/* Hurd /proc filesystem, permanent files of the root directory. Copyright (C) 2010,13 Free Software Foundation, Inc. This file is part of the GNU Hurd. The GNU Hurd 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, or (at your option) any later version. The GNU Hurd 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "procfs.h" #include "procfs_dir.h" #include "main.h" #include "mach_debug_U.h" /* This implements a directory node with the static files in /proc. NB: the libps functions for host information return static storage; using them would require locking and as a consequence it would be more complicated, not simpler. */ /* Helper functions */ /* We get the boot time by using that of the kernel process. */ static error_t get_boottime (struct ps_context *pc, struct timeval *tv) { struct proc_stat *ps; error_t err; err = _proc_stat_create (opt_kernel_pid, pc, &ps); if (err) return err; err = proc_stat_set_flags (ps, PSTAT_TASK_BASIC); if (err || !(proc_stat_flags (ps) & PSTAT_TASK_BASIC)) err = EIO; if (! err) { task_basic_info_t tbi = proc_stat_task_basic_info (ps); tv->tv_sec = tbi->creation_time.seconds; tv->tv_usec = tbi->creation_time.microseconds; } _proc_stat_free (ps); return err; } /* We get the idle time by querying the kernel's idle thread. */ static error_t get_idletime (struct ps_context *pc, struct timeval *tv) { struct proc_stat *ps, *pst; thread_basic_info_t tbi; error_t err; int i; err = _proc_stat_create (opt_kernel_pid, pc, &ps); if (err) return err; pst = NULL, tbi = NULL; err = proc_stat_set_flags (ps, PSTAT_NUM_THREADS); if (err || !(proc_stat_flags (ps) & PSTAT_NUM_THREADS)) { err = EIO; goto out; } /* Look for the idle thread */ for (i=0; !tbi || !(tbi->flags & TH_FLAGS_IDLE); i++) { if (pst) _proc_stat_free (pst); pst = NULL, tbi = NULL; if (i >= proc_stat_num_threads (ps)) { err = ESRCH; goto out; } err = proc_stat_thread_create (ps, i, &pst); if (err) continue; err = proc_stat_set_flags (pst, PSTAT_THREAD_BASIC); if (err || ! (proc_stat_flags (pst) & PSTAT_THREAD_BASIC)) continue; tbi = proc_stat_thread_basic_info (pst); } /* We found it! */ tv->tv_sec = tbi->system_time.seconds; tv->tv_usec = tbi->system_time.microseconds; err = 0; out: if (pst) _proc_stat_free (pst); _proc_stat_free (ps); return err; } static error_t get_swapinfo (default_pager_info_t *info) { mach_port_t defpager; error_t err; defpager = file_name_lookup (_SERVERS_DEFPAGER, O_READ, 0); if (defpager == MACH_PORT_NULL) return errno; err = default_pager_info (defpager, info); mach_port_deallocate (mach_task_self (), defpager); return err; } /* Content generators */ static error_t rootdir_gc_version (void *hook, char **contents, ssize_t *contents_len) { struct utsname uts; int r; r = uname (&uts); if (r < 0) return errno; *contents_len = asprintf (contents, "Linux version 2.6.1 (%s %s %s %s)\n", uts.sysname, uts.release, uts.version, uts.machine); return 0; } static error_t rootdir_gc_uptime (void *hook, char **contents, ssize_t *contents_len) { struct timeval time, boottime, idletime; double up_secs, idle_secs; error_t err; err = gettimeofday (&time, NULL); if (err < 0) return errno; err = get_boottime (hook, &boottime); if (err) return err; err = get_idletime (hook, &idletime); if (err) return err; timersub (&time, &boottime, &time); up_secs = (time.tv_sec * 1000000. + time.tv_usec) / 1000000.; idle_secs = (idletime.tv_sec * 1000000. + idletime.tv_usec) / 1000000.; /* The second field is the total idle time. As far as I know we don't keep track of it. However, procps uses it to compute "USER_HZ", and proc(5) specifies that it should be equal to USER_HZ times the idle value in ticks from /proc/stat. So we assume a completely idle system both here and there to make that work. */ *contents_len = asprintf (contents, "%.2lf %.2lf\n", up_secs, idle_secs); return 0; } static error_t rootdir_gc_stat (void *hook, char **contents, ssize_t *contents_len) { struct timeval boottime, time, idletime; struct vm_statistics vmstats; unsigned long up_ticks, idle_ticks; error_t err; err = gettimeofday (&time, NULL); if (err < 0) return errno; err = get_boottime (hook, &boottime); if (err) return err; err = get_idletime (hook, &idletime); if (err) return err; err = vm_statistics (mach_task_self (), &vmstats); if (err) return EIO; timersub (&time, &boottime, &time); up_ticks = opt_clk_tck * (time.tv_sec * 1000000. + time.tv_usec) / 1000000.; idle_ticks = opt_clk_tck * (idletime.tv_sec * 1000000. + idletime.tv_usec) / 1000000.; *contents_len = asprintf (contents, "cpu %lu 0 0 %lu 0 0 0 0 0\n" "cpu0 %lu 0 0 %lu 0 0 0 0 0\n" "intr 0\n" "page %d %d\n" "btime %lu\n", up_ticks - idle_ticks, idle_ticks, up_ticks - idle_ticks, idle_ticks, vmstats.pageins, vmstats.pageouts, boottime.tv_sec); return 0; } static error_t rootdir_gc_loadavg (void *hook, char **contents, ssize_t *contents_len) { host_load_info_data_t hli; mach_msg_type_number_t cnt; error_t err; cnt = HOST_LOAD_INFO_COUNT; err = host_info (mach_host_self (), HOST_LOAD_INFO, (host_info_t) &hli, &cnt); if (err) return err; assert (cnt == HOST_LOAD_INFO_COUNT); *contents_len = asprintf (contents, "%.2f %.2f %.2f 1/0 0\n", hli.avenrun[0] / (double) LOAD_SCALE, hli.avenrun[1] / (double) LOAD_SCALE, hli.avenrun[2] / (double) LOAD_SCALE); return 0; } static error_t rootdir_gc_meminfo (void *hook, char **contents, ssize_t *contents_len) { host_basic_info_data_t hbi; mach_msg_type_number_t cnt; struct vm_statistics vmstats; struct vm_cache_statistics cache_stats; default_pager_info_t swap; error_t err; err = vm_statistics (mach_task_self (), &vmstats); if (err) return EIO; err = vm_cache_statistics (mach_task_self (), &cache_stats); if (err) return EIO; cnt = HOST_BASIC_INFO_COUNT; err = host_info (mach_host_self (), HOST_BASIC_INFO, (host_info_t) &hbi, &cnt); if (err) return err; err = get_swapinfo (&swap); if (err) return err; assert (cnt == HOST_BASIC_INFO_COUNT); *contents_len = asprintf (contents, "MemTotal: %14lu kB\n" "MemFree: %14lu kB\n" "Buffers: %14lu kB\n" "Cached: %14lu kB\n" "Active: %14lu kB\n" "Inactive: %14lu kB\n" "Mlocked: %14lu kB\n" "SwapTotal:%14lu kB\n" "SwapFree: %14lu kB\n" , (long unsigned) hbi.memory_size / 1024, (long unsigned) vmstats.free_count * PAGE_SIZE / 1024, 0UL, (long unsigned) cache_stats.cache_count * PAGE_SIZE / 1024, (long unsigned) vmstats.active_count * PAGE_SIZE / 1024, (long unsigned) vmstats.inactive_count * PAGE_SIZE / 1024, (long unsigned) vmstats.wire_count * PAGE_SIZE / 1024, (long unsigned) swap.dpi_total_space / 1024, (long unsigned) swap.dpi_free_space / 1024); return 0; } static error_t rootdir_gc_vmstat (void *hook, char **contents, ssize_t *contents_len) { host_basic_info_data_t hbi; mach_msg_type_number_t cnt; struct vm_statistics vmstats; error_t err; err = vm_statistics (mach_task_self (), &vmstats); if (err) return EIO; cnt = HOST_BASIC_INFO_COUNT; err = host_info (mach_host_self (), HOST_BASIC_INFO, (host_info_t) &hbi, &cnt); if (err) return err; assert (cnt == HOST_BASIC_INFO_COUNT); *contents_len = asprintf (contents, "nr_free_pages %lu\n" "nr_inactive_anon %lu\n" "nr_active_anon %lu\n" "nr_inactive_file %lu\n" "nr_active_file %lu\n" "nr_unevictable %lu\n" "nr_mlock %lu\n" "pgpgin %lu\n" "pgpgout %lu\n" "pgfault %lu\n", (long unsigned) vmstats.free_count, /* FIXME: how can we distinguish the anon/file pages? Maybe we can ask the default pager how many it manages? */ (long unsigned) vmstats.inactive_count, (long unsigned) vmstats.active_count, (long unsigned) 0, (long unsigned) 0, (long unsigned) vmstats.wire_count, (long unsigned) vmstats.wire_count, (long unsigned) vmstats.pageins, (long unsigned) vmstats.pageouts, (long unsigned) vmstats.faults); return 0; } static error_t rootdir_gc_cmdline (void *hook, char **contents, ssize_t *contents_len) { struct ps_context *pc = hook; struct proc_stat *ps; error_t err; err = _proc_stat_create (opt_kernel_pid, pc, &ps); if (err) return EIO; err = proc_stat_set_flags (ps, PSTAT_ARGS); if (err || ! (proc_stat_flags (ps) & PSTAT_ARGS)) { err = EIO; goto out; } *contents_len = proc_stat_args_len (ps); *contents = malloc (*contents_len); if (! *contents) { err = ENOMEM; goto out; } memcpy (*contents, proc_stat_args (ps), *contents_len); argz_stringify (*contents, *contents_len, ' '); (*contents)[*contents_len - 1] = '\n'; out: _proc_stat_free (ps); return err; } static int rootdir_fakeself_exists (void *dir_hook, const void *entry_hook) { return opt_fake_self >= 0; } static error_t rootdir_gc_fakeself (void *hook, char **contents, ssize_t *contents_len) { *contents_len = asprintf (contents, "%d", opt_fake_self); return 0; } static struct node *rootdir_mounts_node; static pthread_spinlock_t rootdir_mounts_node_lock = PTHREAD_SPINLOCK_INITIALIZER; static struct node * rootdir_mounts_make_node (void *dir_hook, const void *entry_hook) { struct node *np, *prev; pthread_spin_lock (&rootdir_mounts_node_lock); np = rootdir_mounts_node; pthread_spin_unlock (&rootdir_mounts_node_lock); if (np != NULL) { netfs_nref (np); return np; } np = procfs_make_node (entry_hook, dir_hook); if (np == NULL) return NULL; procfs_node_chtype (np, S_IFREG | S_IPTRANS); procfs_node_chmod (np, 0444); pthread_spin_lock (&rootdir_mounts_node_lock); prev = rootdir_mounts_node; if (rootdir_mounts_node == NULL) rootdir_mounts_node = np; pthread_spin_unlock (&rootdir_mounts_node_lock); if (prev != NULL) { procfs_cleanup (np); np = prev; } return np; } static error_t rootdir_mounts_get_translator (void *hook, char **argz, size_t *argz_len) { static const char const mtab_argz[] = _HURD_MTAB "\0/"; *argz = malloc (sizeof mtab_argz); if (! *argz) return ENOMEM; memcpy (*argz, mtab_argz, sizeof mtab_argz); *argz_len = sizeof mtab_argz; return 0; } static int rootdir_mounts_exists (void *dir_hook, const void *entry_hook) { static int translator_exists = -1; if (translator_exists == -1) translator_exists = access (_HURD_MTAB, F_OK|X_OK) == 0; return translator_exists; } static error_t rootdir_gc_slabinfo (void *hook, char **contents, ssize_t *contents_len) { error_t err; FILE *m; const char header[] = "cache obj slab bufs objs bufs" " total reclaimable\n" "name flags size size /slab usage count" " memory memory\n"; cache_info_array_t cache_info; size_t mem_usage, mem_reclaimable, mem_total, mem_total_reclaimable; mach_msg_type_number_t cache_info_count; int i; cache_info = NULL; cache_info_count = 0; err = host_slab_info (mach_host_self(), &cache_info, &cache_info_count); if (err) return err; m = open_memstream (contents, contents_len); if (m == NULL) { err = ENOMEM; goto out; } fprintf (m, "%s", header); mem_total = 0; mem_total_reclaimable = 0; for (i = 0; i < cache_info_count; i++) { mem_usage = (cache_info[i].nr_slabs * cache_info[i].slab_size) >> 10; mem_total += mem_usage; mem_reclaimable = (cache_info[i].flags & CACHE_FLAGS_NO_RECLAIM) ? 0 : (cache_info[i].nr_free_slabs * cache_info[i].slab_size) >> 10; mem_total_reclaimable += mem_reclaimable; fprintf (m, "%-21s %04x %7zu %3zuk %4lu %6lu %6lu %7zuk %10zuk\n", cache_info[i].name, cache_info[i].flags, cache_info[i].obj_size, cache_info[i].slab_size >> 10, cache_info[i].bufs_per_slab, cache_info[i].nr_objs, cache_info[i].nr_bufs, mem_usage, mem_reclaimable); } fprintf (m, "total: %zuk, reclaimable: %zuk\n", mem_total, mem_total_reclaimable); fclose (m); out: vm_deallocate (mach_task_self (), cache_info, cache_info_count * sizeof *cache_info); return err; } /* Glue logic and entries table */ static struct node * rootdir_file_make_node (void *dir_hook, const void *entry_hook) { /* The entry hook we use is actually a procfs_node_ops for the file to be created. The hook associated to these newly created files (and passed to the generators above as a consequence) is always the same global ps_context, which we get from rootdir_make_node as the directory hook. */ return procfs_make_node (entry_hook, dir_hook); } static struct node * rootdir_symlink_make_node (void *dir_hook, const void *entry_hook) { struct node *np = procfs_make_node (entry_hook, dir_hook); if (np) procfs_node_chtype (np, S_IFLNK); return np; } static const struct procfs_dir_entry rootdir_entries[] = { { .name = "self", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_fakeself, .cleanup_contents = procfs_cleanup_contents_with_free, }, .ops = { .make_node = rootdir_symlink_make_node, .exists = rootdir_fakeself_exists, } }, { .name = "version", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_version, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, { .name = "uptime", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_uptime, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, { .name = "stat", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_stat, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, { .name = "loadavg", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_loadavg, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, { .name = "meminfo", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_meminfo, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, { .name = "vmstat", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_vmstat, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, { .name = "cmdline", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_cmdline, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, { .name = "mounts", .hook = & (struct procfs_node_ops) { .get_translator = rootdir_mounts_get_translator, }, .ops = { .make_node = rootdir_mounts_make_node, .exists = rootdir_mounts_exists, } }, { .name = "slabinfo", .hook = & (struct procfs_node_ops) { .get_contents = rootdir_gc_slabinfo, .cleanup_contents = procfs_cleanup_contents_with_free, }, }, #ifdef PROFILE /* In order to get a usable gmon.out file, we must apparently use exit(). */ { .name = "exit", .ops = { .make_node = exit, }, }, #endif {} }; struct node *rootdir_make_node (struct ps_context *pc) { static const struct procfs_dir_ops ops = { .entries = rootdir_entries, .entry_ops = { .make_node = rootdir_file_make_node, }, }; return procfs_dir_make_node (&ops, pc); }