/* * GPL HEADER START * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 only, * as published by the Free Software Foundation. * * 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 version 2 for more details (a copy is included * in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU General Public License * version 2 along with this program; If not, see * http://www.sun.com/software/products/lustre/docs/GPLv2.pdf * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. * * GPL HEADER END */ /* * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. * Use is subject to license terms. * * Copyright (c) 2012, Intel Corporation. */ /* * This file is part of Lustre, http://www.lustre.org/ * Lustre is a trademark of Sun Microsystems, Inc. * * libcfs/libcfs/tracefile.c * * Author: Zach Brown * Author: Phil Schwan */ #define DEBUG_SUBSYSTEM S_LNET #define LUSTRE_TRACEFILE_PRIVATE #include "tracefile.h" #include /* XXX move things up to the top, comment */ union cfs_trace_data_union (*cfs_trace_data[TCD_MAX_TYPES])[CFS_NR_CPUS] __cacheline_aligned; char cfs_tracefile[TRACEFILE_NAME_SIZE]; long long cfs_tracefile_size = CFS_TRACEFILE_SIZE; static struct tracefiled_ctl trace_tctl; struct mutex cfs_trace_thread_mutex; static int thread_running = 0; cfs_atomic_t cfs_tage_allocated = CFS_ATOMIC_INIT(0); static void put_pages_on_tcd_daemon_list(struct page_collection *pc, struct cfs_trace_cpu_data *tcd); static inline struct cfs_trace_page * cfs_tage_from_list(cfs_list_t *list) { return cfs_list_entry(list, struct cfs_trace_page, linkage); } static struct cfs_trace_page *cfs_tage_alloc(int gfp) { cfs_page_t *page; struct cfs_trace_page *tage; /* My caller is trying to free memory */ if (!cfs_in_interrupt() && cfs_memory_pressure_get()) return NULL; /* * Don't spam console with allocation failures: they will be reported * by upper layer anyway. */ gfp |= CFS_ALLOC_NOWARN; page = cfs_alloc_page(gfp); if (page == NULL) return NULL; tage = cfs_alloc(sizeof(*tage), gfp); if (tage == NULL) { cfs_free_page(page); return NULL; } tage->page = page; cfs_atomic_inc(&cfs_tage_allocated); return tage; } static void cfs_tage_free(struct cfs_trace_page *tage) { __LASSERT(tage != NULL); __LASSERT(tage->page != NULL); cfs_free_page(tage->page); cfs_free(tage); cfs_atomic_dec(&cfs_tage_allocated); } static void cfs_tage_to_tail(struct cfs_trace_page *tage, cfs_list_t *queue) { __LASSERT(tage != NULL); __LASSERT(queue != NULL); cfs_list_move_tail(&tage->linkage, queue); } int cfs_trace_refill_stock(struct cfs_trace_cpu_data *tcd, int gfp, cfs_list_t *stock) { int i; /* * XXX nikita: do NOT call portals_debug_msg() (CDEBUG/ENTRY/EXIT) * from here: this will lead to infinite recursion. */ for (i = 0; i + tcd->tcd_cur_stock_pages < TCD_STOCK_PAGES ; ++ i) { struct cfs_trace_page *tage; tage = cfs_tage_alloc(gfp); if (tage == NULL) break; cfs_list_add_tail(&tage->linkage, stock); } return i; } /* return a page that has 'len' bytes left at the end */ static struct cfs_trace_page * cfs_trace_get_tage_try(struct cfs_trace_cpu_data *tcd, unsigned long len) { struct cfs_trace_page *tage; if (tcd->tcd_cur_pages > 0) { __LASSERT(!cfs_list_empty(&tcd->tcd_pages)); tage = cfs_tage_from_list(tcd->tcd_pages.prev); if (tage->used + len <= CFS_PAGE_SIZE) return tage; } if (tcd->tcd_cur_pages < tcd->tcd_max_pages) { if (tcd->tcd_cur_stock_pages > 0) { tage = cfs_tage_from_list(tcd->tcd_stock_pages.prev); -- tcd->tcd_cur_stock_pages; cfs_list_del_init(&tage->linkage); } else { tage = cfs_tage_alloc(CFS_ALLOC_ATOMIC); if (tage == NULL) { if (printk_ratelimit()) printk(CFS_KERN_WARNING "cannot allocate a tage (%ld)\n", tcd->tcd_cur_pages); return NULL; } } tage->used = 0; tage->cpu = cfs_smp_processor_id(); tage->type = tcd->tcd_type; cfs_list_add_tail(&tage->linkage, &tcd->tcd_pages); tcd->tcd_cur_pages++; if (tcd->tcd_cur_pages > 8 && thread_running) { struct tracefiled_ctl *tctl = &trace_tctl; /* * wake up tracefiled to process some pages. */ cfs_waitq_signal(&tctl->tctl_waitq); } return tage; } return NULL; } static void cfs_tcd_shrink(struct cfs_trace_cpu_data *tcd) { int pgcount = tcd->tcd_cur_pages / 10; struct page_collection pc; struct cfs_trace_page *tage; struct cfs_trace_page *tmp; /* * XXX nikita: do NOT call portals_debug_msg() (CDEBUG/ENTRY/EXIT) * from here: this will lead to infinite recursion. */ if (printk_ratelimit()) printk(CFS_KERN_WARNING "debug daemon buffer overflowed; " "discarding 10%% of pages (%d of %ld)\n", pgcount + 1, tcd->tcd_cur_pages); CFS_INIT_LIST_HEAD(&pc.pc_pages); spin_lock_init(&pc.pc_lock); cfs_list_for_each_entry_safe_typed(tage, tmp, &tcd->tcd_pages, struct cfs_trace_page, linkage) { if (pgcount-- == 0) break; cfs_list_move_tail(&tage->linkage, &pc.pc_pages); tcd->tcd_cur_pages--; } put_pages_on_tcd_daemon_list(&pc, tcd); } /* return a page that has 'len' bytes left at the end */ static struct cfs_trace_page *cfs_trace_get_tage(struct cfs_trace_cpu_data *tcd, unsigned long len) { struct cfs_trace_page *tage; /* * XXX nikita: do NOT call portals_debug_msg() (CDEBUG/ENTRY/EXIT) * from here: this will lead to infinite recursion. */ if (len > CFS_PAGE_SIZE) { printk(CFS_KERN_ERR "cowardly refusing to write %lu bytes in a page\n", len); return NULL; } tage = cfs_trace_get_tage_try(tcd, len); if (tage != NULL) return tage; if (thread_running) cfs_tcd_shrink(tcd); if (tcd->tcd_cur_pages > 0) { tage = cfs_tage_from_list(tcd->tcd_pages.next); tage->used = 0; cfs_tage_to_tail(tage, &tcd->tcd_pages); } return tage; } int libcfs_debug_msg(struct libcfs_debug_msg_data *msgdata, const char *format, ...) { va_list args; int rc; va_start(args, format); rc = libcfs_debug_vmsg2(msgdata, format, args, NULL); va_end(args); return rc; } EXPORT_SYMBOL(libcfs_debug_msg); int libcfs_debug_vmsg2(struct libcfs_debug_msg_data *msgdata, const char *format1, va_list args, const char *format2, ...) { struct cfs_trace_cpu_data *tcd = NULL; struct ptldebug_header header = {0}; struct cfs_trace_page *tage; /* string_buf is used only if tcd != NULL, and is always set then */ char *string_buf = NULL; char *debug_buf; int known_size; int needed = 85; /* average message length */ int max_nob; va_list ap; int depth; int i; int remain; int mask = msgdata->msg_mask; char *file = (char *)msgdata->msg_file; cfs_debug_limit_state_t *cdls = msgdata->msg_cdls; if (strchr(file, '/')) file = strrchr(file, '/') + 1; tcd = cfs_trace_get_tcd(); /* cfs_trace_get_tcd() grabs a lock, which disables preemption and * pins us to a particular CPU. This avoids an smp_processor_id() * warning on Linux when debugging is enabled. */ cfs_set_ptldebug_header(&header, msgdata, CDEBUG_STACK()); if (tcd == NULL) /* arch may not log in IRQ context */ goto console; if (tcd->tcd_cur_pages == 0) header.ph_flags |= PH_FLAG_FIRST_RECORD; if (tcd->tcd_shutting_down) { cfs_trace_put_tcd(tcd); tcd = NULL; goto console; } depth = __current_nesting_level(); known_size = strlen(file) + 1 + depth; if (msgdata->msg_fn) known_size += strlen(msgdata->msg_fn) + 1; if (libcfs_debug_binary) known_size += sizeof(header); /*/ * '2' used because vsnprintf return real size required for output * _without_ terminating NULL. * if needed is to small for this format. */ for (i = 0; i < 2; i++) { tage = cfs_trace_get_tage(tcd, needed + known_size + 1); if (tage == NULL) { if (needed + known_size > CFS_PAGE_SIZE) mask |= D_ERROR; cfs_trace_put_tcd(tcd); tcd = NULL; goto console; } string_buf = (char *)cfs_page_address(tage->page) + tage->used + known_size; max_nob = CFS_PAGE_SIZE - tage->used - known_size; if (max_nob <= 0) { printk(CFS_KERN_EMERG "negative max_nob: %d\n", max_nob); mask |= D_ERROR; cfs_trace_put_tcd(tcd); tcd = NULL; goto console; } needed = 0; if (format1) { va_copy(ap, args); needed = vsnprintf(string_buf, max_nob, format1, ap); va_end(ap); } if (format2) { remain = max_nob - needed; if (remain < 0) remain = 0; va_start(ap, format2); needed += vsnprintf(string_buf + needed, remain, format2, ap); va_end(ap); } if (needed < max_nob) /* well. printing ok.. */ break; } if (*(string_buf+needed-1) != '\n') printk(CFS_KERN_INFO "format at %s:%d:%s doesn't end in " "newline\n", file, msgdata->msg_line, msgdata->msg_fn); header.ph_len = known_size + needed; debug_buf = (char *)cfs_page_address(tage->page) + tage->used; if (libcfs_debug_binary) { memcpy(debug_buf, &header, sizeof(header)); tage->used += sizeof(header); debug_buf += sizeof(header); } /* indent message according to the nesting level */ while (depth-- > 0) { *(debug_buf++) = '.'; ++ tage->used; } strcpy(debug_buf, file); tage->used += strlen(file) + 1; debug_buf += strlen(file) + 1; if (msgdata->msg_fn) { strcpy(debug_buf, msgdata->msg_fn); tage->used += strlen(msgdata->msg_fn) + 1; debug_buf += strlen(msgdata->msg_fn) + 1; } __LASSERT(debug_buf == string_buf); tage->used += needed; __LASSERT (tage->used <= CFS_PAGE_SIZE); console: if ((mask & libcfs_printk) == 0) { /* no console output requested */ if (tcd != NULL) cfs_trace_put_tcd(tcd); return 1; } if (cdls != NULL) { if (libcfs_console_ratelimit && cdls->cdls_next != 0 && /* not first time ever */ !cfs_time_after(cfs_time_current(), cdls->cdls_next)) { /* skipping a console message */ cdls->cdls_count++; if (tcd != NULL) cfs_trace_put_tcd(tcd); return 1; } if (cfs_time_after(cfs_time_current(), cdls->cdls_next + libcfs_console_max_delay + cfs_time_seconds(10))) { /* last timeout was a long time ago */ cdls->cdls_delay /= libcfs_console_backoff * 4; } else { cdls->cdls_delay *= libcfs_console_backoff; if (cdls->cdls_delay < libcfs_console_min_delay) cdls->cdls_delay = libcfs_console_min_delay; else if (cdls->cdls_delay > libcfs_console_max_delay) cdls->cdls_delay = libcfs_console_max_delay; } /* ensure cdls_next is never zero after it's been seen */ cdls->cdls_next = (cfs_time_current() + cdls->cdls_delay) | 1; } if (tcd != NULL) { cfs_print_to_console(&header, mask, string_buf, needed, file, msgdata->msg_fn); cfs_trace_put_tcd(tcd); } else { string_buf = cfs_trace_get_console_buffer(); needed = 0; if (format1 != NULL) { va_copy(ap, args); needed = vsnprintf(string_buf, CFS_TRACE_CONSOLE_BUFFER_SIZE, format1, ap); va_end(ap); } if (format2 != NULL) { remain = CFS_TRACE_CONSOLE_BUFFER_SIZE - needed; if (remain > 0) { va_start(ap, format2); needed += vsnprintf(string_buf+needed, remain, format2, ap); va_end(ap); } } cfs_print_to_console(&header, mask, string_buf, needed, file, msgdata->msg_fn); cfs_trace_put_console_buffer(string_buf); } if (cdls != NULL && cdls->cdls_count != 0) { string_buf = cfs_trace_get_console_buffer(); needed = snprintf(string_buf, CFS_TRACE_CONSOLE_BUFFER_SIZE, "Skipped %d previous similar message%s\n", cdls->cdls_count, (cdls->cdls_count > 1) ? "s" : ""); cfs_print_to_console(&header, mask, string_buf, needed, file, msgdata->msg_fn); cfs_trace_put_console_buffer(string_buf); cdls->cdls_count = 0; } return 0; } EXPORT_SYMBOL(libcfs_debug_vmsg2); void cfs_trace_assertion_failed(const char *str, struct libcfs_debug_msg_data *msgdata) { struct ptldebug_header hdr; libcfs_panic_in_progress = 1; libcfs_catastrophe = 1; cfs_mb(); cfs_set_ptldebug_header(&hdr, msgdata, CDEBUG_STACK()); cfs_print_to_console(&hdr, D_EMERG, str, strlen(str), msgdata->msg_file, msgdata->msg_fn); LIBCFS_PANIC("Lustre debug assertion failure\n"); /* not reached */ } static void panic_collect_pages(struct page_collection *pc) { /* Do the collect_pages job on a single CPU: assumes that all other * CPUs have been stopped during a panic. If this isn't true for some * arch, this will have to be implemented separately in each arch. */ int i; int j; struct cfs_trace_cpu_data *tcd; CFS_INIT_LIST_HEAD(&pc->pc_pages); cfs_tcd_for_each(tcd, i, j) { cfs_list_splice_init(&tcd->tcd_pages, &pc->pc_pages); tcd->tcd_cur_pages = 0; if (pc->pc_want_daemon_pages) { cfs_list_splice_init(&tcd->tcd_daemon_pages, &pc->pc_pages); tcd->tcd_cur_daemon_pages = 0; } } } static void collect_pages_on_all_cpus(struct page_collection *pc) { struct cfs_trace_cpu_data *tcd; int i, cpu; spin_lock(&pc->pc_lock); cfs_for_each_possible_cpu(cpu) { cfs_tcd_for_each_type_lock(tcd, i, cpu) { cfs_list_splice_init(&tcd->tcd_pages, &pc->pc_pages); tcd->tcd_cur_pages = 0; if (pc->pc_want_daemon_pages) { cfs_list_splice_init(&tcd->tcd_daemon_pages, &pc->pc_pages); tcd->tcd_cur_daemon_pages = 0; } } } spin_unlock(&pc->pc_lock); } static void collect_pages(struct page_collection *pc) { CFS_INIT_LIST_HEAD(&pc->pc_pages); if (libcfs_panic_in_progress) panic_collect_pages(pc); else collect_pages_on_all_cpus(pc); } static void put_pages_back_on_all_cpus(struct page_collection *pc) { struct cfs_trace_cpu_data *tcd; cfs_list_t *cur_head; struct cfs_trace_page *tage; struct cfs_trace_page *tmp; int i, cpu; spin_lock(&pc->pc_lock); cfs_for_each_possible_cpu(cpu) { cfs_tcd_for_each_type_lock(tcd, i, cpu) { cur_head = tcd->tcd_pages.next; cfs_list_for_each_entry_safe_typed(tage, tmp, &pc->pc_pages, struct cfs_trace_page, linkage) { __LASSERT_TAGE_INVARIANT(tage); if (tage->cpu != cpu || tage->type != i) continue; cfs_tage_to_tail(tage, cur_head); tcd->tcd_cur_pages++; } } } spin_unlock(&pc->pc_lock); } static void put_pages_back(struct page_collection *pc) { if (!libcfs_panic_in_progress) put_pages_back_on_all_cpus(pc); } /* Add pages to a per-cpu debug daemon ringbuffer. This buffer makes sure that * we have a good amount of data at all times for dumping during an LBUG, even * if we have been steadily writing (and otherwise discarding) pages via the * debug daemon. */ static void put_pages_on_tcd_daemon_list(struct page_collection *pc, struct cfs_trace_cpu_data *tcd) { struct cfs_trace_page *tage; struct cfs_trace_page *tmp; spin_lock(&pc->pc_lock); cfs_list_for_each_entry_safe_typed(tage, tmp, &pc->pc_pages, struct cfs_trace_page, linkage) { __LASSERT_TAGE_INVARIANT(tage); if (tage->cpu != tcd->tcd_cpu || tage->type != tcd->tcd_type) continue; cfs_tage_to_tail(tage, &tcd->tcd_daemon_pages); tcd->tcd_cur_daemon_pages++; if (tcd->tcd_cur_daemon_pages > tcd->tcd_max_pages) { struct cfs_trace_page *victim; __LASSERT(!cfs_list_empty(&tcd->tcd_daemon_pages)); victim = cfs_tage_from_list(tcd->tcd_daemon_pages.next); __LASSERT_TAGE_INVARIANT(victim); cfs_list_del(&victim->linkage); cfs_tage_free(victim); tcd->tcd_cur_daemon_pages--; } } spin_unlock(&pc->pc_lock); } static void put_pages_on_daemon_list(struct page_collection *pc) { struct cfs_trace_cpu_data *tcd; int i, cpu; cfs_for_each_possible_cpu(cpu) { cfs_tcd_for_each_type_lock(tcd, i, cpu) put_pages_on_tcd_daemon_list(pc, tcd); } } void cfs_trace_debug_print(void) { struct page_collection pc; struct cfs_trace_page *tage; struct cfs_trace_page *tmp; spin_lock_init(&pc.pc_lock); pc.pc_want_daemon_pages = 1; collect_pages(&pc); cfs_list_for_each_entry_safe_typed(tage, tmp, &pc.pc_pages, struct cfs_trace_page, linkage) { char *p, *file, *fn; cfs_page_t *page; __LASSERT_TAGE_INVARIANT(tage); page = tage->page; p = cfs_page_address(page); while (p < ((char *)cfs_page_address(page) + tage->used)) { struct ptldebug_header *hdr; int len; hdr = (void *)p; p += sizeof(*hdr); file = p; p += strlen(file) + 1; fn = p; p += strlen(fn) + 1; len = hdr->ph_len - (int)(p - (char *)hdr); cfs_print_to_console(hdr, D_EMERG, p, len, file, fn); p += len; } cfs_list_del(&tage->linkage); cfs_tage_free(tage); } } int cfs_tracefile_dump_all_pages(char *filename) { struct page_collection pc; cfs_file_t *filp; struct cfs_trace_page *tage; struct cfs_trace_page *tmp; int rc; CFS_DECL_MMSPACE; cfs_tracefile_write_lock(); filp = cfs_filp_open(filename, O_CREAT|O_EXCL|O_WRONLY|O_LARGEFILE, 0600, &rc); if (!filp) { if (rc != -EEXIST) printk(CFS_KERN_ERR "LustreError: can't open %s for dump: rc %d\n", filename, rc); goto out; } spin_lock_init(&pc.pc_lock); pc.pc_want_daemon_pages = 1; collect_pages(&pc); if (cfs_list_empty(&pc.pc_pages)) { rc = 0; goto close; } /* ok, for now, just write the pages. in the future we'll be building * iobufs with the pages and calling generic_direct_IO */ CFS_MMSPACE_OPEN; cfs_list_for_each_entry_safe_typed(tage, tmp, &pc.pc_pages, struct cfs_trace_page, linkage) { __LASSERT_TAGE_INVARIANT(tage); rc = cfs_filp_write(filp, cfs_page_address(tage->page), tage->used, cfs_filp_poff(filp)); if (rc != (int)tage->used) { printk(CFS_KERN_WARNING "wanted to write %u but wrote " "%d\n", tage->used, rc); put_pages_back(&pc); __LASSERT(cfs_list_empty(&pc.pc_pages)); break; } cfs_list_del(&tage->linkage); cfs_tage_free(tage); } CFS_MMSPACE_CLOSE; rc = cfs_filp_fsync(filp); if (rc) printk(CFS_KERN_ERR "sync returns %d\n", rc); close: cfs_filp_close(filp); out: cfs_tracefile_write_unlock(); return rc; } void cfs_trace_flush_pages(void) { struct page_collection pc; struct cfs_trace_page *tage; struct cfs_trace_page *tmp; spin_lock_init(&pc.pc_lock); pc.pc_want_daemon_pages = 1; collect_pages(&pc); cfs_list_for_each_entry_safe_typed(tage, tmp, &pc.pc_pages, struct cfs_trace_page, linkage) { __LASSERT_TAGE_INVARIANT(tage); cfs_list_del(&tage->linkage); cfs_tage_free(tage); } } int cfs_trace_copyin_string(char *knl_buffer, int knl_buffer_nob, const char *usr_buffer, int usr_buffer_nob) { int nob; if (usr_buffer_nob > knl_buffer_nob) return -EOVERFLOW; if (cfs_copy_from_user((void *)knl_buffer, (void *)usr_buffer, usr_buffer_nob)) return -EFAULT; nob = strnlen(knl_buffer, usr_buffer_nob); while (nob-- >= 0) /* strip trailing whitespace */ if (!isspace(knl_buffer[nob])) break; if (nob < 0) /* empty string */ return -EINVAL; if (nob == knl_buffer_nob) /* no space to terminate */ return -EOVERFLOW; knl_buffer[nob + 1] = 0; /* terminate */ return 0; } EXPORT_SYMBOL(cfs_trace_copyin_string); int cfs_trace_copyout_string(char *usr_buffer, int usr_buffer_nob, const char *knl_buffer, char *append) { /* NB if 'append' != NULL, it's a single character to append to the * copied out string - usually "\n", for /proc entries and "" (i.e. a * terminating zero byte) for sysctl entries */ int nob = strlen(knl_buffer); if (nob > usr_buffer_nob) nob = usr_buffer_nob; if (cfs_copy_to_user(usr_buffer, knl_buffer, nob)) return -EFAULT; if (append != NULL && nob < usr_buffer_nob) { if (cfs_copy_to_user(usr_buffer + nob, append, 1)) return -EFAULT; nob++; } return nob; } EXPORT_SYMBOL(cfs_trace_copyout_string); int cfs_trace_allocate_string_buffer(char **str, int nob) { if (nob > 2 * CFS_PAGE_SIZE) /* string must be "sensible" */ return -EINVAL; *str = cfs_alloc(nob, CFS_ALLOC_STD | CFS_ALLOC_ZERO); if (*str == NULL) return -ENOMEM; return 0; } void cfs_trace_free_string_buffer(char *str, int nob) { cfs_free(str); } int cfs_trace_dump_debug_buffer_usrstr(void *usr_str, int usr_str_nob) { char *str; int rc; rc = cfs_trace_allocate_string_buffer(&str, usr_str_nob + 1); if (rc != 0) return rc; rc = cfs_trace_copyin_string(str, usr_str_nob + 1, usr_str, usr_str_nob); if (rc != 0) goto out; #if !defined(__WINNT__) if (str[0] != '/') { rc = -EINVAL; goto out; } #endif rc = cfs_tracefile_dump_all_pages(str); out: cfs_trace_free_string_buffer(str, usr_str_nob + 1); return rc; } int cfs_trace_daemon_command(char *str) { int rc = 0; cfs_tracefile_write_lock(); if (strcmp(str, "stop") == 0) { cfs_tracefile_write_unlock(); cfs_trace_stop_thread(); cfs_tracefile_write_lock(); memset(cfs_tracefile, 0, sizeof(cfs_tracefile)); } else if (strncmp(str, "size=", 5) == 0) { cfs_tracefile_size = simple_strtoul(str + 5, NULL, 0); if (cfs_tracefile_size < 10 || cfs_tracefile_size > 20480) cfs_tracefile_size = CFS_TRACEFILE_SIZE; else cfs_tracefile_size <<= 20; } else if (strlen(str) >= sizeof(cfs_tracefile)) { rc = -ENAMETOOLONG; #ifndef __WINNT__ } else if (str[0] != '/') { rc = -EINVAL; #endif } else { strcpy(cfs_tracefile, str); printk(CFS_KERN_INFO "Lustre: debug daemon will attempt to start writing " "to %s (%lukB max)\n", cfs_tracefile, (long)(cfs_tracefile_size >> 10)); cfs_trace_start_thread(); } cfs_tracefile_write_unlock(); return rc; } int cfs_trace_daemon_command_usrstr(void *usr_str, int usr_str_nob) { char *str; int rc; rc = cfs_trace_allocate_string_buffer(&str, usr_str_nob + 1); if (rc != 0) return rc; rc = cfs_trace_copyin_string(str, usr_str_nob + 1, usr_str, usr_str_nob); if (rc == 0) rc = cfs_trace_daemon_command(str); cfs_trace_free_string_buffer(str, usr_str_nob + 1); return rc; } int cfs_trace_set_debug_mb(int mb) { int i; int j; int pages; int limit = cfs_trace_max_debug_mb(); struct cfs_trace_cpu_data *tcd; if (mb < cfs_num_possible_cpus()) { printk(CFS_KERN_WARNING "Lustre: %d MB is too small for debug buffer size, " "setting it to %d MB.\n", mb, cfs_num_possible_cpus()); mb = cfs_num_possible_cpus(); } if (mb > limit) { printk(CFS_KERN_WARNING "Lustre: %d MB is too large for debug buffer size, " "setting it to %d MB.\n", mb, limit); mb = limit; } mb /= cfs_num_possible_cpus(); pages = mb << (20 - CFS_PAGE_SHIFT); cfs_tracefile_write_lock(); cfs_tcd_for_each(tcd, i, j) tcd->tcd_max_pages = (pages * tcd->tcd_pages_factor) / 100; cfs_tracefile_write_unlock(); return 0; } int cfs_trace_set_debug_mb_usrstr(void *usr_str, int usr_str_nob) { char str[32]; int rc; rc = cfs_trace_copyin_string(str, sizeof(str), usr_str, usr_str_nob); if (rc < 0) return rc; return cfs_trace_set_debug_mb(simple_strtoul(str, NULL, 0)); } int cfs_trace_get_debug_mb(void) { int i; int j; struct cfs_trace_cpu_data *tcd; int total_pages = 0; cfs_tracefile_read_lock(); cfs_tcd_for_each(tcd, i, j) total_pages += tcd->tcd_max_pages; cfs_tracefile_read_unlock(); return (total_pages >> (20 - CFS_PAGE_SHIFT)) + 1; } static int tracefiled(void *arg) { struct page_collection pc; struct tracefiled_ctl *tctl = arg; struct cfs_trace_page *tage; struct cfs_trace_page *tmp; cfs_file_t *filp; int last_loop = 0; int rc; CFS_DECL_MMSPACE; /* we're started late enough that we pick up init's fs context */ /* this is so broken in uml? what on earth is going on? */ cfs_daemonize("ktracefiled"); spin_lock_init(&pc.pc_lock); complete(&tctl->tctl_start); while (1) { cfs_waitlink_t __wait; pc.pc_want_daemon_pages = 0; collect_pages(&pc); if (cfs_list_empty(&pc.pc_pages)) goto end_loop; filp = NULL; cfs_tracefile_read_lock(); if (cfs_tracefile[0] != 0) { filp = cfs_filp_open(cfs_tracefile, O_CREAT | O_RDWR | O_LARGEFILE, 0600, &rc); if (!(filp)) printk(CFS_KERN_WARNING "couldn't open %s: " "%d\n", cfs_tracefile, rc); } cfs_tracefile_read_unlock(); if (filp == NULL) { put_pages_on_daemon_list(&pc); __LASSERT(cfs_list_empty(&pc.pc_pages)); goto end_loop; } CFS_MMSPACE_OPEN; cfs_list_for_each_entry_safe_typed(tage, tmp, &pc.pc_pages, struct cfs_trace_page, linkage) { static loff_t f_pos; __LASSERT_TAGE_INVARIANT(tage); if (f_pos >= (off_t)cfs_tracefile_size) f_pos = 0; else if (f_pos > (off_t)cfs_filp_size(filp)) f_pos = cfs_filp_size(filp); rc = cfs_filp_write(filp, cfs_page_address(tage->page), tage->used, &f_pos); if (rc != (int)tage->used) { printk(CFS_KERN_WARNING "wanted to write %u " "but wrote %d\n", tage->used, rc); put_pages_back(&pc); __LASSERT(cfs_list_empty(&pc.pc_pages)); } } CFS_MMSPACE_CLOSE; cfs_filp_close(filp); put_pages_on_daemon_list(&pc); if (!cfs_list_empty(&pc.pc_pages)) { int i; printk(CFS_KERN_ALERT "Lustre: trace pages aren't " " empty\n"); printk(CFS_KERN_ERR "total cpus(%d): ", cfs_num_possible_cpus()); for (i = 0; i < cfs_num_possible_cpus(); i++) if (cpu_online(i)) printk(CFS_KERN_ERR "%d(on) ", i); else printk(CFS_KERN_ERR "%d(off) ", i); printk(CFS_KERN_ERR "\n"); i = 0; cfs_list_for_each_entry_safe(tage, tmp, &pc.pc_pages, linkage) printk(CFS_KERN_ERR "page %d belongs to cpu " "%d\n", ++i, tage->cpu); printk(CFS_KERN_ERR "There are %d pages unwritten\n", i); } __LASSERT(cfs_list_empty(&pc.pc_pages)); end_loop: if (cfs_atomic_read(&tctl->tctl_shutdown)) { if (last_loop == 0) { last_loop = 1; continue; } else { break; } } cfs_waitlink_init(&__wait); cfs_waitq_add(&tctl->tctl_waitq, &__wait); cfs_set_current_state(CFS_TASK_INTERRUPTIBLE); cfs_waitq_timedwait(&__wait, CFS_TASK_INTERRUPTIBLE, cfs_time_seconds(1)); cfs_waitq_del(&tctl->tctl_waitq, &__wait); } complete(&tctl->tctl_stop); return 0; } int cfs_trace_start_thread(void) { struct tracefiled_ctl *tctl = &trace_tctl; int rc = 0; mutex_lock(&cfs_trace_thread_mutex); if (thread_running) goto out; init_completion(&tctl->tctl_start); init_completion(&tctl->tctl_stop); cfs_waitq_init(&tctl->tctl_waitq); cfs_atomic_set(&tctl->tctl_shutdown, 0); if (cfs_create_thread(tracefiled, tctl, 0) < 0) { rc = -ECHILD; goto out; } wait_for_completion(&tctl->tctl_start); thread_running = 1; out: mutex_unlock(&cfs_trace_thread_mutex); return rc; } void cfs_trace_stop_thread(void) { struct tracefiled_ctl *tctl = &trace_tctl; mutex_lock(&cfs_trace_thread_mutex); if (thread_running) { printk(CFS_KERN_INFO "Lustre: shutting down debug daemon thread...\n"); cfs_atomic_set(&tctl->tctl_shutdown, 1); wait_for_completion(&tctl->tctl_stop); thread_running = 0; } mutex_unlock(&cfs_trace_thread_mutex); } int cfs_tracefile_init(int max_pages) { struct cfs_trace_cpu_data *tcd; int i; int j; int rc; int factor; rc = cfs_tracefile_init_arch(); if (rc != 0) return rc; cfs_tcd_for_each(tcd, i, j) { /* tcd_pages_factor is initialized int tracefile_init_arch. */ factor = tcd->tcd_pages_factor; CFS_INIT_LIST_HEAD(&tcd->tcd_pages); CFS_INIT_LIST_HEAD(&tcd->tcd_stock_pages); CFS_INIT_LIST_HEAD(&tcd->tcd_daemon_pages); tcd->tcd_cur_pages = 0; tcd->tcd_cur_stock_pages = 0; tcd->tcd_cur_daemon_pages = 0; tcd->tcd_max_pages = (max_pages * factor) / 100; LASSERT(tcd->tcd_max_pages > 0); tcd->tcd_shutting_down = 0; } return 0; } static void trace_cleanup_on_all_cpus(void) { struct cfs_trace_cpu_data *tcd; struct cfs_trace_page *tage; struct cfs_trace_page *tmp; int i, cpu; cfs_for_each_possible_cpu(cpu) { cfs_tcd_for_each_type_lock(tcd, i, cpu) { tcd->tcd_shutting_down = 1; cfs_list_for_each_entry_safe_typed(tage, tmp, &tcd->tcd_pages, struct cfs_trace_page, linkage) { __LASSERT_TAGE_INVARIANT(tage); cfs_list_del(&tage->linkage); cfs_tage_free(tage); } tcd->tcd_cur_pages = 0; } } } static void cfs_trace_cleanup(void) { struct page_collection pc; CFS_INIT_LIST_HEAD(&pc.pc_pages); spin_lock_init(&pc.pc_lock); trace_cleanup_on_all_cpus(); cfs_tracefile_fini_arch(); } void cfs_tracefile_exit(void) { cfs_trace_stop_thread(); cfs_trace_cleanup(); }