/* * Copyright (C) 2013-2016 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 "base/memory/zalloc.h" #include "lib/misc/lib.h" #include "lib/commands/toolcontext.h" #include "lib/metadata/segtype.h" #include "lib/display/display.h" #include "lib/format_text/text_export.h" #include "lib/config/config.h" #include "lib/datastruct/str_list.h" #include "lib/misc/lvm-string.h" #include "lib/activate/activate.h" #include "lib/metadata/metadata.h" #include "lib/metadata/lv_alloc.h" #include "lib/config/defaults.h" static int _writecache_cleaner_supported; static int _writecache_max_age_supported; #define SEG_LOG_ERROR(t, p...) \ log_error(t " segment %s of logical volume %s.", ## p, \ dm_config_parent_name(sn), seg->lv->name), 0; static void _writecache_display(const struct lv_segment *seg) { /* TODO: lvdisplay segments */ } static int _writecache_text_import(struct lv_segment *seg, const struct dm_config_node *sn, struct dm_hash_table *pv_hash __attribute__((unused))) { struct logical_volume *origin_lv = NULL; struct logical_volume *fast_lv; const char *origin_name = NULL; const char *fast_name = NULL; if (!dm_config_has_node(sn, "origin")) return SEG_LOG_ERROR("origin not specified in"); if (!dm_config_get_str(sn, "origin", &origin_name)) return SEG_LOG_ERROR("origin must be a string in"); if (!(origin_lv = find_lv(seg->lv->vg, origin_name))) return SEG_LOG_ERROR("Unknown LV specified for writecache origin %s in", origin_name); if (!set_lv_segment_area_lv(seg, 0, origin_lv, 0, 0)) return_0; if (!dm_config_has_node(sn, "writecache")) return SEG_LOG_ERROR("writecache not specified in"); if (!dm_config_get_str(sn, "writecache", &fast_name)) return SEG_LOG_ERROR("writecache must be a string in"); if (!(fast_lv = find_lv(seg->lv->vg, fast_name))) return SEG_LOG_ERROR("Unknown logical volume %s specified for writecache in", fast_name); if (!dm_config_get_uint32(sn, "writecache_block_size", &seg->writecache_block_size)) return SEG_LOG_ERROR("writecache block_size must be set in"); seg->origin = origin_lv; seg->writecache = fast_lv; seg->lv->status |= WRITECACHE; if (!add_seg_to_segs_using_this_lv(fast_lv, seg)) return_0; memset(&seg->writecache_settings, 0, sizeof(struct writecache_settings)); if (dm_config_has_node(sn, "high_watermark")) { if (!dm_config_get_uint64(sn, "high_watermark", &seg->writecache_settings.high_watermark)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.high_watermark_set = 1; } if (dm_config_has_node(sn, "low_watermark")) { if (!dm_config_get_uint64(sn, "low_watermark", &seg->writecache_settings.low_watermark)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.low_watermark_set = 1; } if (dm_config_has_node(sn, "writeback_jobs")) { if (!dm_config_get_uint64(sn, "writeback_jobs", &seg->writecache_settings.writeback_jobs)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.writeback_jobs_set = 1; } if (dm_config_has_node(sn, "autocommit_blocks")) { if (!dm_config_get_uint64(sn, "autocommit_blocks", &seg->writecache_settings.autocommit_blocks)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.autocommit_blocks_set = 1; } if (dm_config_has_node(sn, "autocommit_time")) { if (!dm_config_get_uint64(sn, "autocommit_time", &seg->writecache_settings.autocommit_time)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.autocommit_time_set = 1; } if (dm_config_has_node(sn, "fua")) { if (!dm_config_get_uint32(sn, "fua", &seg->writecache_settings.fua)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.fua_set = 1; } if (dm_config_has_node(sn, "nofua")) { if (!dm_config_get_uint32(sn, "nofua", &seg->writecache_settings.nofua)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.nofua_set = 1; } if (dm_config_has_node(sn, "cleaner")) { if (!dm_config_get_uint32(sn, "cleaner", &seg->writecache_settings.cleaner)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.cleaner_set = 1; } if (dm_config_has_node(sn, "max_age")) { if (!dm_config_get_uint32(sn, "max_age", &seg->writecache_settings.max_age)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.max_age_set = 1; } if (dm_config_has_node(sn, "metadata_only")) { if (!dm_config_get_uint32(sn, "metadata_only", &seg->writecache_settings.metadata_only)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.metadata_only_set = 1; } if (dm_config_has_node(sn, "pause_writeback")) { if (!dm_config_get_uint32(sn, "pause_writeback", &seg->writecache_settings.pause_writeback)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.pause_writeback_set = 1; } if (dm_config_has_node(sn, "writecache_setting_key")) { const char *key; const char *val; if (!dm_config_get_str(sn, "writecache_setting_key", &key)) return SEG_LOG_ERROR("Unknown writecache_setting in"); if (!dm_config_get_str(sn, "writecache_setting_val", &val)) return SEG_LOG_ERROR("Unknown writecache_setting in"); seg->writecache_settings.new_key = dm_pool_strdup(seg->lv->vg->vgmem, key); seg->writecache_settings.new_val = dm_pool_strdup(seg->lv->vg->vgmem, val); } return 1; } static int _writecache_text_import_area_count(const struct dm_config_node *sn, uint32_t *area_count) { *area_count = 1; return 1; } static int _writecache_text_export(const struct lv_segment *seg, struct formatter *f) { outf(f, "writecache = \"%s\"", seg->writecache->name); outf(f, "origin = \"%s\"", seg_lv(seg, 0)->name); outf(f, "writecache_block_size = %u", seg->writecache_block_size); if (seg->writecache_settings.high_watermark_set) { outf(f, "high_watermark = %llu", (unsigned long long)seg->writecache_settings.high_watermark); } if (seg->writecache_settings.low_watermark_set) { outf(f, "low_watermark = %llu", (unsigned long long)seg->writecache_settings.low_watermark); } if (seg->writecache_settings.writeback_jobs_set) { outf(f, "writeback_jobs = %llu", (unsigned long long)seg->writecache_settings.writeback_jobs); } if (seg->writecache_settings.autocommit_blocks_set) { outf(f, "autocommit_blocks = %llu", (unsigned long long)seg->writecache_settings.autocommit_blocks); } if (seg->writecache_settings.autocommit_time_set) { outf(f, "autocommit_time = %llu", (unsigned long long)seg->writecache_settings.autocommit_time); } if (seg->writecache_settings.fua_set) { outf(f, "fua = %u", seg->writecache_settings.fua); } if (seg->writecache_settings.nofua_set) { outf(f, "nofua = %u", seg->writecache_settings.nofua); } if (seg->writecache_settings.cleaner_set && seg->writecache_settings.cleaner) { outf(f, "cleaner = %u", seg->writecache_settings.cleaner); } if (seg->writecache_settings.max_age_set) { outf(f, "max_age = %u", seg->writecache_settings.max_age); } if (seg->writecache_settings.metadata_only_set) { outf(f, "metadata_only = %u", seg->writecache_settings.metadata_only); } if (seg->writecache_settings.pause_writeback_set) { outf(f, "pause_writeback = %u", seg->writecache_settings.pause_writeback); } if (seg->writecache_settings.new_key && seg->writecache_settings.new_val) { outf(f, "writecache_setting_key = \"%s\"", seg->writecache_settings.new_key); outf(f, "writecache_setting_val = \"%s\"", seg->writecache_settings.new_val); } return 1; } static void _destroy(struct segment_type *segtype) { free((void *) segtype); } #ifdef DEVMAPPER_SUPPORT static int _target_present(struct cmd_context *cmd, const struct lv_segment *seg __attribute__((unused)), unsigned *attributes __attribute__((unused))) { static int _writecache_checked = 0; static int _writecache_present = 0; uint32_t maj, min, patchlevel; if (!activation()) return 0; if (!_writecache_checked) { _writecache_checked = 1; if (!(_writecache_present = target_present_version(cmd, TARGET_NAME_WRITECACHE, 1, &maj, &min, &patchlevel))) return 0; if (maj < 1) { log_error("dm-writecache module version older than minimum 1.0.0"); return 0; } if (min >= 3) { _writecache_cleaner_supported = 1; _writecache_max_age_supported = 1; } } return _writecache_present; } bool writecache_cleaner_supported(struct cmd_context *cmd) { _target_present(cmd, NULL, NULL); return _writecache_cleaner_supported ? true : false; } static int _modules_needed(struct dm_pool *mem, const struct lv_segment *seg __attribute__((unused)), struct dm_list *modules) { if (!str_list_add(mem, modules, MODULE_NAME_WRITECACHE)) { log_error("String list allocation failed for writecache module."); return 0; } return 1; } #else bool writecache_cleaner_supported(struct cmd_context *cmd) { return 0; } #endif /* DEVMAPPER_SUPPORT */ #ifdef DEVMAPPER_SUPPORT static int _writecache_add_target_line(struct dev_manager *dm, struct dm_pool *mem, struct cmd_context *cmd __attribute__((unused)), void **target_state __attribute__((unused)), struct lv_segment *seg, const struct lv_activate_opts *laopts __attribute__((unused)), struct dm_tree_node *node, uint64_t len, uint32_t *pvmove_mirror_count __attribute__((unused))) { char *origin_uuid; char *fast_uuid; int pmem; if (!seg_is_writecache(seg)) { log_error(INTERNAL_ERROR "Passed segment is not writecache."); return 0; } if (!seg->writecache) { log_error(INTERNAL_ERROR "Passed segment has no writecache."); return 0; } if (!_writecache_cleaner_supported && seg->writecache_settings.cleaner_set && seg->writecache_settings.cleaner) { log_warn("WARNING: ignoring writecache setting \"cleaner\" which is not supported by kernel for LV %s.", seg->lv->name); seg->writecache_settings.cleaner = 0; seg->writecache_settings.cleaner_set = 0; } if (!_writecache_max_age_supported && seg->writecache_settings.max_age_set) { log_warn("WARNING: ignoring writecache setting \"max_age\" which is not supported by kernel for LV %s.", seg->lv->name); seg->writecache_settings.max_age = 0; seg->writecache_settings.max_age_set = 0; } if ((pmem = lv_on_pmem(seg->writecache)) < 0) return_0; if (!(origin_uuid = build_dm_uuid(mem, seg_lv(seg, 0), "real"))) return_0; if (!(fast_uuid = build_dm_uuid(mem, seg->writecache, "cvol"))) return_0; if (!dm_tree_node_add_writecache_target(node, len, origin_uuid, fast_uuid, pmem, seg->writecache_block_size, &seg->writecache_settings)) return_0; return 1; } #endif /* DEVMAPPER_SUPPORT */ static struct segtype_handler _writecache_ops = { .display = _writecache_display, .text_import = _writecache_text_import, .text_import_area_count = _writecache_text_import_area_count, .text_export = _writecache_text_export, #ifdef DEVMAPPER_SUPPORT .add_target_line = _writecache_add_target_line, .target_present = _target_present, .modules_needed = _modules_needed, #endif .destroy = _destroy, }; int init_writecache_segtypes(struct cmd_context *cmd, struct segtype_library *seglib) { struct segment_type *segtype = zalloc(sizeof(*segtype)); if (!segtype) { log_error("Failed to allocate memory for writecache segtype"); return 0; } segtype->name = SEG_TYPE_NAME_WRITECACHE; segtype->flags = SEG_WRITECACHE; segtype->ops = &_writecache_ops; if (!lvm_register_segtype(seglib, segtype)) return_0; log_very_verbose("Initialised segtype: %s", segtype->name); return 1; }