/* drivers/misc/uid_sys_stats.c * * Copyright (C) 2014 - 2015 Google, Inc. * * This software is licensed under the terms of the GNU General Public * License version 2, as published by the Free Software Foundation, and * may be copied, distributed, and modified under those terms. * * 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. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define UID_HASH_BITS 10 DECLARE_HASHTABLE(hash_table, UID_HASH_BITS); static DEFINE_RT_MUTEX(uid_lock); static struct proc_dir_entry *cpu_parent; static struct proc_dir_entry *io_parent; static struct proc_dir_entry *proc_parent; struct io_stats { u64 read_bytes; u64 write_bytes; u64 rchar; u64 wchar; u64 fsync; }; #define UID_STATE_FOREGROUND 0 #define UID_STATE_BACKGROUND 1 #define UID_STATE_BUCKET_SIZE 2 #define UID_STATE_TOTAL_CURR 2 #define UID_STATE_TOTAL_LAST 3 #define UID_STATE_DEAD_TASKS 4 #define UID_STATE_SIZE 5 #define MAX_TASK_COMM_LEN 256 struct task_entry { char comm[MAX_TASK_COMM_LEN]; pid_t pid; struct io_stats io[UID_STATE_SIZE]; struct hlist_node hash; }; struct uid_entry { uid_t uid; u64 utime; u64 stime; u64 active_utime; u64 active_stime; int state; struct io_stats io[UID_STATE_SIZE]; struct hlist_node hash; #ifdef CONFIG_UID_SYS_STATS_DEBUG DECLARE_HASHTABLE(task_entries, UID_HASH_BITS); #endif }; static u64 compute_write_bytes(struct task_struct *task) { if (task->ioac.write_bytes <= task->ioac.cancelled_write_bytes) return 0; return task->ioac.write_bytes - task->ioac.cancelled_write_bytes; } static void compute_io_bucket_stats(struct io_stats *io_bucket, struct io_stats *io_curr, struct io_stats *io_last, struct io_stats *io_dead) { /* tasks could switch to another uid group, but its io_last in the * previous uid group could still be positive. * therefore before each update, do an overflow check first */ int64_t delta; delta = io_curr->read_bytes + io_dead->read_bytes - io_last->read_bytes; io_bucket->read_bytes += delta > 0 ? delta : 0; delta = io_curr->write_bytes + io_dead->write_bytes - io_last->write_bytes; io_bucket->write_bytes += delta > 0 ? delta : 0; delta = io_curr->rchar + io_dead->rchar - io_last->rchar; io_bucket->rchar += delta > 0 ? delta : 0; delta = io_curr->wchar + io_dead->wchar - io_last->wchar; io_bucket->wchar += delta > 0 ? delta : 0; delta = io_curr->fsync + io_dead->fsync - io_last->fsync; io_bucket->fsync += delta > 0 ? delta : 0; io_last->read_bytes = io_curr->read_bytes; io_last->write_bytes = io_curr->write_bytes; io_last->rchar = io_curr->rchar; io_last->wchar = io_curr->wchar; io_last->fsync = io_curr->fsync; memset(io_dead, 0, sizeof(struct io_stats)); } #ifdef CONFIG_UID_SYS_STATS_DEBUG static void get_full_task_comm(struct task_entry *task_entry, struct task_struct *task) { int i = 0, offset = 0, len = 0; /* save one byte for terminating null character */ int unused_len = MAX_TASK_COMM_LEN - TASK_COMM_LEN - 1; char buf[MAX_TASK_COMM_LEN - TASK_COMM_LEN - 1]; struct mm_struct *mm = task->mm; /* fill the first TASK_COMM_LEN bytes with thread name */ __get_task_comm(task_entry->comm, TASK_COMM_LEN, task); i = strlen(task_entry->comm); while (i < TASK_COMM_LEN) task_entry->comm[i++] = ' '; /* next the executable file name */ if (mm) { mmap_write_lock(mm); if (mm->exe_file) { char *pathname = d_path(&mm->exe_file->f_path, buf, unused_len); if (!IS_ERR(pathname)) { len = strlcpy(task_entry->comm + i, pathname, unused_len); i += len; task_entry->comm[i++] = ' '; unused_len--; } } mmap_write_unlock(mm); } unused_len -= len; /* fill the rest with command line argument * replace each null or new line character * between args in argv with whitespace */ len = get_cmdline(task, buf, unused_len); while (offset < len) { if (buf[offset] != '\0' && buf[offset] != '\n') task_entry->comm[i++] = buf[offset]; else task_entry->comm[i++] = ' '; offset++; } /* get rid of trailing whitespaces in case when arg is memset to * zero before being reset in userspace */ while (task_entry->comm[i-1] == ' ') i--; task_entry->comm[i] = '\0'; } static struct task_entry *find_task_entry(struct uid_entry *uid_entry, struct task_struct *task) { struct task_entry *task_entry; hash_for_each_possible(uid_entry->task_entries, task_entry, hash, task->pid) { if (task->pid == task_entry->pid) { /* if thread name changed, update the entire command */ int len = strnchr(task_entry->comm, ' ', TASK_COMM_LEN) - task_entry->comm; if (strncmp(task_entry->comm, task->comm, len)) get_full_task_comm(task_entry, task); return task_entry; } } return NULL; } static struct task_entry *find_or_register_task(struct uid_entry *uid_entry, struct task_struct *task) { struct task_entry *task_entry; pid_t pid = task->pid; task_entry = find_task_entry(uid_entry, task); if (task_entry) return task_entry; task_entry = kzalloc(sizeof(struct task_entry), GFP_ATOMIC); if (!task_entry) return NULL; get_full_task_comm(task_entry, task); task_entry->pid = pid; hash_add(uid_entry->task_entries, &task_entry->hash, (unsigned int)pid); return task_entry; } static void remove_uid_tasks(struct uid_entry *uid_entry) { struct task_entry *task_entry; unsigned long bkt_task; struct hlist_node *tmp_task; hash_for_each_safe(uid_entry->task_entries, bkt_task, tmp_task, task_entry, hash) { hash_del(&task_entry->hash); kfree(task_entry); } } static void set_io_uid_tasks_zero(struct uid_entry *uid_entry) { struct task_entry *task_entry; unsigned long bkt_task; hash_for_each(uid_entry->task_entries, bkt_task, task_entry, hash) { memset(&task_entry->io[UID_STATE_TOTAL_CURR], 0, sizeof(struct io_stats)); } } static void add_uid_tasks_io_stats(struct uid_entry *uid_entry, struct task_struct *task, int slot) { struct task_entry *task_entry = find_or_register_task(uid_entry, task); struct io_stats *task_io_slot = &task_entry->io[slot]; task_io_slot->read_bytes += task->ioac.read_bytes; task_io_slot->write_bytes += compute_write_bytes(task); task_io_slot->rchar += task->ioac.rchar; task_io_slot->wchar += task->ioac.wchar; task_io_slot->fsync += task->ioac.syscfs; } static void compute_io_uid_tasks(struct uid_entry *uid_entry) { struct task_entry *task_entry; unsigned long bkt_task; hash_for_each(uid_entry->task_entries, bkt_task, task_entry, hash) { compute_io_bucket_stats(&task_entry->io[uid_entry->state], &task_entry->io[UID_STATE_TOTAL_CURR], &task_entry->io[UID_STATE_TOTAL_LAST], &task_entry->io[UID_STATE_DEAD_TASKS]); } } static void show_io_uid_tasks(struct seq_file *m, struct uid_entry *uid_entry) { struct task_entry *task_entry; unsigned long bkt_task; hash_for_each(uid_entry->task_entries, bkt_task, task_entry, hash) { /* Separated by comma because space exists in task comm */ seq_printf(m, "task,%s,%lu,%llu,%llu,%llu,%llu,%llu,%llu,%llu,%llu,%llu,%llu\n", task_entry->comm, (unsigned long)task_entry->pid, task_entry->io[UID_STATE_FOREGROUND].rchar, task_entry->io[UID_STATE_FOREGROUND].wchar, task_entry->io[UID_STATE_FOREGROUND].read_bytes, task_entry->io[UID_STATE_FOREGROUND].write_bytes, task_entry->io[UID_STATE_BACKGROUND].rchar, task_entry->io[UID_STATE_BACKGROUND].wchar, task_entry->io[UID_STATE_BACKGROUND].read_bytes, task_entry->io[UID_STATE_BACKGROUND].write_bytes, task_entry->io[UID_STATE_FOREGROUND].fsync, task_entry->io[UID_STATE_BACKGROUND].fsync); } } #else static void remove_uid_tasks(struct uid_entry *uid_entry) {}; static void set_io_uid_tasks_zero(struct uid_entry *uid_entry) {}; static void add_uid_tasks_io_stats(struct uid_entry *uid_entry, struct task_struct *task, int slot) {}; static void compute_io_uid_tasks(struct uid_entry *uid_entry) {}; static void show_io_uid_tasks(struct seq_file *m, struct uid_entry *uid_entry) {} #endif static struct uid_entry *find_uid_entry(uid_t uid) { struct uid_entry *uid_entry; hash_for_each_possible(hash_table, uid_entry, hash, uid) { if (uid_entry->uid == uid) return uid_entry; } return NULL; } static struct uid_entry *find_or_register_uid(uid_t uid) { struct uid_entry *uid_entry; uid_entry = find_uid_entry(uid); if (uid_entry) return uid_entry; uid_entry = kzalloc(sizeof(struct uid_entry), GFP_ATOMIC); if (!uid_entry) return NULL; uid_entry->uid = uid; #ifdef CONFIG_UID_SYS_STATS_DEBUG hash_init(uid_entry->task_entries); #endif hash_add(hash_table, &uid_entry->hash, uid); return uid_entry; } static int uid_cputime_show(struct seq_file *m, void *v) { struct uid_entry *uid_entry = NULL; struct task_struct *task, *temp; struct user_namespace *user_ns = current_user_ns(); u64 utime; u64 stime; unsigned long bkt; uid_t uid; rt_mutex_lock(&uid_lock); hash_for_each(hash_table, bkt, uid_entry, hash) { uid_entry->active_stime = 0; uid_entry->active_utime = 0; } rcu_read_lock(); do_each_thread(temp, task) { uid = from_kuid_munged(user_ns, task_uid(task)); if (!uid_entry || uid_entry->uid != uid) uid_entry = find_or_register_uid(uid); if (!uid_entry) { rcu_read_unlock(); rt_mutex_unlock(&uid_lock); pr_err("%s: failed to find the uid_entry for uid %d\n", __func__, uid); return -ENOMEM; } /* avoid double accounting of dying threads */ if (!(task->flags & PF_EXITING)) { task_cputime_adjusted(task, &utime, &stime); uid_entry->active_utime += utime; uid_entry->active_stime += stime; } } while_each_thread(temp, task); rcu_read_unlock(); hash_for_each(hash_table, bkt, uid_entry, hash) { u64 total_utime = uid_entry->utime + uid_entry->active_utime; u64 total_stime = uid_entry->stime + uid_entry->active_stime; seq_printf(m, "%d: %llu %llu\n", uid_entry->uid, ktime_to_us(total_utime), ktime_to_us(total_stime)); } rt_mutex_unlock(&uid_lock); return 0; } static int uid_cputime_open(struct inode *inode, struct file *file) { return single_open(file, uid_cputime_show, PDE_DATA(inode)); } static const struct proc_ops uid_cputime_fops = { .proc_open = uid_cputime_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, }; static int uid_remove_open(struct inode *inode, struct file *file) { return single_open(file, NULL, NULL); } static ssize_t uid_remove_write(struct file *file, const char __user *buffer, size_t count, loff_t *ppos) { struct uid_entry *uid_entry; struct hlist_node *tmp; char uids[128]; char *start_uid, *end_uid = NULL; long int uid_start = 0, uid_end = 0; if (count >= sizeof(uids)) count = sizeof(uids) - 1; if (copy_from_user(uids, buffer, count)) return -EFAULT; uids[count] = '\0'; end_uid = uids; start_uid = strsep(&end_uid, "-"); if (!start_uid || !end_uid) return -EINVAL; if (kstrtol(start_uid, 10, &uid_start) != 0 || kstrtol(end_uid, 10, &uid_end) != 0) { return -EINVAL; } rt_mutex_lock(&uid_lock); for (; uid_start <= uid_end; uid_start++) { hash_for_each_possible_safe(hash_table, uid_entry, tmp, hash, (uid_t)uid_start) { if (uid_start == uid_entry->uid) { remove_uid_tasks(uid_entry); hash_del(&uid_entry->hash); kfree(uid_entry); } } } rt_mutex_unlock(&uid_lock); return count; } static const struct proc_ops uid_remove_fops = { .proc_open = uid_remove_open, .proc_release = single_release, .proc_write = uid_remove_write, }; static void add_uid_io_stats(struct uid_entry *uid_entry, struct task_struct *task, int slot) { struct io_stats *io_slot = &uid_entry->io[slot]; /* avoid double accounting of dying threads */ if (slot != UID_STATE_DEAD_TASKS && (task->flags & PF_EXITING)) return; io_slot->read_bytes += task->ioac.read_bytes; io_slot->write_bytes += compute_write_bytes(task); io_slot->rchar += task->ioac.rchar; io_slot->wchar += task->ioac.wchar; io_slot->fsync += task->ioac.syscfs; add_uid_tasks_io_stats(uid_entry, task, slot); } static void update_io_stats_all_locked(void) { struct uid_entry *uid_entry = NULL; struct task_struct *task, *temp; struct user_namespace *user_ns = current_user_ns(); unsigned long bkt; uid_t uid; hash_for_each(hash_table, bkt, uid_entry, hash) { memset(&uid_entry->io[UID_STATE_TOTAL_CURR], 0, sizeof(struct io_stats)); set_io_uid_tasks_zero(uid_entry); } rcu_read_lock(); do_each_thread(temp, task) { uid = from_kuid_munged(user_ns, task_uid(task)); if (!uid_entry || uid_entry->uid != uid) uid_entry = find_or_register_uid(uid); if (!uid_entry) continue; add_uid_io_stats(uid_entry, task, UID_STATE_TOTAL_CURR); } while_each_thread(temp, task); rcu_read_unlock(); hash_for_each(hash_table, bkt, uid_entry, hash) { compute_io_bucket_stats(&uid_entry->io[uid_entry->state], &uid_entry->io[UID_STATE_TOTAL_CURR], &uid_entry->io[UID_STATE_TOTAL_LAST], &uid_entry->io[UID_STATE_DEAD_TASKS]); compute_io_uid_tasks(uid_entry); } } static void update_io_stats_uid_locked(struct uid_entry *uid_entry) { struct task_struct *task, *temp; struct user_namespace *user_ns = current_user_ns(); memset(&uid_entry->io[UID_STATE_TOTAL_CURR], 0, sizeof(struct io_stats)); set_io_uid_tasks_zero(uid_entry); rcu_read_lock(); do_each_thread(temp, task) { if (from_kuid_munged(user_ns, task_uid(task)) != uid_entry->uid) continue; add_uid_io_stats(uid_entry, task, UID_STATE_TOTAL_CURR); } while_each_thread(temp, task); rcu_read_unlock(); compute_io_bucket_stats(&uid_entry->io[uid_entry->state], &uid_entry->io[UID_STATE_TOTAL_CURR], &uid_entry->io[UID_STATE_TOTAL_LAST], &uid_entry->io[UID_STATE_DEAD_TASKS]); compute_io_uid_tasks(uid_entry); } static int uid_io_show(struct seq_file *m, void *v) { struct uid_entry *uid_entry; unsigned long bkt; rt_mutex_lock(&uid_lock); update_io_stats_all_locked(); hash_for_each(hash_table, bkt, uid_entry, hash) { seq_printf(m, "%d %llu %llu %llu %llu %llu %llu %llu %llu %llu %llu\n", uid_entry->uid, uid_entry->io[UID_STATE_FOREGROUND].rchar, uid_entry->io[UID_STATE_FOREGROUND].wchar, uid_entry->io[UID_STATE_FOREGROUND].read_bytes, uid_entry->io[UID_STATE_FOREGROUND].write_bytes, uid_entry->io[UID_STATE_BACKGROUND].rchar, uid_entry->io[UID_STATE_BACKGROUND].wchar, uid_entry->io[UID_STATE_BACKGROUND].read_bytes, uid_entry->io[UID_STATE_BACKGROUND].write_bytes, uid_entry->io[UID_STATE_FOREGROUND].fsync, uid_entry->io[UID_STATE_BACKGROUND].fsync); show_io_uid_tasks(m, uid_entry); } rt_mutex_unlock(&uid_lock); return 0; } static int uid_io_open(struct inode *inode, struct file *file) { return single_open(file, uid_io_show, PDE_DATA(inode)); } static const struct proc_ops uid_io_fops = { .proc_open = uid_io_open, .proc_read = seq_read, .proc_lseek = seq_lseek, .proc_release = single_release, }; static int uid_procstat_open(struct inode *inode, struct file *file) { return single_open(file, NULL, NULL); } static ssize_t uid_procstat_write(struct file *file, const char __user *buffer, size_t count, loff_t *ppos) { struct uid_entry *uid_entry; uid_t uid; int argc, state; char input[128]; if (count >= sizeof(input)) return -EINVAL; if (copy_from_user(input, buffer, count)) return -EFAULT; input[count] = '\0'; argc = sscanf(input, "%u %d", &uid, &state); if (argc != 2) return -EINVAL; if (state != UID_STATE_BACKGROUND && state != UID_STATE_FOREGROUND) return -EINVAL; rt_mutex_lock(&uid_lock); uid_entry = find_or_register_uid(uid); if (!uid_entry) { rt_mutex_unlock(&uid_lock); return -EINVAL; } if (uid_entry->state == state) { rt_mutex_unlock(&uid_lock); return count; } update_io_stats_uid_locked(uid_entry); uid_entry->state = state; rt_mutex_unlock(&uid_lock); return count; } static const struct proc_ops uid_procstat_fops = { .proc_open = uid_procstat_open, .proc_release = single_release, .proc_write = uid_procstat_write, }; static int process_notifier(struct notifier_block *self, unsigned long cmd, void *v) { struct task_struct *task = v; struct uid_entry *uid_entry; u64 utime, stime; uid_t uid; if (!task) return NOTIFY_OK; rt_mutex_lock(&uid_lock); uid = from_kuid_munged(current_user_ns(), task_uid(task)); uid_entry = find_or_register_uid(uid); if (!uid_entry) { pr_err("%s: failed to find uid %d\n", __func__, uid); goto exit; } task_cputime_adjusted(task, &utime, &stime); uid_entry->utime += utime; uid_entry->stime += stime; add_uid_io_stats(uid_entry, task, UID_STATE_DEAD_TASKS); exit: rt_mutex_unlock(&uid_lock); return NOTIFY_OK; } static struct notifier_block process_notifier_block = { .notifier_call = process_notifier, }; static int __init proc_uid_sys_stats_init(void) { hash_init(hash_table); cpu_parent = proc_mkdir("uid_cputime", NULL); if (!cpu_parent) { pr_err("%s: failed to create uid_cputime proc entry\n", __func__); goto err; } proc_create_data("remove_uid_range", 0222, cpu_parent, &uid_remove_fops, NULL); proc_create_data("show_uid_stat", 0444, cpu_parent, &uid_cputime_fops, NULL); io_parent = proc_mkdir("uid_io", NULL); if (!io_parent) { pr_err("%s: failed to create uid_io proc entry\n", __func__); goto err; } proc_create_data("stats", 0444, io_parent, &uid_io_fops, NULL); proc_parent = proc_mkdir("uid_procstat", NULL); if (!proc_parent) { pr_err("%s: failed to create uid_procstat proc entry\n", __func__); goto err; } proc_create_data("set", 0222, proc_parent, &uid_procstat_fops, NULL); profile_event_register(PROFILE_TASK_EXIT, &process_notifier_block); return 0; err: remove_proc_subtree("uid_cputime", NULL); remove_proc_subtree("uid_io", NULL); remove_proc_subtree("uid_procstat", NULL); return -ENOMEM; } early_initcall(proc_uid_sys_stats_init);