/* * Copyright (C) 2003-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2011 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser 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 "lib.h" #include "memlock.h" #include "defaults.h" #include "config.h" #include "toolcontext.h" #include #include #include #include #include #include #ifndef DEVMAPPER_SUPPORT void memlock_inc_daemon(struct cmd_context *cmd) { return; } void memlock_dec_daemon(struct cmd_context *cmd) { return; } void critical_section_inc(struct cmd_context *cmd, const char *reason) { return; } void critical_section_dec(struct cmd_context *cmd, const char *reason) { return; } int critical_section(void) { return 0; } void memlock_init(struct cmd_context *cmd) { return; } void memlock_unlock(struct cmd_context *cmd) { return; } void memlock_reset(void) { return; } #else /* DEVMAPPER_SUPPORT */ static size_t _size_stack; static size_t _size_malloc_tmp; static size_t _size_malloc = 2000000; static void *_malloc_mem = NULL; static int _mem_locked = 0; static int _critical_section = 0; static int _memlock_count_daemon = 0; static int _priority; static int _default_priority; /* list of maps, that are unconditionaly ignored */ static const char * const _ignore_maps[] = { "[vdso]", "[vsyscall]", "[vectors]", }; /* default blacklist for maps */ static const char * const _blacklist_maps[] = { "locale/locale-archive", "/LC_MESSAGES/", "gconv/gconv-modules.cache", "/libreadline.so.", /* not using readline during mlock */ "/libncurses.so.", /* not using readline during mlock */ "/libtinfo.so.", /* not using readline during mlock */ "/libdl-", /* not using dlopen,dlsym during mlock */ /* "/libdevmapper-event.so" */ }; typedef enum { LVM_MLOCK, LVM_MUNLOCK } lvmlock_t; static unsigned _use_mlockall; static int _maps_fd; static size_t _maps_len = 8192; /* Initial buffer size for reading /proc/self/maps */ static char *_maps_buffer; static char _procselfmaps[PATH_MAX] = ""; #define SELF_MAPS "/self/maps" static size_t _mstats; /* statistic for maps locking */ static void _touch_memory(void *mem, size_t size) { size_t pagesize = lvm_getpagesize(); char *pos = mem; char *end = pos + size - sizeof(long); while (pos < end) { *(long *) pos = 1; pos += pagesize; } } static void _allocate_memory(void) { void *stack_mem, *temp_malloc_mem; struct rlimit limit; /* Check if we could preallocate requested stack */ if ((getrlimit (RLIMIT_STACK, &limit) == 0) && ((_size_stack * 2) < limit.rlim_cur) && ((stack_mem = alloca(_size_stack)))) _touch_memory(stack_mem, _size_stack); /* FIXME else warn user setting got ignored */ if ((temp_malloc_mem = malloc(_size_malloc_tmp))) _touch_memory(temp_malloc_mem, _size_malloc_tmp); if ((_malloc_mem = malloc(_size_malloc))) _touch_memory(_malloc_mem, _size_malloc); free(temp_malloc_mem); } static void _release_memory(void) { free(_malloc_mem); } /* * mlock/munlock memory areas from /proc/self/maps * format described in kernel/Documentation/filesystem/proc.txt */ static int _maps_line(const struct dm_config_node *cn, lvmlock_t lock, const char *line, size_t *mstats) { const struct dm_config_value *cv; long from, to; int pos; unsigned i; char fr, fw, fx, fp; size_t sz; const char *lock_str = (lock == LVM_MLOCK) ? "mlock" : "munlock"; if (sscanf(line, "%lx-%lx %c%c%c%c%n", &from, &to, &fr, &fw, &fx, &fp, &pos) != 6) { log_error("Failed to parse maps line: %s", line); return 0; } /* Select readable maps */ if (fr != 'r') { log_debug_mem("%s area unreadable %s : Skipping.", lock_str, line); return 1; } /* always ignored areas */ for (i = 0; i < sizeof(_ignore_maps) / sizeof(_ignore_maps[0]); ++i) if (strstr(line + pos, _ignore_maps[i])) { log_debug_mem("%s ignore filter '%s' matches '%s': Skipping.", lock_str, _ignore_maps[i], line); return 1; } sz = to - from; if (!cn) { /* If no blacklist configured, use an internal set */ for (i = 0; i < sizeof(_blacklist_maps) / sizeof(_blacklist_maps[0]); ++i) if (strstr(line + pos, _blacklist_maps[i])) { log_debug_mem("%s default filter '%s' matches '%s': Skipping.", lock_str, _blacklist_maps[i], line); return 1; } } else { for (cv = cn->v; cv; cv = cv->next) { if ((cv->type != DM_CFG_STRING) || !cv->v.str[0]) continue; if (strstr(line + pos, cv->v.str)) { log_debug_mem("%s_filter '%s' matches '%s': Skipping.", lock_str, cv->v.str, line); return 1; } } } #ifdef VALGRIND_POOL /* * Valgrind is continually eating memory while executing code * so we need to deactivate check of locked memory size */ sz -= sz; /* = 0, but avoids getting warning about dead assigment */ #endif *mstats += sz; log_debug_mem("%s %10ldKiB %12lx - %12lx %c%c%c%c%s", lock_str, ((long)sz + 1023) / 1024, from, to, fr, fw, fx, fp, line + pos); if (lock == LVM_MLOCK) { if (mlock((const void*)from, sz) < 0) { log_sys_error("mlock", line); return 0; } } else { if (munlock((const void*)from, sz) < 0) { log_sys_error("munlock", line); return 0; } } return 1; } static int _memlock_maps(struct cmd_context *cmd, lvmlock_t lock, size_t *mstats) { const struct dm_config_node *cn; char *line, *line_end; size_t len; ssize_t n; int ret = 1; if (_use_mlockall) { #ifdef MCL_CURRENT if (lock == LVM_MLOCK) { if (mlockall(MCL_CURRENT | MCL_FUTURE)) { log_sys_error("mlockall", ""); return 0; } } else { if (munlockall()) { log_sys_error("munlockall", ""); return 0; } } return 1; #else return 0; #endif } /* Force libc.mo load */ if (lock == LVM_MLOCK) (void)strerror(0); /* Reset statistic counters */ *mstats = 0; /* read mapping into a single memory chunk without reallocation * in the middle of reading maps file */ for (len = 0;;) { if (!_maps_buffer || len >= _maps_len) { if (_maps_buffer) _maps_len *= 2; if (!(line = dm_realloc(_maps_buffer, _maps_len))) { log_error("Allocation of maps buffer failed."); return 0; } _maps_buffer = line; } if (lseek(_maps_fd, 0, SEEK_SET)) log_sys_error("lseek", _procselfmaps); for (len = 0 ; len < _maps_len; len += n) { if (!(n = read(_maps_fd, _maps_buffer + len, _maps_len - len))) break; /* EOF */ if (n == -1) { log_sys_error("read", _procselfmaps); return 0; } } if (len < _maps_len) { /* fits in buffer */ _maps_buffer[len] = '\0'; break; } } line = _maps_buffer; cn = find_config_tree_node(cmd, activation_mlock_filter_CFG, NULL); while ((line_end = strchr(line, '\n'))) { *line_end = '\0'; /* remove \n */ if (!_maps_line(cn, lock, line, mstats)) ret = 0; line = line_end + 1; } log_debug_mem("%socked %ld bytes", (lock == LVM_MLOCK) ? "L" : "Unl", (long)*mstats); return ret; } /* Stop memory getting swapped out */ static void _lock_mem(struct cmd_context *cmd) { _allocate_memory(); /* * For daemon we need to use mlockall() * so even future adition of thread which may not even use lvm lib * will not block memory locked thread * Note: assuming _memlock_count_daemon is updated before _memlock_count */ _use_mlockall = _memlock_count_daemon ? 1 : find_config_tree_bool(cmd, activation_use_mlockall_CFG, NULL); if (!_use_mlockall) { if (!*_procselfmaps && dm_snprintf(_procselfmaps, sizeof(_procselfmaps), "%s" SELF_MAPS, cmd->proc_dir) < 0) { log_error("proc_dir too long"); return; } if (!(_maps_fd = open(_procselfmaps, O_RDONLY))) { log_sys_error("open", _procselfmaps); return; } } log_very_verbose("Locking memory"); if (!_memlock_maps(cmd, LVM_MLOCK, &_mstats)) stack; errno = 0; if (((_priority = getpriority(PRIO_PROCESS, 0)) == -1) && errno) log_sys_error("getpriority", ""); else if (setpriority(PRIO_PROCESS, 0, _default_priority)) log_error("setpriority %d failed: %s", _default_priority, strerror(errno)); } static void _unlock_mem(struct cmd_context *cmd) { size_t unlock_mstats; log_very_verbose("Unlocking memory"); if (!_memlock_maps(cmd, LVM_MUNLOCK, &unlock_mstats)) stack; if (!_use_mlockall) { if (close(_maps_fd)) log_sys_error("close", _procselfmaps); dm_free(_maps_buffer); _maps_buffer = NULL; if (_mstats < unlock_mstats) { if ((_mstats + lvm_getpagesize()) < unlock_mstats) log_error(INTERNAL_ERROR "Reserved memory (%ld) not enough: used %ld. Increase activation/reserved_memory?", (long)_mstats, (long)unlock_mstats); else /* FIXME Believed due to incorrect use of yes_no_prompt while locks held */ log_debug_mem("Suppressed internal error: Maps lock %ld < unlock %ld, a one-page difference.", (long)_mstats, (long)unlock_mstats); } } if (setpriority(PRIO_PROCESS, 0, _priority)) log_error("setpriority %u failed: %s", _priority, strerror(errno)); _release_memory(); } static void _lock_mem_if_needed(struct cmd_context *cmd) { log_debug_mem("Lock: Memlock counters: locked:%d critical:%d daemon:%d suspended:%d", _mem_locked, _critical_section, _memlock_count_daemon, dm_get_suspended_counter()); if (!_mem_locked && ((_critical_section + _memlock_count_daemon) == 1)) { _mem_locked = 1; _lock_mem(cmd); } } static void _unlock_mem_if_possible(struct cmd_context *cmd) { log_debug_mem("Unlock: Memlock counters: locked:%d critical:%d daemon:%d suspended:%d", _mem_locked, _critical_section, _memlock_count_daemon, dm_get_suspended_counter()); if (_mem_locked && !_critical_section && !_memlock_count_daemon) { _unlock_mem(cmd); _mem_locked = 0; } } void critical_section_inc(struct cmd_context *cmd, const char *reason) { /* * Profiles are loaded on-demand so make sure that before * entering the critical section all needed profiles are * loaded to avoid the disk access later. */ load_pending_profiles(cmd); if (!_critical_section) { _critical_section = 1; log_debug_mem("Entering critical section (%s).", reason); } _lock_mem_if_needed(cmd); } void critical_section_dec(struct cmd_context *cmd, const char *reason) { if (_critical_section && !dm_get_suspended_counter()) { _critical_section = 0; log_debug_mem("Leaving critical section (%s).", reason); } } int critical_section(void) { return _critical_section; } /* * The memlock_*_daemon functions will force the mlockall() call that we need * to stay in memory, but they will have no effect on device scans (unlike * normal critical_section_inc/dec). Memory is kept locked as long as either * of critical_section or memlock_daemon is in effect. */ void memlock_inc_daemon(struct cmd_context *cmd) { ++_memlock_count_daemon; if (_memlock_count_daemon == 1 && _critical_section > 0) log_error(INTERNAL_ERROR "_memlock_inc_daemon used in critical section."); log_debug_mem("memlock_count_daemon inc to %d", _memlock_count_daemon); _lock_mem_if_needed(cmd); } void memlock_dec_daemon(struct cmd_context *cmd) { if (!_memlock_count_daemon) log_error(INTERNAL_ERROR "_memlock_count_daemon has dropped below 0."); --_memlock_count_daemon; log_debug_mem("memlock_count_daemon dec to %d", _memlock_count_daemon); _unlock_mem_if_possible(cmd); } void memlock_init(struct cmd_context *cmd) { /* When threaded, caller already limited stack size so just use the default. */ _size_stack = 1024ULL * (cmd->threaded ? DEFAULT_RESERVED_STACK : find_config_tree_int(cmd, activation_reserved_stack_CFG, NULL)); _size_malloc_tmp = find_config_tree_int(cmd, activation_reserved_memory_CFG, NULL) * 1024ULL; _default_priority = find_config_tree_int(cmd, activation_process_priority_CFG, NULL); } void memlock_reset(void) { log_debug_mem("memlock reset."); _mem_locked = 0; _critical_section = 0; _memlock_count_daemon = 0; } void memlock_unlock(struct cmd_context *cmd) { _unlock_mem_if_possible(cmd); } #endif