/* * Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2017 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser 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 */ #include "lib.h" #include "import-export.h" #include "metadata.h" #include "display.h" #include "lvm-string.h" #include "segtype.h" #include "text_export.h" #include "lvm-version.h" #include "toolcontext.h" #include "config-util.h" #include "layout.h" #include #include #include struct formatter; __attribute__((format(printf, 3, 0))) typedef int (*out_with_comment_fn) (struct formatter * f, const char *comment, const char *fmt, va_list ap); typedef int (*nl_fn) (struct formatter * f); /* * Macro for formatted output. * out_with_comment_fn returns -1 if data didn't fit and buffer was expanded. * Then argument list is reset and out_with_comment_fn is called again. */ #define _out_with_comment(f, buffer, fmt, ap) \ do { \ va_start(ap, fmt); \ r = (f)->out_with_comment((f), (buffer), (fmt), ap); \ va_end(ap); \ } while (r == -1) /* * The first half of this file deals with * exporting the vg, ie. writing it to a file. */ struct formatter { struct dm_pool *mem; /* pv names allocated from here */ struct dm_hash_table *pv_names; /* dev_name -> pv_name (eg, pv1) */ union { FILE *fp; /* where we're writing to */ struct { char *start; uint32_t size; uint32_t used; } buf; } data; out_with_comment_fn out_with_comment; nl_fn nl; int indent; /* current level of indentation */ int error; int header; /* 1 => comments at start; 0 => end */ }; static struct utsname _utsname; static void _init(void) { static int _initialised = 0; if (_initialised) return; if (uname(&_utsname)) { log_error("uname failed: %s", strerror(errno)); memset(&_utsname, 0, sizeof(_utsname)); } _initialised = 1; } /* * Formatting functions. */ #define MAX_INDENT 5 static void _inc_indent(struct formatter *f) { if (++f->indent > MAX_INDENT) f->indent = MAX_INDENT; } static void _dec_indent(struct formatter *f) { if (!f->indent--) { log_error(INTERNAL_ERROR "problem tracking indentation"); f->indent = 0; } } /* * Newline function for prettier layout. */ static int _nl_file(struct formatter *f) { fprintf(f->data.fp, "\n"); return 1; } static int _extend_buffer(struct formatter *f) { char *newbuf; log_debug_metadata("Doubling metadata output buffer to " FMTu32, f->data.buf.size * 2); if (!(newbuf = dm_malloc_aligned(f->data.buf.size * 2, 0))) return_0; memcpy(newbuf, f->data.buf.start, f->data.buf.size); free(f->data.buf.start); f->data.buf.start = newbuf; f->data.buf.size *= 2; return 1; } static int _nl_raw(struct formatter *f) { /* If metadata doesn't fit, extend buffer */ if ((f->data.buf.used + 2 > f->data.buf.size) && (!_extend_buffer(f))) return_0; *(f->data.buf.start + f->data.buf.used) = '\n'; f->data.buf.used += 1; *(f->data.buf.start + f->data.buf.used) = '\0'; return 1; } #define COMMENT_TAB 6 __attribute__((format(printf, 3, 0))) static int _out_with_comment_file(struct formatter *f, const char *comment, const char *fmt, va_list ap) { int i; char white_space[MAX_INDENT + 1]; if (ferror(f->data.fp)) return 0; for (i = 0; i < f->indent; i++) white_space[i] = '\t'; white_space[i] = '\0'; fputs(white_space, f->data.fp); i = vfprintf(f->data.fp, fmt, ap); if (comment) { /* * line comments up if possible. */ i += 8 * f->indent; i /= 8; i++; do fputc('\t', f->data.fp); while (++i < COMMENT_TAB); fputs(comment, f->data.fp); } fputc('\n', f->data.fp); return 1; } __attribute__((format(printf, 3, 0))) static int _out_with_comment_raw(struct formatter *f, const char *comment __attribute__((unused)), const char *fmt, va_list ap) { int n; va_list apc; va_copy(apc, ap); n = vsnprintf(f->data.buf.start + f->data.buf.used, f->data.buf.size - f->data.buf.used, fmt, apc); va_end(apc); /* If metadata doesn't fit, extend buffer */ if (n < 0 || (n + f->data.buf.used + 2 > f->data.buf.size)) { if (!_extend_buffer(f)) return_0; return -1; /* Retry */ } f->data.buf.used += n; outnl(f); return 1; } /* * Formats a string, converting a size specified * in 512-byte sectors to a more human readable * form (eg, megabytes). We may want to lift this * for other code to use. */ static int _sectors_to_units(uint64_t sectors, char *buffer, size_t s) { static const char *_units[] = { "Kilobytes", "Megabytes", "Gigabytes", "Terabytes", "Petabytes", "Exabytes", NULL }; int i; double d = (double) sectors; /* to convert to K */ d /= 2.0; for (i = 0; (d > 1024.0) && _units[i]; i++) d /= 1024.0; return dm_snprintf(buffer, s, "# %g %s", d, _units[i]) > 0; } /* increment indention level */ void out_inc_indent(struct formatter *f) { _inc_indent(f); } /* decrement indention level */ void out_dec_indent(struct formatter *f) { _dec_indent(f); } /* insert new line */ int out_newline(struct formatter *f) { return f->nl(f); } /* * Appends a comment giving a size in more easily * readable form (eg, 4M instead of 8096). */ int out_size(struct formatter *f, uint64_t size, const char *fmt, ...) { char buffer[64]; va_list ap; int r; if (!_sectors_to_units(size, buffer, sizeof(buffer))) return 0; _out_with_comment(f, buffer, fmt, ap); return r; } /* * Appends a comment indicating that the line is * only a hint. */ int out_hint(struct formatter *f, const char *fmt, ...) { va_list ap; int r; _out_with_comment(f, "# Hint only", fmt, ap); return r; } /* * The normal output function with comment */ int out_text_with_comment(struct formatter *f, const char *comment, const char *fmt, ...) { va_list ap; int r; _out_with_comment(f, comment, fmt, ap); return r; } /* * The normal output function. */ int out_text(struct formatter *f, const char *fmt, ...) { va_list ap; int r; _out_with_comment(f, NULL, fmt, ap); return r; } static int _out_line(const char *line, void *_f) { struct formatter *f = (struct formatter *) _f; return out_text(f, "%s", line); } int out_config_node(struct formatter *f, const struct dm_config_node *cn) { return dm_config_write_node(cn, _out_line, f); } static int _print_header(struct cmd_context *cmd, struct formatter *f, const char *desc) { char *buf; time_t t; t = time(NULL); outf(f, "# Generated by LVM2 version %s: %s", LVM_VERSION, ctime(&t)); outf(f, CONTENTS_FIELD " = \"" CONTENTS_VALUE "\""); outf(f, FORMAT_VERSION_FIELD " = %d", FORMAT_VERSION_VALUE); outnl(f); buf = alloca(dm_escaped_len(desc)); outf(f, "description = \"%s\"", dm_escape_double_quotes(buf, desc)); outnl(f); outf(f, "creation_host = \"%s\"\t# %s %s %s %s %s", _utsname.nodename, _utsname.sysname, _utsname.nodename, _utsname.release, _utsname.version, _utsname.machine); if (cmd->system_id && *cmd->system_id) outf(f, "creation_host_system_id = \"%s\"", cmd->system_id); outf(f, "creation_time = " FMTu64 "\t# %s", (uint64_t)t, ctime(&t)); return 1; } static int _print_flag_config(struct formatter *f, uint64_t status, int type) { char buffer[4096]; if (!print_flags(buffer, sizeof(buffer), type, STATUS_FLAG, status)) return_0; outf(f, "status = %s", buffer); if (!print_flags(buffer, sizeof(buffer), type, COMPATIBLE_FLAG, status)) return_0; outf(f, "flags = %s", buffer); return 1; } static char *_alloc_printed_str_list(struct dm_list *list) { struct dm_str_list *sl; int first = 1; size_t size = 0; char *buffer, *buf; dm_list_iterate_items(sl, list) /* '"' + item + '"' + ',' + ' ' */ size += strlen(sl->str) + 4; /* '[' + ']' + '\0' */ size += 3; if (!(buffer = buf = dm_malloc(size))) { log_error("Could not allocate memory for string list buffer."); return NULL; } if (!emit_to_buffer(&buf, &size, "[")) goto_bad; dm_list_iterate_items(sl, list) { if (!first) { if (!emit_to_buffer(&buf, &size, ", ")) goto_bad; } else first = 0; if (!emit_to_buffer(&buf, &size, "\"%s\"", sl->str)) goto_bad; } if (!emit_to_buffer(&buf, &size, "]")) goto_bad; return buffer; bad: dm_free(buffer); return_NULL; } static int _out_list(struct formatter *f, struct dm_list *list, const char *list_name) { char *buffer; if (!dm_list_empty(list)) { if (!(buffer = _alloc_printed_str_list(list))) return_0; if (!out_text(f, "%s = %s", list_name, buffer)) { dm_free(buffer); return_0; } dm_free(buffer); } return 1; } static int _print_vg(struct formatter *f, struct volume_group *vg) { char buffer[4096]; const struct format_type *fmt = NULL; uint64_t status = vg->status; if (!id_write_format(&vg->id, buffer, sizeof(buffer))) return_0; outf(f, "id = \"%s\"", buffer); outf(f, "seqno = %u", vg->seqno); if (vg->original_fmt) fmt = vg->original_fmt; else if (vg->fid) fmt = vg->fid->fmt; if (fmt) outfc(f, "# informational", "format = \"%s\"", fmt->name); /* * Removing WRITE and adding LVM_WRITE_LOCKED makes it read-only * to old versions of lvm that only look for LVM_WRITE. */ if ((status & LVM_WRITE) && vg_flag_write_locked(vg)) { status &= ~LVM_WRITE; status |= LVM_WRITE_LOCKED; } if (!_print_flag_config(f, status, VG_FLAGS)) return_0; if (!_out_list(f, &vg->tags, "tags")) return_0; if (vg->system_id && *vg->system_id) outf(f, "system_id = \"%s\"", vg->system_id); else if (vg->lvm1_system_id && *vg->lvm1_system_id) outf(f, "system_id = \"%s\"", vg->lvm1_system_id); if (vg->lock_type) { outf(f, "lock_type = \"%s\"", vg->lock_type); if (vg->lock_args) outf(f, "lock_args = \"%s\"", vg->lock_args); } outsize(f, (uint64_t) vg->extent_size, "extent_size = %u", vg->extent_size); outf(f, "max_lv = %u", vg->max_lv); outf(f, "max_pv = %u", vg->max_pv); /* Default policy is NORMAL; INHERIT is meaningless */ if (vg->alloc != ALLOC_NORMAL && vg->alloc != ALLOC_INHERIT) { outnl(f); outf(f, "allocation_policy = \"%s\"", get_alloc_string(vg->alloc)); } if (vg->profile) outf(f, "profile = \"%s\"", vg->profile->name); outf(f, "metadata_copies = %u", vg->mda_copies); return 1; } /* * Get the pv%d name from the formatters hash * table. */ static const char *_get_pv_name_from_uuid(struct formatter *f, char *uuid) { const char *pv_name = dm_hash_lookup(f->pv_names, uuid); if (!pv_name) log_error(INTERNAL_ERROR "PV name for uuid %s missing from text metadata export hash table.", uuid); return pv_name; } static const char *_get_pv_name(struct formatter *f, struct physical_volume *pv) { char uuid[64] __attribute__((aligned(8))); if (!pv || !id_write_format(&pv->id, uuid, sizeof(uuid))) return_NULL; return _get_pv_name_from_uuid(f, uuid); } static int _print_pvs(struct formatter *f, struct volume_group *vg) { struct pv_list *pvl; struct physical_volume *pv; char buffer[PATH_MAX * 2]; const char *name; outf(f, "physical_volumes {"); _inc_indent(f); dm_list_iterate_items(pvl, &vg->pvs) { pv = pvl->pv; if (!id_write_format(&pv->id, buffer, sizeof(buffer))) return_0; if (!(name = _get_pv_name_from_uuid(f, buffer))) return_0; outnl(f); outf(f, "%s {", name); _inc_indent(f); outf(f, "id = \"%s\"", buffer); if (strlen(pv_dev_name(pv)) >= PATH_MAX) { log_error("pv device name size is out of bounds."); return 0; } outhint(f, "device = \"%s\"", dm_escape_double_quotes(buffer, pv_dev_name(pv))); outnl(f); if (!_print_flag_config(f, pv->status, PV_FLAGS)) return_0; if (!_out_list(f, &pv->tags, "tags")) return_0; outsize(f, pv->size, "dev_size = " FMTu64, pv->size); outf(f, "pe_start = " FMTu64, pv->pe_start); outsize(f, vg->extent_size * (uint64_t) pv->pe_count, "pe_count = %u", pv->pe_count); if (pv->ba_start && pv->ba_size) { outf(f, "ba_start = " FMTu64, pv->ba_start); outsize(f, pv->ba_size, "ba_size = " FMTu64, pv->ba_size); } _dec_indent(f); outf(f, "}"); } _dec_indent(f); outf(f, "}"); return 1; } static int _print_segment(struct formatter *f, struct volume_group *vg, int count, struct lv_segment *seg) { char buffer[2048]; if (!print_segtype_lvflags(buffer, sizeof(buffer), seg->lv->status)) return_0; outf(f, "segment%u {", count); _inc_indent(f); outf(f, "start_extent = %u", seg->le); outsize(f, (uint64_t) seg->len * vg->extent_size, "extent_count = %u", seg->len); outnl(f); if (seg->reshape_len) outsize(f, (uint64_t) seg->reshape_len * vg->extent_size, "reshape_count = %u", seg->reshape_len); outf(f, "type = \"%s%s\"", seg->segtype->name, buffer); if (!_out_list(f, &seg->tags, "tags")) return_0; if (seg->segtype->ops->text_export && !seg->segtype->ops->text_export(seg, f)) return_0; _dec_indent(f); outf(f, "}"); return 1; } int out_areas(struct formatter *f, const struct lv_segment *seg, const char *type) { const char *name; unsigned int s; struct physical_volume *pv; outnl(f); outf(f, "%ss = [", type); _inc_indent(f); for (s = 0; s < seg->area_count; s++) { switch (seg_type(seg, s)) { case AREA_PV: if (!(pv = seg_pv(seg, s))) { log_error(INTERNAL_ERROR "Missing PV for area " FMTu32 " of %s segment of LV %s.", s, type, display_lvname(seg->lv)); return 0; } if (!(name = _get_pv_name(f, pv))) return_0; outf(f, "\"%s\", %u%s", name, seg_pe(seg, s), (s == seg->area_count - 1) ? "" : ","); break; case AREA_LV: /* FIXME This helper code should be target-independent! Check for metadata LV property. */ if (!seg_is_raid(seg)) { outf(f, "\"%s\", %u%s", seg_lv(seg, s)->name, seg_le(seg, s), (s == seg->area_count - 1) ? "" : ","); continue; } /* RAID devices are laid-out in metadata/data pairs */ /* FIXME Validation should be elsewhere, not here! */ if (!lv_is_raid_image(seg_lv(seg, s)) || (seg->meta_areas && seg_metalv(seg, s) && !lv_is_raid_metadata(seg_metalv(seg, s)))) { log_error("RAID segment has non-RAID areas"); return 0; } if (seg->meta_areas && seg_metalv(seg,s)) outf(f, "\"%s\", \"%s\"%s", (seg->meta_areas && seg_metalv(seg, s)) ? seg_metalv(seg, s)->name : "", seg_lv(seg, s)->name, (s == seg->area_count - 1) ? "" : ","); else outf(f, "\"%s\"%s", seg_lv(seg, s)->name, (s == seg->area_count - 1) ? "" : ","); break; case AREA_UNASSIGNED: log_error(INTERNAL_ERROR "Invalid type for area " FMTu32 " of %s segment of LV %s.", s, type, display_lvname(seg->lv)); return 0; } } _dec_indent(f); outf(f, "]"); return 1; } static int _print_timestamp(struct formatter *f, const char *name, time_t ts, char *buf, size_t buf_size) { struct tm *local_tm; if (ts) { strncpy(buf, "# ", buf_size); if (!(local_tm = localtime(&ts)) || !strftime(buf + 2, buf_size - 2, "%Y-%m-%d %T %z", local_tm)) buf[0] = 0; outfc(f, buf, "%s = " FMTu64, name, (uint64_t) ts); } return 1; } static int _print_lv(struct formatter *f, struct logical_volume *lv) { struct lv_segment *seg; char buffer[4096]; int seg_count; uint64_t status = lv->status; outnl(f); outf(f, "%s {", lv->name); _inc_indent(f); /* FIXME: Write full lvid */ if (!id_write_format(&lv->lvid.id[1], buffer, sizeof(buffer))) return_0; outf(f, "id = \"%s\"", buffer); /* * Removing WRITE and adding LVM_WRITE_LOCKED makes it read-only * to old versions of lvm that only look for LVM_WRITE. */ if ((status & LVM_WRITE) && vg_flag_write_locked(lv->vg)) { status &= ~LVM_WRITE; status |= LVM_WRITE_LOCKED; } if (!_print_flag_config(f, status, LV_FLAGS)) return_0; if (!_out_list(f, &lv->tags, "tags")) return_0; if (lv->timestamp) { if (!_print_timestamp(f, "creation_time", lv->timestamp, buffer, sizeof(buffer))) return_0; outf(f, "creation_host = \"%s\"", lv->hostname); } if (lv->lock_args) outf(f, "lock_args = \"%s\"", lv->lock_args); if (lv->alloc != ALLOC_INHERIT) outf(f, "allocation_policy = \"%s\"", get_alloc_string(lv->alloc)); if (lv->profile) outf(f, "profile = \"%s\"", lv->profile->name); switch (lv->read_ahead) { case DM_READ_AHEAD_NONE: outfc(f, "# None", "read_ahead = -1"); break; case DM_READ_AHEAD_AUTO: /* No output - use default */ break; default: outf(f, "read_ahead = %u", lv->read_ahead); } if (lv->major >= 0) outf(f, "major = %d", lv->major); if (lv->minor >= 0) outf(f, "minor = %d", lv->minor); outf(f, "segment_count = %u", dm_list_size(&lv->segments)); outnl(f); seg_count = 1; dm_list_iterate_items(seg, &lv->segments) { if (!_print_segment(f, lv->vg, seg_count++, seg)) return_0; } _dec_indent(f); outf(f, "}"); return 1; } static int _print_lvs(struct formatter *f, struct volume_group *vg) { struct lv_list *lvl; /* * Don't bother with an lv section if there are no lvs. */ if (dm_list_empty(&vg->lvs)) return 1; outf(f, "logical_volumes {"); _inc_indent(f); /* * Write visible LVs first */ dm_list_iterate_items(lvl, &vg->lvs) { if (!(lv_is_visible(lvl->lv))) continue; if (!_print_lv(f, lvl->lv)) return_0; } dm_list_iterate_items(lvl, &vg->lvs) { if ((lv_is_visible(lvl->lv))) continue; if (!_print_lv(f, lvl->lv)) return_0; } _dec_indent(f); outf(f, "}"); return 1; } static int _alloc_printed_indirect_descendants(struct dm_list *indirect_glvs, char **buffer) { struct glv_list *user_glvl; size_t buf_size = 0; int first = 1; char *buf; *buffer = NULL; dm_list_iterate_items(user_glvl, indirect_glvs) { if (user_glvl->glv->is_historical) continue; /* '"' + name + '"' + ',' + ' ' */ buf_size += strlen(user_glvl->glv->live->name) + 4; } if (!buf_size) return 1; /* '[' + ']' + '\0' */ buf_size += 3; if (!(*buffer = dm_malloc(buf_size))) { log_error("Could not allocate memory for ancestor list buffer."); return 0; } buf = *buffer; if (!emit_to_buffer(&buf, &buf_size, "[")) goto_bad; dm_list_iterate_items(user_glvl, indirect_glvs) { if (user_glvl->glv->is_historical) continue; if (!first) { if (!emit_to_buffer(&buf, &buf_size, ", ")) goto_bad; } else first = 0; if (!emit_to_buffer(&buf, &buf_size, "\"%s\"", user_glvl->glv->live->name)) goto_bad; } if (!emit_to_buffer(&buf, &buf_size, "]")) goto_bad; return 1; bad: if (*buffer) { dm_free(*buffer); *buffer = NULL; } return 0; } static int _print_historical_lv(struct formatter *f, struct historical_logical_volume *hlv) { char buffer[40]; char *descendants_buffer = NULL; int r = 0; if (!id_write_format(&hlv->lvid.id[1], buffer, sizeof(buffer))) goto_out; if (!_alloc_printed_indirect_descendants(&hlv->indirect_glvs, &descendants_buffer)) goto_out; outnlgo(f); outfgo(f, "%s {", hlv->name); _inc_indent(f); outfgo(f, "id = \"%s\"", buffer); if (!_print_timestamp(f, "creation_time", hlv->timestamp, buffer, sizeof(buffer))) goto_out; if (!_print_timestamp(f, "removal_time", hlv->timestamp_removed, buffer, sizeof(buffer))) goto_out; if (hlv->indirect_origin) { if (hlv->indirect_origin->is_historical) outfgo(f, "origin = \"%s%s\"", HISTORICAL_LV_PREFIX, hlv->indirect_origin->historical->name); else outfgo(f, "origin = \"%s\"", hlv->indirect_origin->live->name); } if (descendants_buffer) outfgo(f, "descendants = %s", descendants_buffer); _dec_indent(f); outfgo(f, "}"); r = 1; out: dm_free(descendants_buffer); return r; } static int _print_historical_lvs(struct formatter *f, struct volume_group *vg) { struct glv_list *glvl; if (dm_list_empty(&vg->historical_lvs)) return 1; outf(f, "historical_logical_volumes {"); _inc_indent(f); dm_list_iterate_items(glvl, &vg->historical_lvs) { if (!_print_historical_lv(f, glvl->glv->historical)) return_0; } _dec_indent(f); outf(f, "}"); return 1; } /* * In the text format we refer to pv's as 'pv1', * 'pv2' etc. This function builds a hash table * to enable a quick lookup from device -> name. */ static int _build_pv_names(struct formatter *f, struct volume_group *vg) { int count = 0; struct pv_list *pvl; struct physical_volume *pv; char buffer[32], *uuid, *name; if (!(f->mem = dm_pool_create("text pv_names", 512))) return_0; if (!(f->pv_names = dm_hash_create(128))) return_0; dm_list_iterate_items(pvl, &vg->pvs) { pv = pvl->pv; /* FIXME But skip if there's already an LV called pv%d ! */ if (dm_snprintf(buffer, sizeof(buffer), "pv%d", count++) < 0) return_0; if (!(name = dm_pool_strdup(f->mem, buffer))) return_0; if (!(uuid = dm_pool_zalloc(f->mem, 64)) || !id_write_format(&pv->id, uuid, 64)) return_0; if (!dm_hash_insert(f->pv_names, uuid, name)) return_0; } return 1; } static int _text_vg_export(struct formatter *f, struct volume_group *vg, const char *desc) { int r = 0; if (!_build_pv_names(f, vg)) goto_out; if (f->header && !_print_header(vg->cmd, f, desc)) goto_out; if (!out_text(f, "%s {", vg->name)) goto_out; _inc_indent(f); if (!_print_vg(f, vg)) goto_out; outnl(f); if (!_print_pvs(f, vg)) goto_out; outnl(f); if (!_print_lvs(f, vg)) goto_out; outnl(f); if (!_print_historical_lvs(f, vg)) goto_out; _dec_indent(f); if (!out_text(f, "}")) goto_out; if (!f->header && !_print_header(vg->cmd, f, desc)) goto_out; r = 1; out: if (f->mem) { dm_pool_destroy(f->mem); f->mem = NULL; } if (f->pv_names) { dm_hash_destroy(f->pv_names); f->pv_names = NULL; } return r; } int text_vg_export_file(struct volume_group *vg, const char *desc, FILE *fp) { struct formatter *f; int r; _init(); if (!(f = dm_zalloc(sizeof(*f)))) return_0; f->data.fp = fp; f->indent = 0; f->header = 1; f->out_with_comment = &_out_with_comment_file; f->nl = &_nl_file; r = _text_vg_export(f, vg, desc); if (r) r = !ferror(f->data.fp); dm_free(f); return r; } /* Returns amount of buffer used incl. terminating NUL */ size_t text_vg_export_raw(struct volume_group *vg, const char *desc, char **buf) { struct formatter *f; size_t r = 0; _init(); if (!(f = dm_zalloc(sizeof(*f)))) return_0; f->data.buf.size = 65536; /* Initial metadata limit */ if (!(f->data.buf.start = dm_malloc_aligned(f->data.buf.size, 0))) { log_error("text_export buffer allocation failed"); goto out; } f->indent = 0; f->header = 0; f->out_with_comment = &_out_with_comment_raw; f->nl = &_nl_raw; if (!_text_vg_export(f, vg, desc)) { dm_free(f->data.buf.start); goto_out; } f->data.buf.used += 1; /* Terminating NUL */ /* Zero fill up to next alignment boundary */ memset(f->data.buf.start + f->data.buf.used, 0, MDA_ALIGNMENT - f->data.buf.used % MDA_ALIGNMENT); r = f->data.buf.used; *buf = f->data.buf.start; out: dm_free(f); return r; } size_t export_vg_to_buffer(struct volume_group *vg, char **buf) { return text_vg_export_raw(vg, "", buf); } struct dm_config_tree *export_vg_to_config_tree(struct volume_group *vg) { char *buf = NULL; struct dm_config_tree *vg_cft; if (!export_vg_to_buffer(vg, &buf)) { log_error("Could not format metadata for VG %s.", vg->name); return_NULL; } if (!(vg_cft = config_tree_from_string_without_dup_node_check(buf))) { log_error("Error parsing metadata for VG %s.", vg->name); dm_free(buf); return_NULL; } dm_free(buf); return vg_cft; } #undef outf #undef outnl