// (c) 2010 Thomas Schoebel-Theuer / 1&1 Internet AG #ifndef MARS_TRANS_LOGGER_H #define MARS_TRANS_LOGGER_H #define REGION_SIZE_BITS 22 #define REGION_SIZE (1 << REGION_SIZE_BITS) #define TRANS_HASH_MAX 512 #include #include "lib_log.h" #include "lib_pairing_heap.h" #include "lib_queue.h" //////////////////////////////////////////////////////////////////// _PAIRING_HEAP_TYPEDEF(logger,) struct logger_queue { QUEUE_ANCHOR(logger,loff_t,logger); struct trans_logger_output *q_output; const char *q_insert_info; const char *q_pushback_info; const char *q_fetch_info; }; struct logger_head { struct list_head lh_head; loff_t *lh_pos; struct pairing_heap_logger ph; }; //////////////////////////////////////////////////////////////////// struct hash_anchor { rwlock_t hash_lock; struct list_head hash_anchor; }; struct writeback_info { struct trans_logger_output *w_output; struct logger_head w_lh; loff_t w_pos; int w_len; int w_error; struct list_head w_collect_list; // list of collected orig requests struct list_head w_sub_read_list; // for saving the old data before overwrite struct list_head w_sub_write_list; // for overwriting atomic_t w_sub_read_count; atomic_t w_sub_write_count; void (*read_endio)(struct generic_callback *cb); void (*write_endio)(struct generic_callback *cb); }; struct trans_logger_mref_aspect { GENERIC_ASPECT(mref); struct trans_logger_output *output; struct logger_head lh; struct list_head hash_head; //struct list_head q_head; struct list_head pos_head; struct list_head replay_head; struct list_head collect_head; struct pairing_heap_logger ph; struct trans_logger_mref_aspect *shadow_ref; void *shadow_data; bool do_dealloc; bool do_buffered; bool is_hashed; bool is_dirty; bool is_collected; struct timespec stamp; loff_t log_pos; struct generic_callback cb; struct trans_logger_mref_aspect *orig_mref_a; struct writeback_info *wb; struct list_head sub_list; struct list_head sub_head; int total_sub_count; atomic_t current_sub_count; }; struct trans_logger_brick { MARS_BRICK(trans_logger); // parameters int sequence; // logfile sequence number int limit_congest;// limit phase1 congestion. int align_size; // alignment between requests int chunk_size; // must be at least 8K (better 64k) int flush_delay; // delayed firing of incomplete chunks bool do_replay; // mode of operation bool do_continuous_replay; // mode of operation bool log_reads; // additionally log pre-images bool debug_shortcut; // only for testing! never use in production! loff_t replay_start_pos; // where to start replay loff_t replay_end_pos; // end of replay loff_t log_start_pos; // where to start logging // readonly from outside loff_t replay_pos; // current replay position (both in replay mode and in logging mode) loff_t current_pos; // current logging position (usually ahead of replay_pos) int replay_code; // replay errors (if any) // private loff_t old_margin; struct log_status logst; spinlock_t pos_lock; spinlock_t replay_lock; struct list_head pos_list; struct list_head replay_list; }; struct trans_logger_output { MARS_OUTPUT(trans_logger); atomic_t replay_count; atomic_t fly_count; atomic_t hash_count; atomic_t mshadow_count; atomic_t sshadow_count; atomic_t outer_balance_count; atomic_t inner_balance_count; atomic_t sub_balance_count; atomic_t wb_balance_count; atomic_t total_read_count; atomic_t total_write_count; atomic_t total_writeback_count; atomic_t total_shortcut_count; atomic_t total_mshadow_count; atomic_t total_sshadow_count; struct task_struct *thread; wait_queue_head_t event; struct generic_object_layout writeback_layout; struct generic_object_layout replay_layout; // queues struct logger_queue q_phase1; struct logger_queue q_phase2; struct logger_queue q_phase3; struct logger_queue q_phase4; bool did_pushback; struct hash_anchor hash_table[TRANS_HASH_MAX]; }; struct trans_logger_input { MARS_INPUT(trans_logger); }; MARS_TYPES(trans_logger); #endif