/* * Copyright (C) 2006 Michael Brown . * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. * * You can also choose to distribute this program under the terms of * the Unmodified Binary Distribution Licence (as given in the file * COPYING.UBDL), provided that you have satisfied its requirements. */ FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL ); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /** @file * * Automatic booting * */ /** Link-layer address of preferred autoboot device, if known */ static uint8_t autoboot_ll_addr[MAX_LL_ADDR_LEN]; /** Device location of preferred autoboot device, if known */ static struct device_description autoboot_desc; /** Autoboot device tester */ static int ( * is_autoboot_device ) ( struct net_device *netdev ); /* Disambiguate the various error causes */ #define ENOENT_BOOT __einfo_error ( EINFO_ENOENT_BOOT ) #define EINFO_ENOENT_BOOT \ __einfo_uniqify ( EINFO_ENOENT, 0x01, "Nothing to boot" ) #define NORMAL "\033[0m" #define BOLD "\033[1m" #define CYAN "\033[36m" /** The "scriptlet" setting */ const struct setting scriptlet_setting __setting ( SETTING_MISC, scriptlet ) = { .name = "scriptlet", .description = "Boot scriptlet", .tag = DHCP_EB_SCRIPTLET, .type = &setting_type_string, }; /** * Perform PXE menu boot when PXE stack is not available */ __weak int pxe_menu_boot ( struct net_device *netdev __unused ) { return -ENOTSUP; } /** The "keep-san" setting */ const struct setting keep_san_setting __setting ( SETTING_SANBOOT_EXTRA, keep-san ) = { .name = "keep-san", .description = "Preserve SAN connection", .tag = DHCP_EB_KEEP_SAN, .type = &setting_type_int8, }; /** The "skip-san-boot" setting */ const struct setting skip_san_boot_setting __setting ( SETTING_SANBOOT_EXTRA, skip-san-boot ) = { .name = "skip-san-boot", .description = "Do not boot from SAN device", .tag = DHCP_EB_SKIP_SAN_BOOT, .type = &setting_type_int8, }; /** * Boot from filename and root-path URIs * * @v filename Filename * @v root_paths Root path(s) * @v root_path_count Number of root paths * @v drive SAN drive (if applicable) * @v san_filename SAN filename (or NULL to use default) * @v flags Boot action flags * @ret rc Return status code * * The somewhat tortuous flow of control in this function exists in * order to ensure that the "sanboot" command remains identical in * function to a SAN boot via a DHCP-specified root path, and to * provide backwards compatibility for the "keep-san" and * "skip-san-boot" options. */ int uriboot ( struct uri *filename, struct uri **root_paths, unsigned int root_path_count, int drive, const char *san_filename, unsigned int flags ) { struct image *image; int rc; /* Hook SAN device, if applicable */ if ( root_path_count ) { drive = san_hook ( drive, root_paths, root_path_count, ( ( flags & URIBOOT_NO_SAN_DESCRIBE ) ? SAN_NO_DESCRIBE : 0 ) ); if ( drive < 0 ) { rc = drive; printf ( "Could not open SAN device: %s\n", strerror ( rc ) ); goto err_san_hook; } printf ( "Registered SAN device %#02x\n", drive ); } /* Describe SAN device, if applicable */ if ( ! ( flags & URIBOOT_NO_SAN_DESCRIBE ) ) { if ( ( rc = san_describe() ) != 0 ) { printf ( "Could not describe SAN devices: %s\n", strerror ( rc ) ); goto err_san_describe; } } /* Allow a root-path-only boot with skip-san enabled to succeed */ rc = 0; /* Attempt filename boot if applicable */ if ( filename ) { if ( ( rc = imgdownload ( filename, 0, &image ) ) != 0 ) goto err_download; imgstat ( image ); image->flags |= IMAGE_AUTO_UNREGISTER; if ( ( rc = image_exec ( image ) ) != 0 ) { printf ( "Could not boot image: %s\n", strerror ( rc ) ); /* Fall through to (possibly) attempt a SAN boot * as a fallback. If no SAN boot is attempted, * our status will become the return status. */ } else { /* Always print an extra newline, because we * don't know where the NBP may have left the * cursor. */ printf ( "\n" ); } } /* Attempt SAN boot if applicable */ if ( ! ( flags & URIBOOT_NO_SAN_BOOT ) ) { if ( fetch_intz_setting ( NULL, &skip_san_boot_setting) == 0 ) { printf ( "Booting%s%s from SAN device %#02x\n", ( san_filename ? " " : "" ), ( san_filename ? san_filename : "" ), drive ); rc = san_boot ( drive, san_filename ); printf ( "Boot from SAN device %#02x failed: %s\n", drive, strerror ( rc ) ); } else { printf ( "Skipping boot from SAN device %#02x\n", drive ); /* Avoid overwriting a possible failure status * from a filename boot. */ } } err_download: err_san_describe: /* Unhook SAN device, if applicable */ if ( ! ( flags & URIBOOT_NO_SAN_UNHOOK ) ) { if ( fetch_intz_setting ( NULL, &keep_san_setting ) == 0 ) { san_unhook ( drive ); printf ( "Unregistered SAN device %#02x\n", drive ); } else { printf ( "Preserving SAN device %#02x\n", drive ); } } err_san_hook: return rc; } /** * Close all open net devices * * Called before a fresh boot attempt in order to free up memory. We * don't just close the device immediately after the boot fails, * because there may still be TCP connections in the process of * closing. */ static void close_all_netdevs ( void ) { struct net_device *netdev; for_each_netdev ( netdev ) { ifclose ( netdev ); } } /** * Fetch next-server and filename settings into a URI * * @v settings Settings block * @ret uri URI, or NULL on failure */ struct uri * fetch_next_server_and_filename ( struct settings *settings ) { union { struct sockaddr sa; struct sockaddr_in sin; } next_server; char *raw_filename = NULL; struct uri *uri = NULL; char *filename; /* Initialise server address */ memset ( &next_server, 0, sizeof ( next_server ) ); /* If we have a filename, fetch it along with the next-server * setting from the same settings block. */ if ( fetch_setting ( settings, &filename_setting, &settings, NULL, NULL, 0 ) >= 0 ) { fetch_string_setting_copy ( settings, &filename_setting, &raw_filename ); fetch_ipv4_setting ( settings, &next_server_setting, &next_server.sin.sin_addr ); } if ( ! raw_filename ) goto err_fetch; /* Populate server address */ if ( next_server.sin.sin_addr.s_addr ) { next_server.sin.sin_family = AF_INET; printf ( "Next server: %s\n", inet_ntoa ( next_server.sin.sin_addr ) ); } /* Expand filename setting */ filename = expand_settings ( raw_filename ); if ( ! filename ) goto err_expand; if ( filename[0] ) printf ( "Filename: %s\n", filename ); /* Construct URI */ uri = pxe_uri ( &next_server.sa, filename ); if ( ! uri ) goto err_parse; err_parse: free ( filename ); err_expand: free ( raw_filename ); err_fetch: return uri; } /** * Fetch root-path setting into a URI * * @v settings Settings block * @ret uri URI, or NULL on failure */ static struct uri * fetch_root_path ( struct settings *settings ) { struct uri *uri = NULL; char *raw_root_path; char *root_path; /* Fetch root-path setting */ fetch_string_setting_copy ( settings, &root_path_setting, &raw_root_path ); if ( ! raw_root_path ) goto err_fetch; /* Expand filename setting */ root_path = expand_settings ( raw_root_path ); if ( ! root_path ) goto err_expand; if ( root_path[0] ) printf ( "Root path: %s\n", root_path ); /* Parse root path */ uri = parse_uri ( root_path ); if ( ! uri ) goto err_parse; err_parse: free ( root_path ); err_expand: free ( raw_root_path ); err_fetch: return uri; } /** * Fetch san-filename setting * * @v settings Settings block * @ret san_filename SAN filename, or NULL on failure */ static char * fetch_san_filename ( struct settings *settings ) { char *raw_san_filename; char *san_filename = NULL; /* Fetch san-filename setting */ fetch_string_setting_copy ( settings, &san_filename_setting, &raw_san_filename ); if ( ! raw_san_filename ) goto err_fetch; /* Expand san-filename setting */ san_filename = expand_settings ( raw_san_filename ); if ( ! san_filename ) goto err_expand; if ( san_filename[0] ) printf ( "SAN filename: %s\n", san_filename ); err_expand: free ( raw_san_filename ); err_fetch: return san_filename; } /** * Check whether or not we have a usable PXE menu * * @ret have_menu A usable PXE menu is present */ static int have_pxe_menu ( void ) { struct setting vendor_class_id_setting = { .tag = DHCP_VENDOR_CLASS_ID }; struct setting pxe_discovery_control_setting = { .tag = DHCP_PXE_DISCOVERY_CONTROL }; struct setting pxe_boot_menu_setting = { .tag = DHCP_PXE_BOOT_MENU }; char buf[ 10 /* "PXEClient" + NUL */ ]; unsigned int pxe_discovery_control; fetch_string_setting ( NULL, &vendor_class_id_setting, buf, sizeof ( buf ) ); pxe_discovery_control = fetch_uintz_setting ( NULL, &pxe_discovery_control_setting ); return ( ( strcmp ( buf, "PXEClient" ) == 0 ) && setting_exists ( NULL, &pxe_boot_menu_setting ) && ( ! ( ( pxe_discovery_control & PXEBS_SKIP ) && setting_exists ( NULL, &filename_setting ) ) ) ); } /** * Boot from a network device * * @v netdev Network device * @ret rc Return status code */ int netboot ( struct net_device *netdev ) { struct uri *filename; struct uri *root_path; char *san_filename; int rc; /* Close all other network devices */ close_all_netdevs(); /* Open device and display device status */ if ( ( rc = ifopen ( netdev ) ) != 0 ) goto err_ifopen; ifstat ( netdev ); /* Configure device */ if ( ( rc = ifconf ( netdev, NULL ) ) != 0 ) goto err_dhcp; route(); /* Try PXE menu boot, if applicable */ if ( have_pxe_menu() ) { printf ( "Booting from PXE menu\n" ); rc = pxe_menu_boot ( netdev ); goto err_pxe_menu_boot; } /* Fetch next server and filename (if any) */ filename = fetch_next_server_and_filename ( NULL ); /* Fetch root path (if any) */ root_path = fetch_root_path ( NULL ); /* Fetch SAN filename (if any) */ san_filename = fetch_san_filename ( NULL ); /* If we have both a filename and a root path, ignore an * unsupported or missing URI scheme in the root path, since * it may represent an NFS root. */ if ( filename && root_path && ( ( ! uri_is_absolute ( root_path ) ) || ( xfer_uri_opener ( root_path->scheme ) == NULL ) ) ) { printf ( "Ignoring unsupported root path\n" ); uri_put ( root_path ); root_path = NULL; } /* Check that we have something to boot */ if ( ! ( filename || root_path ) ) { rc = -ENOENT_BOOT; printf ( "Nothing to boot: %s\n", strerror ( rc ) ); goto err_no_boot; } /* Boot using next server, filename and root path */ if ( ( rc = uriboot ( filename, &root_path, ( root_path ? 1 : 0 ), san_default_drive(), san_filename, ( root_path ? 0 : URIBOOT_NO_SAN ) ) ) != 0 ) goto err_uriboot; err_uriboot: err_no_boot: free ( san_filename ); uri_put ( root_path ); uri_put ( filename ); err_pxe_menu_boot: err_dhcp: err_ifopen: return rc; } /** * Test if network device matches the autoboot device bus type and location * * @v netdev Network device * @ret is_autoboot Network device matches the autoboot device */ static int is_autoboot_busloc ( struct net_device *netdev ) { struct device *dev; for ( dev = netdev->dev ; dev ; dev = dev->parent ) { if ( ( dev->desc.bus_type == autoboot_desc.bus_type ) && ( dev->desc.location == autoboot_desc.location ) ) return 1; } return 0; } /** * Identify autoboot device by bus type and location * * @v bus_type Bus type * @v location Location */ void set_autoboot_busloc ( unsigned int bus_type, unsigned int location ) { /* Record autoboot device description */ autoboot_desc.bus_type = bus_type; autoboot_desc.location = location; /* Mark autoboot device as present */ is_autoboot_device = is_autoboot_busloc; } /** * Test if network device matches the autoboot device link-layer address * * @v netdev Network device * @ret is_autoboot Network device matches the autoboot device */ static int is_autoboot_ll_addr ( struct net_device *netdev ) { return ( memcmp ( netdev->ll_addr, autoboot_ll_addr, netdev->ll_protocol->ll_addr_len ) == 0 ); } /** * Identify autoboot device by link-layer address * * @v ll_addr Link-layer address * @v len Length of link-layer address */ void set_autoboot_ll_addr ( const void *ll_addr, size_t len ) { /* Record autoboot link-layer address (truncated if necessary) */ if ( len > sizeof ( autoboot_ll_addr ) ) len = sizeof ( autoboot_ll_addr ); memcpy ( autoboot_ll_addr, ll_addr, len ); /* Mark autoboot device as present */ is_autoboot_device = is_autoboot_ll_addr; } /** * Boot the system */ static int autoboot ( void ) { struct net_device *netdev; int rc = -ENODEV; /* Try booting from each network device. If we have a * specified autoboot device location, then use only devices * matching that location. */ for_each_netdev ( netdev ) { /* Skip any non-matching devices, if applicable */ if ( is_autoboot_device && ( ! is_autoboot_device ( netdev ) ) ) continue; /* Attempt booting from this device */ rc = netboot ( netdev ); } printf ( "No more network devices\n" ); return rc; } /** * Prompt for shell entry * * @ret enter_shell User wants to enter shell */ static int shell_banner ( void ) { /* Skip prompt if timeout is zero */ if ( BANNER_TIMEOUT <= 0 ) return 0; /* Prompt user */ printf ( "\n" ); return ( prompt ( "Press Ctrl-B for the " PRODUCT_SHORT_NAME " command line...", ( ( BANNER_TIMEOUT * TICKS_PER_SEC ) / 10 ), CTRL_B ) == 0 ); } /** * Main iPXE flow of execution * * @v netdev Network device, or NULL * @ret rc Return status code */ int ipxe ( struct net_device *netdev ) { struct feature *feature; struct image *image; char *scriptlet; int rc; /* * Print welcome banner * * * If you wish to brand this build of iPXE, please do so by * defining the string PRODUCT_NAME in config/branding.h. * * While nothing in the GPL prevents you from removing all * references to iPXE or http://ipxe.org, we prefer you not to * do so. * */ printf ( NORMAL "\n\n" PRODUCT_NAME "\n" BOLD PRODUCT_SHORT_NAME " %s" NORMAL " -- " PRODUCT_TAG_LINE " -- " CYAN PRODUCT_URI NORMAL "\nFeatures:", product_version ); for_each_table_entry ( feature, FEATURES ) printf ( " %s", feature->name ); printf ( "\n" ); /* Boot system */ if ( ( image = first_image() ) != NULL ) { /* We have an embedded image; execute it */ return image_exec ( image ); } else if ( shell_banner() ) { /* User wants shell; just give them a shell */ return shell(); } else { fetch_string_setting_copy ( NULL, &scriptlet_setting, &scriptlet ); if ( scriptlet ) { /* User has defined a scriptlet; execute it */ rc = system ( scriptlet ); free ( scriptlet ); return rc; } else { /* Try booting. If booting fails, offer the * user another chance to enter the shell. */ if ( netdev ) { rc = netboot ( netdev ); } else { rc = autoboot(); } if ( shell_banner() ) rc = shell(); return rc; } } }