/************************************************************************** Etherboot - Network Bootstrap Program Literature dealing with the network protocols: ARP - RFC826 RARP - RFC903 UDP - RFC768 BOOTP - RFC951, RFC2132 (vendor extensions) DHCP - RFC2131, RFC2132 (options) TFTP - RFC1350, RFC2347 (options), RFC2348 (blocksize), RFC2349 (tsize) RPC - RFC1831, RFC1832 (XDR), RFC1833 (rpcbind/portmapper) NFS - RFC1094, RFC1813 (v3, useful for clarifications, not implemented) IGMP - RFC1112 **************************************************************************/ /* #define MDEBUG */ #include "etherboot.h" #include "dev.h" #include "nic.h" #include "disk.h" #include "timer.h" #include "cpu.h" #include "cmdline.h" #include "console.h" #include #include "image.h" #include #include #include #include /* Linker symbols */ extern char _bss[], _ebss[]; jmp_buf restart_etherboot; int url_port; char as_main_program = 1; #if 0 static inline unsigned long ask_boot(unsigned *index) { unsigned long order = DEFAULT_BOOT_ORDER; *index = DEFAULT_BOOT_INDEX; #ifdef LINUXBIOS order = get_boot_order(order, index); #endif #if defined(ASK_BOOT) #if ASK_BOOT >= 0 while(1) { int c = 0; printf(ASK_PROMPT); #if ASK_BOOT > 0 { unsigned long time; for ( time = currticks() + ASK_BOOT*TICKS_PER_SEC; !c && !iskey(); ) { if (currticks() > time) c = ANS_DEFAULT; } } #endif /* ASK_BOOT > 0 */ if ( !c ) c = getchar(); if ((c >= 'a') && (c <= 'z')) c &= 0x5F; if ((c >= ' ') && (c <= '~')) putchar(c); putchar('\n'); switch(c) { default: /* Nothing useful try again */ continue; case ANS_QUIT: order = BOOT_NOTHING; *index = 0; break; case ANS_DEFAULT: /* Preserve the default boot order */ break; case ANS_NETWORK: order = (BOOT_NIC << (0*BOOT_BITS)) | (BOOT_NOTHING << (1*BOOT_BITS)); *index = 0; break; case ANS_DISK: order = (BOOT_DISK << (0*BOOT_BITS)) | (BOOT_NOTHING << (1*BOOT_BITS)); *index = 0; break; case ANS_FLOPPY: order = (BOOT_FLOPPY << (0*BOOT_BITS)) | (BOOT_NOTHING << (1*BOOT_BITS)); *index = 0; break; } break; } putchar('\n'); #endif /* ASK_BOOT >= 0 */ #endif /* defined(ASK_BOOT) */ return order; } static inline void try_floppy_first(void) { #if (TRY_FLOPPY_FIRST > 0) int i; printf("Trying floppy"); disk_init(); for (i = TRY_FLOPPY_FIRST; i-- > 0; ) { putchar('.'); if (pcbios_disk_read(0, 0, 0, 0, ((char *)FLOPPY_BOOT_LOCATION)) != 0x8000) { printf("using floppy\n"); exit(0); } } printf("no floppy\n"); #endif /* TRY_FLOPPY_FIRST */ } static struct class_operations { struct dev *dev; int (*probe)(struct dev *dev); int (*load_configuration)(struct dev *dev); int (*load)(struct dev *dev); } operations[] = { { &nic.dev, eth_probe, eth_load_configuration, eth_load }, { &disk.dev, disk_probe, disk_load_configuration, disk_load }, { &disk.dev, disk_probe, disk_load_configuration, disk_load }, }; #endif static int main_loop(int state); static int exit_ok; static int exit_status; static int initialized; /************************************************************************** MAIN - Kick off routine **************************************************************************/ int main ( void ) { struct net_device *netdev; /* Call all registered initialisation functions */ init_heap(); call_init_fns (); probe_devices(); netdev = next_netdev (); if ( netdev ) { test_dhcp ( netdev ); //cmdl_start(); } else { printf ( "No network device found\n" ); } printf ( "Press any key to exit\n" ); getchar(); remove_devices(); call_exit_fns (); return exit_status; } #if 0 void exit(int status) { while(!exit_ok) ; exit_status = status; longjmp(restart_etherboot, 255); } static int main_loop(int state) { /* Splitting main into 2 pieces makes the semantics of * which variables are preserved across a longjmp clean * and predictable. */ static unsigned long order; static unsigned boot_index; static struct dev * dev = 0; static struct class_operations *ops; static int type; static int i; if (!initialized) { initialized = 1; if (dev && (state >= 1) && (state <= 2)) { dev->how_probe = PROBE_AWAKE; dev->how_probe = ops->probe(dev); if (dev->how_probe == PROBE_FAILED) { state = -1; } if (state == 1) { /* The bootp reply might have been changed, re-parse. */ decode_rfc1533(bootp_data.bootp_reply.bp_vend, 0, #ifdef NO_DHCP_SUPPORT BOOTP_VENDOR_LEN + MAX_BOOTP_EXTLEN, #else DHCP_OPT_LEN + MAX_BOOTP_EXTLEN, #endif /* NO_DHCP_SUPPORT */ 1); } } } switch(state) { case 0: { static int firsttime = 1; /* First time through */ if (firsttime) { cleanup(); firsttime = 0; } #ifdef EXIT_IF_NO_OFFER else { cleanup(); exit(0); } #endif i = -1; state = 4; dev = 0; /* We just called setjmp ... */ order = ask_boot(&boot_index); try_floppy_first(); break; } case 4: cleanup(); call_reset_fns(); /* Find a dev entry to probe with */ if (!dev) { int boot; int failsafe; /* Advance to the next device type */ i++; boot = (order >> (i * BOOT_BITS)) & BOOT_MASK; type = boot & BOOT_TYPE_MASK; failsafe = (boot & BOOT_FAILSAFE) != 0; if (i >= MAX_BOOT_ENTRIES) { type = BOOT_NOTHING; } if ((i == 0) && (type == BOOT_NOTHING)) { /* Return to caller */ exit(0); } if (type >= BOOT_NOTHING) { interruptible_sleep(2); state = 0; break; } ops = &operations[type]; dev = ops->dev; dev->how_probe = PROBE_FIRST; dev->type = type; dev->failsafe = failsafe; dev->type_index = 0; } else { /* Advance to the next device of the same type */ dev->how_probe = PROBE_NEXT; } state = 3; break; case 3: state = -1; /* Removed the following line because it was causing * heap.o to be dragged in unnecessarily. It's also * slightly puzzling: by resetting heap_base, doesn't * this mean that we permanently leak memory? */ /* heap_base = allot(0); */ dev->how_probe = ops->probe(dev); if (dev->how_probe == PROBE_FAILED) { dev = 0; state = 4; } else if (boot_index && (i == 0) && (boot_index != (unsigned)dev->type_index)) { printf("Wrong index\n"); state = 4; } else { state = 2; } break; case 2: state = -1; if (ops->load_configuration(dev) >= 0) { state = 1; } break; case 1: /* Any return from load is a failure */ ops->load(dev); state = -1; break; case 256: state = 0; break; case -3: i = MAX_BOOT_ENTRIES; type = BOOT_NOTHING; /* fall through */ default: printf("\n"); state = 4; /* At the end goto state 0 */ if ((type >= BOOT_NOTHING) || (i >= MAX_BOOT_ENTRIES)) { state = 0; } break; } return state; } #endif /************************************************************************** LOADKERNEL - Try to load kernel image **************************************************************************/ #if 0 /* To be split out into individual files */ static const struct proto protos[] = { { "x-tftm", url_tftm }, { "x-slam", url_slam }, { "nfs", nfs }, { "file", url_file }, { "tftp", tftp }, { "http", http }, }; #endif /************************************************************************** CLEANUP - shut down networking and console so that the OS may be called **************************************************************************/ void cleanup(void) { /* Stop receiving packets */ disable ( &dev ); initialized = 0; } /* * Local variables: * c-basic-offset: 8 * End: */