#ifndef _LINUX_ELEVATOR_H #define _LINUX_ELEVATOR_H #define ELEVATOR_DEBUG struct elevator_s; typedef struct elevator_s elevator_t; typedef void (elevator_fn) (struct request *, elevator_t *, struct list_head *, struct list_head *, int); struct elevator_s { int sequence; int read_latency; int write_latency; int max_bomb_segments; unsigned int nr_segments; int read_pendings; elevator_fn * elevator_fn; unsigned int queue_ID; }; #define ELEVATOR_DEFAULTS \ ((elevator_t) { \ 0, /* sequence */ \ \ 128, /* read_latency */ \ 8192, /* write_latency */ \ 4, /* max_bomb_segments */ \ \ 0, /* nr_segments */ \ 0, /* read_pendings */ \ \ elevator_default, /* elevator_fn */ \ }) typedef struct blkelv_ioctl_arg_s { int queue_ID; int read_latency; int write_latency; int max_bomb_segments; } blkelv_ioctl_arg_t; #define BLKELVGET _IOR(0x12,106,sizeof(blkelv_ioctl_arg_t)) #define BLKELVSET _IOW(0x12,107,sizeof(blkelv_ioctl_arg_t)) extern int blkelvget_ioctl(elevator_t *, blkelv_ioctl_arg_t *); extern int blkelvset_ioctl(elevator_t *, const blkelv_ioctl_arg_t *); extern void elevator_init(elevator_t *); #ifdef ELEVATOR_DEBUG extern void elevator_debug(request_queue_t *, kdev_t); #else #define elevator_debug(a,b) do { } while(0) #endif #define elevator_sequence_after(a,b) ((int)((b)-(a)) < 0) #define elevator_sequence_before(a,b) elevator_sequence_after(b,a) #define elevator_sequence_after_eq(a,b) ((int)((b)-(a)) <= 0) #define elevator_sequence_before_eq(a,b) elevator_sequence_after_eq(b,a) /* * This is used in the elevator algorithm. We don't prioritise reads * over writes any more --- although reads are more time-critical than * writes, by treating them equally we increase filesystem throughput. * This turns out to give better overall performance. -- sct */ #define IN_ORDER(s1,s2) \ ((((s1)->rq_dev == (s2)->rq_dev && \ (s1)->sector < (s2)->sector)) || \ (s1)->rq_dev < (s2)->rq_dev) static inline void elevator_merge_requests(elevator_t * e, struct request * req, struct request * next) { if (elevator_sequence_before(next->elevator_sequence, req->elevator_sequence)) req->elevator_sequence = next->elevator_sequence; if (req->cmd == READ) e->read_pendings--; } static inline int elevator_sequence(elevator_t * e, int latency) { return latency + e->sequence; } #define elevator_merge_before(q, req, lat) __elevator_merge((q), (req), (lat), 0) #define elevator_merge_after(q, req, lat) __elevator_merge((q), (req), (lat), 1) static inline void __elevator_merge(elevator_t * elevator, struct request * req, int latency, int after) { int sequence = elevator_sequence(elevator, latency); if (after) sequence -= req->nr_segments; if (elevator_sequence_before(sequence, req->elevator_sequence)) req->elevator_sequence = sequence; } static inline void elevator_account_request(elevator_t * elevator, struct request * req) { elevator->sequence++; if (req->cmd == READ) elevator->read_pendings++; elevator->nr_segments++; } static inline int elevator_request_latency(elevator_t * elevator, int rw) { int latency; latency = elevator->read_latency; if (rw != READ) latency = elevator->write_latency; return latency; } #endif