/* * drivers/misc/logger.c * * A Logging Subsystem * * Copyright (C) 2007-2008 Google, Inc. * * Robert Love <rlove@google.com> * * 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 <linux/sched.h> #include <linux/module.h> #include <linux/fs.h> #include <linux/miscdevice.h> #include <linux/uaccess.h> #include <linux/poll.h> #include <linux/slab.h> #include <linux/time.h> #include "logger.h" #include <asm/ioctls.h> /* * struct logger_log - represents a specific log, such as 'main' or 'radio' * * This structure lives from module insertion until module removal, so it does * not need additional reference counting. The structure is protected by the * mutex 'mutex'. */ struct logger_log { unsigned char *buffer;/* the ring buffer itself */ struct miscdevice misc; /* misc device representing the log */ wait_queue_head_t wq; /* wait queue for readers */ struct list_head readers; /* this log's readers */ struct mutex mutex; /* mutex protecting buffer */ size_t w_off; /* current write head offset */ size_t head; /* new readers start here */ size_t size; /* size of the log */ }; /* * struct logger_reader - a logging device open for reading * * This object lives from open to release, so we don't need additional * reference counting. The structure is protected by log->mutex. */ struct logger_reader { struct logger_log *log; /* associated log */ struct list_head list; /* entry in logger_log's list */ size_t r_off; /* current read head offset */ bool r_all; /* reader can read all entries */ int r_ver; /* reader ABI version */ }; /* logger_offset - returns index 'n' into the log via (optimized) modulus */ #define logger_offset(n) ((n) & (log->size - 1)) /* * file_get_log - Given a file structure, return the associated log * * This isn't aesthetic. We have several goals: * * 1) Need to quickly obtain the associated log during an I/O operation * 2) Readers need to maintain state (logger_reader) * 3) Writers need to be very fast (open() should be a near no-op) * * In the reader case, we can trivially go file->logger_reader->logger_log. * For a writer, we don't want to maintain a logger_reader, so we just go * file->logger_log. Thus what file->private_data points at depends on whether * or not the file was opened for reading. This function hides that dirtiness. */ static inline struct logger_log *file_get_log(struct file *file) { if (file->f_mode & FMODE_READ) { struct logger_reader *reader = file->private_data; return reader->log; } else return file->private_data; } /* * get_entry_header - returns a pointer to the logger_entry header within * 'log' starting at offset 'off'. A temporary logger_entry 'scratch' must * be provided. Typically the return value will be a pointer within * 'logger->buf'. However, a pointer to 'scratch' may be returned if * the log entry spans the end and beginning of the circular buffer. */ static struct logger_entry *get_entry_header(struct logger_log *log, size_t off, struct logger_entry *scratch) { size_t len = min(sizeof(struct logger_entry), log->size - off); if (len != sizeof(struct logger_entry)) { memcpy(((void *) scratch), log->buffer + off, len); memcpy(((void *) scratch) + len, log->buffer, sizeof(struct logger_entry) - len); return scratch; } return (struct logger_entry *) (log->buffer + off); } /* * get_entry_msg_len - Grabs the length of the message of the entry * starting from from 'off'. * * Caller needs to hold log->mutex. */ static __u32 get_entry_msg_len(struct logger_log *log, size_t off) { struct logger_entry scratch; struct logger_entry *entry; entry = get_entry_header(log, off, &scratch); return entry->len; } static size_t get_user_hdr_len(int ver) { if (ver < 2) return sizeof(struct user_logger_entry_compat); else return sizeof(struct logger_entry); } static ssize_t copy_header_to_user(int ver, struct logger_entry *entry, char __user *buf) { void *hdr; size_t hdr_len; struct user_logger_entry_compat v1; if (ver < 2) { v1.len = entry->len; v1.__pad = 0; v1.pid = entry->pid; v1.tid = entry->tid; v1.sec = entry->sec; v1.nsec = entry->nsec; hdr = &v1; hdr_len = sizeof(struct user_logger_entry_compat); } else { hdr = entry; hdr_len = sizeof(struct logger_entry); } return copy_to_user(buf, hdr, hdr_len); } /* * do_read_log_to_user - reads exactly 'count' bytes from 'log' into the * user-space buffer 'buf'. Returns 'count' on success. * * Caller must hold log->mutex. */ static ssize_t do_read_log_to_user(struct logger_log *log, struct logger_reader *reader, char __user *buf, size_t count) { struct logger_entry scratch; struct logger_entry *entry; size_t len; size_t msg_start; /* * First, copy the header to userspace, using the version of * the header requested */ entry = get_entry_header(log, reader->r_off, &scratch); if (copy_header_to_user(reader->r_ver, entry, buf)) return -EFAULT; count -= get_user_hdr_len(reader->r_ver); buf += get_user_hdr_len(reader->r_ver); msg_start = logger_offset(reader->r_off + sizeof(struct logger_entry)); /* * We read from the msg in two disjoint operations. First, we read from * the current msg head offset up to 'count' bytes or to the end of * the log, whichever comes first. */ len = min(count, log->size - msg_start); if (copy_to_user(buf, log->buffer + msg_start, len)) return -EFAULT; /* * Second, we read any remaining bytes, starting back at the head of * the log. */ if (count != len) if (copy_to_user(buf + len, log->buffer, count - len)) return -EFAULT; reader->r_off = logger_offset(reader->r_off + sizeof(struct logger_entry) + count); return count + get_user_hdr_len(reader->r_ver); } /* * get_next_entry_by_uid - Starting at 'off', returns an offset into * 'log->buffer' which contains the first entry readable by 'euid' */ static size_t get_next_entry_by_uid(struct logger_log *log, size_t off, uid_t euid) { while (off != log->w_off) { struct logger_entry *entry; struct logger_entry scratch; size_t next_len; entry = get_entry_header(log, off, &scratch); if (entry->euid == euid) return off; next_len = sizeof(struct logger_entry) + entry->len; off = logger_offset(off + next_len); } return off; } /* * logger_read - our log's read() method * * Behavior: * * - O_NONBLOCK works * - If there are no log entries to read, blocks until log is written to * - Atomically reads exactly one log entry * * Will set errno to EINVAL if read * buffer is insufficient to hold next entry. */ static ssize_t logger_read(struct file *file, char __user *buf, size_t count, loff_t *pos) { struct logger_reader *reader = file->private_data; struct logger_log *log = reader->log; ssize_t ret; DEFINE_WAIT(wait); start: while (1) { prepare_to_wait(&log->wq, &wait, TASK_INTERRUPTIBLE); mutex_lock(&log->mutex); ret = (log->w_off == reader->r_off); mutex_unlock(&log->mutex); if (!ret) break; if (file->f_flags & O_NONBLOCK) { ret = -EAGAIN; break; } if (signal_pending(current)) { ret = -EINTR; break; } schedule(); } finish_wait(&log->wq, &wait); if (ret) return ret; mutex_lock(&log->mutex); if (!reader->r_all) reader->r_off = get_next_entry_by_uid(log, reader->r_off, current_euid()); /* is there still something to read or did we race? */ if (unlikely(log->w_off == reader->r_off)) { mutex_unlock(&log->mutex); goto start; } /* get the size of the next entry */ ret = get_user_hdr_len(reader->r_ver) + get_entry_msg_len(log, reader->r_off); if (count < ret) { ret = -EINVAL; goto out; } /* get exactly one entry from the log */ ret = do_read_log_to_user(log, reader, buf, ret); out: mutex_unlock(&log->mutex); return ret; } /* * get_next_entry - return the offset of the first valid entry at least 'len' * bytes after 'off'. * * Caller must hold log->mutex. */ static size_t get_next_entry(struct logger_log *log, size_t off, size_t len) { size_t count = 0; do { size_t nr = sizeof(struct logger_entry) + get_entry_msg_len(log, off); off = logger_offset(off + nr); count += nr; } while (count < len); return off; } /* * clock_interval - is a < c < b in mod-space? Put another way, does the line * from a to b cross c? */ static inline int clock_interval(size_t a, size_t b, size_t c) { if (b < a) { if (a < c || b >= c) return 1; } else { if (a < c && b >= c) return 1; } return 0; } /* * fix_up_readers - walk the list of all readers and "fix up" any who were * lapped by the writer; also do the same for the default "start head". * We do this by "pulling forward" the readers and start head to the first * entry after the new write head. * * The caller needs to hold log->mutex. */ static void fix_up_readers(struct logger_log *log, size_t len) { size_t old = log->w_off; size_t new = logger_offset(old + len); struct logger_reader *reader; if (clock_interval(old, new, log->head)) log->head = get_next_entry(log, log->head, len); list_for_each_entry(reader, &log->readers, list) if (clock_interval(old, new, reader->r_off)) reader->r_off = get_next_entry(log, reader->r_off, len); } /* * do_write_log - writes 'len' bytes from 'buf' to 'log' * * The caller needs to hold log->mutex. */ static void do_write_log(struct logger_log *log, const void *buf, size_t count) { size_t len; len = min(count, log->size - log->w_off); memcpy(log->buffer + log->w_off, buf, len); if (count != len) memcpy(log->buffer, buf + len, count - len); log->w_off = logger_offset(log->w_off + count); } /* * do_write_log_user - writes 'len' bytes from the user-space buffer 'buf' to * the log 'log' * * The caller needs to hold log->mutex. * * Returns 'count' on success, negative error code on failure. */ static ssize_t do_write_log_from_user(struct logger_log *log, const void __user *buf, size_t count) { size_t len; len = min(count, log->size - log->w_off); if (len && copy_from_user(log->buffer + log->w_off, buf, len)) return -EFAULT; if (count != len) if (copy_from_user(log->buffer, buf + len, count - len)) return -EFAULT; log->w_off = logger_offset(log->w_off + count); return count; } /* * logger_aio_write - our write method, implementing support for write(), * writev(), and aio_write(). Writes are our fast path, and we try to optimize * them above all else. */ ssize_t logger_aio_write(struct kiocb *iocb, const struct iovec *iov, unsigned long nr_segs, loff_t ppos) { struct logger_log *log = file_get_log(iocb->ki_filp); size_t orig = log->w_off; struct logger_entry header; struct timespec now; ssize_t ret = 0; now = current_kernel_time(); header.pid = current->tgid; header.tid = current->pid; header.sec = now.tv_sec; header.nsec = now.tv_nsec; header.euid = current_euid(); header.len = min_t(size_t, iocb->ki_left, LOGGER_ENTRY_MAX_PAYLOAD); header.hdr_size = sizeof(struct logger_entry); /* null writes succeed, return zero */ if (unlikely(!header.len)) return 0; mutex_lock(&log->mutex); /* * Fix up any readers, pulling them forward to the first readable * entry after (what will be) the new write offset. We do this now * because if we partially fail, we can end up with clobbered log * entries that encroach on readable buffer. */ fix_up_readers(log, sizeof(struct logger_entry) + header.len); do_write_log(log, &header, sizeof(struct logger_entry)); while (nr_segs-- > 0) { size_t len; ssize_t nr; /* figure out how much of this vector we can keep */ len = min_t(size_t, iov->iov_len, header.len - ret); /* write out this segment's payload */ nr = do_write_log_from_user(log, iov->iov_base, len); if (unlikely(nr < 0)) { log->w_off = orig; mutex_unlock(&log->mutex); return nr; } iov++; ret += nr; } mutex_unlock(&log->mutex); /* wake up any blocked readers */ wake_up_interruptible(&log->wq); return ret; } static struct logger_log *get_log_from_minor(int); /* * logger_open - the log's open() file operation * * Note how near a no-op this is in the write-only case. Keep it that way! */ static int logger_open(struct inode *inode, struct file *file) { struct logger_log *log; int ret; ret = nonseekable_open(inode, file); if (ret) return ret; log = get_log_from_minor(MINOR(inode->i_rdev)); if (!log) return -ENODEV; if (file->f_mode & FMODE_READ) { struct logger_reader *reader; reader = kmalloc(sizeof(struct logger_reader), GFP_KERNEL); if (!reader) return -ENOMEM; reader->log = log; reader->r_ver = 1; reader->r_all = in_egroup_p(inode->i_gid) || capable(CAP_SYSLOG); INIT_LIST_HEAD(&reader->list); mutex_lock(&log->mutex); reader->r_off = log->head; list_add_tail(&reader->list, &log->readers); mutex_unlock(&log->mutex); file->private_data = reader; } else file->private_data = log; return 0; } /* * logger_release - the log's release file operation * * Note this is a total no-op in the write-only case. Keep it that way! */ static int logger_release(struct inode *ignored, struct file *file) { if (file->f_mode & FMODE_READ) { struct logger_reader *reader = file->private_data; list_del(&reader->list); kfree(reader); } return 0; } /* * logger_poll - the log's poll file operation, for poll/select/epoll * * Note we always return POLLOUT, because you can always write() to the log. * Note also that, strictly speaking, a return value of POLLIN does not * guarantee that the log is readable without blocking, as there is a small * chance that the writer can lap the reader in the interim between poll() * returning and the read() request. */ static unsigned int logger_poll(struct file *file, poll_table *wait) { struct logger_reader *reader; struct logger_log *log; unsigned int ret = POLLOUT | POLLWRNORM; if (!(file->f_mode & FMODE_READ)) return ret; reader = file->private_data; log = reader->log; poll_wait(file, &log->wq, wait); mutex_lock(&log->mutex); if (!reader->r_all) reader->r_off = get_next_entry_by_uid(log, reader->r_off, current_euid()); if (log->w_off != reader->r_off) ret |= POLLIN | POLLRDNORM; mutex_unlock(&log->mutex); return ret; } static long logger_set_version(struct logger_reader *reader, void __user *arg) { int version; if (copy_from_user(&version, arg, sizeof(int))) return -EFAULT; if ((version < 1) || (version > 2)) return -EINVAL; reader->r_ver = version; return 0; } static long logger_ioctl(struct file *file, unsigned int cmd, unsigned long arg) { struct logger_log *log = file_get_log(file); struct logger_reader *reader; long ret = -EINVAL; void __user *argp = (void __user *) arg; mutex_lock(&log->mutex); switch (cmd) { case LOGGER_GET_LOG_BUF_SIZE: ret = log->size; break; case LOGGER_GET_LOG_LEN: if (!(file->f_mode & FMODE_READ)) { ret = -EBADF; break; } reader = file->private_data; if (log->w_off >= reader->r_off) ret = log->w_off - reader->r_off; else ret = (log->size - reader->r_off) + log->w_off; break; case LOGGER_GET_NEXT_ENTRY_LEN: if (!(file->f_mode & FMODE_READ)) { ret = -EBADF; break; } reader = file->private_data; if (!reader->r_all) reader->r_off = get_next_entry_by_uid(log, reader->r_off, current_euid()); if (log->w_off != reader->r_off) ret = get_user_hdr_len(reader->r_ver) + get_entry_msg_len(log, reader->r_off); else ret = 0; break; case LOGGER_FLUSH_LOG: if (!(file->f_mode & FMODE_WRITE)) { ret = -EBADF; break; } list_for_each_entry(reader, &log->readers, list) reader->r_off = log->w_off; log->head = log->w_off; ret = 0; break; case LOGGER_GET_VERSION: if (!(file->f_mode & FMODE_READ)) { ret = -EBADF; break; } reader = file->private_data; ret = reader->r_ver; break; case LOGGER_SET_VERSION: if (!(file->f_mode & FMODE_READ)) { ret = -EBADF; break; } reader = file->private_data; ret = logger_set_version(reader, argp); break; } mutex_unlock(&log->mutex); return ret; } static const struct file_operations logger_fops = { .owner = THIS_MODULE, .read = logger_read, .aio_write = logger_aio_write, .poll = logger_poll, .unlocked_ioctl = logger_ioctl, .compat_ioctl = logger_ioctl, .open = logger_open, .release = logger_release, }; /* * Defines a log structure with name 'NAME' and a size of 'SIZE' bytes, which * must be a power of two, and greater than * (LOGGER_ENTRY_MAX_PAYLOAD + sizeof(struct logger_entry)). */ #define DEFINE_LOGGER_DEVICE(VAR, NAME, SIZE) \ static unsigned char _buf_ ## VAR[SIZE]; \ static struct logger_log VAR = { \ .buffer = _buf_ ## VAR, \ .misc = { \ .minor = MISC_DYNAMIC_MINOR, \ .name = NAME, \ .fops = &logger_fops, \ .parent = NULL, \ }, \ .wq = __WAIT_QUEUE_HEAD_INITIALIZER(VAR .wq), \ .readers = LIST_HEAD_INIT(VAR .readers), \ .mutex = __MUTEX_INITIALIZER(VAR .mutex), \ .w_off = 0, \ .head = 0, \ .size = SIZE, \ }; DEFINE_LOGGER_DEVICE(log_main, LOGGER_LOG_MAIN, 256*1024) DEFINE_LOGGER_DEVICE(log_events, LOGGER_LOG_EVENTS, 256*1024) DEFINE_LOGGER_DEVICE(log_radio, LOGGER_LOG_RADIO, 256*1024) DEFINE_LOGGER_DEVICE(log_system, LOGGER_LOG_SYSTEM, 256*1024) static struct logger_log *get_log_from_minor(int minor) { if (log_main.misc.minor == minor) return &log_main; if (log_events.misc.minor == minor) return &log_events; if (log_radio.misc.minor == minor) return &log_radio; if (log_system.misc.minor == minor) return &log_system; return NULL; } static int __init init_log(struct logger_log *log) { int ret; ret = misc_register(&log->misc); if (unlikely(ret)) { printk(KERN_ERR "logger: failed to register misc " "device for log '%s'!\n", log->misc.name); return ret; } printk(KERN_INFO "logger: created %luK log '%s'\n", (unsigned long) log->size >> 10, log->misc.name); return 0; } static int __init logger_init(void) { int ret; ret = init_log(&log_main); if (unlikely(ret)) goto out; ret = init_log(&log_events); if (unlikely(ret)) goto out; ret = init_log(&log_radio); if (unlikely(ret)) goto out; ret = init_log(&log_system); if (unlikely(ret)) goto out; out: return ret; } device_initcall(logger_init);