/* * blktrace output analysis: generate a timeline & gather statistics * * Copyright (C) 2006 Alan D. Brunelle * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include "globals.h" static inline void __out(FILE *ofp, __u64 tm, enum iop_type type, __u64 sec, __u32 nsec, int indent) { if (tm != (__u64)-1) { if (indent) fprintf(ofp, " "); fprintf(ofp, "%5d.%09lu %c %10llu+%-4u\n", (int)SECONDS(tm), (unsigned long)NANO_SECONDS(tm), type2c(type), (unsigned long long)sec, nsec); } } static void display_io_track(FILE *ofp, struct io *iop) { fprintf(ofp, "%3d,%-3d: ", MAJOR(iop->t.device), MINOR(iop->t.device)); __out(ofp, iop->t.time, IOP_Q, iop->t.sector, t_sec(&iop->t), 0); if (iop->g_time != (__u64)-1) __out(ofp, iop->g_time, IOP_G, iop->t.sector, t_sec(&iop->t),1); if (iop->i_time != (__u64)-1) __out(ofp, iop->i_time, IOP_I, iop->t.sector, t_sec(&iop->t),1); if (iop->m_time != (__u64)-1) __out(ofp, iop->m_time, IOP_M, iop->t.sector, t_sec(&iop->t),1); __out(ofp, iop->d_time, IOP_D, iop->d_sec, iop->d_nsec, 1); __out(ofp, iop->c_time, IOP_C, iop->c_sec, iop->c_nsec, 1); fprintf(ofp, "\n"); } static void handle_complete(struct io *c_iop) { LIST_HEAD(head); struct list_head *p, *q; __u64 d_time = (__u64)-1; FILE *pit_fp = c_iop->dip->pit_fp; double cur = BIT_TIME(c_iop->t.time); update_blks(c_iop); update_cregion(&all_regions, c_iop->t.time); update_cregion(&c_iop->dip->regions, c_iop->t.time); if (c_iop->pip) update_cregion(&c_iop->pip->regions, c_iop->t.time); aqd_complete(c_iop->dip->aqd_handle, cur); rstat_add(c_iop->dip->rstat_handle, cur, c_iop->t.bytes >> 9); dip_foreach_list(c_iop, IOP_Q, &head); list_for_each_safe(p, q, &head) { struct io *q_iop = list_entry(p, struct io, f_head); __u64 q2c = tdelta(q_iop->t.time, c_iop->t.time); c_iop->bytes_left -= q_iop->t.bytes; update_q2c(q_iop, q2c); latency_q2c(q_iop->dip, q_iop->t.time, q2c); if (q_iop->d_time != (__u64)-1) { __u64 d2c = tdelta(q_iop->d_time, c_iop->t.time); p_live_add(q_iop->dip, q_iop->d_time, c_iop->t.time); update_d2c(q_iop, d2c); latency_d2c(q_iop->dip, c_iop->t.time, d2c); iostat_complete(q_iop, c_iop); d_time = q_iop->d_time; } if (per_io_ofp) { q_iop->c_time = c_iop->t.time; q_iop->c_sec = c_iop->t.sector; q_iop->c_nsec = t_sec(&c_iop->t); display_io_track(per_io_ofp, q_iop); } if (q_iop->dip->pit_fp) { fprintf(pit_fp, "%d.%09lu ", (int)SECONDS(q_iop->t.time), (unsigned long)NANO_SECONDS(q_iop->t.time)); } list_del(&q_iop->f_head); io_release(q_iop); } if (per_io_ofp) fprintf(per_io_ofp, "-----------------------------------------\n"); if (c_iop->dip->pit_fp) { fprintf(pit_fp, "| %d.%09lu | %d.%09lu\n", (int)SECONDS(d_time), (unsigned long)NANO_SECONDS(d_time), (int)SECONDS(c_iop->t.time), (unsigned long)NANO_SECONDS(c_iop->t.time)); } } void trace_complete(struct io *c_iop) { if (c_iop->t.bytes == 0) return; if (io_setup(c_iop, IOP_C)) handle_complete(c_iop); io_release(c_iop); }