Return-Path: Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S964918AbaGAVvb (ORCPT ); Tue, 1 Jul 2014 17:51:31 -0400 Received: from mo4-p00-ob.smtp.rzone.de ([81.169.146.217]:32126 "EHLO mo4-p00-ob.smtp.rzone.de" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1755724AbaGAVrp (ORCPT ); Tue, 1 Jul 2014 17:47:45 -0400 X-RZG-AUTH: :OH8QVVOrc/CP6za/qRmbF3BWedPGA1vjs2ejZCzW8NRdwTYefHi0JchBpEUIQvhemkXwbmc= X-RZG-CLASS-ID: mo00 From: Thomas Schoebel-Theuer To: linux-kernel@vger.kernel.org Subject: [PATCH 38/50] mars: add new file drivers/block/mars/xio_bricks/xio_trans_logger.c Date: Tue, 1 Jul 2014 23:47:18 +0200 Message-Id: <1404251250-22992-39-git-send-email-tst@schoebel-theuer.de> X-Mailer: git-send-email 2.0.0 In-Reply-To: <1404251250-22992-1-git-send-email-tst@schoebel-theuer.de> References: <1404251250-22992-1-git-send-email-tst@schoebel-theuer.de> Sender: linux-kernel-owner@vger.kernel.org List-ID: X-Mailing-List: linux-kernel@vger.kernel.org Signed-off-by: Thomas Schoebel-Theuer --- drivers/block/mars/xio_bricks/xio_trans_logger.c | 3295 ++++++++++++++++++++++ 1 file changed, 3295 insertions(+) create mode 100644 drivers/block/mars/xio_bricks/xio_trans_logger.c diff --git a/drivers/block/mars/xio_bricks/xio_trans_logger.c b/drivers/block/mars/xio_bricks/xio_trans_logger.c new file mode 100644 index 0000000..489299b --- /dev/null +++ b/drivers/block/mars/xio_bricks/xio_trans_logger.c @@ -0,0 +1,3295 @@ +/* (c) 2010 Thomas Schoebel-Theuer / 1&1 Internet AG */ + +/* Trans_Logger brick */ + +#define XIO_DEBUGGING + +#include +#include +#include +#include + +#include +#include +#include + +#include + +/* variants */ +#define KEEP_UNIQUE +#define DELAY_CALLERS /* this is _needed_ for production systems */ +/* When possible, queue 1 executes phase3_startio() directly without + * intermediate queueing into queue 3 => may be irritating, but has better + * performance. NOTICE: when some day the IO scheduling should be + * different between queue 1 and 3, you MUST disable this in order + * to distinguish between them! + */ +#define SHORTCUT_1_to_3 + +/* commenting this out is dangerous for data integrity! use only for testing! */ +#define USE_MEMCPY +#define DO_WRITEBACK /* otherwise FAKE IO */ +#define REPLAY_DATA + +/* tuning */ +#ifdef BRICK_DEBUG_MEM +#define CONF_TRANS_CHUNKSIZE (128 * 1024 - PAGE_SIZE * 2) +#else +#define CONF_TRANS_CHUNKSIZE (128 * 1024) +#endif +#define CONF_TRANS_MAX_AIO_SIZE PAGE_SIZE +#define CONF_TRANS_ALIGN 0 + +#define XIO_RPL(_args...) /*empty*/ + +struct trans_logger_hash_anchor { + struct rw_semaphore hash_mutex; + struct list_head hash_anchor; +}; + +#define NR_HASH_PAGES 64 + +#define MAX_HASH_PAGES (PAGE_SIZE / sizeof(struct trans_logger_hash_anchor *)) +#define HASH_PER_PAGE (PAGE_SIZE / sizeof(struct trans_logger_hash_anchor)) +#define HASH_TOTAL (NR_HASH_PAGES * HASH_PER_PAGE) + +/************************ global tuning ***********************/ + +int trans_logger_completion_semantics = 1; +EXPORT_SYMBOL_GPL(trans_logger_completion_semantics); + +int trans_logger_do_crc = +#ifdef CONFIG_MARS_DEBUG + true; +#else + false; +#endif +EXPORT_SYMBOL_GPL(trans_logger_do_crc); + +int trans_logger_mem_usage; /* in KB */ +EXPORT_SYMBOL_GPL(trans_logger_mem_usage); + +int trans_logger_max_interleave = -1; +EXPORT_SYMBOL_GPL(trans_logger_max_interleave); + +int trans_logger_resume = 1; +EXPORT_SYMBOL_GPL(trans_logger_resume); + +int trans_logger_replay_timeout = 1; /* in s */ +EXPORT_SYMBOL_GPL(trans_logger_replay_timeout); + +struct writeback_group global_writeback = { + .lock = __RW_LOCK_UNLOCKED(global_writeback.lock), + .group_anchor = LIST_HEAD_INIT(global_writeback.group_anchor), + .until_percent = 30, +}; +EXPORT_SYMBOL_GPL(global_writeback); + +static +void add_to_group(struct writeback_group *gr, struct trans_logger_brick *brick) +{ + write_lock(&gr->lock); + list_add_tail(&brick->group_head, &gr->group_anchor); + write_unlock(&gr->lock); +} + +static +void remove_from_group(struct writeback_group *gr, struct trans_logger_brick *brick) +{ + write_lock(&gr->lock); + list_del_init(&brick->group_head); + gr->leader = NULL; + write_unlock(&gr->lock); +} + +static +struct trans_logger_brick *elect_leader(struct writeback_group *gr) +{ + struct trans_logger_brick *res = gr->leader; + struct list_head *tmp; + + if (res && gr->until_percent >= 0) { + loff_t used = atomic64_read(&res->shadow_mem_used); + + if (used > gr->biggest * gr->until_percent / 100) + goto done; + } + + read_lock(&gr->lock); + for (tmp = gr->group_anchor.next; tmp != &gr->group_anchor; tmp = tmp->next) { + struct trans_logger_brick *test = container_of(tmp, struct trans_logger_brick, group_head); + loff_t new_used = atomic64_read(&test->shadow_mem_used); + + if (!res || new_used > atomic64_read(&res->shadow_mem_used)) { + res = test; + gr->biggest = new_used; + } + } + read_unlock(&gr->lock); + + gr->leader = res; + +done: + return res; +} + +/************************ own type definitions ***********************/ + +static inline +int lh_cmp(loff_t *a, loff_t *b) +{ + if (*a < *b) + return -1; + if (*a > *b) + return 1; + return 0; +} + +static inline +int tr_cmp(struct pairing_heap_logger *_a, struct pairing_heap_logger *_b) +{ + struct logger_head *a = container_of(_a, struct logger_head, ph); + struct logger_head *b = container_of(_b, struct logger_head, ph); + + return lh_cmp(a->lh_pos, b->lh_pos); +} + +_PAIRING_HEAP_FUNCTIONS(static, logger, tr_cmp); + +static inline +loff_t *lh_get(struct logger_head *th) +{ + return th->lh_pos; +} + +QUEUE_FUNCTIONS(logger, struct logger_head, lh_head, lh_get, lh_cmp, logger); + +/************************* logger queue handling ***********************/ + +static inline +void qq_init(struct logger_queue *q, struct trans_logger_brick *brick) +{ + q_logger_init(q); + q->q_event = &brick->worker_event; + q->q_brick = brick; +} + +static inline +void qq_inc_flying(struct logger_queue *q) +{ + q_logger_inc_flying(q); +} + +static inline +void qq_dec_flying(struct logger_queue *q) +{ + q_logger_dec_flying(q); +} + +static inline +void qq_aio_insert(struct logger_queue *q, struct trans_logger_aio_aspect *aio_a) +{ + struct aio_object *aio = aio_a->object; + + obj_get(aio); /* must be paired with __trans_logger_io_put() */ + atomic_inc(&q->q_brick->inner_balance_count); + + q_logger_insert(q, &aio_a->lh); +} + +static inline +void qq_wb_insert(struct logger_queue *q, struct writeback_info *wb) +{ + q_logger_insert(q, &wb->w_lh); +} + +static inline +void qq_aio_pushback(struct logger_queue *q, struct trans_logger_aio_aspect *aio_a) +{ + obj_check(aio_a->object); + + q->pushback_count++; + + q_logger_pushback(q, &aio_a->lh); +} + +static inline +void qq_wb_pushback(struct logger_queue *q, struct writeback_info *wb) +{ + q->pushback_count++; + q_logger_pushback(q, &wb->w_lh); +} + +static inline +struct trans_logger_aio_aspect *qq_aio_fetch(struct logger_queue *q) +{ + struct logger_head *test; + struct trans_logger_aio_aspect *aio_a = NULL; + + test = q_logger_fetch(q); + + if (test) { + aio_a = container_of(test, struct trans_logger_aio_aspect, lh); + obj_check(aio_a->object); + } + return aio_a; +} + +static inline +struct writeback_info *qq_wb_fetch(struct logger_queue *q) +{ + struct logger_head *test; + struct writeback_info *res = NULL; + + test = q_logger_fetch(q); + + if (test) + res = container_of(test, struct writeback_info, w_lh); + return res; +} + +/************************ own helper functions ***********************/ + +static inline +int hash_fn(loff_t pos) +{ + /* simple and stupid */ + long base_index = pos >> REGION_SIZE_BITS; + + base_index += base_index / HASH_TOTAL / 7; + return base_index % HASH_TOTAL; +} + +static inline +struct trans_logger_aio_aspect *_hash_find(struct list_head *start, + loff_t pos, + int *max_len, + bool use_collect_head, + bool find_unstable) +{ + struct list_head *tmp; + struct trans_logger_aio_aspect *res = NULL; + int len = *max_len; + + /* The lists are always sorted according to age (newest first). + * Caution: there may be duplicates in the list, some of them + * overlapping with the search area in many different ways. + */ + for (tmp = start->next; tmp != start; tmp = tmp->next) { + struct trans_logger_aio_aspect *test_a; + struct aio_object *test; + int diff; + + if (use_collect_head) + test_a = container_of(tmp, struct trans_logger_aio_aspect, collect_head); + else + test_a = container_of(tmp, struct trans_logger_aio_aspect, hash_head); + test = test_a->object; + + obj_check(test); + + /* are the regions overlapping? */ + if (pos >= test->io_pos + test->io_len || pos + len <= test->io_pos) + continue; /* not relevant */ + + /* searching for unstable elements (only in special cases) */ + if (find_unstable && test_a->is_stable) + break; + + diff = test->io_pos - pos; + if (diff <= 0) { + int restlen = test->io_len + diff; + + res = test_a; + if (restlen < len) + len = restlen; + break; + } + if (diff < len) + len = diff; + } + + *max_len = len; + return res; +} + +static +struct trans_logger_aio_aspect *hash_find(struct trans_logger_brick *brick, + loff_t pos, + int *max_len, + bool find_unstable) +{ + + int hash = hash_fn(pos); + struct trans_logger_hash_anchor *sub_table = brick->hash_table[hash / HASH_PER_PAGE]; + struct trans_logger_hash_anchor *start = &sub_table[hash % HASH_PER_PAGE]; + struct trans_logger_aio_aspect *res; + + atomic_inc(&brick->total_hash_find_count); + + down_read(&start->hash_mutex); + + res = _hash_find(&start->hash_anchor, pos, max_len, false, find_unstable); + + /* Ensure the found aio can't go away... + */ + if (res && res->object) + obj_get(res->object); + + up_read(&start->hash_mutex); + + return res; +} + +static +void hash_insert(struct trans_logger_brick *brick, struct trans_logger_aio_aspect *elem_a) +{ + int hash = hash_fn(elem_a->object->io_pos); + struct trans_logger_hash_anchor *sub_table = brick->hash_table[hash / HASH_PER_PAGE]; + struct trans_logger_hash_anchor *start = &sub_table[hash % HASH_PER_PAGE]; + + CHECK_HEAD_EMPTY(&elem_a->hash_head); + obj_check(elem_a->object); + + /* only for statistics: */ + atomic_inc(&brick->hash_count); + atomic_inc(&brick->total_hash_insert_count); + + down_write(&start->hash_mutex); + + list_add(&elem_a->hash_head, &start->hash_anchor); + elem_a->is_hashed = true; + + up_write(&start->hash_mutex); +} + +/* Find the transitive closure of overlapping requests + * and collect them into a list. + */ +static +void hash_extend(struct trans_logger_brick *brick, loff_t *_pos, int *_len, struct list_head *collect_list) +{ + loff_t pos = *_pos; + int len = *_len; + int hash = hash_fn(pos); + struct trans_logger_hash_anchor *sub_table = brick->hash_table[hash / HASH_PER_PAGE]; + struct trans_logger_hash_anchor *start = &sub_table[hash % HASH_PER_PAGE]; + struct list_head *tmp; + bool extended; + + if (collect_list) + CHECK_HEAD_EMPTY(collect_list); + + atomic_inc(&brick->total_hash_extend_count); + + down_read(&start->hash_mutex); + + do { + extended = false; + + for (tmp = start->hash_anchor.next; tmp != &start->hash_anchor; tmp = tmp->next) { + struct trans_logger_aio_aspect *test_a; + struct aio_object *test; + loff_t diff; + + test_a = container_of(tmp, struct trans_logger_aio_aspect, hash_head); + test = test_a->object; + + obj_check(test); + + /* are the regions overlapping? */ + if (pos >= test->io_pos + test->io_len || pos + len <= test->io_pos) + continue; /* not relevant */ + + /* collision detection */ + if (test_a->is_collected) + goto collision; + + /* no writeback of non-persistent data */ + if (!(test_a->is_persistent & test_a->is_completed)) + goto collision; + + /* extend the search region when necessary */ + diff = pos - test->io_pos; + if (diff > 0) { + len += diff; + pos = test->io_pos; + extended = true; + } + diff = (test->io_pos + test->io_len) - (pos + len); + if (diff > 0) { + len += diff; + extended = true; + } + } + } while (extended); /* start over for transitive closure */ + + *_pos = pos; + *_len = len; + + for (tmp = start->hash_anchor.next; tmp != &start->hash_anchor; tmp = tmp->next) { + struct trans_logger_aio_aspect *test_a; + struct aio_object *test; + + test_a = container_of(tmp, struct trans_logger_aio_aspect, hash_head); + test = test_a->object; + + /* are the regions overlapping? */ + if (pos >= test->io_pos + test->io_len || pos + len <= test->io_pos) + continue; /* not relevant */ + + /* collect */ + CHECK_HEAD_EMPTY(&test_a->collect_head); + if (unlikely(test_a->is_collected)) + XIO_ERR("collision detection did not work\n"); + test_a->is_collected = true; + obj_check(test); + list_add_tail(&test_a->collect_head, collect_list); + } + +collision: + up_read(&start->hash_mutex); +} + +/* Atomically put all elements from the list. + * All elements must reside in the same collision list. + */ +static inline +void hash_put_all(struct trans_logger_brick *brick, struct list_head *list) +{ + struct list_head *tmp; + struct trans_logger_hash_anchor *start = NULL; + int first_hash = -1; + + for (tmp = list->next; tmp != list; tmp = tmp->next) { + struct trans_logger_aio_aspect *elem_a; + struct aio_object *elem; + int hash; + + elem_a = container_of(tmp, struct trans_logger_aio_aspect, collect_head); + elem = elem_a->object; + CHECK_PTR(elem, err); + obj_check(elem); + + hash = hash_fn(elem->io_pos); + if (!start) { + struct trans_logger_hash_anchor *sub_table = brick->hash_table[hash / HASH_PER_PAGE]; + + start = &sub_table[hash % HASH_PER_PAGE]; + first_hash = hash; + down_write(&start->hash_mutex); + } else if (unlikely(hash != first_hash)) { + XIO_ERR("oops, different hashes: %d != %d\n", hash, first_hash); + } + + if (!elem_a->is_hashed) + continue; + + list_del_init(&elem_a->hash_head); + elem_a->is_hashed = false; + atomic_dec(&brick->hash_count); + } + +err: + if (start) + up_write(&start->hash_mutex); +} + +static inline +void hash_ensure_stableness(struct trans_logger_brick *brick, struct trans_logger_aio_aspect *aio_a) +{ + if (!aio_a->is_stable) { + struct aio_object *aio = aio_a->object; + int hash = hash_fn(aio->io_pos); + struct trans_logger_hash_anchor *sub_table = brick->hash_table[hash / HASH_PER_PAGE]; + struct trans_logger_hash_anchor *start = &sub_table[hash % HASH_PER_PAGE]; + + down_write(&start->hash_mutex); + + aio_a->is_stable = true; + + up_write(&start->hash_mutex); + } +} + +static +void _inf_callback(struct trans_logger_input *input, bool force) +{ + if (!force && + input->inf_last_jiffies && + input->inf_last_jiffies + 4 * HZ > (long long)jiffies) + goto out_return; + if (input->inf.inf_callback && input->is_operating) { + input->inf_last_jiffies = jiffies; + + input->inf.inf_callback(&input->inf); + + input->inf_last_jiffies = jiffies; + } else { + XIO_DBG("%p skipped callback, callback = %p is_operating = %d\n", + input, + input->inf.inf_callback, + input->is_operating); + } +out_return:; +} + +static inline +int _congested(struct trans_logger_brick *brick) +{ + return atomic_read(&brick->q_phase[0].q_queued) + || atomic_read(&brick->q_phase[0].q_flying) + || atomic_read(&brick->q_phase[1].q_queued) + || atomic_read(&brick->q_phase[1].q_flying) + || atomic_read(&brick->q_phase[2].q_queued) + || atomic_read(&brick->q_phase[2].q_flying) + || atomic_read(&brick->q_phase[3].q_queued) + || atomic_read(&brick->q_phase[3].q_flying); +} + +/***************** own brick * input * output operations *****************/ + +atomic_t global_mshadow_count = ATOMIC_INIT(0); +EXPORT_SYMBOL_GPL(global_mshadow_count); +atomic64_t global_mshadow_used = ATOMIC64_INIT(0); +EXPORT_SYMBOL_GPL(global_mshadow_used); + +static +int trans_logger_get_info(struct trans_logger_output *output, struct xio_info *info) +{ + struct trans_logger_input *input = output->brick->inputs[TL_INPUT_READ]; + + return GENERIC_INPUT_CALL(input, xio_get_info, info); +} + +static +int _make_sshadow(struct trans_logger_output *output, + struct trans_logger_aio_aspect *aio_a, + struct trans_logger_aio_aspect *mshadow_a) +{ + struct trans_logger_brick *brick = output->brick; + struct aio_object *aio = aio_a->object; + struct aio_object *mshadow; + int diff; + + mshadow = mshadow_a->object; + if (unlikely(aio->io_len > mshadow->io_len)) { + XIO_ERR("oops %d -> %d\n", aio->io_len, mshadow->io_len); + aio->io_len = mshadow->io_len; + } + if (unlikely(mshadow_a == aio_a)) { + XIO_ERR("oops %p == %p\n", mshadow_a, aio_a); + return -EINVAL; + } + + diff = aio->io_pos - mshadow->io_pos; + if (unlikely(diff < 0)) { + XIO_ERR("oops diff = %d\n", diff); + return -EINVAL; + } + + /* Attach aio to the existing shadow ("slave shadow"). + */ + aio_a->shadow_data = mshadow_a->shadow_data + diff; + aio_a->do_dealloc = false; + if (!aio->io_data) { /* buffered IO */ + aio->io_data = aio_a->shadow_data; + aio_a->do_buffered = true; + atomic_inc(&brick->total_sshadow_buffered_count); + } + aio->io_flags = mshadow->io_flags; + aio_a->shadow_aio = mshadow_a; + aio_a->my_brick = brick; + + /* Get an ordinary internal reference + */ + obj_get_first(aio); /* must be paired with __trans_logger_io_put() */ + atomic_inc(&brick->inner_balance_count); + + /* The internal reference from slave to master is already + * present due to hash_find(), + * such that the master cannot go away before the slave. + * It is compensated by master transition in __trans_logger_io_put() + */ + atomic_inc(&brick->inner_balance_count); + + atomic_inc(&brick->sshadow_count); + atomic_inc(&brick->total_sshadow_count); + + if (unlikely(aio->io_len <= 0)) { + XIO_ERR("oops, len = %d\n", aio->io_len); + return -EINVAL; + } + + return aio->io_len; +} + +static +int _read_io_get(struct trans_logger_output *output, struct trans_logger_aio_aspect *aio_a) +{ + struct trans_logger_brick *brick = output->brick; + struct aio_object *aio = aio_a->object; + struct trans_logger_input *input = brick->inputs[TL_INPUT_READ]; + struct trans_logger_aio_aspect *mshadow_a; + + /* Look if there is a newer version on the fly, shadowing + * the old one. + * When a shadow is found, use it as buffer for the aio. + */ + mshadow_a = hash_find(brick, aio->io_pos, &aio->io_len, false); + if (!mshadow_a) + return GENERIC_INPUT_CALL(input, aio_get, aio); + + return _make_sshadow(output, aio_a, mshadow_a); +} + +static +int _write_io_get(struct trans_logger_output *output, struct trans_logger_aio_aspect *aio_a) +{ + struct trans_logger_brick *brick = output->brick; + struct aio_object *aio = aio_a->object; + void *data; + +#ifdef KEEP_UNIQUE + struct trans_logger_aio_aspect *mshadow_a; + +#endif + +#ifdef CONFIG_MARS_DEBUG + if (unlikely(aio->io_len <= 0)) { + XIO_ERR("oops, io_len = %d\n", aio->io_len); + return -EINVAL; + } +#endif + +#ifdef KEEP_UNIQUE + mshadow_a = hash_find(brick, aio->io_pos, &aio->io_len, true); + if (mshadow_a) + return _make_sshadow(output, aio_a, mshadow_a); +#endif + +#ifdef DELAY_CALLERS + /* delay in case of too many master shadows / memory shortage */ + wait_event_interruptible_timeout(brick->caller_event, + !brick->delay_callers && + (brick_global_memlimit < 1024 || atomic64_read(&global_mshadow_used) / 1024 < brick_global_memlimit), + HZ / 2); +#endif + + /* create a new master shadow */ + data = brick_block_alloc(aio->io_pos, (aio_a->alloc_len = aio->io_len)); + atomic64_add(aio->io_len, &brick->shadow_mem_used); +#ifdef CONFIG_MARS_DEBUG + memset(data, 0x11, aio->io_len); +#endif + aio_a->shadow_data = data; + aio_a->do_dealloc = true; + if (!aio->io_data) { /* buffered IO */ + aio->io_data = data; + aio_a->do_buffered = true; + atomic_inc(&brick->total_mshadow_buffered_count); + } + aio_a->my_brick = brick; + aio->io_flags = 0; + aio_a->shadow_aio = aio_a; /* cyclic self-reference => indicates master shadow */ + + atomic_inc(&brick->mshadow_count); + atomic_inc(&brick->total_mshadow_count); + atomic_inc(&global_mshadow_count); + atomic64_add(aio->io_len, &global_mshadow_used); + + atomic_inc(&brick->inner_balance_count); + obj_get_first(aio); /* must be paired with __trans_logger_io_put() */ + + return aio->io_len; +} + +static +int trans_logger_io_get(struct trans_logger_output *output, struct aio_object *aio) +{ + struct trans_logger_brick *brick; + struct trans_logger_aio_aspect *aio_a; + loff_t base_offset; + + CHECK_PTR(output, err); + brick = output->brick; + CHECK_PTR(brick, err); + CHECK_PTR(aio, err); + + aio_a = trans_logger_aio_get_aspect(brick, aio); + CHECK_PTR(aio_a, err); + CHECK_ASPECT(aio_a, aio, err); + + atomic_inc(&brick->outer_balance_count); + + if (aio->obj_initialized) { /* setup already performed */ + obj_check(aio); + obj_get(aio); /* must be paired with __trans_logger_io_put() */ + return aio->io_len; + } + + get_lamport(&aio_a->stamp); + + if (aio->io_len > CONF_TRANS_MAX_AIO_SIZE && CONF_TRANS_MAX_AIO_SIZE > 0) + aio->io_len = CONF_TRANS_MAX_AIO_SIZE; + + /* ensure that REGION_SIZE boundaries are obeyed by hashing */ + base_offset = aio->io_pos & (loff_t)(REGION_SIZE - 1); + if (aio->io_len > REGION_SIZE - base_offset) + aio->io_len = REGION_SIZE - base_offset; + + if (aio->io_may_write == READ) + return _read_io_get(output, aio_a); + + if (unlikely(brick->stopped_logging)) { /* only in EMERGENCY mode */ + aio_a->is_emergency = true; + /* Wait until writeback has finished. + * We have to this because writeback is out-of-order. + * Otherwise consistency could be violated for some time. + */ + while (_congested(brick)) { + /* in case of emergency, busy-wait should be acceptable */ + brick_msleep(HZ / 10); + } + return _read_io_get(output, aio_a); + } + + /* FIXME: THIS IS PROVISIONARY (use event instead) + */ + while (unlikely(!brick->power.on_led)) + brick_msleep(HZ / 10); + + return _write_io_get(output, aio_a); + +err: + return -EINVAL; +} + +static void pos_complete(struct trans_logger_aio_aspect *orig_aio_a); + +static +void __trans_logger_io_put(struct trans_logger_brick *brick, struct trans_logger_aio_aspect *aio_a) +{ + struct aio_object *aio; + struct trans_logger_aio_aspect *shadow_a; + struct trans_logger_input *input; + +restart: + CHECK_PTR(aio_a, err); + aio = aio_a->object; + CHECK_PTR(aio, err); + + obj_check(aio); + + /* are we a shadow (whether master or slave)? */ + shadow_a = aio_a->shadow_aio; + if (shadow_a) { + bool finished; + + CHECK_PTR(shadow_a, err); + CHECK_PTR(shadow_a->object, err); + obj_check(shadow_a->object); + + finished = obj_put(aio); + atomic_dec(&brick->inner_balance_count); + if (unlikely(finished && aio_a->is_hashed)) { + XIO_ERR("trying to put a hashed aio, pos = %lld len = %d\n", aio->io_pos, aio->io_len); + finished = false; /* leaves a memleak */ + } + + if (!finished) + goto out_return; + + CHECK_HEAD_EMPTY(&aio_a->lh.lh_head); + CHECK_HEAD_EMPTY(&aio_a->hash_head); + CHECK_HEAD_EMPTY(&aio_a->replay_head); + CHECK_HEAD_EMPTY(&aio_a->collect_head); + CHECK_HEAD_EMPTY(&aio_a->sub_list); + CHECK_HEAD_EMPTY(&aio_a->sub_head); + + if (aio_a->is_collected && likely(aio_a->wb_error >= 0)) + pos_complete(aio_a); + + CHECK_HEAD_EMPTY(&aio_a->pos_head); + + if (shadow_a != aio_a) { /* we are a slave shadow */ + /* XIO_DBG("slave\n"); */ + atomic_dec(&brick->sshadow_count); + CHECK_HEAD_EMPTY(&aio_a->hash_head); + obj_free(aio); + /* now put the master shadow */ + aio_a = shadow_a; + goto restart; + } + /* we are a master shadow */ + CHECK_PTR(aio_a->shadow_data, err); + if (aio_a->do_dealloc) { + brick_block_free(aio_a->shadow_data, aio_a->alloc_len); + atomic64_sub(aio->io_len, &brick->shadow_mem_used); + aio_a->shadow_data = NULL; + aio_a->do_dealloc = false; + } + if (aio_a->do_buffered) + aio->io_data = NULL; + atomic_dec(&brick->mshadow_count); + atomic_dec(&global_mshadow_count); + atomic64_sub(aio->io_len, &global_mshadow_used); + obj_free(aio); + goto out_return; + } + + /* only READ is allowed on non-shadow buffers */ + if (unlikely(aio->io_rw != READ && !aio_a->is_emergency)) + XIO_FAT("bad operation %d on non-shadow\n", aio->io_rw); + + /* no shadow => call through */ + input = brick->inputs[TL_INPUT_READ]; + CHECK_PTR(input, err); + + GENERIC_INPUT_CALL(input, aio_put, aio); + +err:; +out_return:; +} + +static +void _trans_logger_io_put(struct trans_logger_output *output, struct aio_object *aio) +{ + struct trans_logger_aio_aspect *aio_a; + + aio_a = trans_logger_aio_get_aspect(output->brick, aio); + CHECK_PTR(aio_a, err); + CHECK_ASPECT(aio_a, aio, err); + + __trans_logger_io_put(output->brick, aio_a); + goto out_return; +err: + XIO_FAT("giving up...\n"); +out_return:; +} + +static +void trans_logger_io_put(struct trans_logger_output *output, struct aio_object *aio) +{ + struct trans_logger_brick *brick = output->brick; + + atomic_dec(&brick->outer_balance_count); + _trans_logger_io_put(output, aio); +} + +static +void _trans_logger_endio(struct generic_callback *cb) +{ + struct trans_logger_aio_aspect *aio_a; + struct trans_logger_brick *brick; + + aio_a = cb->cb_private; + CHECK_PTR(aio_a, err); + if (unlikely(&aio_a->cb != cb)) { + XIO_FAT("bad callback -- hanging up\n"); + goto err; + } + brick = aio_a->my_brick; + CHECK_PTR(brick, err); + + NEXT_CHECKED_CALLBACK(cb, err); + + atomic_dec(&brick->any_fly_count); + atomic_inc(&brick->total_cb_count); + wake_up_interruptible_all(&brick->worker_event); + goto out_return; +err: + XIO_FAT("cannot handle callback\n"); +out_return:; +} + +static +void trans_logger_io_io(struct trans_logger_output *output, struct aio_object *aio) +{ + struct trans_logger_brick *brick = output->brick; + struct trans_logger_aio_aspect *aio_a; + struct trans_logger_aio_aspect *shadow_a; + struct trans_logger_input *input; + + obj_check(aio); + + aio_a = trans_logger_aio_get_aspect(brick, aio); + CHECK_PTR(aio_a, err); + CHECK_ASPECT(aio_a, aio, err); + + /* statistics */ + if (aio->io_rw) + atomic_inc(&brick->total_write_count); + else + atomic_inc(&brick->total_read_count); + /* is this a shadow buffer? */ + shadow_a = aio_a->shadow_aio; + if (shadow_a) { + CHECK_HEAD_EMPTY(&aio_a->lh.lh_head); + CHECK_HEAD_EMPTY(&aio_a->hash_head); + CHECK_HEAD_EMPTY(&aio_a->pos_head); + + obj_get(aio); /* must be paired with __trans_logger_io_put() */ + atomic_inc(&brick->inner_balance_count); + + qq_aio_insert(&brick->q_phase[0], aio_a); + wake_up_interruptible_all(&brick->worker_event); + goto out_return; + } + + /* only READ is allowed on non-shadow buffers */ + if (unlikely(aio->io_rw != READ && !aio_a->is_emergency)) + XIO_FAT("bad operation %d on non-shadow\n", aio->io_rw); + + atomic_inc(&brick->any_fly_count); + + aio_a->my_brick = brick; + + INSERT_CALLBACK(aio, &aio_a->cb, _trans_logger_endio, aio_a); + + input = output->brick->inputs[TL_INPUT_READ]; + + GENERIC_INPUT_CALL(input, aio_io, aio); + goto out_return; +err: + XIO_FAT("cannot handle IO\n"); +out_return:; +} + +/***************************** writeback info *****************************/ + +/* save final completion status when necessary + */ +static +void pos_complete(struct trans_logger_aio_aspect *orig_aio_a) +{ + struct trans_logger_brick *brick = orig_aio_a->my_brick; + struct trans_logger_input *log_input = orig_aio_a->log_input; + loff_t finished; + struct list_head *tmp; + + CHECK_PTR(brick, err); + CHECK_PTR(log_input, err); + + atomic_inc(&brick->total_writeback_count); + + tmp = &orig_aio_a->pos_head; + + down(&log_input->inf_mutex); + + finished = orig_aio_a->log_pos; + /* am I the first member? (means "youngest" list entry) */ + if (tmp == log_input->pos_list.next) { + if (unlikely(finished <= log_input->inf.inf_min_pos)) + XIO_ERR("backskip in log writeback: %lld -> %lld\n", log_input->inf.inf_min_pos, finished); + if (unlikely(finished > log_input->inf.inf_max_pos)) + XIO_ERR("min_pos > max_pos: %lld > %lld\n", finished, log_input->inf.inf_max_pos); + log_input->inf.inf_min_pos = finished; + get_lamport(&log_input->inf.inf_min_pos_stamp); + _inf_callback(log_input, false); + } else { + struct trans_logger_aio_aspect *prev_aio_a; + + prev_aio_a = container_of(tmp->prev, struct trans_logger_aio_aspect, pos_head); + if (unlikely(finished <= prev_aio_a->log_pos)) { + XIO_ERR("backskip: %lld -> %lld\n", finished, prev_aio_a->log_pos); + } else { + /* Transitively transfer log_pos to the predecessor + * to correctly reflect the committed region. + */ + prev_aio_a->log_pos = finished; + } + } + + list_del_init(tmp); + atomic_dec(&log_input->pos_count); + + up(&log_input->inf_mutex); +err:; +} + +static +void free_writeback(struct writeback_info *wb) +{ + struct list_head *tmp; + + if (unlikely(wb->w_error < 0)) { + XIO_ERR("writeback error = %d at pos = %lld len = %d, writeback is incomplete\n", + wb->w_error, + wb->w_pos, + wb->w_len); + } + + /* Now complete the original requests. + */ + while ((tmp = wb->w_collect_list.next) != &wb->w_collect_list) { + struct trans_logger_aio_aspect *orig_aio_a; + struct aio_object *orig_aio; + + list_del_init(tmp); + + orig_aio_a = container_of(tmp, struct trans_logger_aio_aspect, collect_head); + orig_aio = orig_aio_a->object; + + obj_check(orig_aio); + if (unlikely(!orig_aio_a->is_collected)) { + XIO_ERR("request %lld (len = %d) was not collected\n", + orig_aio->io_pos, + orig_aio->io_len); + } + if (unlikely(wb->w_error < 0)) + orig_aio_a->wb_error = wb->w_error; + + __trans_logger_io_put(orig_aio_a->my_brick, orig_aio_a); + } + + brick_mem_free(wb); +} + +/* Generic endio() for writeback_info + */ +static +void wb_endio(struct generic_callback *cb) +{ + struct trans_logger_aio_aspect *sub_aio_a; + struct aio_object *sub_aio; + struct trans_logger_brick *brick; + struct writeback_info *wb; + atomic_t *dec; + int rw; + + /* make checkpatch.pl happy with a blank line - is this a false positive? */ + + void (**_endio)(struct generic_callback *cb); + void (*endio)(struct generic_callback *cb); + + LAST_CALLBACK(cb); + sub_aio_a = cb->cb_private; + CHECK_PTR(sub_aio_a, err); + sub_aio = sub_aio_a->object; + CHECK_PTR(sub_aio, err); + wb = sub_aio_a->wb; + CHECK_PTR(wb, err); + brick = wb->w_brick; + CHECK_PTR(brick, err); + + if (cb->cb_error < 0) + wb->w_error = cb->cb_error; + + atomic_dec(&brick->wb_balance_count); + + rw = sub_aio_a->orig_rw; + dec = rw ? &wb->w_sub_write_count : &wb->w_sub_read_count; + CHECK_ATOMIC(dec, 1); + if (!atomic_dec_and_test(dec)) + goto done; + + _endio = rw ? &wb->write_endio : &wb->read_endio; + endio = *_endio; + *_endio = NULL; + if (likely(endio)) + endio(cb); + else + XIO_ERR("internal: no endio defined\n"); +done: + wake_up_interruptible_all(&brick->worker_event); + goto out_return; +err: + XIO_FAT("hanging up....\n"); +out_return:; +} + +/* Atomically create writeback info, based on "snapshot" of current hash + * state. + * Notice that the hash can change during writeback IO, thus we need + * struct writeback_info to precisely catch that information at a single + * point in time. + */ +static +struct writeback_info *make_writeback(struct trans_logger_brick *brick, loff_t pos, int len) +{ + struct writeback_info *wb; + struct trans_logger_input *read_input; + struct trans_logger_input *write_input; + int write_input_nr; + + /* Allocate structure representing a bunch of adjacent writebacks + */ + wb = brick_zmem_alloc(sizeof(struct writeback_info)); + if (unlikely(len < 0)) + XIO_ERR("len = %d\n", len); + + wb->w_brick = brick; + wb->w_pos = pos; + wb->w_len = len; + wb->w_lh.lh_pos = &wb->w_pos; + INIT_LIST_HEAD(&wb->w_lh.lh_head); + INIT_LIST_HEAD(&wb->w_collect_list); + INIT_LIST_HEAD(&wb->w_sub_read_list); + INIT_LIST_HEAD(&wb->w_sub_write_list); + + /* Atomically fetch transitive closure on all requests + * overlapping with the current search region. + */ + hash_extend(brick, &wb->w_pos, &wb->w_len, &wb->w_collect_list); + + if (list_empty(&wb->w_collect_list)) + goto collision; + + pos = wb->w_pos; + len = wb->w_len; + + if (unlikely(len < 0)) + XIO_ERR("len = %d\n", len); + + /* Determine the "channels" we want to operate on + */ + read_input = brick->inputs[TL_INPUT_READ]; + write_input_nr = TL_INPUT_WRITEBACK; + write_input = brick->inputs[write_input_nr]; + if (!write_input->connect) { + write_input_nr = TL_INPUT_READ; + write_input = read_input; + } + + /* Create sub_aios for read of old disk version (phase1) + */ + if (brick->log_reads) { + while (len > 0) { + struct trans_logger_aio_aspect *sub_aio_a; + struct aio_object *sub_aio; + struct trans_logger_input *log_input; + int this_len; + int status; + + sub_aio = trans_logger_alloc_aio(brick); + + sub_aio->io_pos = pos; + sub_aio->io_len = len; + sub_aio->io_may_write = READ; + sub_aio->io_rw = READ; + sub_aio->io_data = NULL; + + sub_aio_a = trans_logger_aio_get_aspect(brick, sub_aio); + CHECK_PTR(sub_aio_a, err); + CHECK_ASPECT(sub_aio_a, sub_aio, err); + + sub_aio_a->my_input = read_input; + log_input = brick->inputs[brick->log_input_nr]; + sub_aio_a->log_input = log_input; + atomic_inc(&log_input->log_obj_count); + sub_aio_a->my_brick = brick; + sub_aio_a->orig_rw = READ; + sub_aio_a->wb = wb; + + status = GENERIC_INPUT_CALL(read_input, aio_get, sub_aio); + if (unlikely(status < 0)) { + XIO_FAT("cannot get sub_aio, status = %d\n", status); + goto err; + } + + list_add_tail(&sub_aio_a->sub_head, &wb->w_sub_read_list); + atomic_inc(&wb->w_sub_read_count); + atomic_inc(&brick->wb_balance_count); + + this_len = sub_aio->io_len; + pos += this_len; + len -= this_len; + } + /* Re-init for startover + */ + pos = wb->w_pos; + len = wb->w_len; + } + + /* Always create sub_aios for writeback (phase3) + */ + while (len > 0) { + struct trans_logger_aio_aspect *sub_aio_a; + struct aio_object *sub_aio; + struct trans_logger_aio_aspect *orig_aio_a; + struct aio_object *orig_aio; + struct trans_logger_input *log_input; + void *data; + int this_len = len; + int diff; + int status; + + atomic_inc(&brick->total_hash_find_count); + + orig_aio_a = _hash_find(&wb->w_collect_list, pos, &this_len, true, false); + if (unlikely(!orig_aio_a)) { + XIO_FAT("could not find data\n"); + goto err; + } + + orig_aio = orig_aio_a->object; + diff = pos - orig_aio->io_pos; + if (unlikely(diff < 0)) { + XIO_FAT("bad diff %d\n", diff); + goto err; + } + data = orig_aio_a->shadow_data + diff; + + sub_aio = trans_logger_alloc_aio(brick); + + sub_aio->io_pos = pos; + sub_aio->io_len = this_len; + sub_aio->io_may_write = WRITE; + sub_aio->io_rw = WRITE; + sub_aio->io_data = data; + + sub_aio_a = trans_logger_aio_get_aspect(brick, sub_aio); + CHECK_PTR(sub_aio_a, err); + CHECK_ASPECT(sub_aio_a, sub_aio, err); + + sub_aio_a->orig_aio_a = orig_aio_a; + sub_aio_a->my_input = write_input; + log_input = orig_aio_a->log_input; + sub_aio_a->log_input = log_input; + atomic_inc(&log_input->log_obj_count); + sub_aio_a->my_brick = brick; + sub_aio_a->orig_rw = WRITE; + sub_aio_a->wb = wb; + + status = GENERIC_INPUT_CALL(write_input, aio_get, sub_aio); + if (unlikely(status < 0)) { + XIO_FAT("cannot get sub_aio, status = %d\n", status); + wb->w_error = status; + goto err; + } + + list_add_tail(&sub_aio_a->sub_head, &wb->w_sub_write_list); + atomic_inc(&wb->w_sub_write_count); + atomic_inc(&brick->wb_balance_count); + + this_len = sub_aio->io_len; + pos += this_len; + len -= this_len; + } + + return wb; + +err: + XIO_ERR("cleaning up...\n"); +collision: + if (wb) + free_writeback(wb); + return NULL; +} + +static inline +void _fire_one(struct list_head *tmp, bool do_update) +{ + struct trans_logger_aio_aspect *sub_aio_a; + struct aio_object *sub_aio; + struct trans_logger_input *sub_input; + + sub_aio_a = container_of(tmp, struct trans_logger_aio_aspect, sub_head); + sub_aio = sub_aio_a->object; + + if (unlikely(sub_aio_a->is_fired)) { + XIO_ERR("trying to fire twice\n"); + goto out_return; + } + sub_aio_a->is_fired = true; + + SETUP_CALLBACK(sub_aio, wb_endio, sub_aio_a); + + sub_input = sub_aio_a->my_input; + +#ifdef DO_WRITEBACK + GENERIC_INPUT_CALL(sub_input, aio_io, sub_aio); +#else + SIMPLE_CALLBACK(sub_aio, 0); +#endif + if (do_update) { /* CHECK: shouldnt we do this always? */ + GENERIC_INPUT_CALL(sub_input, aio_put, sub_aio); + } +out_return:; +} + +static inline +void fire_writeback(struct list_head *start, bool do_update) +{ + struct list_head *tmp; + + /* Caution! The wb structure may get deallocated + * during _fire_one() in some cases (e.g. when the + * callback is directly called by the aio_io operation). + * Ensure that no ptr dereferencing can take + * place after working on the last list member. + */ + tmp = start->next; + while (tmp != start) { + struct list_head *next = tmp->next; + + list_del_init(tmp); + _fire_one(tmp, do_update); + tmp = next; + } +} + +static inline +void update_max_pos(struct trans_logger_aio_aspect *orig_aio_a) +{ + loff_t max_pos = orig_aio_a->log_pos; + struct trans_logger_input *log_input = orig_aio_a->log_input; + + CHECK_PTR(log_input, done); + + down(&log_input->inf_mutex); + + if (unlikely(max_pos < log_input->inf.inf_min_pos)) + XIO_ERR("new max_pos < min_pos: %lld < %lld\n", max_pos, log_input->inf.inf_min_pos); + if (log_input->inf.inf_max_pos < max_pos) { + log_input->inf.inf_max_pos = max_pos; + get_lamport(&log_input->inf.inf_max_pos_stamp); + _inf_callback(log_input, false); + } + + up(&log_input->inf_mutex); +done:; +} + +static inline +void update_writeback_info(struct writeback_info *wb) +{ + struct list_head *start = &wb->w_collect_list; + struct list_head *tmp; + + /* Notice: in case of log rotation, each list member + * may belong to a different log_input. + */ + for (tmp = start->next; tmp != start; tmp = tmp->next) { + struct trans_logger_aio_aspect *orig_aio_a; + + orig_aio_a = container_of(tmp, struct trans_logger_aio_aspect, collect_head); + update_max_pos(orig_aio_a); + } +} + +/***************************** worker thread *****************************/ + +/********************************************************************* + * Phase 0: write transaction log entry for the original write request. + */ + +static +void _complete(struct trans_logger_brick *brick, struct trans_logger_aio_aspect *orig_aio_a, int error, bool pre_io) +{ + struct aio_object *orig_aio; + + orig_aio = orig_aio_a->object; + CHECK_PTR(orig_aio, err); + + if (orig_aio_a->is_completed || + (pre_io && + (trans_logger_completion_semantics >= 2 || + (trans_logger_completion_semantics >= 1 && !orig_aio->io_skip_sync)))) { + goto done; + } + + if (cmpxchg(&orig_aio_a->is_completed, false, true)) + goto done; + + atomic_dec(&brick->log_fly_count); + + if (likely(error >= 0)) { + aio_checksum(orig_aio); + orig_aio->io_flags &= ~AIO_WRITING; + orig_aio->io_flags |= AIO_UPTODATE; + } + CHECKED_CALLBACK(orig_aio, error, err); + +done: + goto out_return; +err: + XIO_ERR("giving up...\n"); +out_return:; +} + +static +void phase0_preio(void *private) +{ + struct trans_logger_aio_aspect *orig_aio_a; + struct trans_logger_brick *brick; + + orig_aio_a = private; + CHECK_PTR(orig_aio_a, err); + CHECK_PTR(orig_aio_a->object, err); + brick = orig_aio_a->my_brick; + CHECK_PTR(brick, err); + + /* signal completion to the upper layer */ +/**/ + + obj_check(orig_aio_a->object); + _complete(brick, orig_aio_a, 0, true); + obj_check(orig_aio_a->object); + goto out_return; +err: + XIO_ERR("giving up...\n"); +out_return:; +} + +static +void phase0_endio(void *private, int error) +{ + struct aio_object *orig_aio; + struct trans_logger_aio_aspect *orig_aio_a; + struct trans_logger_brick *brick; + + orig_aio_a = private; + CHECK_PTR(orig_aio_a, err); + brick = orig_aio_a->my_brick; + CHECK_PTR(brick, err); + orig_aio = orig_aio_a->object; + CHECK_PTR(orig_aio, err); + + orig_aio_a->is_persistent = true; + qq_dec_flying(&brick->q_phase[0]); + + /* Pin aio->obj_count so it can't go away + * after _complete(). + */ + _CHECK(orig_aio_a->shadow_aio, err); + obj_get(orig_aio); /* must be paired with __trans_logger_io_put() */ + atomic_inc(&brick->inner_balance_count); + + /* signal completion to the upper layer */ + _complete(brick, orig_aio_a, error, false); + + /* Queue up for the next phase. + */ + qq_aio_insert(&brick->q_phase[1], orig_aio_a); + + /* Undo the above pinning + */ + __trans_logger_io_put(brick, orig_aio_a); + + banning_reset(&brick->q_phase[0].q_banning); + + wake_up_interruptible_all(&brick->worker_event); + goto out_return; +err: + XIO_ERR("giving up...\n"); +out_return:; +} + +static +bool phase0_startio(struct trans_logger_aio_aspect *orig_aio_a) +{ + struct aio_object *orig_aio; + struct trans_logger_brick *brick; + struct trans_logger_input *input; + struct log_status *logst; + loff_t log_pos; + void *data; + bool ok; + + CHECK_PTR(orig_aio_a, err); + orig_aio = orig_aio_a->object; + CHECK_PTR(orig_aio, err); + brick = orig_aio_a->my_brick; + CHECK_PTR(brick, err); + input = orig_aio_a->log_input; + CHECK_PTR(input, err); + logst = &input->logst; + logst->do_crc = trans_logger_do_crc; + + { + struct log_header l = { + .l_stamp = orig_aio_a->stamp, + .l_pos = orig_aio->io_pos, + .l_len = orig_aio->io_len, + .l_code = CODE_WRITE_NEW, + }; + data = log_reserve(logst, &l); + } + if (unlikely(!data)) + goto err; + + hash_ensure_stableness(brick, orig_aio_a); + + memcpy(data, orig_aio_a->shadow_data, orig_aio->io_len); + + atomic_inc(&brick->log_fly_count); + + ok = log_finalize(logst, orig_aio->io_len, phase0_endio, orig_aio_a); + if (unlikely(!ok)) { + atomic_dec(&brick->log_fly_count); + goto err; + } + log_pos = logst->log_pos + logst->offset; + orig_aio_a->log_pos = log_pos; + + /* update new log_pos in the symlinks */ + down(&input->inf_mutex); + input->inf.inf_log_pos = log_pos; + memcpy(&input->inf.inf_log_pos_stamp, &logst->log_pos_stamp, sizeof(input->inf.inf_log_pos_stamp)); + _inf_callback(input, false); + +#ifdef CONFIG_MARS_DEBUG + if (!list_empty(&input->pos_list)) { + struct trans_logger_aio_aspect *last_aio_a; + + last_aio_a = container_of(input->pos_list.prev, struct trans_logger_aio_aspect, pos_head); + if (last_aio_a->log_pos >= orig_aio_a->log_pos) + XIO_ERR("backskip in pos_list, %lld >= %lld\n", last_aio_a->log_pos, orig_aio_a->log_pos); + } +#endif + list_add_tail(&orig_aio_a->pos_head, &input->pos_list); + atomic_inc(&input->pos_count); + up(&input->inf_mutex); + + qq_inc_flying(&brick->q_phase[0]); + + phase0_preio(orig_aio_a); + + return true; + +err: + return false; +} + +static +bool prep_phase_startio(struct trans_logger_aio_aspect *aio_a) +{ + struct aio_object *aio = aio_a->object; + struct trans_logger_aio_aspect *shadow_a; + struct trans_logger_brick *brick; + + CHECK_PTR(aio, err); + shadow_a = aio_a->shadow_aio; + CHECK_PTR(shadow_a, err); + brick = aio_a->my_brick; + CHECK_PTR(brick, err); + + if (aio->io_rw == READ) { + /* nothing to do: directly signal success. */ + struct aio_object *shadow = shadow_a->object; + + if (unlikely(shadow == aio)) + XIO_ERR("oops, we should be a slave shadow, but are a master one\n"); +#ifdef USE_MEMCPY + if (aio_a->shadow_data != aio->io_data) { + if (unlikely(aio->io_len <= 0 || aio->io_len > PAGE_SIZE)) + XIO_ERR("implausible io_len = %d\n", aio->io_len); + memcpy(aio->io_data, aio_a->shadow_data, aio->io_len); + } +#endif + aio->io_flags |= AIO_UPTODATE; + + CHECKED_CALLBACK(aio, 0, err); + + __trans_logger_io_put(brick, aio_a); + + return true; + } + /* else WRITE */ + CHECK_HEAD_EMPTY(&aio_a->lh.lh_head); + CHECK_HEAD_EMPTY(&aio_a->hash_head); + if (unlikely(aio->io_flags & (AIO_READING | AIO_WRITING))) + XIO_ERR("bad flags %d\n", aio->io_flags); + /* In case of non-buffered IO, the buffer is + * under control of the user. In particular, he + * may change it without telling us. + * Therefore we make a copy (or "snapshot") here. + */ + aio->io_flags |= AIO_WRITING; +#ifdef USE_MEMCPY + if (aio_a->shadow_data != aio->io_data) { + if (unlikely(aio->io_len <= 0 || aio->io_len > PAGE_SIZE)) + XIO_ERR("implausible io_len = %d\n", aio->io_len); + memcpy(aio_a->shadow_data, aio->io_data, aio->io_len); + } +#endif + aio_a->is_dirty = true; + aio_a->shadow_aio->is_dirty = true; +#ifndef KEEP_UNIQUE + if (unlikely(aio_a->shadow_aio != aio_a)) + XIO_ERR("something is wrong: %p != %p\n", aio_a->shadow_aio, aio_a); +#endif + if (likely(!aio_a->is_hashed)) { + struct trans_logger_input *log_input; + + log_input = brick->inputs[brick->log_input_nr]; + aio_a->log_input = log_input; + atomic_inc(&log_input->log_obj_count); + hash_insert(brick, aio_a); + } else { + XIO_ERR("tried to hash twice\n"); + } + return phase0_startio(aio_a); + +err: + XIO_ERR("cannot work\n"); + brick_msleep(1000); + return false; +} + +/********************************************************************* + * Phase 1: read original version of data. + * This happens _after_ phase 0, deliberately. + * We are explicitly dealing with old and new versions. + * The new version is hashed in memory all the time (such that parallel + * READs will see them), so we have plenty of time for getting the + * old version from disk somewhen later, e.g. when IO contention is low. + */ + +static +void phase1_endio(struct generic_callback *cb) +{ + struct trans_logger_aio_aspect *sub_aio_a; + struct writeback_info *wb; + struct trans_logger_brick *brick; + + CHECK_PTR(cb, err); + sub_aio_a = cb->cb_private; + CHECK_PTR(sub_aio_a, err); + wb = sub_aio_a->wb; + CHECK_PTR(wb, err); + brick = wb->w_brick; + CHECK_PTR(brick, err); + + if (unlikely(cb->cb_error < 0)) { + XIO_FAT("IO error %d\n", cb->cb_error); + goto err; + } + + qq_dec_flying(&brick->q_phase[1]); + + banning_reset(&brick->q_phase[1].q_banning); + + /* queue up for the next phase */ + qq_wb_insert(&brick->q_phase[2], wb); + wake_up_interruptible_all(&brick->worker_event); + goto out_return; +err: + XIO_FAT("hanging up....\n"); +out_return:; +} + +static void phase3_endio(struct generic_callback *cb); + +static bool phase3_startio(struct writeback_info *wb); + +static +bool phase1_startio(struct trans_logger_aio_aspect *orig_aio_a) +{ + struct aio_object *orig_aio; + struct trans_logger_brick *brick; + struct writeback_info *wb = NULL; + + CHECK_PTR(orig_aio_a, err); + orig_aio = orig_aio_a->object; + CHECK_PTR(orig_aio, err); + brick = orig_aio_a->my_brick; + CHECK_PTR(brick, err); + + if (orig_aio_a->is_collected) + goto done; + if (!orig_aio_a->is_hashed) + goto done; + + wb = make_writeback(brick, orig_aio->io_pos, orig_aio->io_len); + if (unlikely(!wb)) + goto collision; + + if (unlikely(list_empty(&wb->w_sub_write_list))) { + XIO_ERR("sub_write_list is empty, orig pos = %lld len = %d (collected=%d), extended pos = %lld len = %d\n", + orig_aio->io_pos, + orig_aio->io_len, + (int)orig_aio_a->is_collected, + wb->w_pos, + wb->w_len); + goto err; + } + + wb->read_endio = phase1_endio; + wb->write_endio = phase3_endio; + atomic_set(&wb->w_sub_log_count, atomic_read(&wb->w_sub_read_count)); + + if (brick->log_reads) { + qq_inc_flying(&brick->q_phase[1]); + fire_writeback(&wb->w_sub_read_list, false); + } else { /* shortcut */ +#ifndef SHORTCUT_1_to_3 + qq_wb_insert(&brick->q_phase[3], wb); + wake_up_interruptible_all(&brick->worker_event); +#else + return phase3_startio(wb); +#endif + } + +done: + return true; + +err: + if (wb) + free_writeback(wb); +collision: + return false; +} + +/********************************************************************* + * Phase 2: log the old disk version. + */ + +static inline +void _phase2_endio(struct writeback_info *wb) +{ + struct trans_logger_brick *brick = wb->w_brick; + + /* queue up for the next phase */ + qq_wb_insert(&brick->q_phase[3], wb); + wake_up_interruptible_all(&brick->worker_event); + goto out_return; +out_return:; +} + +static +void phase2_endio(void *private, int error) +{ + struct trans_logger_aio_aspect *sub_aio_a; + struct trans_logger_brick *brick; + struct writeback_info *wb; + + sub_aio_a = private; + CHECK_PTR(sub_aio_a, err); + wb = sub_aio_a->wb; + CHECK_PTR(wb, err); + brick = wb->w_brick; + CHECK_PTR(brick, err); + + qq_dec_flying(&brick->q_phase[2]); + + if (unlikely(error < 0)) { + XIO_FAT("IO error %d\n", error); + goto err; /* FIXME: this leads to hanging requests. do better. */ + } + + CHECK_ATOMIC(&wb->w_sub_log_count, 1); + if (atomic_dec_and_test(&wb->w_sub_log_count)) { + banning_reset(&brick->q_phase[2].q_banning); + _phase2_endio(wb); + } + goto out_return; +err: + XIO_FAT("hanging up....\n"); +out_return:; +} + +static +bool _phase2_startio(struct trans_logger_aio_aspect *sub_aio_a) +{ + struct aio_object *sub_aio = NULL; + struct writeback_info *wb; + struct trans_logger_input *input; + struct trans_logger_brick *brick; + struct log_status *logst; + void *data; + bool ok; + + CHECK_PTR(sub_aio_a, err); + sub_aio = sub_aio_a->object; + CHECK_PTR(sub_aio, err); + wb = sub_aio_a->wb; + CHECK_PTR(wb, err); + brick = wb->w_brick; + CHECK_PTR(brick, err); + input = sub_aio_a->log_input; + CHECK_PTR(input, err); + logst = &input->logst; + logst->do_crc = trans_logger_do_crc; + + { + struct log_header l = { + .l_stamp = sub_aio_a->stamp, + .l_pos = sub_aio->io_pos, + .l_len = sub_aio->io_len, + .l_code = CODE_WRITE_OLD, + }; + data = log_reserve(logst, &l); + } + + if (unlikely(!data)) + goto err; + + memcpy(data, sub_aio->io_data, sub_aio->io_len); + + ok = log_finalize(logst, sub_aio->io_len, phase2_endio, sub_aio_a); + if (unlikely(!ok)) + goto err; + + qq_inc_flying(&brick->q_phase[2]); + + return true; + +err: + XIO_FAT("cannot log old data, pos = %lld len = %d\n", + sub_aio ? sub_aio->io_pos : 0, + sub_aio ? sub_aio->io_len : 0); + return false; +} + +static +bool phase2_startio(struct writeback_info *wb) +{ + struct trans_logger_brick *brick; + bool ok = true; + + CHECK_PTR(wb, err); + brick = wb->w_brick; + CHECK_PTR(brick, err); + + if (brick->log_reads && atomic_read(&wb->w_sub_log_count) > 0) { + struct list_head *start; + struct list_head *tmp; + + start = &wb->w_sub_read_list; + for (tmp = start->next; tmp != start; tmp = tmp->next) { + struct trans_logger_aio_aspect *sub_aio_a; + struct aio_object *sub_aio; + + sub_aio_a = container_of(tmp, struct trans_logger_aio_aspect, sub_head); + sub_aio = sub_aio_a->object; + + if (!_phase2_startio(sub_aio_a)) + ok = false; + } + wake_up_interruptible_all(&brick->worker_event); + } else { + _phase2_endio(wb); + } + return ok; +err: + return false; +} + +/********************************************************************* + * Phase 3: overwrite old disk version with new version. + */ + +static +void phase3_endio(struct generic_callback *cb) +{ + struct trans_logger_aio_aspect *sub_aio_a; + struct writeback_info *wb; + struct trans_logger_brick *brick; + + CHECK_PTR(cb, err); + sub_aio_a = cb->cb_private; + CHECK_PTR(sub_aio_a, err); + wb = sub_aio_a->wb; + CHECK_PTR(wb, err); + brick = wb->w_brick; + CHECK_PTR(brick, err); + + if (unlikely(cb->cb_error < 0)) { + XIO_FAT("IO error %d\n", cb->cb_error); + goto err; + } + + hash_put_all(brick, &wb->w_collect_list); + + qq_dec_flying(&brick->q_phase[3]); + atomic_inc(&brick->total_writeback_cluster_count); + + free_writeback(wb); + + banning_reset(&brick->q_phase[3].q_banning); + + wake_up_interruptible_all(&brick->worker_event); + + goto out_return; +err: + XIO_FAT("hanging up....\n"); +out_return:; +} + +static +bool phase3_startio(struct writeback_info *wb) +{ + struct list_head *start = &wb->w_sub_read_list; + struct list_head *tmp; + + /* Cleanup read requests (if they exist from previous phases) + */ + while ((tmp = start->next) != start) { + struct trans_logger_aio_aspect *sub_aio_a; + struct aio_object *sub_aio; + struct trans_logger_input *sub_input; + + list_del_init(tmp); + + sub_aio_a = container_of(tmp, struct trans_logger_aio_aspect, sub_head); + sub_aio = sub_aio_a->object; + sub_input = sub_aio_a->my_input; + + GENERIC_INPUT_CALL(sub_input, aio_put, sub_aio); + } + + update_writeback_info(wb); + + /* Start writeback IO + */ + qq_inc_flying(&wb->w_brick->q_phase[3]); + fire_writeback(&wb->w_sub_write_list, true); + return true; +} + +/********************************************************************* + * The logger thread. + * There is only a single instance, dealing with all requests in parallel. + */ + +static +int run_aio_queue(struct logger_queue *q, + bool (*startio)(struct trans_logger_aio_aspect *sub_aio_a), + int max, + bool do_limit) +{ + struct trans_logger_brick *brick = q->q_brick; + int total_len = 0; + bool found = false; + bool ok; + int res = 0; + + do { + struct trans_logger_aio_aspect *aio_a; + + aio_a = qq_aio_fetch(q); + if (!aio_a) + goto done; + + if (do_limit && likely(aio_a->object)) + total_len += aio_a->object->io_len; + + ok = startio(aio_a); + if (unlikely(!ok)) { + qq_aio_pushback(q, aio_a); + goto done; + } + res++; + found = true; + __trans_logger_io_put(aio_a->my_brick, aio_a); + } while (--max > 0); + +done: + if (found) { + xio_limit(&global_writeback.limiter, (total_len - 1) / 1024 + 1); + wake_up_interruptible_all(&brick->worker_event); + } + return res; +} + +static +int run_wb_queue(struct logger_queue *q, bool (*startio)(struct writeback_info *wb), int max) +{ + struct trans_logger_brick *brick = q->q_brick; + int total_len = 0; + bool found = false; + bool ok; + int res = 0; + + do { + struct writeback_info *wb; + + wb = qq_wb_fetch(q); + if (!wb) + goto done; + + total_len += wb->w_len; + + ok = startio(wb); + if (unlikely(!ok)) { + qq_wb_pushback(q, wb); + goto done; + } + res++; + found = true; + } while (--max > 0); + +done: + if (found) { + xio_limit(&global_writeback.limiter, (total_len - 1) / 1024 + 1); + wake_up_interruptible_all(&brick->worker_event); + } + return res; +} + +/* Ranking tables. + */ +static +struct rank_info float_queue_rank_log[] = { + { 0, 0 }, + { 1, 100 }, + { RKI_DUMMY } +}; + +static +struct rank_info float_queue_rank_io[] = { + { 0, 0 }, + { 1, 1 }, + { RKI_DUMMY } +}; + +static +struct rank_info float_fly_rank_log[] = { + { 0, 0 }, + { 1, 1 }, + { 32, 10 }, + { RKI_DUMMY } +}; + +static +struct rank_info float_fly_rank_io[] = { + { 0, 0 }, + { 1, 10 }, + { 2, -10 }, + { 10000, -200 }, + { RKI_DUMMY } +}; + +static +struct rank_info nofloat_queue_rank_log[] = { + { 0, 0 }, + { 1, 10 }, + { RKI_DUMMY } +}; + +static +struct rank_info nofloat_queue_rank_io[] = { + { 0, 0 }, + { 1, 10 }, + { 100, 100 }, + { RKI_DUMMY } +}; + +#define nofloat_fly_rank_log float_fly_rank_log + +static +struct rank_info nofloat_fly_rank_io[] = { + { 0, 0 }, + { 1, 10 }, + { 128, 8 }, + { 129, -200 }, + { RKI_DUMMY } +}; + +static +struct rank_info *queue_ranks[2][LOGGER_QUEUES] = { + [0] = { + [0] = float_queue_rank_log, + [1] = float_queue_rank_io, + [2] = float_queue_rank_io, + [3] = float_queue_rank_io, + }, + [1] = { + [0] = nofloat_queue_rank_log, + [1] = nofloat_queue_rank_io, + [2] = nofloat_queue_rank_io, + [3] = nofloat_queue_rank_io, + }, +}; +static +struct rank_info *fly_ranks[2][LOGGER_QUEUES] = { + [0] = { + [0] = float_fly_rank_log, + [1] = float_fly_rank_io, + [2] = float_fly_rank_io, + [3] = float_fly_rank_io, + }, + [1] = { + [0] = nofloat_fly_rank_log, + [1] = nofloat_fly_rank_io, + [2] = nofloat_fly_rank_io, + [3] = nofloat_fly_rank_io, + }, +}; + +static +struct rank_info extra_rank_aio_flying[] = { + { 0, 0 }, + { 1, 10 }, + { 16, 30 }, + { 31, 0 }, + { 32, -200 }, + { RKI_DUMMY } +}; + +static +struct rank_info global_rank_aio_flying[] = { + { 0, 0 }, + { 63, 0 }, + { 64, -200 }, + { RKI_DUMMY } +}; + +static +int _do_ranking(struct trans_logger_brick *brick, struct rank_data rkd[]) +{ + int res; + int i; + int floating_mode; + int aio_flying; + bool delay_callers; + + ranking_start(rkd, LOGGER_QUEUES); + + /* check the memory situation... */ + delay_callers = false; + floating_mode = 1; + if (brick_global_memlimit >= 1024) { + int global_mem_used = atomic64_read(&global_mshadow_used) / 1024; + + trans_logger_mem_usage = global_mem_used; + + floating_mode = (global_mem_used < brick_global_memlimit / 2) ? 0 : 1; + + if (global_mem_used >= brick_global_memlimit) + delay_callers = true; + + } else if (brick->shadow_mem_limit >= 8) { + int local_mem_used = atomic64_read(&brick->shadow_mem_used) / 1024; + + floating_mode = (local_mem_used < brick->shadow_mem_limit / 2) ? 0 : 1; + + if (local_mem_used >= brick->shadow_mem_limit) + delay_callers = true; + } + if (delay_callers) { + if (!brick->delay_callers) { + brick->delay_callers = true; + atomic_inc(&brick->total_delay_count); + } + } else if (brick->delay_callers) { + brick->delay_callers = false; + wake_up_interruptible(&brick->caller_event); + } + + /* global limit for flying aios */ + ranking_compute(&rkd[0], global_rank_aio_flying, atomic_read(&global_aio_flying)); + + /* local limit for flying aios */ + aio_flying = 0; + for (i = TL_INPUT_LOG1; i <= TL_INPUT_LOG2; i++) { + struct trans_logger_input *input = brick->inputs[i]; + + aio_flying += atomic_read(&input->logst.aio_flying); + } + + /* obey the basic rules... */ + for (i = 0; i < LOGGER_QUEUES; i++) { + int queued = atomic_read(&brick->q_phase[i].q_queued); + int flying; + + /* This must come first. + * When a queue is empty, you must not credit any positive points. + * Otherwise, (almost) infinite selection of untreatable + * queues may occur. + */ + if (queued <= 0) + continue; + + if (banning_is_hit(&brick->q_phase[i].q_banning)) + break; + + if (i == 0) { + /* limit aio IO parallelism on transaction log */ + ranking_compute(&rkd[0], extra_rank_aio_flying, aio_flying); + } else if (i == 1 && !floating_mode) { + struct trans_logger_brick *leader; + int lim; + + if (!aio_flying && atomic_read(&brick->q_phase[0].q_queued) > 0) + break; + + leader = elect_leader(&global_writeback); + if (leader != brick) + break; + + if (banning_is_hit(&xio_global_ban)) + break; + + lim = xio_limit(&global_writeback.limiter, 0); + if (lim > 0) + break; + } + + ranking_compute(&rkd[i], queue_ranks[floating_mode][i], queued); + + flying = atomic_read(&brick->q_phase[i].q_flying); + + ranking_compute(&rkd[i], fly_ranks[floating_mode][i], flying); + } + + /* finalize it */ + ranking_stop(rkd, LOGGER_QUEUES); + + res = ranking_select(rkd, LOGGER_QUEUES); + + return res; +} + +static +void _init_input(struct trans_logger_input *input, loff_t start_pos, loff_t end_pos) +{ + struct trans_logger_brick *brick = input->brick; + struct log_status *logst = &input->logst; + + init_logst(logst, (void *)input, start_pos, end_pos); + logst->signal_event = &brick->worker_event; + logst->align_size = CONF_TRANS_ALIGN; + logst->chunk_size = CONF_TRANS_CHUNKSIZE; + logst->max_size = CONF_TRANS_MAX_AIO_SIZE; + + input->inf.inf_min_pos = start_pos; + input->inf.inf_max_pos = end_pos; + get_lamport(&input->inf.inf_max_pos_stamp); + memcpy(&input->inf.inf_min_pos_stamp, &input->inf.inf_max_pos_stamp, sizeof(input->inf.inf_min_pos_stamp)); + + logst->log_pos = start_pos; + input->inf.inf_log_pos = start_pos; + input->inf_last_jiffies = jiffies; + input->inf.inf_is_replaying = false; + input->inf.inf_is_logging = false; + + input->is_operating = true; +} + +static +void _init_inputs(struct trans_logger_brick *brick, bool is_first) +{ + struct trans_logger_input *input; + int old_nr = brick->old_input_nr; + int log_nr = brick->log_input_nr; + int new_nr = brick->new_input_nr; + + if (!is_first && + (new_nr == log_nr || + log_nr != old_nr)) { + goto done; + } + if (unlikely(new_nr < TL_INPUT_LOG1 || new_nr > TL_INPUT_LOG2)) { + XIO_ERR("bad new_input_nr = %d\n", new_nr); + goto done; + } + + input = brick->inputs[new_nr]; + CHECK_PTR(input, done); + + if (input->is_operating || !input->connect) + goto done; + + down(&input->inf_mutex); + + _init_input(input, 0, 0); + input->inf.inf_is_logging = is_first; + + /* from now on, new requests should go to the new input */ + brick->log_input_nr = new_nr; + XIO_INF("switched over to new logfile %d (old = %d)\n", new_nr, old_nr); + + /* Flush the old log buffer and update its symlinks. + * Notice: for some short time, _both_ logfiles may grow + * due to (harmless) races with log_flush(). + */ + if (likely(!is_first)) { + struct trans_logger_input *other_input = brick->inputs[old_nr]; + + down(&other_input->inf_mutex); + log_flush(&other_input->logst); + _inf_callback(other_input, true); + up(&other_input->inf_mutex); + } + + _inf_callback(input, true); + + up(&input->inf_mutex); +done:; +} + +static +int _nr_flying_inputs(struct trans_logger_brick *brick) +{ + int count = 0; + int i; + + for (i = TL_INPUT_LOG1; i <= TL_INPUT_LOG2; i++) { + struct trans_logger_input *input = brick->inputs[i]; + struct log_status *logst = &input->logst; + + if (input->is_operating) + count += logst->count; + } + return count; +} + +static +void _flush_inputs(struct trans_logger_brick *brick) +{ + int i; + + for (i = TL_INPUT_LOG1; i <= TL_INPUT_LOG2; i++) { + struct trans_logger_input *input = brick->inputs[i]; + struct log_status *logst = &input->logst; + + if (input->is_operating && logst->count > 0) { + atomic_inc(&brick->total_flush_count); + log_flush(logst); + } + } +} + +static +void _exit_inputs(struct trans_logger_brick *brick, bool force) +{ + int i; + + for (i = TL_INPUT_LOG1; i <= TL_INPUT_LOG2; i++) { + struct trans_logger_input *input = brick->inputs[i]; + struct log_status *logst = &input->logst; + + if (input->is_operating && + (force || !input->connect)) { + bool old_replaying = input->inf.inf_is_replaying; + bool old_logging = input->inf.inf_is_logging; + + XIO_DBG("cleaning up input %d (log = %d old = %d), old_replaying = %d old_logging = %d\n", + i, + brick->log_input_nr, + brick->old_input_nr, + old_replaying, + old_logging); + exit_logst(logst); + /* no locking here: we should be the only thread doing this. */ + _inf_callback(input, true); + input->inf_last_jiffies = 0; + input->inf.inf_is_replaying = false; + input->inf.inf_is_logging = false; + input->is_operating = false; + if (i == brick->old_input_nr && i != brick->log_input_nr) { + struct trans_logger_input *other_input = brick->inputs[brick->log_input_nr]; + + down(&other_input->inf_mutex); + brick->old_input_nr = brick->log_input_nr; + other_input->inf.inf_is_replaying = old_replaying; + other_input->inf.inf_is_logging = old_logging; + _inf_callback(other_input, true); + up(&other_input->inf_mutex); + } + } + } +} + +/* Performance-critical: + * Calling log_flush() too often may result in + * increased overhead (and thus in lower throughput). + * Call it only when the IO scheduler need not do anything else. + * OTOH, calling it too seldom may hold back + * IO completion for the end user for too long time. + * + * Be careful to flush any leftovers in the log buffer, at least after + * some short delay. + * + * Description of flush_mode: + * 0 = flush unconditionally + * 1 = flush only when nothing can be appended to the transaction log + * 2 = see 1 && flush only when the user is waiting for an answer + * 3 = see 1 && not 2 && flush only when there is no other activity (background mode) + * Notice: 3 makes only sense for leftovers where the user is _not_ waiting for + */ +static inline +void flush_inputs(struct trans_logger_brick *brick, int flush_mode) +{ + if (flush_mode < 1 || + /* there is nothing to append any more */ + (atomic_read(&brick->q_phase[0].q_queued) <= 0 && + /* and the user is waiting for an answer */ + (flush_mode < 2 || + atomic_read(&brick->log_fly_count) > 0 || + /* else flush any leftovers in background, when there is no writeback activity */ + (flush_mode == 3 && + atomic_read(&brick->q_phase[1].q_flying) + atomic_read(&brick->q_phase[3].q_flying) <= 0)))) + _flush_inputs(brick); +} + +static +void trans_logger_log(struct trans_logger_brick *brick) +{ + struct rank_data rkd[LOGGER_QUEUES] = {}; + long long old_jiffies = jiffies; + long long work_jiffies = jiffies; + int interleave = 0; + int nr_flying; + + brick->replay_code = 0; /* indicates "running" */ + brick->disk_io_error = 0; + + _init_inputs(brick, true); + + xio_set_power_on_led((void *)brick, true); + + while (!brick_thread_should_stop() || _congested(brick)) { + int winner; + int nr; + + wait_event_interruptible_timeout( + brick->worker_event, + ({ + winner = _do_ranking(brick, rkd); + if (winner < 0) { /* no more work to do */ + int flush_mode = 2 - ((int)(jiffies - work_jiffies)) / (HZ * 2); + + flush_inputs(brick, flush_mode); + interleave = 0; + } else { /* reset the timer whenever something is to do */ + work_jiffies = jiffies; + } + winner >= 0; + }), + HZ / 10); + + atomic_inc(&brick->total_round_count); + + if (brick->cease_logging) + brick->stopped_logging = true; + else if (brick->stopped_logging && !_congested(brick)) + brick->stopped_logging = false; + + _init_inputs(brick, false); + + switch (winner) { + case 0: + interleave = 0; + nr = run_aio_queue(&brick->q_phase[0], + prep_phase_startio, + brick->q_phase[0].q_batchlen, + true); + goto done; + case 1: + if (interleave >= trans_logger_max_interleave && trans_logger_max_interleave >= 0) { + interleave = 0; + flush_inputs(brick, 3); + } + nr = run_aio_queue(&brick->q_phase[1], phase1_startio, brick->q_phase[1].q_batchlen, true); + interleave += nr; + goto done; + case 2: + interleave = 0; + nr = run_wb_queue(&brick->q_phase[2], phase2_startio, brick->q_phase[2].q_batchlen); + goto done; + case 3: + if (interleave >= trans_logger_max_interleave && trans_logger_max_interleave >= 0) { + interleave = 0; + flush_inputs(brick, 3); + } + nr = run_wb_queue(&brick->q_phase[3], phase3_startio, brick->q_phase[3].q_batchlen); + interleave += nr; +done: + if (unlikely(nr <= 0)) { + /* This should not happen! + * However, in error situations, the ranking + * algorithm cannot foresee anything. + */ + brick->q_phase[winner].no_progress_count++; + banning_hit(&brick->q_phase[winner].q_banning, 10000); + flush_inputs(brick, 0); + } + ranking_select_done(rkd, winner, nr); + break; + + default: + break; + } + + /* Update symlinks even during pauses. + */ + if (winner < 0 && ((long long)jiffies) - old_jiffies >= HZ) { + int i; + + old_jiffies = jiffies; + for (i = TL_INPUT_LOG1; i <= TL_INPUT_LOG2; i++) { + struct trans_logger_input *input = brick->inputs[i]; + + down(&input->inf_mutex); + _inf_callback(input, false); + up(&input->inf_mutex); + } + } + + _exit_inputs(brick, false); + } + + for (;;) { + _exit_inputs(brick, true); + nr_flying = _nr_flying_inputs(brick); + if (nr_flying <= 0) + break; + XIO_INF("%d inputs are operating\n", nr_flying); + brick_msleep(1000); + } +} + +/***************************** log replay *****************************/ + +static +void replay_endio(struct generic_callback *cb) +{ + struct trans_logger_aio_aspect *aio_a = cb->cb_private; + struct trans_logger_brick *brick; + bool ok; + + LAST_CALLBACK(cb); + CHECK_PTR(aio_a, err); + brick = aio_a->my_brick; + CHECK_PTR(brick, err); + + if (unlikely(cb->cb_error < 0)) { + brick->disk_io_error = cb->cb_error; + XIO_ERR("IO error = %d\n", cb->cb_error); + } + + spin_lock(&brick->replay_lock); + ok = !list_empty(&aio_a->replay_head); + list_del_init(&aio_a->replay_head); + spin_unlock(&brick->replay_lock); + + if (likely(ok)) + atomic_dec(&brick->replay_count); + else + XIO_ERR("callback with empty replay_head (replay_count=%d)\n", atomic_read(&brick->replay_count)); + wake_up_interruptible_all(&brick->worker_event); + goto out_return; +err: + XIO_FAT("cannot handle replay IO\n"); +out_return:; +} + +static +bool _has_conflict(struct trans_logger_brick *brick, struct trans_logger_aio_aspect *aio_a) +{ + struct aio_object *aio = aio_a->object; + struct list_head *tmp; + bool res = false; + +/**/ + + spin_lock(&brick->replay_lock); + + for (tmp = brick->replay_list.next; tmp != &brick->replay_list; tmp = tmp->next) { + struct trans_logger_aio_aspect *tmp_a; + struct aio_object *tmp_aio; + + tmp_a = container_of(tmp, struct trans_logger_aio_aspect, replay_head); + tmp_aio = tmp_a->object; + if (tmp_aio->io_pos + tmp_aio->io_len > aio->io_pos && tmp_aio->io_pos < aio->io_pos + aio->io_len) { + res = true; + break; + } + } + + spin_unlock(&brick->replay_lock); + return res; +} + +static +void wait_replay(struct trans_logger_brick *brick, struct trans_logger_aio_aspect *aio_a) +{ + const int max = 512; /* limit parallelism somewhat */ + int conflicts = 0; + bool ok = false; + bool was_empty; + + wait_event_interruptible_timeout(brick->worker_event, + atomic_read(&brick->replay_count) < max + && (_has_conflict(brick, aio_a) ? conflicts++ : (ok = true), ok), + 60 * HZ); + + atomic_inc(&brick->total_replay_count); + if (conflicts) + atomic_inc(&brick->total_replay_conflict_count); + + spin_lock(&brick->replay_lock); + was_empty = !!list_empty(&aio_a->replay_head); + if (likely(was_empty)) + atomic_inc(&brick->replay_count); + else + list_del(&aio_a->replay_head); + list_add(&aio_a->replay_head, &brick->replay_list); + spin_unlock(&brick->replay_lock); + + if (unlikely(!was_empty)) { + XIO_ERR("replay_head was already used (ok=%d, conflicts=%d, replay_count=%d)\n", + ok, + conflicts, + atomic_read(&brick->replay_count)); + } +} + +static +int replay_data(struct trans_logger_brick *brick, loff_t pos, void *buf, int len) +{ + struct trans_logger_input *input = brick->inputs[TL_INPUT_WRITEBACK]; + int status; + + if (!input->connect) + input = brick->inputs[TL_INPUT_READ]; + + /* TODO for better efficiency: + * Instead of starting IO here, just put the data into the hashes + * and queues such that ordinary IO will be corrected. + * Writeback will be lazy then. + * The switch infrastructure must be changed before this + * becomes possible. + */ +#ifdef REPLAY_DATA + while (len > 0) { + struct aio_object *aio; + struct trans_logger_aio_aspect *aio_a; + + status = -ENOMEM; + aio = trans_logger_alloc_aio(brick); + aio_a = trans_logger_aio_get_aspect(brick, aio); + CHECK_PTR(aio_a, done); + CHECK_ASPECT(aio_a, aio, done); + + aio->io_pos = pos; + aio->io_data = NULL; + aio->io_len = len; + aio->io_may_write = WRITE; + aio->io_rw = WRITE; + + status = GENERIC_INPUT_CALL(input, aio_get, aio); + if (unlikely(status < 0)) { + XIO_ERR("cannot get aio, status = %d\n", status); + goto done; + } + if (unlikely(!aio->io_data)) { + status = -ENOMEM; + XIO_ERR("cannot get aio, status = %d\n", status); + goto done; + } + if (unlikely(aio->io_len <= 0 || aio->io_len > len)) { + status = -EINVAL; + XIO_ERR("bad aio len = %d (requested = %d)\n", aio->io_len, len); + goto done; + } + + wait_replay(brick, aio_a); + + memcpy(aio->io_data, buf, aio->io_len); + + SETUP_CALLBACK(aio, replay_endio, aio_a); + aio_a->my_brick = brick; + + GENERIC_INPUT_CALL(input, aio_io, aio); + + if (unlikely(aio->io_len <= 0)) { + status = -EINVAL; + XIO_ERR("bad aio len = %d (requested = %d)\n", aio->io_len, len); + goto done; + } + + pos += aio->io_len; + buf += aio->io_len; + len -= aio->io_len; + + GENERIC_INPUT_CALL(input, aio_put, aio); + } +#endif + status = 0; +done: + return status; +} + +static +void trans_logger_replay(struct trans_logger_brick *brick) +{ + struct trans_logger_input *input = brick->inputs[brick->log_input_nr]; + struct log_header lh = {}; + loff_t start_pos; + loff_t end_pos; + loff_t finished_pos = -1; + loff_t new_finished_pos = -1; + long long old_jiffies = jiffies; + int nr_flying; + int backoff = 0; + int status = 0; + + brick->replay_code = 0; /* indicates "running" */ + brick->disk_io_error = 0; + + start_pos = brick->replay_start_pos; + end_pos = brick->replay_end_pos; + brick->replay_current_pos = start_pos; + + _init_input(input, start_pos, end_pos); + + input->inf.inf_min_pos = start_pos; + input->inf.inf_max_pos = end_pos; + input->inf.inf_log_pos = end_pos; + input->inf.inf_is_replaying = true; + input->inf.inf_is_logging = false; + + XIO_INF("starting replay from %lld to %lld\n", start_pos, end_pos); + + xio_set_power_on_led((void *)brick, true); + + for (;;) { + void *buf = NULL; + int len = 0; + + if (brick_thread_should_stop() || + (!brick->continuous_replay_mode && finished_pos >= brick->replay_end_pos)) { + status = 0; /* treat as EOF */ + break; + } + + status = log_read(&input->logst, false, &lh, &buf, &len); + + new_finished_pos = input->logst.log_pos + input->logst.offset; + XIO_RPL("read %lld %lld\n", finished_pos, new_finished_pos); + + if (status == -EAGAIN) { + loff_t remaining = brick->replay_end_pos - new_finished_pos; + + XIO_DBG("got -EAGAIN, remaining = %lld\n", remaining); + if (brick->replay_tolerance > 0 && remaining < brick->replay_tolerance) { + XIO_WRN("logfile is truncated at position %lld (end_pos = %lld, remaining = %lld, tolerance = %d)\n", + new_finished_pos, + brick->replay_end_pos, + remaining, + brick->replay_tolerance); + finished_pos = new_finished_pos; + brick->replay_code = status; + break; + } + brick_msleep(backoff); + if (backoff < trans_logger_replay_timeout * 1000) { + backoff += 100; + } else { + XIO_WRN("logfile replay not possible at position %lld (end_pos = %lld, remaining = %lld), please check/repair your logfile in userspace by some tool!\n", + new_finished_pos, + brick->replay_end_pos, + remaining); + brick->replay_code = status; + break; + } + continue; + } + if (unlikely(status < 0)) { + brick->replay_code = status; + XIO_WRN("cannot read logfile data, status = %d\n", status); + break; + } + + if ((!status && len <= 0) || + new_finished_pos > brick->replay_end_pos) { /* EOF -> wait until brick_thread_should_stop() */ + XIO_DBG("EOF at %lld (old = %lld, end_pos = %lld)\n", + new_finished_pos, + finished_pos, + brick->replay_end_pos); + if (!brick->continuous_replay_mode) { + /* notice: finished_pos remains at old value here! */ + break; + } + brick_msleep(1000); + continue; + } + + if (lh.l_code != CODE_WRITE_NEW) { + /* ignore other records silently */; + } else if (unlikely(brick->disk_io_error)) { + status = brick->disk_io_error; + brick->replay_code = status; + XIO_ERR("IO error %d\n", status); + break; + } else if (likely(buf && len)) { + if (brick->replay_limiter) + xio_limit_sleep(brick->replay_limiter, (len - 1) / 1024 + 1); + status = replay_data(brick, lh.l_pos, buf, len); + XIO_RPL("replay %lld %lld (pos=%lld status=%d)\n", + finished_pos, + new_finished_pos, + lh.l_pos, + status); + if (unlikely(status < 0)) { + brick->replay_code = status; + XIO_ERR("cannot replay data at pos = %lld len = %d, status = %d\n", + lh.l_pos, + len, + status); + break; + } else { + finished_pos = new_finished_pos; + } + } + + /* do this _after_ any opportunities for errors... */ + if ((atomic_read(&brick->replay_count) <= 0 || + ((long long)jiffies) - old_jiffies >= HZ * 3) && + finished_pos >= 0) { + /* for safety, wait until the IO queue has drained. */ + wait_event_interruptible_timeout(brick->worker_event, + atomic_read(&brick->replay_count) <= 0, + 30 * HZ); + + if (unlikely(brick->disk_io_error)) { + status = brick->disk_io_error; + brick->replay_code = status; + XIO_ERR("IO error %d\n", status); + break; + } + + down(&input->inf_mutex); + input->inf.inf_min_pos = finished_pos; + get_lamport(&input->inf.inf_min_pos_stamp); + old_jiffies = jiffies; + _inf_callback(input, false); + up(&input->inf_mutex); + } + _exit_inputs(brick, false); + } + + XIO_INF("waiting for finish...\n"); + + wait_event_interruptible_timeout(brick->worker_event, atomic_read(&brick->replay_count) <= 0, 60 * HZ); + + if (unlikely(finished_pos > brick->replay_end_pos)) { + XIO_ERR("finished_pos too large: %lld + %d = %lld > %lld\n", + input->logst.log_pos, + input->logst.offset, + finished_pos, + brick->replay_end_pos); + } + + if (finished_pos >= 0 && !brick->disk_io_error) { + input->inf.inf_min_pos = finished_pos; + brick->replay_current_pos = finished_pos; + } + + get_lamport(&input->inf.inf_min_pos_stamp); + + if (status >= 0 && finished_pos == brick->replay_end_pos) { + XIO_INF("replay finished at %lld\n", finished_pos); + brick->replay_code = 1; + } else if (status == -EAGAIN && finished_pos + brick->replay_tolerance > brick->replay_end_pos) { + XIO_INF("TOLERANCE: logfile is incomplete at %lld (of %lld)\n", finished_pos, brick->replay_end_pos); + brick->replay_code = 2; + } else if (status < 0) { + if (finished_pos < 0) + finished_pos = new_finished_pos; + if (finished_pos + brick->replay_tolerance > brick->replay_end_pos) { + XIO_INF("TOLERANCE: logfile is incomplete at %lld (of %lld), status = %d\n", + finished_pos, + brick->replay_end_pos, + status); + } else { + XIO_ERR("replay error %d at %lld (of %lld)\n", status, finished_pos, brick->replay_end_pos); + } + brick->replay_code = status; + } else { + XIO_INF("replay stopped prematurely at %lld (of %lld)\n", finished_pos, brick->replay_end_pos); + brick->replay_code = 2; + } + + for (;;) { + _exit_inputs(brick, true); + nr_flying = _nr_flying_inputs(brick); + if (nr_flying <= 0) + break; + XIO_INF("%d inputs are operating\n", nr_flying); + brick_msleep(1000); + } + + local_trigger(); + + while (!brick_thread_should_stop()) + brick_msleep(500); +} + +/************************ logger thread * switching ************************/ + +static +int trans_logger_thread(void *data) +{ + struct trans_logger_output *output = data; + struct trans_logger_brick *brick = output->brick; + + XIO_INF("........... logger has started.\n"); + + if (brick->replay_mode) + trans_logger_replay(brick); + else + trans_logger_log(brick); + XIO_INF("........... logger has stopped.\n"); + xio_set_power_on_led((void *)brick, false); + xio_set_power_off_led((void *)brick, true); + return 0; +} + +static +int trans_logger_switch(struct trans_logger_brick *brick) +{ + static int index; + struct trans_logger_output *output = brick->outputs[0]; + + if (brick->power.button) { + if (!brick->thread && brick->power.off_led) { + xio_set_power_off_led((void *)brick, false); + + brick->thread = brick_thread_create(trans_logger_thread, output, "xio_logger%d", index++); + if (unlikely(!brick->thread)) { + XIO_ERR("cannot create logger thread\n"); + return -ENOENT; + } + } + } else { + xio_set_power_on_led((void *)brick, false); + if (brick->thread) { + XIO_INF("stopping thread...\n"); + brick_thread_stop(brick->thread); + brick->thread = NULL; + } + } + return 0; +} + +/*************** informational * statistics **************/ + +static +char *trans_logger_statistics(struct trans_logger_brick *brick, int verbose) +{ + char *res = brick_string_alloc(1024); + + snprintf(res, 1023, + "mode replay=%d continuous=%d replay_code=%d disk_io_error=%d log_reads=%d | cease_logging=%d stopped_logging=%d congested=%d | replay_start_pos = %lld replay_end_pos = %lld | new_input_nr = %d log_input_nr = %d (old = %d) inf_min_pos1 = %lld inf_max_pos1 = %lld inf_min_pos2 = %lld inf_max_pos2 = %lld | total hash_insert=%d hash_find=%d hash_extend=%d replay=%d replay_conflict=%d (%d%%) callbacks=%d reads=%d writes=%d flushes=%d (%d%%) wb_clusters=%d writebacks=%d (%d%%) shortcut=%d (%d%%) mshadow=%d sshadow=%d mshadow_buffered=%d sshadow_buffered=%d rounds=%d restarts=%d delays=%d phase0=%d phase1=%d phase2=%d phase3=%d | current #aios = %d shadow_mem_used=%ld/%lld replay_count=%d mshadow=%d/%d sshadow=%d hash_count=%d balance=%d/%d/%d/%d pos_count1=%d pos_count2=%d log_aios1=%d log_aios2=%d any_fly=%d log_fly=%d aio_flying1=%d aio_flying2=%d phase0=%d+%d <%d/%d> phase1=%d+%d <%d/%d> phase2=%d+%d <%d/%d> phase3=%d+%d <%d/%d>\n", + brick->replay_mode, + brick->continuous_replay_mode, + brick->replay_code, + brick->disk_io_error, + brick->log_reads, + brick->cease_logging, + brick->stopped_logging, + _congested(brick), + brick->replay_start_pos, + brick->replay_end_pos, + brick->new_input_nr, + brick->log_input_nr, + brick->old_input_nr, + brick->inputs[TL_INPUT_LOG1]->inf.inf_min_pos, + brick->inputs[TL_INPUT_LOG1]->inf.inf_max_pos, + brick->inputs[TL_INPUT_LOG2]->inf.inf_min_pos, + brick->inputs[TL_INPUT_LOG2]->inf.inf_max_pos, + atomic_read(&brick->total_hash_insert_count), + atomic_read(&brick->total_hash_find_count), + atomic_read(&brick->total_hash_extend_count), + atomic_read(&brick->total_replay_count), + atomic_read(&brick->total_replay_conflict_count), + atomic_read(&brick->total_replay_count) ? atomic_read(&brick->total_replay_conflict_count) * 100 / atomic_read(&brick->total_replay_count) : 0, + atomic_read(&brick->total_cb_count), + atomic_read(&brick->total_read_count), + atomic_read(&brick->total_write_count), + atomic_read(&brick->total_flush_count), + atomic_read(&brick->total_write_count) ? atomic_read(&brick->total_flush_count) * 100 / atomic_read(&brick->total_write_count) : 0, + atomic_read(&brick->total_writeback_cluster_count), + atomic_read(&brick->total_writeback_count), + atomic_read(&brick->total_writeback_cluster_count) ? atomic_read(&brick->total_writeback_count) * 100 / atomic_read(&brick->total_writeback_cluster_count) : 0, + atomic_read(&brick->total_shortcut_count), + atomic_read(&brick->total_writeback_count) ? atomic_read(&brick->total_shortcut_count) * 100 / atomic_read(&brick->total_writeback_count) : 0, + atomic_read(&brick->total_mshadow_count), + atomic_read(&brick->total_sshadow_count), + atomic_read(&brick->total_mshadow_buffered_count), + atomic_read(&brick->total_sshadow_buffered_count), + atomic_read(&brick->total_round_count), + atomic_read(&brick->total_restart_count), + atomic_read(&brick->total_delay_count), + atomic_read(&brick->q_phase[0].q_total), + atomic_read(&brick->q_phase[1].q_total), + atomic_read(&brick->q_phase[2].q_total), + atomic_read(&brick->q_phase[3].q_total), + atomic_read(&brick->aio_object_layout.alloc_count), + atomic64_read(&brick->shadow_mem_used) / 1024, + brick_global_memlimit, + atomic_read(&brick->replay_count), + atomic_read(&brick->mshadow_count), + brick->shadow_mem_limit, + atomic_read(&brick->sshadow_count), + atomic_read(&brick->hash_count), + atomic_read(&brick->sub_balance_count), + atomic_read(&brick->inner_balance_count), + atomic_read(&brick->outer_balance_count), + atomic_read(&brick->wb_balance_count), + atomic_read(&brick->inputs[TL_INPUT_LOG1]->pos_count), + atomic_read(&brick->inputs[TL_INPUT_LOG2]->pos_count), + atomic_read(&brick->inputs[TL_INPUT_LOG1]->log_obj_count), + atomic_read(&brick->inputs[TL_INPUT_LOG2]->log_obj_count), + atomic_read(&brick->any_fly_count), + atomic_read(&brick->log_fly_count), + atomic_read(&brick->inputs[TL_INPUT_LOG1]->logst.aio_flying), + atomic_read(&brick->inputs[TL_INPUT_LOG2]->logst.aio_flying), + atomic_read(&brick->q_phase[0].q_queued), + atomic_read(&brick->q_phase[0].q_flying), + brick->q_phase[0].pushback_count, + brick->q_phase[0].no_progress_count, + atomic_read(&brick->q_phase[1].q_queued), + atomic_read(&brick->q_phase[1].q_flying), + brick->q_phase[1].pushback_count, + brick->q_phase[1].no_progress_count, + atomic_read(&brick->q_phase[2].q_queued), + atomic_read(&brick->q_phase[2].q_flying), + brick->q_phase[2].pushback_count, + brick->q_phase[2].no_progress_count, + atomic_read(&brick->q_phase[3].q_queued), + atomic_read(&brick->q_phase[3].q_flying), + brick->q_phase[3].pushback_count, + brick->q_phase[3].no_progress_count); + return res; +} + +static +void trans_logger_reset_statistics(struct trans_logger_brick *brick) +{ + atomic_set(&brick->total_hash_insert_count, 0); + atomic_set(&brick->total_hash_find_count, 0); + atomic_set(&brick->total_hash_extend_count, 0); + atomic_set(&brick->total_replay_count, 0); + atomic_set(&brick->total_replay_conflict_count, 0); + atomic_set(&brick->total_cb_count, 0); + atomic_set(&brick->total_read_count, 0); + atomic_set(&brick->total_write_count, 0); + atomic_set(&brick->total_flush_count, 0); + atomic_set(&brick->total_writeback_count, 0); + atomic_set(&brick->total_writeback_cluster_count, 0); + atomic_set(&brick->total_shortcut_count, 0); + atomic_set(&brick->total_mshadow_count, 0); + atomic_set(&brick->total_sshadow_count, 0); + atomic_set(&brick->total_mshadow_buffered_count, 0); + atomic_set(&brick->total_sshadow_buffered_count, 0); + atomic_set(&brick->total_round_count, 0); + atomic_set(&brick->total_restart_count, 0); + atomic_set(&brick->total_delay_count, 0); +} + +/*************** object * aspect constructors * destructors **************/ + +static +int trans_logger_aio_aspect_init_fn(struct generic_aspect *_ini) +{ + struct trans_logger_aio_aspect *ini = (void *)_ini; + + ini->lh.lh_pos = &ini->object->io_pos; + INIT_LIST_HEAD(&ini->lh.lh_head); + INIT_LIST_HEAD(&ini->hash_head); + INIT_LIST_HEAD(&ini->pos_head); + INIT_LIST_HEAD(&ini->replay_head); + INIT_LIST_HEAD(&ini->collect_head); + INIT_LIST_HEAD(&ini->sub_list); + INIT_LIST_HEAD(&ini->sub_head); + return 0; +} + +static +void trans_logger_aio_aspect_exit_fn(struct generic_aspect *_ini) +{ + struct trans_logger_aio_aspect *ini = (void *)_ini; + + CHECK_HEAD_EMPTY(&ini->lh.lh_head); + CHECK_HEAD_EMPTY(&ini->hash_head); + CHECK_HEAD_EMPTY(&ini->pos_head); + CHECK_HEAD_EMPTY(&ini->replay_head); + CHECK_HEAD_EMPTY(&ini->collect_head); + CHECK_HEAD_EMPTY(&ini->sub_list); + CHECK_HEAD_EMPTY(&ini->sub_head); + if (ini->log_input) + atomic_dec(&ini->log_input->log_obj_count); +} + +XIO_MAKE_STATICS(trans_logger); + +/********************* brick constructors * destructors *******************/ + +static +void _free_pages(struct trans_logger_brick *brick) +{ + int i; + + for (i = 0; i < NR_HASH_PAGES; i++) { + struct trans_logger_hash_anchor *sub_table = brick->hash_table[i]; + int j; + + if (!sub_table) + continue; + for (j = 0; j < HASH_PER_PAGE; j++) { + struct trans_logger_hash_anchor *start = &sub_table[j]; + + CHECK_HEAD_EMPTY(&start->hash_anchor); + } + brick_block_free(sub_table, PAGE_SIZE); + } + brick_block_free(brick->hash_table, PAGE_SIZE); +} + +static +int trans_logger_brick_construct(struct trans_logger_brick *brick) +{ + int i; + + brick->hash_table = brick_block_alloc(0, PAGE_SIZE); + memset(brick->hash_table, 0, PAGE_SIZE); + + for (i = 0; i < NR_HASH_PAGES; i++) { + struct trans_logger_hash_anchor *sub_table; + int j; + + /* this should be usually optimized away as dead code */ + if (unlikely(i >= MAX_HASH_PAGES)) { + XIO_ERR("sorry, subtable index %d is too large.\n", i); + _free_pages(brick); + return -EINVAL; + } + + sub_table = brick_block_alloc(0, PAGE_SIZE); + brick->hash_table[i] = sub_table; + + memset(sub_table, 0, PAGE_SIZE); + for (j = 0; j < HASH_PER_PAGE; j++) { + struct trans_logger_hash_anchor *start = &sub_table[j]; + + init_rwsem(&start->hash_mutex); + INIT_LIST_HEAD(&start->hash_anchor); + } + } + + atomic_set(&brick->hash_count, 0); + spin_lock_init(&brick->replay_lock); + INIT_LIST_HEAD(&brick->replay_list); + INIT_LIST_HEAD(&brick->group_head); + init_waitqueue_head(&brick->worker_event); + init_waitqueue_head(&brick->caller_event); + qq_init(&brick->q_phase[0], brick); + qq_init(&brick->q_phase[1], brick); + qq_init(&brick->q_phase[2], brick); + qq_init(&brick->q_phase[3], brick); + brick->q_phase[0].q_insert_info = "q0_ins"; + brick->q_phase[0].q_pushback_info = "q0_push"; + brick->q_phase[0].q_fetch_info = "q0_fetch"; + brick->q_phase[1].q_insert_info = "q1_ins"; + brick->q_phase[1].q_pushback_info = "q1_push"; + brick->q_phase[1].q_fetch_info = "q1_fetch"; + brick->q_phase[2].q_insert_info = "q2_ins"; + brick->q_phase[2].q_pushback_info = "q2_push"; + brick->q_phase[2].q_fetch_info = "q2_fetch"; + brick->q_phase[3].q_insert_info = "q3_ins"; + brick->q_phase[3].q_pushback_info = "q3_push"; + brick->q_phase[3].q_fetch_info = "q3_fetch"; + brick->new_input_nr = TL_INPUT_LOG1; + brick->log_input_nr = TL_INPUT_LOG1; + brick->old_input_nr = TL_INPUT_LOG1; + add_to_group(&global_writeback, brick); + return 0; +} + +static +int trans_logger_brick_destruct(struct trans_logger_brick *brick) +{ + _free_pages(brick); + CHECK_HEAD_EMPTY(&brick->replay_list); + remove_from_group(&global_writeback, brick); + return 0; +} + +static +int trans_logger_output_construct(struct trans_logger_output *output) +{ + return 0; +} + +static +int trans_logger_input_construct(struct trans_logger_input *input) +{ + INIT_LIST_HEAD(&input->pos_list); + sema_init(&input->inf_mutex, 1); + return 0; +} + +static +int trans_logger_input_destruct(struct trans_logger_input *input) +{ + CHECK_HEAD_EMPTY(&input->pos_list); + return 0; +} + +/************************ static structs ***********************/ + +static struct trans_logger_brick_ops trans_logger_brick_ops = { + .brick_switch = trans_logger_switch, + .brick_statistics = trans_logger_statistics, + .reset_statistics = trans_logger_reset_statistics, +}; + +static struct trans_logger_output_ops trans_logger_output_ops = { + .xio_get_info = trans_logger_get_info, + .aio_get = trans_logger_io_get, + .aio_put = trans_logger_io_put, + .aio_io = trans_logger_io_io, +}; + +const struct trans_logger_input_type trans_logger_input_type = { + .type_name = "trans_logger_input", + .input_size = sizeof(struct trans_logger_input), + .input_construct = &trans_logger_input_construct, + .input_destruct = &trans_logger_input_destruct, +}; + +static const struct trans_logger_input_type *trans_logger_input_types[] = { + &trans_logger_input_type, + &trans_logger_input_type, + &trans_logger_input_type, + &trans_logger_input_type, + &trans_logger_input_type, + &trans_logger_input_type, +}; + +const struct trans_logger_output_type trans_logger_output_type = { + .type_name = "trans_logger_output", + .output_size = sizeof(struct trans_logger_output), + .master_ops = &trans_logger_output_ops, + .output_construct = &trans_logger_output_construct, +}; + +static const struct trans_logger_output_type *trans_logger_output_types[] = { + &trans_logger_output_type, +}; + +const struct trans_logger_brick_type trans_logger_brick_type = { + .type_name = "trans_logger_brick", + .brick_size = sizeof(struct trans_logger_brick), + .max_inputs = TL_INPUT_NR, + .max_outputs = 1, + .master_ops = &trans_logger_brick_ops, + .aspect_types = trans_logger_aspect_types, + .default_input_types = trans_logger_input_types, + .default_output_types = trans_logger_output_types, + .brick_construct = &trans_logger_brick_construct, + .brick_destruct = &trans_logger_brick_destruct, +}; +EXPORT_SYMBOL_GPL(trans_logger_brick_type); + +/***************** module init stuff ************************/ + +int __init init_xio_trans_logger(void) +{ + XIO_INF("init_trans_logger()\n"); + return trans_logger_register_brick_type(); +} + +void exit_xio_trans_logger(void) +{ + XIO_INF("exit_trans_logger()\n"); + trans_logger_unregister_brick_type(); +} -- 2.0.0 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majordomo@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/