i].p_vaddr; 135 1.1 peter } 136 1.1 peter 137 1.1 peter __asm volatile ("mrs %0, cpsr_all" : "=r" (cpsr)); 138 1.1 peter cpsr |= 0xc0; /* set FI */ 139 1.1 peter __asm volatile ("msr cpsr_all, %0" :: "r" (cpsr)); 140 1.1 peter 141 1.1 peter /* 142 1.1 peter * Copy the boot arguments. 143 1.1 peter */ 144 1.1 peter sz = BOOTARGS_BUFSIZ; 145 1.1 peter while (sz > 0) { 146 1.1 peter sz--; 147 1.1 peter ((char *)minv - BOOTARGS_BUFSIZ)[sz] = bootargs[sz]; 148 1.1 peter } 149 1.1 peter 150 1.1 peter /* 151 1.1 peter * Set up pointers to copied ELF and section headers. 152 1.1 peter */ 153 1.1 peter #define roundup(x, y) ((((x)+((y)-1))/(y))*(y)) 154 1.1 peter elfv = maxv = roundup(maxv, sizeof(long)); 155 1.1 peter maxv += sizeof(Elf_Ehdr); 156 1.1 peter 157 1.1 peter sz = elf->e_shnum * sizeof(Elf_Shdr); 158 1.1 peter shp = (Elf_Shdr *)((vaddr_t)elf + elf->e_shoff); 159 1.1 peter shpv = maxv; 160 1.1 peter maxv += roundup(sz, sizeof(long)); 161 1.1 peter 162 1.1 peter /* 163 1.1 peter * Now load the symbol sections themselves. Make sure the 164 1.1 peter * sections are aligned, and offsets are relative to the 165 1.1 peter * copied ELF header. Don't bother with string tables if 166 1.1 peter * there are no symbol sections. 167 1.1 peter */ 168 1.1 peter off = roundup((sizeof(Elf_Ehdr) + sz), sizeof(long)); 169 1.1 peter for (havesyms = i = 0; i < elf->e_shnum; i++) 170 1.1 peter if (shp[i].sh_type == SHT_SYMTAB) 171 1.1 peter havesyms = 1; 172 1.1 peter for (i = 0; i < elf->e_shnum; i++) { 173 1.1 peter if (shp[i].sh_type == SHT_SYMTAB || 174 1.1 peter shp[i].sh_type == SHT_STRTAB) { 175 1.1 peter if (havesyms) { 176 1.1 peter sz = shp[i].sh_size; 177 1.1 peter while (sz > 0) { 178 1.1 peter sz--; 179 1.1 peter ((char *)maxv)[sz] = 180 1.1 peter ((char *)elf + 181 1.1 peter shp[i].sh_offset)[sz]; 182 1.1 peter } 183 1.1 peter } 184 1.1 peter maxv += roundup(shp[i].sh_size, sizeof(long)); 185 1.1 peter shp[i].sh_offset = off; 186 1.1 peter off += roundup(shp[i].sh_size, sizeof(long)); 187 1.1 peter } 188 1.1 peter } 189 1.1 peter 190 1.1 peter /* 191 1.1 peter * Copy the ELF and section headers. 192 1.1 peter */ 193 1.1 peter sz = sizeof(Elf_Ehdr); 194 1.1 peter while (sz > 0) { 195 1.1 peter sz--; 196 1.1 peter ((char *)elfv)[sz] = ((char *)elf)[sz]; 197 1.1 peter } 198 1.1 peter sz = elf->e_shnum * sizeof(Elf_Shdr); 199 1.1 peter while (sz > 0) { 200 1.1 peter sz--; 201 1.1 peter ((char *)shpv)[sz] = ((char *)shp)[sz]; 202 1.1 peter } 203 1.1 peter 204 1.1 peter /* 205 1.1 peter * Frob the copied ELF header to give information relative 206 1.1 peter * to elfv. 207 1.1 peter */ 208 1.1 peter ((Elf_Ehdr *)elfv)->e_phoff = 0; 209 1.1 peter ((Elf_Ehdr *)elfv)->e_shoff = sizeof(Elf_Ehdr); 210 1.1 peter ((Elf_Ehdr *)elfv)->e_phentsize = 0; 211 1.1 peter ((Elf_Ehdr *)elfv)->e_phnum = 0; 212 1.1 peter 213 1.1 peter /* 214 1.1 peter * Tell locore.S where the symbol table ends, and arrange 215 1.1 peter * to skip esym when loading the data section. 216 1.1 peter */ 217 1.1 peter if (esymp != 0) 218 1.1 peter *esymp = (vaddr_t)maxv; 219 1.1 peter for (i = 0; esymp != 0 && i < elf->e_phnum; i++) { 220 1.1 peter if (phdr[i].p_type != PT_LOAD || 221 1.1 peter (phdr[i].p_flags & (PF_W|PF_R|PF_X)) == 0) 222 1.1 peter continue; 223 1.1 peter if (phdr[i].p_vaddr == (vaddr_t)esymp) { 224 1.1 peter phdr[i].p_vaddr = (vaddr_t)((char *)phdr[i].p_vaddr + sizeof(long)); 225 1.1 peter phdr[i].p_offset = (vaddr_t)((char *)phdr[i].p_offset + sizeof(long)); 226 1.1 peter phdr[i].p_filesz -= sizeof(long); 227 1.1 peter break; 228 1.1 peter } 229 1.1 peter } 230 1.1 peter 231 1.1 peter /* 232 1.1 peter * Load text and data. 233 1.1 peter */ 234 1.1 peter for (i = 0; i < elf->e_phnum; i++) { 235 1.1 peter if (phdr[i].p_type != PT_LOAD || 236 1.1 peter (phdr[i].p_flags & (PF_W|PF_R|PF_X)) == 0) 237 1.1 peter continue; 238 1.1 peter 239 1.1 peter if (IS_TEXT(phdr[i]) || IS_DATA(phdr[i])) { 240 1.1 peter sz = phdr[i].p_filesz; 241 1.1 peter while (sz > 0) { 242 1.1 peter sz--; 243 1.1 peter ((char *)phdr[i].p_vaddr)[sz] = 244 1.1 peter (((char *)elf) + phdr[i].p_offset)[sz]; 245 1.1 peter } 246 1.1 peter } 247 1.1 peter } 248 1.1 peter 249 1.1 peter addr = (int *)(elf->e_entry); 250 1.1 peter __asm volatile ( 251 1.1 peter "mov r0, %0;" 252 1.1 peter "mov r2, #0;" 253 1.1 peter "mcr p15, 0, r2, c7, c7, 0;" 254 1.1 peter "mov r2, r2;" 255 1.1 peter "sub pc, pc, #4;" 256 1.1 peter "mov r1, #(0x00000010 | 0x00000020);" 257 1.1 peter "mcr p15, 0, r1, c1, c0, 0;" 258 1.1 peter "mcr p15, 0, r2, c8, c7, 0;" 259 1.1 peter "mov r2, r2;" 260 1.1 peter "sub pc, pc, #4;" 261 1.1 peter "mov pc, r0" :: "r"(addr) : "r0","r1","r2"); 262 1.1 peter } 263 1.1 peter 264 1.1 peter /* 265 1.3 ad * Initialize the module. 266 1.1 peter */ 267 1.1 peter int 268 1.1 peter init_module(void) 269 1.1 peter { 270 1.1 peter struct proc_dir_entry *entry; 271 1.1 peter int rc; 272 1.1 peter 273 1.1 peter rc = register_chrdev(ZBOOTDEV_MAJOR, ZBOOTDEV_NAME, &fops); 274 1.1 peter if (rc != 0) { 275 1.1 peter printk("%s: register_chrdev(%d, ...): error %d\n", 276 1.4.4.1 rmind ZBOOTMOD_NAME, ZBOOTDEV_MAJOR, -rc); 277 1.1 peter return 1; 278 1.1 peter } 279 1.1 peter 280 1.1 peter entry = proc_mknod(ZBOOTDEV_NAME, ZBOOTDEV_MODE | S_IFCHR, 281 1.1 peter &proc_root, MKDEV(ZBOOTDEV_MAJOR, 0)); 282 1.1 peter if (entry == (struct proc_dir_entry *)0) { 283 1.1 peter (void)unregister_chrdev(ZBOOTDEV_MAJOR, ZBOOTDEV_NAME); 284 1.1 peter return 1; 285 1.1 peter } 286 1.1 peter 287 1.1 peter printk("%s: NetBSD/" MACHINE " bootstrap device is %d,0\n", 288 1.1 peter ZBOOTMOD_NAME, ZBOOTDEV_MAJOR); 289 1.1 peter 290 1.1 peter return 0; 291 1.1 peter } 292 1.1 peter 293 1.1 peter /* 294 1.1 peter * Cleanup - undo whatever init_module did. 295 1.1 peter */ 296 1.1 peter void 297 1.1 peter cleanup_module(void) 298 1.1 peter { 299 1.1 peter 300 1.1 peter (void)unregister_chrdev(ZBOOTDEV_MAJOR, ZBOOTDEV_NAME); 301 1.1 peter remove_proc_entry(ZBOOTDEV_NAME, &proc_root); 302 1.1 peter 303 1.1 peter printk("%s: NetBSD/" MACHINE " bootstrap device unloaded\n", 304 1.1 peter ZBOOTMOD_NAME); 305 1.1 peter } 306 1.1 peter 307 1.1 peter static ssize_t 308 1.1 peter zbsdmod_write(struct file *f, const char *buf, size_t len, loff_t *offp) 309 1.1 peter { 310 1.1 peter 311 1.1 peter if (len < 1) 312 1.1 peter return 0; 313 1.1 peter 314 1.1 peter if (*offp + len >= sizeof(bsdimage)) 315 1.1 peter return EFBIG; 316 1.1 peter 317 1.1 peter memcpy(((char *)bsdimage) + *offp, buf, len); 318 1.1 peter 319 1.1 peter *offp += len; 320 1.1 peter if (*offp > position) 321 1.1 peter position = *offp; 322 1.1 peter 323 1.1 peter return len; 324 1.1 peter } 325 1.1 peter 326 1.1 peter static int 327 1.1 peter zbsdmod_open(struct inode *ino, struct file *f) 328 1.1 peter { 329 1.1 peter 330 1.1 peter /* XXX superuser check */ 331 1.1 peter 332 1.1 peter if (isopen) 333 1.1 peter return -EBUSY; 334 1.1 peter 335 1.1 peter isopen = 1; 336 1.1 peter position = 0; 337 1.1 peter 338 1.1 peter return 0; 339 1.1 peter } 340 1.1 peter 341 1.1 peter static int 342 1.1 peter zbsdmod_close(struct inode *ino, struct file *f) 343 1.1 peter { 344 1.1 peter 345 1.1 peter if (!isopen) 346 1.1 peter return -EBUSY; 347 1.1 peter 348 1.1 peter if (position > 0) { 349 1.4.4.1 rmind printk("%s: loaded %ld bytes\n", ZBOOTDEV_NAME, 350 1.1 peter position); 351 1.1 peter 352 1.4 nonaka if (position < BOOTINFO_MAXSIZE) { 353 1.1 peter *(u_int *)bootargs = BOOTARGS_MAGIC; 354 1.4 nonaka memcpy(bootargs + sizeof(u_int), bsdimage, position); 355 1.1 peter } else { 356 1.1 peter elf32bsdboot(); 357 1.4 nonaka printk("%s: boot failed\n", ZBOOTDEV_NAME); 358 1.1 peter } 359 1.1 peter } 360 1.1 peter isopen = 0; 361 1.1 peter 362 1.1 peter return 0; 363 1.1 peter } 364
Indexes created Tue Oct 07 21:09:53 GMT 2025