/* do_mounts_dm.c * Copyright (C) 2010 The Chromium OS Authors * All Rights Reserved. * Based on do_mounts_md.c * * This file is released under the GPL. */ #include #include #include #include "do_mounts.h" #define DM_MAX_NAME 32 #define DM_MAX_UUID 129 #define DM_NO_UUID "none" #define DM_MSG_PREFIX "init" /* Separators used for parsing the dm= argument. */ #define DM_FIELD_SEP ' ' #define DM_LINE_SEP ',' /* * When the device-mapper and any targets are compiled into the kernel * (not a module), one target may be created and used as the root device at * boot time with the parameters given with the boot line dm=... * The code for that is here. */ struct dm_setup_target { sector_t begin; sector_t length; char *type; char *params; /* simple singly linked list */ struct dm_setup_target *next; }; static struct { int minor; int ro; char name[DM_MAX_NAME]; char uuid[DM_MAX_UUID]; char *targets; struct dm_setup_target *target; int target_count; } dm_setup_args __initdata; static __initdata int dm_early_setup; static size_t __init get_dm_option(char *str, char **next, char sep) { size_t len = 0; char *endp = NULL; if (!str) return 0; endp = strchr(str, sep); if (!endp) { /* act like strchrnul */ len = strlen(str); endp = str + len; } else { len = endp - str; } if (endp == str) return 0; if (!next) return len; if (*endp == 0) { /* Don't advance past the nul. */ *next = endp; } else { *next = endp + 1; } return len; } static int __init dm_setup_args_init(void) { dm_setup_args.minor = 0; dm_setup_args.ro = 0; dm_setup_args.target = NULL; dm_setup_args.target_count = 0; return 0; } static int __init dm_setup_cleanup(void) { struct dm_setup_target *target = dm_setup_args.target; struct dm_setup_target *old_target = NULL; while (target) { kfree(target->type); kfree(target->params); old_target = target; target = target->next; kfree(old_target); dm_setup_args.target_count--; } BUG_ON(dm_setup_args.target_count); return 0; } static char * __init dm_setup_parse_device_args(char *str) { char *next = NULL; size_t len = 0; /* Grab the logical name of the device to be exported to udev */ len = get_dm_option(str, &next, DM_FIELD_SEP); if (!len) { DMERR("failed to parse device name"); goto parse_fail; } len = min(len + 1, sizeof(dm_setup_args.name)); strlcpy(dm_setup_args.name, str, len); /* includes nul */ str = skip_spaces(next); /* Grab the UUID value or "none" */ len = get_dm_option(str, &next, DM_FIELD_SEP); if (!len) { DMERR("failed to parse device uuid"); goto parse_fail; } len = min(len + 1, sizeof(dm_setup_args.uuid)); strlcpy(dm_setup_args.uuid, str, len); str = skip_spaces(next); /* Determine if the table/device will be read only or read-write */ if (!strncmp("ro,", str, 3)) { dm_setup_args.ro = 1; } else if (!strncmp("rw,", str, 3)) { dm_setup_args.ro = 0; } else { DMERR("failed to parse table mode"); goto parse_fail; } str = skip_spaces(str + 3); return str; parse_fail: return NULL; } static void __init dm_substitute_devices(char *str, size_t str_len) { char *candidate = str; char *candidate_end = str; char old_char; size_t len = 0; dev_t dev; if (str_len < 3) return; while (str && *str) { candidate = strchr(str, '/'); if (!candidate) break; /* Avoid embedded slashes */ if (candidate != str && *(candidate - 1) != DM_FIELD_SEP) { str = strchr(candidate, DM_FIELD_SEP); continue; } len = get_dm_option(candidate, &candidate_end, DM_FIELD_SEP); str = skip_spaces(candidate_end); if (len < 3 || len > 37) /* name_to_dev_t max; maj:mix min */ continue; /* Temporarily terminate with a nul */ candidate_end--; old_char = *candidate_end; *candidate_end = '\0'; DMDEBUG("converting candidate device '%s' to dev_t", candidate); /* Use the boot-time specific device naming */ dev = name_to_dev_t(candidate); *candidate_end = old_char; DMDEBUG(" -> %u", dev); /* No suitable replacement found */ if (!dev) continue; /* Rewrite the /dev/path as a major:minor */ len = snprintf(candidate, len, "%u:%u", MAJOR(dev), MINOR(dev)); if (!len) { DMERR("error substituting device major/minor."); break; } candidate += len; /* Pad out with spaces (fixing our nul) */ while (candidate < candidate_end) *(candidate++) = DM_FIELD_SEP; } } static int __init dm_setup_parse_targets(char *str) { char *next = NULL; size_t len = 0; struct dm_setup_target **target = NULL; /* Targets are defined as per the table format but with a * comma as a newline separator. */ target = &dm_setup_args.target; while (str && *str) { *target = kzalloc(sizeof(struct dm_setup_target), GFP_KERNEL); if (!*target) { DMERR("failed to allocate memory for target %d", dm_setup_args.target_count); goto parse_fail; } dm_setup_args.target_count++; (*target)->begin = simple_strtoull(str, &next, 10); if (!next || *next != DM_FIELD_SEP) { DMERR("failed to parse starting sector for target %d", dm_setup_args.target_count - 1); goto parse_fail; } str = skip_spaces(next + 1); (*target)->length = simple_strtoull(str, &next, 10); if (!next || *next != DM_FIELD_SEP) { DMERR("failed to parse length for target %d", dm_setup_args.target_count - 1); goto parse_fail; } str = skip_spaces(next + 1); len = get_dm_option(str, &next, DM_FIELD_SEP); if (!len || !((*target)->type = kstrndup(str, len, GFP_KERNEL))) { DMERR("failed to parse type for target %d", dm_setup_args.target_count - 1); goto parse_fail; } str = skip_spaces(next); len = get_dm_option(str, &next, DM_LINE_SEP); if (!len || !((*target)->params = kstrndup(str, len, GFP_KERNEL))) { DMERR("failed to parse params for target %d", dm_setup_args.target_count - 1); goto parse_fail; } str = skip_spaces(next); /* Before moving on, walk through the copied target and * attempt to replace all /dev/xxx with the major:minor number. * It may not be possible to resolve them traditionally at * boot-time. */ dm_substitute_devices((*target)->params, len); target = &((*target)->next); } DMDEBUG("parsed %d targets", dm_setup_args.target_count); return 0; parse_fail: return 1; } /* * Parse the command-line parameters given our kernel, but do not * actually try to invoke the DM device now; that is handled by * dm_setup_drive after the low-level disk drivers have initialised. * dm format is as follows: * dm="name uuid fmode,[table line 1],[table line 2],..." * May be used with root=/dev/dm-0 as it always uses the first dm minor. */ static int __init dm_setup(char *str) { dm_setup_args_init(); str = dm_setup_parse_device_args(str); if (!str) { DMDEBUG("str is NULL"); goto parse_fail; } /* Target parsing is delayed until we have dynamic memory */ dm_setup_args.targets = str; printk(KERN_INFO "dm: will configure '%s' on dm-%d\n", dm_setup_args.name, dm_setup_args.minor); dm_early_setup = 1; return 1; parse_fail: printk(KERN_WARNING "dm: Invalid arguments supplied to dm=.\n"); return 0; } static void __init dm_setup_drive(void) { struct mapped_device *md = NULL; struct dm_table *table = NULL; struct dm_setup_target *target; char *uuid = dm_setup_args.uuid; fmode_t fmode = FMODE_READ; /* Finish parsing the targets. */ if (dm_setup_parse_targets(dm_setup_args.targets)) goto parse_fail; if (dm_create(dm_setup_args.minor, &md)) { DMDEBUG("failed to create the device"); goto dm_create_fail; } DMDEBUG("created device '%s'", dm_device_name(md)); /* In addition to flagging the table below, the disk must be * set explicitly ro/rw. */ set_disk_ro(dm_disk(md), dm_setup_args.ro); if (!dm_setup_args.ro) fmode |= FMODE_WRITE; if (dm_table_create(&table, fmode, dm_setup_args.target_count, md)) { DMDEBUG("failed to create the table"); goto dm_table_create_fail; } target = dm_setup_args.target; while (target) { DMINFO("adding target '%llu %llu %s %s'", (unsigned long long) target->begin, (unsigned long long) target->length, target->type, target->params); if (dm_table_add_target(table, target->type, target->begin, target->length, target->params)) { DMDEBUG("failed to add the target to the table"); goto add_target_fail; } target = target->next; } if (dm_table_complete(table)) { DMDEBUG("failed to complete the table"); goto table_complete_fail; } /* Suspend the device so that we can bind it to the table. */ if (dm_suspend(md, 0)) { DMDEBUG("failed to suspend the device pre-bind"); goto suspend_fail; } /* Bind the table to the device. This is the only way to associate * md->map with the table and set the disk capacity directly. */ if (dm_swap_table(md, table)) { /* should return NULL. */ DMDEBUG("failed to bind the device to the table"); goto table_bind_fail; } /* Finally, resume and the device should be ready. */ if (dm_resume(md)) { DMDEBUG("failed to resume the device"); goto resume_fail; } /* Export the dm device via the ioctl interface */ if (!strcmp(DM_NO_UUID, dm_setup_args.uuid)) uuid = NULL; if (dm_ioctl_export(md, dm_setup_args.name, uuid)) { DMDEBUG("failed to export device with given name and uuid"); goto export_fail; } printk(KERN_INFO "dm: dm-%d is ready\n", dm_setup_args.minor); dm_setup_cleanup(); return; export_fail: resume_fail: table_bind_fail: suspend_fail: table_complete_fail: add_target_fail: dm_table_put(table); dm_table_create_fail: dm_put(md); dm_create_fail: dm_setup_cleanup(); parse_fail: printk(KERN_WARNING "dm: starting dm-%d (%s) failed\n", dm_setup_args.minor, dm_setup_args.name); } __setup("dm=", dm_setup); void __init dm_run_setup(void) { if (!dm_early_setup) return; printk(KERN_INFO "dm: attempting early device configuration.\n"); dm_setup_drive(); }