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6622 6623 6624 6625 6626 6627 6628 6629 6630 6631 6632 6633 6634 6635 6636 6637 6638 6639 6640 6641 6642 6643 6644 6645 6646 6647 6648 6649 6650 6651 6652 6653 6654 6655 6656 6657 6658 6659 6660 6661 6662 6663 6664 6665 6666 6667 6668 6669 6670 6671 6672 6673 6674 6675 6676 6677 6678 6679 6680 6681 6682 6683 6684 6685 6686 6687 6688 6689 6690 6691 6692 6693 6694 6695 6696 6697 6698 6699 6700 6701 6702 6703 6704 6705 6706 6707 6708 6709 6710 6711 6712 6713 6714 6715 6716 6717 6718 6719 6720 6721 | // SPDX-License-Identifier: GPL-2.0-only /* binder.c * * Android IPC Subsystem * * Copyright (C) 2007-2008 Google, Inc. */ /* * Locking overview * * There are 3 main spinlocks which must be acquired in the * order shown: * * 1) proc->outer_lock : protects binder_ref * binder_proc_lock() and binder_proc_unlock() are * used to acq/rel. * 2) node->lock : protects most fields of binder_node. * binder_node_lock() and binder_node_unlock() are * used to acq/rel * 3) proc->inner_lock : protects the thread and node lists * (proc->threads, proc->waiting_threads, proc->nodes) * and all todo lists associated with the binder_proc * (proc->todo, thread->todo, proc->delivered_death and * node->async_todo), as well as thread->transaction_stack * binder_inner_proc_lock() and binder_inner_proc_unlock() * are used to acq/rel * * Any lock under procA must never be nested under any lock at the same * level or below on procB. * * Functions that require a lock held on entry indicate which lock * in the suffix of the function name: * * foo_olocked() : requires node->outer_lock * foo_nlocked() : requires node->lock * foo_ilocked() : requires proc->inner_lock * foo_oilocked(): requires proc->outer_lock and proc->inner_lock * foo_nilocked(): requires node->lock and proc->inner_lock * ... */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/fdtable.h> #include <linux/file.h> #include <linux/freezer.h> #include <linux/fs.h> #include <linux/list.h> #include <linux/miscdevice.h> #include <linux/module.h> #include <linux/mutex.h> #include <linux/nsproxy.h> #include <linux/poll.h> #include <linux/debugfs.h> #include <linux/rbtree.h> #include <linux/sched/signal.h> #include <linux/sched/mm.h> #include <linux/seq_file.h> #include <linux/string.h> #include <linux/uaccess.h> #include <linux/pid_namespace.h> #include <linux/security.h> #include <linux/spinlock.h> #include <linux/ratelimit.h> #include <linux/syscalls.h> #include <linux/task_work.h> #include <linux/sizes.h> #include <linux/ktime.h> #include <uapi/linux/android/binder.h> #include <linux/cacheflush.h> #include "binder_internal.h" #include "binder_trace.h" static HLIST_HEAD(binder_deferred_list); static DEFINE_MUTEX(binder_deferred_lock); static HLIST_HEAD(binder_devices); static HLIST_HEAD(binder_procs); static DEFINE_MUTEX(binder_procs_lock); static HLIST_HEAD(binder_dead_nodes); static DEFINE_SPINLOCK(binder_dead_nodes_lock); static struct dentry *binder_debugfs_dir_entry_root; static struct dentry *binder_debugfs_dir_entry_proc; static atomic_t binder_last_id; static int proc_show(struct seq_file *m, void *unused); DEFINE_SHOW_ATTRIBUTE(proc); #define FORBIDDEN_MMAP_FLAGS (VM_WRITE) enum { BINDER_DEBUG_USER_ERROR = 1U << 0, BINDER_DEBUG_FAILED_TRANSACTION = 1U << 1, BINDER_DEBUG_DEAD_TRANSACTION = 1U << 2, BINDER_DEBUG_OPEN_CLOSE = 1U << 3, BINDER_DEBUG_DEAD_BINDER = 1U << 4, BINDER_DEBUG_DEATH_NOTIFICATION = 1U << 5, BINDER_DEBUG_READ_WRITE = 1U << 6, BINDER_DEBUG_USER_REFS = 1U << 7, BINDER_DEBUG_THREADS = 1U << 8, BINDER_DEBUG_TRANSACTION = 1U << 9, BINDER_DEBUG_TRANSACTION_COMPLETE = 1U << 10, BINDER_DEBUG_FREE_BUFFER = 1U << 11, BINDER_DEBUG_INTERNAL_REFS = 1U << 12, BINDER_DEBUG_PRIORITY_CAP = 1U << 13, BINDER_DEBUG_SPINLOCKS = 1U << 14, }; static uint32_t binder_debug_mask = BINDER_DEBUG_USER_ERROR | BINDER_DEBUG_FAILED_TRANSACTION | BINDER_DEBUG_DEAD_TRANSACTION; module_param_named(debug_mask, binder_debug_mask, uint, 0644); char *binder_devices_param = CONFIG_ANDROID_BINDER_DEVICES; module_param_named(devices, binder_devices_param, charp, 0444); static DECLARE_WAIT_QUEUE_HEAD(binder_user_error_wait); static int binder_stop_on_user_error; static int binder_set_stop_on_user_error(const char *val, const struct kernel_param *kp) { int ret; ret = param_set_int(val, kp); if (binder_stop_on_user_error < 2) wake_up(&binder_user_error_wait); return ret; } module_param_call(stop_on_user_error, binder_set_stop_on_user_error, param_get_int, &binder_stop_on_user_error, 0644); static __printf(2, 3) void binder_debug(int mask, const char *format, ...) { struct va_format vaf; va_list args; if (binder_debug_mask & mask) { va_start(args, format); vaf.va = &args; vaf.fmt = format; pr_info_ratelimited("%pV", &vaf); va_end(args); } } #define binder_txn_error(x...) \ binder_debug(BINDER_DEBUG_FAILED_TRANSACTION, x) static __printf(1, 2) void binder_user_error(const char *format, ...) { struct va_format vaf; va_list args; if (binder_debug_mask & BINDER_DEBUG_USER_ERROR) { va_start(args, format); vaf.va = &args; vaf.fmt = format; pr_info_ratelimited("%pV", &vaf); va_end(args); } if (binder_stop_on_user_error) binder_stop_on_user_error = 2; } #define binder_set_extended_error(ee, _id, _command, _param) \ do { \ (ee)->id = _id; \ (ee)->command = _command; \ (ee)->param = _param; \ } while (0) #define to_flat_binder_object(hdr) \ container_of(hdr, struct flat_binder_object, hdr) #define to_binder_fd_object(hdr) container_of(hdr, struct binder_fd_object, hdr) #define to_binder_buffer_object(hdr) \ container_of(hdr, struct binder_buffer_object, hdr) #define to_binder_fd_array_object(hdr) \ container_of(hdr, struct binder_fd_array_object, hdr) static struct binder_stats binder_stats; static inline void binder_stats_deleted(enum binder_stat_types type) { atomic_inc(&binder_stats.obj_deleted[type]); } static inline void binder_stats_created(enum binder_stat_types type) { atomic_inc(&binder_stats.obj_created[type]); } struct binder_transaction_log_entry { int debug_id; int debug_id_done; int call_type; int from_proc; int from_thread; int target_handle; int to_proc; int to_thread; int to_node; int data_size; int offsets_size; int return_error_line; uint32_t return_error; uint32_t return_error_param; char context_name[BINDERFS_MAX_NAME + 1]; }; struct binder_transaction_log { atomic_t cur; bool full; struct binder_transaction_log_entry entry[32]; }; static struct binder_transaction_log binder_transaction_log; static struct binder_transaction_log binder_transaction_log_failed; static struct binder_transaction_log_entry *binder_transaction_log_add( struct binder_transaction_log *log) { struct binder_transaction_log_entry *e; unsigned int cur = atomic_inc_return(&log->cur); if (cur >= ARRAY_SIZE(log->entry)) log->full = true; e = &log->entry[cur % ARRAY_SIZE(log->entry)]; WRITE_ONCE(e->debug_id_done, 0); /* * write-barrier to synchronize access to e->debug_id_done. * We make sure the initialized 0 value is seen before * memset() other fields are zeroed by memset. */ smp_wmb(); memset(e, 0, sizeof(*e)); return e; } enum binder_deferred_state { BINDER_DEFERRED_FLUSH = 0x01, BINDER_DEFERRED_RELEASE = 0x02, }; enum { BINDER_LOOPER_STATE_REGISTERED = 0x01, BINDER_LOOPER_STATE_ENTERED = 0x02, BINDER_LOOPER_STATE_EXITED = 0x04, BINDER_LOOPER_STATE_INVALID = 0x08, BINDER_LOOPER_STATE_WAITING = 0x10, BINDER_LOOPER_STATE_POLL = 0x20, }; /** * binder_proc_lock() - Acquire outer lock for given binder_proc * @proc: struct binder_proc to acquire * * Acquires proc->outer_lock. Used to protect binder_ref * structures associated with the given proc. */ #define binder_proc_lock(proc) _binder_proc_lock(proc, __LINE__) static void _binder_proc_lock(struct binder_proc *proc, int line) __acquires(&proc->outer_lock) { binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); spin_lock(&proc->outer_lock); } /** * binder_proc_unlock() - Release spinlock for given binder_proc * @proc: struct binder_proc to acquire * * Release lock acquired via binder_proc_lock() */ #define binder_proc_unlock(proc) _binder_proc_unlock(proc, __LINE__) static void _binder_proc_unlock(struct binder_proc *proc, int line) __releases(&proc->outer_lock) { binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); spin_unlock(&proc->outer_lock); } /** * binder_inner_proc_lock() - Acquire inner lock for given binder_proc * @proc: struct binder_proc to acquire * * Acquires proc->inner_lock. Used to protect todo lists */ #define binder_inner_proc_lock(proc) _binder_inner_proc_lock(proc, __LINE__) static void _binder_inner_proc_lock(struct binder_proc *proc, int line) __acquires(&proc->inner_lock) { binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); spin_lock(&proc->inner_lock); } /** * binder_inner_proc_unlock() - Release inner lock for given binder_proc * @proc: struct binder_proc to acquire * * Release lock acquired via binder_inner_proc_lock() */ #define binder_inner_proc_unlock(proc) _binder_inner_proc_unlock(proc, __LINE__) static void _binder_inner_proc_unlock(struct binder_proc *proc, int line) __releases(&proc->inner_lock) { binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); spin_unlock(&proc->inner_lock); } /** * binder_node_lock() - Acquire spinlock for given binder_node * @node: struct binder_node to acquire * * Acquires node->lock. Used to protect binder_node fields */ #define binder_node_lock(node) _binder_node_lock(node, __LINE__) static void _binder_node_lock(struct binder_node *node, int line) __acquires(&node->lock) { binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); spin_lock(&node->lock); } /** * binder_node_unlock() - Release spinlock for given binder_proc * @node: struct binder_node to acquire * * Release lock acquired via binder_node_lock() */ #define binder_node_unlock(node) _binder_node_unlock(node, __LINE__) static void _binder_node_unlock(struct binder_node *node, int line) __releases(&node->lock) { binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); spin_unlock(&node->lock); } /** * binder_node_inner_lock() - Acquire node and inner locks * @node: struct binder_node to acquire * * Acquires node->lock. If node->proc also acquires * proc->inner_lock. Used to protect binder_node fields */ #define binder_node_inner_lock(node) _binder_node_inner_lock(node, __LINE__) static void _binder_node_inner_lock(struct binder_node *node, int line) __acquires(&node->lock) __acquires(&node->proc->inner_lock) { binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); spin_lock(&node->lock); if (node->proc) binder_inner_proc_lock(node->proc); else /* annotation for sparse */ __acquire(&node->proc->inner_lock); } /** * binder_node_inner_unlock() - Release node and inner locks * @node: struct binder_node to acquire * * Release lock acquired via binder_node_lock() */ #define binder_node_inner_unlock(node) _binder_node_inner_unlock(node, __LINE__) static void _binder_node_inner_unlock(struct binder_node *node, int line) __releases(&node->lock) __releases(&node->proc->inner_lock) { struct binder_proc *proc = node->proc; binder_debug(BINDER_DEBUG_SPINLOCKS, "%s: line=%d\n", __func__, line); if (proc) binder_inner_proc_unlock(proc); else /* annotation for sparse */ __release(&node->proc->inner_lock); spin_unlock(&node->lock); } static bool binder_worklist_empty_ilocked(struct list_head *list) { return list_empty(list); } /** * binder_worklist_empty() - Check if no items on the work list * @proc: binder_proc associated with list * @list: list to check * * Return: true if there are no items on list, else false */ static bool binder_worklist_empty(struct binder_proc *proc, struct list_head *list) { bool ret; binder_inner_proc_lock(proc); ret = binder_worklist_empty_ilocked(list); binder_inner_proc_unlock(proc); return ret; } /** * binder_enqueue_work_ilocked() - Add an item to the work list * @work: struct binder_work to add to list * @target_list: list to add work to * * Adds the work to the specified list. Asserts that work * is not already on a list. * * Requires the proc->inner_lock to be held. */ static void binder_enqueue_work_ilocked(struct binder_work *work, struct list_head *target_list) { BUG_ON(target_list == NULL); BUG_ON(work->entry.next && !list_empty(&work->entry)); list_add_tail(&work->entry, target_list); } /** * binder_enqueue_deferred_thread_work_ilocked() - Add deferred thread work * @thread: thread to queue work to * @work: struct binder_work to add to list * * Adds the work to the todo list of the thread. Doesn't set the process_todo * flag, which means that (if it wasn't already set) the thread will go to * sleep without handling this work when it calls read. * * Requires the proc->inner_lock to be held. */ static void binder_enqueue_deferred_thread_work_ilocked(struct binder_thread *thread, struct binder_work *work) { WARN_ON(!list_empty(&thread->waiting_thread_node)); binder_enqueue_work_ilocked(work, &thread->todo); } /** * binder_enqueue_thread_work_ilocked() - Add an item to the thread work list * @thread: thread to queue work to * @work: struct binder_work to add to list * * Adds the work to the todo list of the thread, and enables processing * of the todo queue. * * Requires the proc->inner_lock to be held. */ static void binder_enqueue_thread_work_ilocked(struct binder_thread *thread, struct binder_work *work) { WARN_ON(!list_empty(&thread->waiting_thread_node)); binder_enqueue_work_ilocked(work, &thread->todo); /* (e)poll-based threads require an explicit wakeup signal when * queuing their own work; they rely on these events to consume * messages without I/O block. Without it, threads risk waiting * indefinitely without handling the work. */ if (thread->looper & BINDER_LOOPER_STATE_POLL && thread->pid == current->pid && !thread->process_todo) wake_up_interruptible_sync(&thread->wait); thread->process_todo = true; } /** * binder_enqueue_thread_work() - Add an item to the thread work list * @thread: thread to queue work to * @work: struct binder_work to add to list * * Adds the work to the todo list of the thread, and enables processing * of the todo queue. */ static void binder_enqueue_thread_work(struct binder_thread *thread, struct binder_work *work) { binder_inner_proc_lock(thread->proc); binder_enqueue_thread_work_ilocked(thread, work); binder_inner_proc_unlock(thread->proc); } static void binder_dequeue_work_ilocked(struct binder_work *work) { list_del_init(&work->entry); } /** * binder_dequeue_work() - Removes an item from the work list * @proc: binder_proc associated with list * @work: struct binder_work to remove from list * * Removes the specified work item from whatever list it is on. * Can safely be called if work is not on any list. */ static void binder_dequeue_work(struct binder_proc *proc, struct binder_work *work) { binder_inner_proc_lock(proc); binder_dequeue_work_ilocked(work); binder_inner_proc_unlock(proc); } static struct binder_work *binder_dequeue_work_head_ilocked( struct list_head *list) { struct binder_work *w; w = list_first_entry_or_null(list, struct binder_work, entry); if (w) list_del_init(&w->entry); return w; } static void binder_defer_work(struct binder_proc *proc, enum binder_deferred_state defer); static void binder_free_thread(struct binder_thread *thread); static void binder_free_proc(struct binder_proc *proc); static void binder_inc_node_tmpref_ilocked(struct binder_node *node); static bool binder_has_work_ilocked(struct binder_thread *thread, bool do_proc_work) { return thread->process_todo || thread->looper_need_return || (do_proc_work && !binder_worklist_empty_ilocked(&thread->proc->todo)); } static bool binder_has_work(struct binder_thread *thread, bool do_proc_work) { bool has_work; binder_inner_proc_lock(thread->proc); has_work = binder_has_work_ilocked(thread, do_proc_work); binder_inner_proc_unlock(thread->proc); return has_work; } static bool binder_available_for_proc_work_ilocked(struct binder_thread *thread) { return !thread->transaction_stack && binder_worklist_empty_ilocked(&thread->todo); } static void binder_wakeup_poll_threads_ilocked(struct binder_proc *proc, bool sync) { struct rb_node *n; struct binder_thread *thread; for (n = rb_first(&proc->threads); n != NULL; n = rb_next(n)) { thread = rb_entry(n, struct binder_thread, rb_node); if (thread->looper & BINDER_LOOPER_STATE_POLL && binder_available_for_proc_work_ilocked(thread)) { if (sync) wake_up_interruptible_sync(&thread->wait); else wake_up_interruptible(&thread->wait); } } } /** * binder_select_thread_ilocked() - selects a thread for doing proc work. * @proc: process to select a thread from * * Note that calling this function moves the thread off the waiting_threads * list, so it can only be woken up by the caller of this function, or a * signal. Therefore, callers *should* always wake up the thread this function * returns. * * Return: If there's a thread currently waiting for process work, * returns that thread. Otherwise returns NULL. */ static struct binder_thread * binder_select_thread_ilocked(struct binder_proc *proc) { struct binder_thread *thread; assert_spin_locked(&proc->inner_lock); thread = list_first_entry_or_null(&proc->waiting_threads, struct binder_thread, waiting_thread_node); if (thread) list_del_init(&thread->waiting_thread_node); return thread; } /** * binder_wakeup_thread_ilocked() - wakes up a thread for doing proc work. * @proc: process to wake up a thread in * @thread: specific thread to wake-up (may be NULL) * @sync: whether to do a synchronous wake-up * * This function wakes up a thread in the @proc process. * The caller may provide a specific thread to wake-up in * the @thread parameter. If @thread is NULL, this function * will wake up threads that have called poll(). * * Note that for this function to work as expected, callers * should first call binder_select_thread() to find a thread * to handle the work (if they don't have a thread already), * and pass the result into the @thread parameter. */ static void binder_wakeup_thread_ilocked(struct binder_proc *proc, struct binder_thread *thread, bool sync) { assert_spin_locked(&proc->inner_lock); if (thread) { if (sync) wake_up_interruptible_sync(&thread->wait); else wake_up_interruptible(&thread->wait); return; } /* Didn't find a thread waiting for proc work; this can happen * in two scenarios: * 1. All threads are busy handling transactions * In that case, one of those threads should call back into * the kernel driver soon and pick up this work. * 2. Threads are using the (e)poll interface, in which case * they may be blocked on the waitqueue without having been * added to waiting_threads. For this case, we just iterate * over all threads not handling transaction work, and * wake them all up. We wake all because we don't know whether * a thread that called into (e)poll is handling non-binder * work currently. */ binder_wakeup_poll_threads_ilocked(proc, sync); } static void binder_wakeup_proc_ilocked(struct binder_proc *proc) { struct binder_thread *thread = binder_select_thread_ilocked(proc); binder_wakeup_thread_ilocked(proc, thread, /* sync = */false); } static void binder_set_nice(long nice) { long min_nice; if (can_nice(current, nice)) { set_user_nice(current, nice); return; } min_nice = rlimit_to_nice(rlimit(RLIMIT_NICE)); binder_debug(BINDER_DEBUG_PRIORITY_CAP, "%d: nice value %ld not allowed use %ld instead\n", current->pid, nice, min_nice); set_user_nice(current, min_nice); if (min_nice <= MAX_NICE) return; binder_user_error("%d RLIMIT_NICE not set\n", current->pid); } static struct binder_node *binder_get_node_ilocked(struct binder_proc *proc, binder_uintptr_t ptr) { struct rb_node *n = proc->nodes.rb_node; struct binder_node *node; assert_spin_locked(&proc->inner_lock); while (n) { node = rb_entry(n, struct binder_node, rb_node); if (ptr < node->ptr) n = n->rb_left; else if (ptr > node->ptr) n = n->rb_right; else { /* * take an implicit weak reference * to ensure node stays alive until * call to binder_put_node() */ binder_inc_node_tmpref_ilocked(node); return node; } } return NULL; } static struct binder_node *binder_get_node(struct binder_proc *proc, binder_uintptr_t ptr) { struct binder_node *node; binder_inner_proc_lock(proc); node = binder_get_node_ilocked(proc, ptr); binder_inner_proc_unlock(proc); return node; } static struct binder_node *binder_init_node_ilocked( struct binder_proc *proc, struct binder_node *new_node, struct flat_binder_object *fp) { struct rb_node **p = &proc->nodes.rb_node; struct rb_node *parent = NULL; struct binder_node *node; binder_uintptr_t ptr = fp ? fp->binder : 0; binder_uintptr_t cookie = fp ? fp->cookie : 0; __u32 flags = fp ? fp->flags : 0; assert_spin_locked(&proc->inner_lock); while (*p) { parent = *p; node = rb_entry(parent, struct binder_node, rb_node); if (ptr < node->ptr) p = &(*p)->rb_left; else if (ptr > node->ptr) p = &(*p)->rb_right; else { /* * A matching node is already in * the rb tree. Abandon the init * and return it. */ binder_inc_node_tmpref_ilocked(node); return node; } } node = new_node; binder_stats_created(BINDER_STAT_NODE); node->tmp_refs++; rb_link_node(&node->rb_node, parent, p); rb_insert_color(&node->rb_node, &proc->nodes); node->debug_id = atomic_inc_return(&binder_last_id); node->proc = proc; node->ptr = ptr; node->cookie = cookie; node->work.type = BINDER_WORK_NODE; node->min_priority = flags & FLAT_BINDER_FLAG_PRIORITY_MASK; node->accept_fds = !!(flags & FLAT_BINDER_FLAG_ACCEPTS_FDS); node->txn_security_ctx = !!(flags & FLAT_BINDER_FLAG_TXN_SECURITY_CTX); spin_lock_init(&node->lock); INIT_LIST_HEAD(&node->work.entry); INIT_LIST_HEAD(&node->async_todo); binder_debug(BINDER_DEBUG_INTERNAL_REFS, "%d:%d node %d u%016llx c%016llx created\n", proc->pid, current->pid, node->debug_id, (u64)node->ptr, (u64)node->cookie); return node; } static struct binder_node *binder_new_node(struct binder_proc *proc, struct flat_binder_object *fp) { struct binder_node *node; struct binder_node *new_node = kzalloc(sizeof(*node), GFP_KERNEL); if (!new_node) return NULL; binder_inner_proc_lock(proc); node = binder_init_node_ilocked(proc, new_node, fp); binder_inner_proc_unlock(proc); if (node != new_node) /* * The node was already added by another thread */ kfree(new_node); return node; } static void binder_free_node(struct binder_node *node) { kfree(node); binder_stats_deleted(BINDER_STAT_NODE); } static int binder_inc_node_nilocked(struct binder_node *node, int strong, int internal, struct list_head *target_list) { struct binder_proc *proc = node->proc; assert_spin_locked(&node->lock); if (proc) assert_spin_locked(&proc->inner_lock); if (strong) { if (internal) { if (target_list == NULL && node->internal_strong_refs == 0 && !(node->proc && node == node->proc->context->binder_context_mgr_node && node->has_strong_ref)) { pr_err("invalid inc strong node for %d\n", node->debug_id); return -EINVAL; } node->internal_strong_refs++; } else node->local_strong_refs++; if (!node->has_strong_ref && target_list) { struct binder_thread *thread = container_of(target_list, struct binder_thread, todo); binder_dequeue_work_ilocked(&node->work); BUG_ON(&thread->todo != target_list); binder_enqueue_deferred_thread_work_ilocked(thread, &node->work); } } else { if (!internal) node->local_weak_refs++; if (!node->has_weak_ref && list_empty(&node->work.entry)) { if (target_list == NULL) { pr_err("invalid inc weak node for %d\n", node->debug_id); return -EINVAL; } /* * See comment above */ binder_enqueue_work_ilocked(&node->work, target_list); } } return 0; } static int binder_inc_node(struct binder_node *node, int strong, int internal, struct list_head *target_list) { int ret; binder_node_inner_lock(node); ret = binder_inc_node_nilocked(node, strong, internal, target_list); binder_node_inner_unlock(node); return ret; } static bool binder_dec_node_nilocked(struct binder_node *node, int strong, int internal) { struct binder_proc *proc = node->proc; assert_spin_locked(&node->lock); if (proc) assert_spin_locked(&proc->inner_lock); if (strong) { if (internal) node->internal_strong_refs--; else node->local_strong_refs--; if (node->local_strong_refs || node->internal_strong_refs) return false; } else { if (!internal) node->local_weak_refs--; if (node->local_weak_refs || node->tmp_refs || !hlist_empty(&node->refs)) return false; } if (proc && (node->has_strong_ref || node->has_weak_ref)) { if (list_empty(&node->work.entry)) { binder_enqueue_work_ilocked(&node->work, &proc->todo); binder_wakeup_proc_ilocked(proc); } } else { if (hlist_empty(&node->refs) && !node->local_strong_refs && !node->local_weak_refs && !node->tmp_refs) { if (proc) { binder_dequeue_work_ilocked(&node->work); rb_erase(&node->rb_node, &proc->nodes); binder_debug(BINDER_DEBUG_INTERNAL_REFS, "refless node %d deleted\n", node->debug_id); } else { BUG_ON(!list_empty(&node->work.entry)); spin_lock(&binder_dead_nodes_lock); /* * tmp_refs could have changed so * check it again */ if (node->tmp_refs) { spin_unlock(&binder_dead_nodes_lock); return false; } hlist_del(&node->dead_node); spin_unlock(&binder_dead_nodes_lock); binder_debug(BINDER_DEBUG_INTERNAL_REFS, "dead node %d deleted\n", node->debug_id); } return true; } } return false; } static void binder_dec_node(struct binder_node *node, int strong, int internal) { bool free_node; binder_node_inner_lock(node); free_node = binder_dec_node_nilocked(node, strong, internal); binder_node_inner_unlock(node); if (free_node) binder_free_node(node); } static void binder_inc_node_tmpref_ilocked(struct binder_node *node) { /* * No call to binder_inc_node() is needed since we * don't need to inform userspace of any changes to * tmp_refs */ node->tmp_refs++; } /** * binder_inc_node_tmpref() - take a temporary reference on node * @node: node to reference * * Take reference on node to prevent the node from being freed * while referenced only by a local variable. The inner lock is * needed to serialize with the node work on the queue (which * isn't needed after the node is dead). If the node is dead * (node->proc is NULL), use binder_dead_nodes_lock to protect * node->tmp_refs against dead-node-only cases where the node * lock cannot be acquired (eg traversing the dead node list to * print nodes) */ static void binder_inc_node_tmpref(struct binder_node *node) { binder_node_lock(node); if (node->proc) binder_inner_proc_lock(node->proc); else spin_lock(&binder_dead_nodes_lock); binder_inc_node_tmpref_ilocked(node); if (node->proc) binder_inner_proc_unlock(node->proc); else spin_unlock(&binder_dead_nodes_lock); binder_node_unlock(node); } /** * binder_dec_node_tmpref() - remove a temporary reference on node * @node: node to reference * * Release temporary reference on node taken via binder_inc_node_tmpref() */ static void binder_dec_node_tmpref(struct binder_node *node) { bool free_node; binder_node_inner_lock(node); if (!node->proc) spin_lock(&binder_dead_nodes_lock); else __acquire(&binder_dead_nodes_lock); node->tmp_refs--; BUG_ON(node->tmp_refs < 0); if (!node->proc) spin_unlock(&binder_dead_nodes_lock); else __release(&binder_dead_nodes_lock); /* * Call binder_dec_node() to check if all refcounts are 0 * and cleanup is needed. Calling with strong=0 and internal=1 * causes no actual reference to be released in binder_dec_node(). * If that changes, a change is needed here too. */ free_node = binder_dec_node_nilocked(node, 0, 1); binder_node_inner_unlock(node); if (free_node) binder_free_node(node); } static void binder_put_node(struct binder_node *node) { binder_dec_node_tmpref(node); } static struct binder_ref *binder_get_ref_olocked(struct binder_proc *proc, u32 desc, bool need_strong_ref) { struct rb_node *n = proc->refs_by_desc.rb_node; struct binder_ref *ref; while (n) { ref = rb_entry(n, struct binder_ref, rb_node_desc); if (desc < ref->data.desc) { n = n->rb_left; } else if (desc > ref->data.desc) { n = n->rb_right; } else if (need_strong_ref && !ref->data.strong) { binder_user_error("tried to use weak ref as strong ref\n"); return NULL; } else { return ref; } } return NULL; } /* Find the smallest unused descriptor the "slow way" */ static u32 slow_desc_lookup_olocked(struct binder_proc *proc, u32 offset) { struct binder_ref *ref; struct rb_node *n; u32 desc; desc = offset; for (n = rb_first(&proc->refs_by_desc); n; n = rb_next(n)) { ref = rb_entry(n, struct binder_ref, rb_node_desc); if (ref->data.desc > desc) break; desc = ref->data.desc + 1; } return desc; } /* * Find an available reference descriptor ID. The proc->outer_lock might * be released in the process, in which case -EAGAIN is returned and the * @desc should be considered invalid. */ static int get_ref_desc_olocked(struct binder_proc *proc, struct binder_node *node, u32 *desc) { struct dbitmap *dmap = &proc->dmap; unsigned int nbits, offset; unsigned long *new, bit; /* 0 is reserved for the context manager */ offset = (node == proc->context->binder_context_mgr_node) ? 0 : 1; if (!dbitmap_enabled(dmap)) { *desc = slow_desc_lookup_olocked(proc, offset); return 0; } if (dbitmap_acquire_next_zero_bit(dmap, offset, &bit) == 0) { *desc = bit; return 0; } /* * The dbitmap is full and needs to grow. The proc->outer_lock * is briefly released to allocate the new bitmap safely. */ nbits = dbitmap_grow_nbits(dmap); binder_proc_unlock(proc); new = bitmap_zalloc(nbits, GFP_KERNEL); binder_proc_lock(proc); dbitmap_grow(dmap, new, nbits); return -EAGAIN; } /** * binder_get_ref_for_node_olocked() - get the ref associated with given node * @proc: binder_proc that owns the ref * @node: binder_node of target * @new_ref: newly allocated binder_ref to be initialized or %NULL * * Look up the ref for the given node and return it if it exists * * If it doesn't exist and the caller provides a newly allocated * ref, initialize the fields of the newly allocated ref and insert * into the given proc rb_trees and node refs list. * * Return: the ref for node. It is possible that another thread * allocated/initialized the ref first in which case the * returned ref would be different than the passed-in * new_ref. new_ref must be kfree'd by the caller in * this case. */ static struct binder_ref *binder_get_ref_for_node_olocked( struct binder_proc *proc, struct binder_node *node, struct binder_ref *new_ref) { struct binder_ref *ref; struct rb_node *parent; struct rb_node **p; u32 desc; retry: p = &proc->refs_by_node.rb_node; parent = NULL; while (*p) { parent = *p; ref = rb_entry(parent, struct binder_ref, rb_node_node); if (node < ref->node) p = &(*p)->rb_left; else if (node > ref->node) p = &(*p)->rb_right; else return ref; } if (!new_ref) return NULL; /* might release the proc->outer_lock */ if (get_ref_desc_olocked(proc, node, &desc) == -EAGAIN) goto retry; binder_stats_created(BINDER_STAT_REF); new_ref->data.debug_id = atomic_inc_return(&binder_last_id); new_ref->proc = proc; new_ref->node = node; rb_link_node(&new_ref->rb_node_node, parent, p); rb_insert_color(&new_ref->rb_node_node, &proc->refs_by_node); new_ref->data.desc = desc; p = &proc->refs_by_desc.rb_node; while (*p) { parent = *p; ref = rb_entry(parent, struct binder_ref, rb_node_desc); if (new_ref->data.desc < ref->data.desc) p = &(*p)->rb_left; else if (new_ref->data.desc > ref->data.desc) p = &(*p)->rb_right; else BUG(); } rb_link_node(&new_ref->rb_node_desc, parent, p); rb_insert_color(&new_ref->rb_node_desc, &proc->refs_by_desc); binder_node_lock(node); hlist_add_head(&new_ref->node_entry, &node->refs); binder_debug(BINDER_DEBUG_INTERNAL_REFS, "%d new ref %d desc %d for node %d\n", proc->pid, new_ref->data.debug_id, new_ref->data.desc, node->debug_id); binder_node_unlock(node); return new_ref; } static void binder_cleanup_ref_olocked(struct binder_ref *ref) { struct dbitmap *dmap = &ref->proc->dmap; bool delete_node = false; binder_debug(BINDER_DEBUG_INTERNAL_REFS, "%d delete ref %d desc %d for node %d\n", ref->proc->pid, ref->data.debug_id, ref->data.desc, ref->node->debug_id); if (dbitmap_enabled(dmap)) dbitmap_clear_bit(dmap, ref->data.desc); rb_erase(&ref->rb_node_desc, &ref->proc->refs_by_desc); rb_erase(&ref->rb_node_node, &ref->proc->refs_by_node); binder_node_inner_lock(ref->node); if (ref->data.strong) binder_dec_node_nilocked(ref->node, 1, 1); hlist_del(&ref->node_entry); delete_node = binder_dec_node_nilocked(ref->node, 0, 1); binder_node_inner_unlock(ref->node); /* * Clear ref->node unless we want the caller to free the node */ if (!delete_node) { /* * The caller uses ref->node to determine * whether the node needs to be freed. Clear * it since the node is still alive. */ ref->node = NULL; } if (ref->death) { binder_debug(BINDER_DEBUG_DEAD_BINDER, "%d delete ref %d desc %d has death notification\n", ref->proc->pid, ref->data.debug_id, ref->data.desc); binder_dequeue_work(ref->proc, &ref->death->work); binder_stats_deleted(BINDER_STAT_DEATH); } binder_stats_deleted(BINDER_STAT_REF); } /** * binder_inc_ref_olocked() - increment the ref for given handle * @ref: ref to be incremented * @strong: if true, strong increment, else weak * @target_list: list to queue node work on * * Increment the ref. @ref->proc->outer_lock must be held on entry * * Return: 0, if successful, else errno */ static int binder_inc_ref_olocked(struct binder_ref *ref, int strong, struct list_head *target_list) { int ret; if (strong) { if (ref->data.strong == 0) { ret = binder_inc_node(ref->node, 1, 1, target_list); if (ret) return ret; } ref->data.strong++; } else { if (ref->data.weak == 0) { ret = binder_inc_node(ref->node, 0, 1, target_list); if (ret) return ret; } ref->data.weak++; } return 0; } /** * binder_dec_ref_olocked() - dec the ref for given handle * @ref: ref to be decremented * @strong: if true, strong decrement, else weak * * Decrement the ref. * * Return: %true if ref is cleaned up and ready to be freed. */ static bool binder_dec_ref_olocked(struct binder_ref *ref, int strong) { if (strong) { if (ref->data.strong == 0) { binder_user_error("%d invalid dec strong, ref %d desc %d s %d w %d\n", ref->proc->pid, ref->data.debug_id, ref->data.desc, ref->data.strong, ref->data.weak); return false; } ref->data.strong--; if (ref->data.strong == 0) binder_dec_node(ref->node, strong, 1); } else { if (ref->data.weak == 0) { binder_user_error("%d invalid dec weak, ref %d desc %d s %d w %d\n", ref->proc->pid, ref->data.debug_id, ref->data.desc, ref->data.strong, ref->data.weak); return false; } ref->data.weak--; } if (ref->data.strong == 0 && ref->data.weak == 0) { binder_cleanup_ref_olocked(ref); return true; } return false; } /** * binder_get_node_from_ref() - get the node from the given proc/desc * @proc: proc containing the ref * @desc: the handle associated with the ref * @need_strong_ref: if true, only return node if ref is strong * @rdata: the id/refcount data for the ref * * Given a proc and ref handle, return the associated binder_node * * Return: a binder_node or NULL if not found or not strong when strong required */ static struct binder_node *binder_get_node_from_ref( struct binder_proc *proc, u32 desc, bool need_strong_ref, struct binder_ref_data *rdata) { struct binder_node *node; struct binder_ref *ref; binder_proc_lock(proc); ref = binder_get_ref_olocked(proc, desc, need_strong_ref); if (!ref) goto err_no_ref; node = ref->node; /* * Take an implicit reference on the node to ensure * it stays alive until the call to binder_put_node() */ binder_inc_node_tmpref(node); if (rdata) *rdata = ref->data; binder_proc_unlock(proc); return node; err_no_ref: binder_proc_unlock(proc); return NULL; } /** * binder_free_ref() - free the binder_ref * @ref: ref to free * * Free the binder_ref. Free the binder_node indicated by ref->node * (if non-NULL) and the binder_ref_death indicated by ref->death. */ static void binder_free_ref(struct binder_ref *ref) { if (ref->node) binder_free_node(ref->node); kfree(ref->death); kfree(ref); } /* shrink descriptor bitmap if needed */ static void try_shrink_dmap(struct binder_proc *proc) { unsigned long *new; int nbits; binder_proc_lock(proc); nbits = dbitmap_shrink_nbits(&proc->dmap); binder_proc_unlock(proc); if (!nbits) return; new = bitmap_zalloc(nbits, GFP_KERNEL); binder_proc_lock(proc); dbitmap_shrink(&proc->dmap, new, nbits); binder_proc_unlock(proc); } /** * binder_update_ref_for_handle() - inc/dec the ref for given handle * @proc: proc containing the ref * @desc: the handle associated with the ref * @increment: true=inc reference, false=dec reference * @strong: true=strong reference, false=weak reference * @rdata: the id/refcount data for the ref * * Given a proc and ref handle, increment or decrement the ref * according to "increment" arg. * * Return: 0 if successful, else errno */ static int binder_update_ref_for_handle(struct binder_proc *proc, uint32_t desc, bool increment, bool strong, struct binder_ref_data *rdata) { int ret = 0; struct binder_ref *ref; bool delete_ref = false; binder_proc_lock(proc); ref = binder_get_ref_olocked(proc, desc, strong); if (!ref) { ret = -EINVAL; goto err_no_ref; } if (increment) ret = binder_inc_ref_olocked(ref, strong, NULL); else delete_ref = binder_dec_ref_olocked(ref, strong); if (rdata) *rdata = ref->data; binder_proc_unlock(proc); if (delete_ref) { binder_free_ref(ref); try_shrink_dmap(proc); } return ret; err_no_ref: binder_proc_unlock(proc); return ret; } /** * binder_dec_ref_for_handle() - dec the ref for given handle * @proc: proc containing the ref * @desc: the handle associated with the ref * @strong: true=strong reference, false=weak reference * @rdata: the id/refcount data for the ref * * Just calls binder_update_ref_for_handle() to decrement the ref. * * Return: 0 if successful, else errno */ static int binder_dec_ref_for_handle(struct binder_proc *proc, uint32_t desc, bool strong, struct binder_ref_data *rdata) { return binder_update_ref_for_handle(proc, desc, false, strong, rdata); } /** * binder_inc_ref_for_node() - increment the ref for given proc/node * @proc: proc containing the ref * @node: target node * @strong: true=strong reference, false=weak reference * @target_list: worklist to use if node is incremented * @rdata: the id/refcount data for the ref * * Given a proc and node, increment the ref. Create the ref if it * doesn't already exist * * Return: 0 if successful, else errno */ static int binder_inc_ref_for_node(struct binder_proc *proc, struct binder_node *node, bool strong, struct list_head *target_list, struct binder_ref_data *rdata) { struct binder_ref *ref; struct binder_ref *new_ref = NULL; int ret = 0; binder_proc_lock(proc); ref = binder_get_ref_for_node_olocked(proc, node, NULL); if (!ref) { binder_proc_unlock(proc); new_ref = kzalloc(sizeof(*ref), GFP_KERNEL); if (!new_ref) return -ENOMEM; binder_proc_lock(proc); ref = binder_get_ref_for_node_olocked(proc, node, new_ref); } ret = binder_inc_ref_olocked(ref, strong, target_list); *rdata = ref->data; if (ret && ref == new_ref) { /* * Cleanup the failed reference here as the target * could now be dead and have already released its * references by now. Calling on the new reference * with strong=0 and a tmp_refs will not decrement * the node. The new_ref gets kfree'd below. */ binder_cleanup_ref_olocked(new_ref); ref = NULL; } binder_proc_unlock(proc); if (new_ref && ref != new_ref) /* * Another thread created the ref first so * free the one we allocated */ kfree(new_ref); return ret; } static void binder_pop_transaction_ilocked(struct binder_thread *target_thread, struct binder_transaction *t) { BUG_ON(!target_thread); assert_spin_locked(&target_thread->proc->inner_lock); BUG_ON(target_thread->transaction_stack != t); BUG_ON(target_thread->transaction_stack->from != target_thread); target_thread->transaction_stack = target_thread->transaction_stack->from_parent; t->from = NULL; } /** * binder_thread_dec_tmpref() - decrement thread->tmp_ref * @thread: thread to decrement * * A thread needs to be kept alive while being used to create or * handle a transaction. binder_get_txn_from() is used to safely * extract t->from from a binder_transaction and keep the thread * indicated by t->from from being freed. When done with that * binder_thread, this function is called to decrement the * tmp_ref and free if appropriate (thread has been released * and no transaction being processed by the driver) */ static void binder_thread_dec_tmpref(struct binder_thread *thread) { /* * atomic is used to protect the counter value while * it cannot reach zero or thread->is_dead is false */ binder_inner_proc_lock(thread->proc); atomic_dec(&thread->tmp_ref); if (thread->is_dead && !atomic_read(&thread->tmp_ref)) { binder_inner_proc_unlock(thread->proc); binder_free_thread(thread); return; } binder_inner_proc_unlock(thread->proc); } /** * binder_proc_dec_tmpref() - decrement proc->tmp_ref * @proc: proc to decrement * * A binder_proc needs to be kept alive while being used to create or * handle a transaction. proc->tmp_ref is incremented when * creating a new transaction or the binder_proc is currently in-use * by threads that are being released. When done with the binder_proc, * this function is called to decrement the counter and free the * proc if appropriate (proc has been released, all threads have * been released and not currenly in-use to process a transaction). */ static void binder_proc_dec_tmpref(struct binder_proc *proc) { binder_inner_proc_lock(proc); proc->tmp_ref--; if (proc->is_dead && RB_EMPTY_ROOT(&proc->threads) && !proc->tmp_ref) { binder_inner_proc_unlock(proc); binder_free_proc(proc); return; } binder_inner_proc_unlock(proc); } /** * binder_get_txn_from() - safely extract the "from" thread in transaction * @t: binder transaction for t->from * * Atomically return the "from" thread and increment the tmp_ref * count for the thread to ensure it stays alive until * binder_thread_dec_tmpref() is called. * * Return: the value of t->from */ static struct binder_thread *binder_get_txn_from( struct binder_transaction *t) { struct binder_thread *from; spin_lock(&t->lock); from = t->from; if (from) atomic_inc(&from->tmp_ref); spin_unlock(&t->lock); return from; } /** * binder_get_txn_from_and_acq_inner() - get t->from and acquire inner lock * @t: binder transaction for t->from * * Same as binder_get_txn_from() except it also acquires the proc->inner_lock * to guarantee that the thread cannot be released while operating on it. * The caller must call binder_inner_proc_unlock() to release the inner lock * as well as call binder_dec_thread_txn() to release the reference. * * Return: the value of t->from */ static struct binder_thread *binder_get_txn_from_and_acq_inner( struct binder_transaction *t) __acquires(&t->from->proc->inner_lock) { struct binder_thread *from; from = binder_get_txn_from(t); if (!from) { __acquire(&from->proc->inner_lock); return NULL; } binder_inner_proc_lock(from->proc); if (t->from) { BUG_ON(from != t->from); return from; } binder_inner_proc_unlock(from->proc); __acquire(&from->proc->inner_lock); binder_thread_dec_tmpref(from); return NULL; } /** * binder_free_txn_fixups() - free unprocessed fd fixups * @t: binder transaction for t->from * * If the transaction is being torn down prior to being * processed by the target process, free all of the * fd fixups and fput the file structs. It is safe to * call this function after the fixups have been * processed -- in that case, the list will be empty. */ static void binder_free_txn_fixups(struct binder_transaction *t) { struct binder_txn_fd_fixup *fixup, *tmp; list_for_each_entry_safe(fixup, tmp, &t->fd_fixups, fixup_entry) { fput(fixup->file); if (fixup->target_fd >= 0) put_unused_fd(fixup->target_fd); list_del(&fixup->fixup_entry); kfree(fixup); } } static void binder_txn_latency_free(struct binder_transaction *t) { int from_proc, from_thread, to_proc, to_thread; spin_lock(&t->lock); from_proc = t->from ? t->from->proc->pid : 0; from_thread = t->from ? t->from->pid : 0; to_proc = t->to_proc ? t->to_proc->pid : 0; to_thread = t->to_thread ? t->to_thread->pid : 0; spin_unlock(&t->lock); trace_binder_txn_latency_free(t, from_proc, from_thread, to_proc, to_thread); } static void binder_free_transaction(struct binder_transaction *t) { struct binder_proc *target_proc = t->to_proc; if (target_proc) { binder_inner_proc_lock(target_proc); target_proc->outstanding_txns--; if (target_proc->outstanding_txns < 0) pr_warn("%s: Unexpected outstanding_txns %d\n", __func__, target_proc->outstanding_txns); if (!target_proc->outstanding_txns && target_proc->is_frozen) wake_up_interruptible_all(&target_proc->freeze_wait); if (t->buffer) t->buffer->transaction = NULL; binder_inner_proc_unlock(target_proc); } if (trace_binder_txn_latency_free_enabled()) binder_txn_latency_free(t); /* * If the transaction has no target_proc, then * t->buffer->transaction has already been cleared. */ binder_free_txn_fixups(t); kfree(t); binder_stats_deleted(BINDER_STAT_TRANSACTION); } static void binder_send_failed_reply(struct binder_transaction *t, uint32_t error_code) { struct binder_thread *target_thread; struct binder_transaction *next; BUG_ON(t->flags & TF_ONE_WAY); while (1) { target_thread = binder_get_txn_from_and_acq_inner(t); if (target_thread) { binder_debug(BINDER_DEBUG_FAILED_TRANSACTION, "send failed reply for transaction %d to %d:%d\n", t->debug_id, target_thread->proc->pid, target_thread->pid); binder_pop_transaction_ilocked(target_thread, t); if (target_thread->reply_error.cmd == BR_OK) { target_thread->reply_error.cmd = error_code; binder_enqueue_thread_work_ilocked( target_thread, &target_thread->reply_error.work); wake_up_interruptible(&target_thread->wait); } else { /* * Cannot get here for normal operation, but * we can if multiple synchronous transactions * are sent without blocking for responses. * Just ignore the 2nd error in this case. */ pr_warn("Unexpected reply error: %u\n", target_thread->reply_error.cmd); } binder_inner_proc_unlock(target_thread->proc); binder_thread_dec_tmpref(target_thread); binder_free_transaction(t); return; } __release(&target_thread->proc->inner_lock); next = t->from_parent; binder_debug(BINDER_DEBUG_FAILED_TRANSACTION, "send failed reply for transaction %d, target dead\n", t->debug_id); binder_free_transaction(t); if (next == NULL) { binder_debug(BINDER_DEBUG_DEAD_BINDER, "reply failed, no target thread at root\n"); return; } t = next; binder_debug(BINDER_DEBUG_DEAD_BINDER, "reply failed, no target thread -- retry %d\n", t->debug_id); } } /** * binder_cleanup_transaction() - cleans up undelivered transaction * @t: transaction that needs to be cleaned up * @reason: reason the transaction wasn't delivered * @error_code: error to return to caller (if synchronous call) */ static void binder_cleanup_transaction(struct binder_transaction *t, const char *reason, uint32_t error_code) { if (t->buffer->target_node && !(t->flags & TF_ONE_WAY)) { binder_send_failed_reply(t, error_code); } else { binder_debug(BINDER_DEBUG_DEAD_TRANSACTION, "undelivered transaction %d, %s\n", t->debug_id, reason); binder_free_transaction(t); } } /** * binder_get_object() - gets object and checks for valid metadata * @proc: binder_proc owning the buffer * @u: sender's user pointer to base of buffer * @buffer: binder_buffer that we're parsing. * @offset: offset in the @buffer at which to validate an object. * @object: struct binder_object to read into * * Copy the binder object at the given offset into @object. If @u is * provided then the copy is from the sender's buffer. If not, then * it is copied from the target's @buffer. * * Return: If there's a valid metadata object at @offset, the * size of that object. Otherwise, it returns zero. The object * is read into the struct binder_object pointed to by @object. */ static size_t binder_get_object(struct binder_proc *proc, const void __user *u, struct binder_buffer *buffer, unsigned long offset, struct binder_object *object) { size_t read_size; struct binder_object_header *hdr; size_t object_size = 0; read_size = min_t(size_t, sizeof(*object), buffer->data_size - offset); if (offset > buffer->data_size || read_size < sizeof(*hdr) || !IS_ALIGNED(offset, sizeof(u32))) return 0; if (u) { if (copy_from_user(object, u + offset, read_size)) return 0; } else { if (binder_alloc_copy_from_buffer(&proc->alloc, object, buffer, offset, read_size)) return 0; } /* Ok, now see if we read a complete object. */ hdr = &object->hdr; switch (hdr->type) { case BINDER_TYPE_BINDER: case BINDER_TYPE_WEAK_BINDER: case BINDER_TYPE_HANDLE: case BINDER_TYPE_WEAK_HANDLE: object_size = sizeof(struct flat_binder_object); break; case BINDER_TYPE_FD: object_size = sizeof(struct binder_fd_object); break; case BINDER_TYPE_PTR: object_size = sizeof(struct binder_buffer_object); break; case BINDER_TYPE_FDA: object_size = sizeof(struct binder_fd_array_object); break; default: return 0; } if (offset <= buffer->data_size - object_size && buffer->data_size >= object_size) return object_size; else return 0; } /** * binder_validate_ptr() - validates binder_buffer_object in a binder_buffer. * @proc: binder_proc owning the buffer * @b: binder_buffer containing the object * @object: struct binder_object to read into * @index: index in offset array at which the binder_buffer_object is * located * @start_offset: points to the start of the offset array * @object_offsetp: offset of @object read from @b * @num_valid: the number of valid offsets in the offset array * * Return: If @index is within the valid range of the offset array * described by @start and @num_valid, and if there's a valid * binder_buffer_object at the offset found in index @index * of the offset array, that object is returned. Otherwise, * %NULL is returned. * Note that the offset found in index @index itself is not * verified; this function assumes that @num_valid elements * from @start were previously verified to have valid offsets. * If @object_offsetp is non-NULL, then the offset within * @b is written to it. */ static struct binder_buffer_object *binder_validate_ptr( struct binder_proc *proc, struct binder_buffer *b, struct binder_object *object, binder_size_t index, binder_size_t start_offset, binder_size_t *object_offsetp, binder_size_t num_valid) { size_t object_size; binder_size_t object_offset; unsigned long buffer_offset; if (index >= num_valid) return NULL; buffer_offset = start_offset + sizeof(binder_size_t) * index; if (binder_alloc_copy_from_buffer(&proc->alloc, &object_offset, b, buffer_offset, sizeof(object_offset))) return NULL; object_size = binder_get_object(proc, NULL, b, object_offset, object); if (!object_size || object->hdr.type != BINDER_TYPE_PTR) return NULL; if (object_offsetp) *object_offsetp = object_offset; return &object->bbo; } /** * binder_validate_fixup() - validates pointer/fd fixups happen in order. * @proc: binder_proc owning the buffer * @b: transaction buffer * @objects_start_offset: offset to start of objects buffer * @buffer_obj_offset: offset to binder_buffer_object in which to fix up * @fixup_offset: start offset in @buffer to fix up * @last_obj_offset: offset to last binder_buffer_object that we fixed * @last_min_offset: minimum fixup offset in object at @last_obj_offset * * Return: %true if a fixup in buffer @buffer at offset @offset is * allowed. * * For safety reasons, we only allow fixups inside a buffer to happen * at increasing offsets; additionally, we only allow fixup on the last * buffer object that was verified, or one of its parents. * * Example of what is allowed: * * A * B (parent = A, offset = 0) * C (parent = A, offset = 16) * D (parent = C, offset = 0) * E (parent = A, offset = 32) // min_offset is 16 (C.parent_offset) * * Examples of what is not allowed: * * Decreasing offsets within the same parent: * A * C (parent = A, offset = 16) * B (parent = A, offset = 0) // decreasing offset within A * * Referring to a parent that wasn't the last object or any of its parents: * A * B (parent = A, offset = 0) * C (parent = A, offset = 0) * C (parent = A, offset = 16) * D (parent = B, offset = 0) // B is not A or any of A's parents */ static bool binder_validate_fixup(struct binder_proc *proc, struct binder_buffer *b, binder_size_t objects_start_offset, binder_size_t buffer_obj_offset, binder_size_t fixup_offset, binder_size_t last_obj_offset, binder_size_t last_min_offset) { if (!last_obj_offset) { /* Nothing to fix up in */ return false; } while (last_obj_offset != buffer_obj_offset) { unsigned long buffer_offset; struct binder_object last_object; struct binder_buffer_object *last_bbo; size_t object_size = binder_get_object(proc, NULL, b, last_obj_offset, &last_object); if (object_size != sizeof(*last_bbo)) return false; last_bbo = &last_object.bbo; /* * Safe to retrieve the parent of last_obj, since it * was already previously verified by the driver. */ if ((last_bbo->flags & BINDER_BUFFER_FLAG_HAS_PARENT) == 0) return false; last_min_offset = last_bbo->parent_offset + sizeof(uintptr_t); buffer_offset = objects_start_offset + sizeof(binder_size_t) * last_bbo->parent; if (binder_alloc_copy_from_buffer(&proc->alloc, &last_obj_offset, b, buffer_offset, sizeof(last_obj_offset))) return false; } return (fixup_offset >= last_min_offset); } /** * struct binder_task_work_cb - for deferred close * * @twork: callback_head for task work * @fd: fd to close * * Structure to pass task work to be handled after * returning from binder_ioctl() via task_work_add(). */ struct binder_task_work_cb { struct callback_head twork; struct file *file; }; /** * binder_do_fd_close() - close list of file descriptors * @twork: callback head for task work * * It is not safe to call ksys_close() during the binder_ioctl() * function if there is a chance that binder's own file descriptor * might be closed. This is to meet the requirements for using * fdget() (see comments for __fget_light()). Therefore use * task_work_add() to schedule the close operation once we have * returned from binder_ioctl(). This function is a callback * for that mechanism and does the actual ksys_close() on the * given file descriptor. */ static void binder_do_fd_close(struct callback_head *twork) { struct binder_task_work_cb *twcb = container_of(twork, struct binder_task_work_cb, twork); fput(twcb->file); kfree(twcb); } /** * binder_deferred_fd_close() - schedule a close for the given file-descriptor * @fd: file-descriptor to close * * See comments in binder_do_fd_close(). This function is used to schedule * a file-descriptor to be closed after returning from binder_ioctl(). */ static void binder_deferred_fd_close(int fd) { struct binder_task_work_cb *twcb; twcb = kzalloc(sizeof(*twcb), GFP_KERNEL); if (!twcb) return; init_task_work(&twcb->twork, binder_do_fd_close); twcb->file = file_close_fd(fd); if (twcb->file) { // pin it until binder_do_fd_close(); see comments there get_file(twcb->file); filp_close(twcb->file, current->files); task_work_add(current, &twcb->twork, TWA_RESUME); } else { kfree(twcb); } } static void binder_transaction_buffer_release(struct binder_proc *proc, struct binder_thread *thread, struct binder_buffer *buffer, binder_size_t off_end_offset, bool is_failure) { int debug_id = buffer->debug_id; binder_size_t off_start_offset, buffer_offset; binder_debug(BINDER_DEBUG_TRANSACTION, "%d buffer release %d, size %zd-%zd, failed at %llx\n", proc->pid, buffer->debug_id, buffer->data_size, buffer->offsets_size, (unsigned long long)off_end_offset); if (buffer->target_node) binder_dec_node(buffer->target_node, 1, 0); off_start_offset = ALIGN(buffer->data_size, sizeof(void *)); for (buffer_offset = off_start_offset; buffer_offset < off_end_offset; buffer_offset += sizeof(binder_size_t)) { struct binder_object_header *hdr; size_t object_size = 0; struct binder_object object; binder_size_t object_offset; if (!binder_alloc_copy_from_buffer(&proc->alloc, &object_offset, buffer, buffer_offset, sizeof(object_offset))) object_size = binder_get_object(proc, NULL, buffer, object_offset, &object); if (object_size == 0) { pr_err("transaction release %d bad object at offset %lld, size %zd\n", debug_id, (u64)object_offset, buffer->data_size); continue; } hdr = &object.hdr; switch (hdr->type) { case BINDER_TYPE_BINDER: case BINDER_TYPE_WEAK_BINDER: { struct flat_binder_object *fp; struct binder_node *node; fp = to_flat_binder_object(hdr); node = binder_get_node(proc, fp->binder); if (node == NULL) { pr_err("transaction release %d bad node %016llx\n", debug_id, (u64)fp->binder); break; } binder_debug(BINDER_DEBUG_TRANSACTION, " node %d u%016llx\n", node->debug_id, (u64)node->ptr); binder_dec_node(node, hdr->type == BINDER_TYPE_BINDER, 0); binder_put_node(node); } break; case BINDER_TYPE_HANDLE: case BINDER_TYPE_WEAK_HANDLE: { struct flat_binder_object *fp; struct binder_ref_data rdata; int ret; fp = to_flat_binder_object(hdr); ret = binder_dec_ref_for_handle(proc, fp->handle, hdr->type == BINDER_TYPE_HANDLE, &rdata); if (ret) { pr_err("transaction release %d bad handle %d, ret = %d\n", debug_id, fp->handle, ret); break; } binder_debug(BINDER_DEBUG_TRANSACTION, " ref %d desc %d\n", rdata.debug_id, rdata.desc); } break; case BINDER_TYPE_FD: { /* * No need to close the file here since user-space * closes it for successfully delivered * transactions. For transactions that weren't * delivered, the new fd was never allocated so * there is no need to close and the fput on the * file is done when the transaction is torn * down. */ } break; case BINDER_TYPE_PTR: /* * Nothing to do here, this will get cleaned up when the * transaction buffer gets freed */ break; case BINDER_TYPE_FDA: { struct binder_fd_array_object *fda; struct binder_buffer_object *parent; struct binder_object ptr_object; binder_size_t fda_offset; size_t fd_index; binder_size_t fd_buf_size; binder_size_t num_valid; if (is_failure) { /* * The fd fixups have not been applied so no * fds need to be closed. */ continue; } num_valid = (buffer_offset - off_start_offset) / sizeof(binder_size_t); fda = to_binder_fd_array_object(hdr); parent = binder_validate_ptr(proc, buffer, &ptr_object, fda->parent, off_start_offset, NULL, num_valid); if (!parent) { pr_err("transaction release %d bad parent offset\n", debug_id); continue; } fd_buf_size = sizeof(u32) * fda->num_fds; if (fda->num_fds >= SIZE_MAX / sizeof(u32)) { pr_err("transaction release %d invalid number of fds (%lld)\n", debug_id, (u64)fda->num_fds); continue; } if (fd_buf_size > parent->length || fda->parent_offset > parent->length - fd_buf_size) { /* No space for all file descriptors here. */ pr_err("transaction release %d not enough space for %lld fds in buffer\n", debug_id, (u64)fda->num_fds); continue; } /* * the source data for binder_buffer_object is visible * to user-space and the @buffer element is the user * pointer to the buffer_object containing the fd_array. * Convert the address to an offset relative to * the base of the transaction buffer. */ fda_offset = parent->buffer - buffer->user_data + fda->parent_offset; for (fd_index = 0; fd_index < fda->num_fds; fd_index++) { u32 fd; int err; binder_size_t offset = fda_offset + fd_index * sizeof(fd); err = binder_alloc_copy_from_buffer( &proc->alloc, &fd, buffer, offset, sizeof(fd)); WARN_ON(err); if (!err) { binder_deferred_fd_close(fd); /* * Need to make sure the thread goes * back to userspace to complete the * deferred close */ if (thread) thread->looper_need_return = true; } } } break; default: pr_err("transaction release %d bad object type %x\n", debug_id, hdr->type); break; } } } /* Clean up all the objects in the buffer */ static inline void binder_release_entire_buffer(struct binder_proc *proc, struct binder_thread *thread, struct binder_buffer *buffer, bool is_failure) { binder_size_t off_end_offset; off_end_offset = ALIGN(buffer->data_size, sizeof(void *)); off_end_offset += buffer->offsets_size; binder_transaction_buffer_release(proc, thread, buffer, off_end_offset, is_failure); } static int binder_translate_binder(struct flat_binder_object *fp, struct binder_transaction *t, struct binder_thread *thread) { struct binder_node *node; struct binder_proc *proc = thread->proc; struct binder_proc *target_proc = t->to_proc; struct binder_ref_data rdata; int ret = 0; node = binder_get_node(proc, fp->binder); if (!node) { node = binder_new_node(proc, fp); if (!node) return -ENOMEM; } if (fp->cookie != node->cookie) { binder_user_error("%d:%d sending u%016llx node %d, cookie mismatch %016llx != %016llx\n", proc->pid, thread->pid, (u64)fp->binder, node->debug_id, (u64)fp->cookie, (u64)node->cookie); ret = -EINVAL; goto done; } if (security_binder_transfer_binder(proc->cred, target_proc->cred)) { ret = -EPERM; goto done; } ret = binder_inc_ref_for_node(target_proc, node, fp->hdr.type == BINDER_TYPE_BINDER, &thread->todo, &rdata); if (ret) goto done; if (fp->hdr.type == BINDER_TYPE_BINDER) fp->hdr.type = BINDER_TYPE_HANDLE; else fp->hdr.type = BINDER_TYPE_WEAK_HANDLE; fp->binder = 0; fp->handle = rdata.desc; fp->cookie = 0; trace_binder_transaction_node_to_ref(t, node, &rdata); binder_debug(BINDER_DEBUG_TRANSACTION, " node %d u%016llx -> ref %d desc %d\n", node->debug_id, (u64)node->ptr, rdata.debug_id, rdata.desc); done: binder_put_node(node); return ret; } static int binder_translate_handle(struct flat_binder_object *fp, struct binder_transaction *t, struct binder_thread *thread) { struct binder_proc *proc = thread->proc; struct binder_proc *target_proc = t->to_proc; struct binder_node *node; struct binder_ref_data src_rdata; int ret = 0; node = binder_get_node_from_ref(proc, fp->handle, fp->hdr.type == BINDER_TYPE_HANDLE, &src_rdata); if (!node) { binder_user_error("%d:%d got transaction with invalid handle, %d\n", proc->pid, thread->pid, fp->handle); return -EINVAL; } if (security_binder_transfer_binder(proc->cred, target_proc->cred)) { ret = -EPERM; goto done; } binder_node_lock(node); if (node->proc == target_proc) { if (fp->hdr.type == BINDER_TYPE_HANDLE) fp->hdr.type = BINDER_TYPE_BINDER; else fp->hdr.type = BINDER_TYPE_WEAK_BINDER; fp->binder = node->ptr; fp->cookie = node->cookie; if (node->proc) binder_inner_proc_lock(node->proc); else __acquire(&node->proc->inner_lock); binder_inc_node_nilocked(node, fp->hdr.type == BINDER_TYPE_BINDER, 0, NULL); if (node->proc) binder_inner_proc_unlock(node->proc); else __release(&node->proc->inner_lock); trace_binder_transaction_ref_to_node(t, node, &src_rdata); binder_debug(BINDER_DEBUG_TRANSACTION, " ref %d desc %d -> node %d u%016llx\n", src_rdata.debug_id, src_rdata.desc, node->debug_id, (u64)node->ptr); binder_node_unlock(node); } else { struct binder_ref_data dest_rdata; binder_node_unlock(node); ret = binder_inc_ref_for_node(target_proc, node, fp->hdr.type == BINDER_TYPE_HANDLE, NULL, &dest_rdata); if (ret) goto done; fp->binder = 0; fp->handle = dest_rdata.desc; fp->cookie = 0; trace_binder_transaction_ref_to_ref(t, node, &src_rdata, &dest_rdata); binder_debug(BINDER_DEBUG_TRANSACTION, " ref %d desc %d -> ref %d desc %d (node %d)\n", src_rdata.debug_id, src_rdata.desc, dest_rdata.debug_id, dest_rdata.desc, node->debug_id); } done: binder_put_node(node); return ret; } static int binder_translate_fd(u32 fd, binder_size_t fd_offset, struct binder_transaction *t, struct binder_thread *thread, struct binder_transaction *in_reply_to) { struct binder_proc *proc = thread->proc; struct binder_proc *target_proc = t->to_proc; struct binder_txn_fd_fixup *fixup; struct file *file; int ret = 0; bool target_allows_fd; if (in_reply_to) target_allows_fd = !!(in_reply_to->flags & TF_ACCEPT_FDS); else target_allows_fd = t->buffer->target_node->accept_fds; if (!target_allows_fd) { binder_user_error("%d:%d got %s with fd, %d, but target does not allow fds\n", proc->pid, thread->pid, in_reply_to ? "reply" : "transaction", fd); ret = -EPERM; goto err_fd_not_accepted; } file = fget(fd); if (!file) { binder_user_error("%d:%d got transaction with invalid fd, %d\n", proc->pid, thread->pid, fd); ret = -EBADF; goto err_fget; } ret = security_binder_transfer_file(proc->cred, target_proc->cred, file); if (ret < 0) { ret = -EPERM; goto err_security; } /* * Add fixup record for this transaction. The allocation * of the fd in the target needs to be done from a * target thread. */ fixup = kzalloc(sizeof(*fixup), GFP_KERNEL); if (!fixup) { ret = -ENOMEM; goto err_alloc; } fixup->file = file; fixup->offset = fd_offset; fixup->target_fd = -1; trace_binder_transaction_fd_send(t, fd, fixup->offset); list_add_tail(&fixup->fixup_entry, &t->fd_fixups); return ret; err_alloc: err_security: fput(file); err_fget: err_fd_not_accepted: return ret; } /** * struct binder_ptr_fixup - data to be fixed-up in target buffer * @offset offset in target buffer to fixup * @skip_size bytes to skip in copy (fixup will be written later) * @fixup_data data to write at fixup offset * @node list node * * This is used for the pointer fixup list (pf) which is created and consumed * during binder_transaction() and is only accessed locally. No * locking is necessary. * * The list is ordered by @offset. */ struct binder_ptr_fixup { binder_size_t offset; size_t skip_size; binder_uintptr_t fixup_data; struct list_head node; }; /** * struct binder_sg_copy - scatter-gather data to be copied * @offset offset in target buffer * @sender_uaddr user address in source buffer * @length bytes to copy * @node list node * * This is used for the sg copy list (sgc) which is created and consumed * during binder_transaction() and is only accessed locally. No * locking is necessary. * * The list is ordered by @offset. */ struct binder_sg_copy { binder_size_t offset; const void __user *sender_uaddr; size_t length; struct list_head node; }; /** * binder_do_deferred_txn_copies() - copy and fixup scatter-gather data * @alloc: binder_alloc associated with @buffer * @buffer: binder buffer in target process * @sgc_head: list_head of scatter-gather copy list * @pf_head: list_head of pointer fixup list * * Processes all elements of @sgc_head, applying fixups from @pf_head * and copying the scatter-gather data from the source process' user * buffer to the target's buffer. It is expected that the list creation * and processing all occurs during binder_transaction() so these lists * are only accessed in local context. * * Return: 0=success, else -errno */ static int binder_do_deferred_txn_copies(struct binder_alloc *alloc, struct binder_buffer *buffer, struct list_head *sgc_head, struct list_head *pf_head) { int ret = 0; struct binder_sg_copy *sgc, *tmpsgc; struct binder_ptr_fixup *tmppf; struct binder_ptr_fixup *pf = list_first_entry_or_null(pf_head, struct binder_ptr_fixup, node); list_for_each_entry_safe(sgc, tmpsgc, sgc_head, node) { size_t bytes_copied = 0; while (bytes_copied < sgc->length) { size_t copy_size; size_t bytes_left = sgc->length - bytes_copied; size_t offset = sgc->offset + bytes_copied; /* * We copy up to the fixup (pointed to by pf) */ copy_size = pf ? min(bytes_left, (size_t)pf->offset - offset) : bytes_left; if (!ret && copy_size) ret = binder_alloc_copy_user_to_buffer( alloc, buffer, offset, sgc->sender_uaddr + bytes_copied, copy_size); bytes_copied += copy_size; if (copy_size != bytes_left) { BUG_ON(!pf); /* we stopped at a fixup offset */ if (pf->skip_size) { /* * we are just skipping. This is for * BINDER_TYPE_FDA where the translated * fds will be fixed up when we get * to target context. */ bytes_copied += pf->skip_size; } else { /* apply the fixup indicated by pf */ if (!ret) ret = binder_alloc_copy_to_buffer( alloc, buffer, pf->offset, &pf->fixup_data, sizeof(pf->fixup_data)); bytes_copied += sizeof(pf->fixup_data); } list_del(&pf->node); kfree(pf); pf = list_first_entry_or_null(pf_head, struct binder_ptr_fixup, node); } } list_del(&sgc->node); kfree(sgc); } list_for_each_entry_safe(pf, tmppf, pf_head, node) { BUG_ON(pf->skip_size == 0); list_del(&pf->node); kfree(pf); } BUG_ON(!list_empty(sgc_head)); return ret > 0 ? -EINVAL : ret; } /** * binder_cleanup_deferred_txn_lists() - free specified lists * @sgc_head: list_head of scatter-gather copy list * @pf_head: list_head of pointer fixup list * * Called to clean up @sgc_head and @pf_head if there is an * error. */ static void binder_cleanup_deferred_txn_lists(struct list_head *sgc_head, struct list_head *pf_head) { struct binder_sg_copy *sgc, *tmpsgc; struct binder_ptr_fixup *pf, *tmppf; list_for_each_entry_safe(sgc, tmpsgc, sgc_head, node) { list_del(&sgc->node); kfree(sgc); } list_for_each_entry_safe(pf, tmppf, pf_head, node) { list_del(&pf->node); kfree(pf); } } /** * binder_defer_copy() - queue a scatter-gather buffer for copy * @sgc_head: list_head of scatter-gather copy list * @offset: binder buffer offset in target process * @sender_uaddr: user address in source process * @length: bytes to copy * * Specify a scatter-gather block to be copied. The actual copy must * be deferred until all the needed fixups are identified and queued. * Then the copy and fixups are done together so un-translated values * from the source are never visible in the target buffer. * * We are guaranteed that repeated calls to this function will have * monotonically increasing @offset values so the list will naturally * be ordered. * * Return: 0=success, else -errno */ static int binder_defer_copy(struct list_head *sgc_head, binder_size_t offset, const void __user *sender_uaddr, size_t length) { struct binder_sg_copy *bc = kzalloc(sizeof(*bc), GFP_KERNEL); if (!bc) return -ENOMEM; bc->offset = offset; bc->sender_uaddr = sender_uaddr; bc->length = length; INIT_LIST_HEAD(&bc->node); /* * We are guaranteed that the deferred copies are in-order * so just add to the tail. */ list_add_tail(&bc->node, sgc_head); return 0; } /** * binder_add_fixup() - queue a fixup to be applied to sg copy * @pf_head: list_head of binder ptr fixup list * @offset: binder buffer offset in target process * @fixup: bytes to be copied for fixup * @skip_size: bytes to skip when copying (fixup will be applied later) * * Add the specified fixup to a list ordered by @offset. When copying * the scatter-gather buffers, the fixup will be copied instead of * data from the source buffer. For BINDER_TYPE_FDA fixups, the fixup * will be applied later (in target process context), so we just skip * the bytes specified by @skip_size. If @skip_size is 0, we copy the * value in @fixup. * * This function is called *mostly* in @offset order, but there are * exceptions. Since out-of-order inserts are relatively uncommon, * we insert the new element by searching backward from the tail of * the list. * * Return: 0=success, else -errno */ static int binder_add_fixup(struct list_head *pf_head, binder_size_t offset, binder_uintptr_t fixup, size_t skip_size) { struct binder_ptr_fixup *pf = kzalloc(sizeof(*pf), GFP_KERNEL); struct binder_ptr_fixup *tmppf; if (!pf) return -ENOMEM; pf->offset = offset; pf->fixup_data = fixup; pf->skip_size = skip_size; INIT_LIST_HEAD(&pf->node); /* Fixups are *mostly* added in-order, but there are some * exceptions. Look backwards through list for insertion point. */ list_for_each_entry_reverse(tmppf, pf_head, node) { if (tmppf->offset < pf->offset) { list_add(&pf->node, &tmppf->node); return 0; } } /* * if we get here, then the new offset is the lowest so * insert at the head */ list_add(&pf->node, pf_head); return 0; } static int binder_translate_fd_array(struct list_head *pf_head, struct binder_fd_array_object *fda, const void __user *sender_ubuffer, struct binder_buffer_object *parent, struct binder_buffer_object *sender_uparent, struct binder_transaction *t, struct binder_thread *thread, struct binder_transaction *in_reply_to) { binder_size_t fdi, fd_buf_size; binder_size_t fda_offset; const void __user *sender_ufda_base; struct binder_proc *proc = thread->proc; int ret; if (fda->num_fds == 0) return 0; fd_buf_size = sizeof(u32) * fda->num_fds; if (fda->num_fds >= SIZE_MAX / sizeof(u32)) { binder_user_error("%d:%d got transaction with invalid number of fds (%lld)\n", proc->pid, thread->pid, (u64)fda->num_fds); return -EINVAL; } if (fd_buf_size > parent->length || fda->parent_offset > parent->length - fd_buf_size) { /* No space for all file descriptors here. */ binder_user_error("%d:%d not enough space to store %lld fds in buffer\n", proc->pid, thread->pid, (u64)fda->num_fds); return -EINVAL; } /* * the source data for binder_buffer_object is visible * to user-space and the @buffer element is the user * pointer to the buffer_object containing the fd_array. * Convert the address to an offset relative to * the base of the transaction buffer. */ fda_offset = parent->buffer - t->buffer->user_data + fda->parent_offset; sender_ufda_base = (void __user *)(uintptr_t)sender_uparent->buffer + fda->parent_offset; if (!IS_ALIGNED((unsigned long)fda_offset, sizeof(u32)) || !IS_ALIGNED((unsigned long)sender_ufda_base, sizeof(u32))) { binder_user_error("%d:%d parent offset not aligned correctly.\n", proc->pid, thread->pid); return -EINVAL; } ret = binder_add_fixup(pf_head, fda_offset, 0, fda->num_fds * sizeof(u32)); if (ret) return ret; for (fdi = 0; fdi < fda->num_fds; fdi++) { u32 fd; binder_size_t offset = fda_offset + fdi * sizeof(fd); binder_size_t sender_uoffset = fdi * sizeof(fd); ret = copy_from_user(&fd, sender_ufda_base + sender_uoffset, sizeof(fd)); if (!ret) ret = binder_translate_fd(fd, offset, t, thread, in_reply_to); if (ret) return ret > 0 ? -EINVAL : ret; } return 0; } static int binder_fixup_parent(struct list_head *pf_head, struct binder_transaction *t, struct binder_thread *thread, struct binder_buffer_object *bp, binder_size_t off_start_offset, binder_size_t num_valid, binder_size_t last_fixup_obj_off, binder_size_t last_fixup_min_off) { struct binder_buffer_object *parent; struct binder_buffer *b = t->buffer; struct binder_proc *proc = thread->proc; struct binder_proc *target_proc = t->to_proc; struct binder_object object; binder_size_t buffer_offset; binder_size_t parent_offset; if (!(bp->flags & BINDER_BUFFER_FLAG_HAS_PARENT)) return 0; parent = binder_validate_ptr(target_proc, b, &object, bp->parent, off_start_offset, &parent_offset, num_valid); if (!parent) { binder_user_error("%d:%d got transaction with invalid parent offset or type\n", proc->pid, thread->pid); return -EINVAL; } if (!binder_validate_fixup(target_proc, b, off_start_offset, parent_offset, bp->parent_offset, last_fixup_obj_off, last_fixup_min_off)) { binder_user_error("%d:%d got transaction with out-of-order buffer fixup\n", proc->pid, thread->pid); return -EINVAL; } if (parent->length < sizeof(binder_uintptr_t) || bp->parent_offset > parent->length - sizeof(binder_uintptr_t)) { /* No space for a pointer here! */ binder_user_error("%d:%d got transaction with invalid parent offset\n", proc->pid, thread->pid); return -EINVAL; } buffer_offset = bp->parent_offset + parent->buffer - b->user_data; return binder_add_fixup(pf_head, buffer_offset, bp->buffer, 0); } /** * binder_can_update_transaction() - Can a txn be superseded by an updated one? * @t1: the pending async txn in the frozen process * @t2: the new async txn to supersede the outdated pending one * * Return: true if t2 can supersede t1 * false if t2 can not supersede t1 */ static bool binder_can_update_transaction(struct binder_transaction *t1, struct binder_transaction *t2) { if ((t1->flags & t2->flags & (TF_ONE_WAY | TF_UPDATE_TXN)) != (TF_ONE_WAY | TF_UPDATE_TXN) || !t1->to_proc || !t2->to_proc) return false; if (t1->to_proc->tsk == t2->to_proc->tsk && t1->code == t2->code && t1->flags == t2->flags && t1->buffer->pid == t2->buffer->pid && t1->buffer->target_node->ptr == t2->buffer->target_node->ptr && t1->buffer->target_node->cookie == t2->buffer->target_node->cookie) return true; return false; } /** * binder_find_outdated_transaction_ilocked() - Find the outdated transaction * @t: new async transaction * @target_list: list to find outdated transaction * * Return: the outdated transaction if found * NULL if no outdated transacton can be found * * Requires the proc->inner_lock to be held. */ static struct binder_transaction * binder_find_outdated_transaction_ilocked(struct binder_transaction *t, struct list_head *target_list) { struct binder_work *w; list_for_each_entry(w, target_list, entry) { struct binder_transaction *t_queued; if (w->type != BINDER_WORK_TRANSACTION) continue; t_queued = container_of(w, struct binder_transaction, work); if (binder_can_update_transaction(t_queued, t)) return t_queued; } return NULL; } /** * binder_proc_transaction() - sends a transaction to a process and wakes it up * @t: transaction to send * @proc: process to send the transaction to * @thread: thread in @proc to send the transaction to (may be NULL) * * This function queues a transaction to the specified process. It will try * to find a thread in the target process to handle the transaction and * wake it up. If no thread is found, the work is queued to the proc * waitqueue. * * If the @thread parameter is not NULL, the transaction is always queued * to the waitlist of that specific thread. * * Return: 0 if the transaction was successfully queued * BR_DEAD_REPLY if the target process or thread is dead * BR_FROZEN_REPLY if the target process or thread is frozen and * the sync transaction was rejected * BR_TRANSACTION_PENDING_FROZEN if the target process is frozen * and the async transaction was successfully queued */ static int binder_proc_transaction(struct binder_transaction *t, struct binder_proc *proc, struct binder_thread *thread) { struct binder_node *node = t->buffer->target_node; bool oneway = !!(t->flags & TF_ONE_WAY); bool pending_async = false; struct binder_transaction *t_outdated = NULL; bool frozen = false; BUG_ON(!node); binder_node_lock(node); if (oneway) { BUG_ON(thread); if (node->has_async_transaction) pending_async = true; else node->has_async_transaction = true; } binder_inner_proc_lock(proc); if (proc->is_frozen) { frozen = true; proc->sync_recv |= !oneway; proc->async_recv |= oneway; } if ((frozen && !oneway) || proc->is_dead || (thread && thread->is_dead)) { binder_inner_proc_unlock(proc); binder_node_unlock(node); return frozen ? BR_FROZEN_REPLY : BR_DEAD_REPLY; } if (!thread && !pending_async) thread = binder_select_thread_ilocked(proc); if (thread) { binder_enqueue_thread_work_ilocked(thread, &t->work); } else if (!pending_async) { binder_enqueue_work_ilocked(&t->work, &proc->todo); } else { if ((t->flags & TF_UPDATE_TXN) && frozen) { t_outdated = binder_find_outdated_transaction_ilocked(t, &node->async_todo); if (t_outdated) { binder_debug(BINDER_DEBUG_TRANSACTION, "txn %d supersedes %d\n", t->debug_id, t_outdated->debug_id); list_del_init(&t_outdated->work.entry); proc->outstanding_txns--; } } binder_enqueue_work_ilocked(&t->work, &node->async_todo); } if (!pending_async) binder_wakeup_thread_ilocked(proc, thread, !oneway /* sync */); proc->outstanding_txns++; binder_inner_proc_unlock(proc); binder_node_unlock(node); /* * To reduce potential contention, free the outdated transaction and * buffer after releasing the locks. */ if (t_outdated) { struct binder_buffer *buffer = t_outdated->buffer; t_outdated->buffer = NULL; buffer->transaction = NULL; trace_binder_transaction_update_buffer_release(buffer); binder_release_entire_buffer(proc, NULL, buffer, false); binder_alloc_free_buf(&proc->alloc, buffer); kfree(t_outdated); binder_stats_deleted(BINDER_STAT_TRANSACTION); } if (oneway && frozen) return BR_TRANSACTION_PENDING_FROZEN; return 0; } /** * binder_get_node_refs_for_txn() - Get required refs on node for txn * @node: struct binder_node for which to get refs * @procp: returns @node->proc if valid * @error: if no @procp then returns BR_DEAD_REPLY * * User-space normally keeps the node alive when creating a transaction * since it has a reference to the target. The local strong ref keeps it * alive if the sending process dies before the target process processes * the transaction. If the source process is malicious or has a reference * counting bug, relying on the local strong ref can fail. * * Since user-space can cause the local strong ref to go away, we also take * a tmpref on the node to ensure it survives while we are constructing * the transaction. We also need a tmpref on the proc while we are * constructing the transaction, so we take that here as well. * * Return: The target_node with refs taken or NULL if no @node->proc is NULL. * Also sets @procp if valid. If the @node->proc is NULL indicating that the * target proc has died, @error is set to BR_DEAD_REPLY. */ static struct binder_node *binder_get_node_refs_for_txn( struct binder_node *node, struct binder_proc **procp, uint32_t *error) { struct binder_node *target_node = NULL; binder_node_inner_lock(node); if (node->proc) { target_node = node; binder_inc_node_nilocked(node, 1, 0, NULL); binder_inc_node_tmpref_ilocked(node); node->proc->tmp_ref++; *procp = node->proc; } else *error = BR_DEAD_REPLY; binder_node_inner_unlock(node); return target_node; } static void binder_set_txn_from_error(struct binder_transaction *t, int id, uint32_t command, int32_t param) { struct binder_thread *from = binder_get_txn_from_and_acq_inner(t); if (!from) { /* annotation for sparse */ __release(&from->proc->inner_lock); return; } /* don't override existing errors */ if (from->ee.command == BR_OK) binder_set_extended_error(&from->ee, id, command, param); binder_inner_proc_unlock(from->proc); binder_thread_dec_tmpref(from); } static void binder_transaction(struct binder_proc *proc, struct binder_thread *thread, struct binder_transaction_data *tr, int reply, binder_size_t extra_buffers_size) { int ret; struct binder_transaction *t; struct binder_work *w; struct binder_work *tcomplete; binder_size_t buffer_offset = 0; binder_size_t off_start_offset, off_end_offset; binder_size_t off_min; binder_size_t sg_buf_offset, sg_buf_end_offset; binder_size_t user_offset = 0; struct binder_proc *target_proc = NULL; struct binder_thread *target_thread = NULL; struct binder_node *target_node = NULL; struct binder_transaction *in_reply_to = NULL; struct binder_transaction_log_entry *e; uint32_t return_error = 0; uint32_t return_error_param = 0; uint32_t return_error_line = 0; binder_size_t last_fixup_obj_off = 0; binder_size_t last_fixup_min_off = 0; struct binder_context *context = proc->context; int t_debug_id = atomic_inc_return(&binder_last_id); ktime_t t_start_time = ktime_get(); char *secctx = NULL; u32 secctx_sz = 0; struct list_head sgc_head; struct list_head pf_head; const void __user *user_buffer = (const void __user *) (uintptr_t)tr->data.ptr.buffer; INIT_LIST_HEAD(&sgc_head); INIT_LIST_HEAD(&pf_head); e = binder_transaction_log_add(&binder_transaction_log); e->debug_id = t_debug_id; e->call_type = reply ? 2 : !!(tr->flags & TF_ONE_WAY); e->from_proc = proc->pid; e->from_thread = thread->pid; e->target_handle = tr->target.handle; e->data_size = tr->data_size; e->offsets_size = tr->offsets_size; strscpy(e->context_name, proc->context->name, BINDERFS_MAX_NAME); binder_inner_proc_lock(proc); binder_set_extended_error(&thread->ee, t_debug_id, BR_OK, 0); binder_inner_proc_unlock(proc); if (reply) { binder_inner_proc_lock(proc); in_reply_to = thread->transaction_stack; if (in_reply_to == NULL) { binder_inner_proc_unlock(proc); binder_user_error("%d:%d got reply transaction with no transaction stack\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EPROTO; return_error_line = __LINE__; goto err_empty_call_stack; } if (in_reply_to->to_thread != thread) { spin_lock(&in_reply_to->lock); binder_user_error("%d:%d got reply transaction with bad transaction stack, transaction %d has target %d:%d\n", proc->pid, thread->pid, in_reply_to->debug_id, in_reply_to->to_proc ? in_reply_to->to_proc->pid : 0, in_reply_to->to_thread ? in_reply_to->to_thread->pid : 0); spin_unlock(&in_reply_to->lock); binder_inner_proc_unlock(proc); return_error = BR_FAILED_REPLY; return_error_param = -EPROTO; return_error_line = __LINE__; in_reply_to = NULL; goto err_bad_call_stack; } thread->transaction_stack = in_reply_to->to_parent; binder_inner_proc_unlock(proc); binder_set_nice(in_reply_to->saved_priority); target_thread = binder_get_txn_from_and_acq_inner(in_reply_to); if (target_thread == NULL) { /* annotation for sparse */ __release(&target_thread->proc->inner_lock); binder_txn_error("%d:%d reply target not found\n", thread->pid, proc->pid); return_error = BR_DEAD_REPLY; return_error_line = __LINE__; goto err_dead_binder; } if (target_thread->transaction_stack != in_reply_to) { binder_user_error("%d:%d got reply transaction with bad target transaction stack %d, expected %d\n", proc->pid, thread->pid, target_thread->transaction_stack ? target_thread->transaction_stack->debug_id : 0, in_reply_to->debug_id); binder_inner_proc_unlock(target_thread->proc); return_error = BR_FAILED_REPLY; return_error_param = -EPROTO; return_error_line = __LINE__; in_reply_to = NULL; target_thread = NULL; goto err_dead_binder; } target_proc = target_thread->proc; target_proc->tmp_ref++; binder_inner_proc_unlock(target_thread->proc); } else { if (tr->target.handle) { struct binder_ref *ref; /* * There must already be a strong ref * on this node. If so, do a strong * increment on the node to ensure it * stays alive until the transaction is * done. */ binder_proc_lock(proc); ref = binder_get_ref_olocked(proc, tr->target.handle, true); if (ref) { target_node = binder_get_node_refs_for_txn( ref->node, &target_proc, &return_error); } else { binder_user_error("%d:%d got transaction to invalid handle, %u\n", proc->pid, thread->pid, tr->target.handle); return_error = BR_FAILED_REPLY; } binder_proc_unlock(proc); } else { mutex_lock(&context->context_mgr_node_lock); target_node = context->binder_context_mgr_node; if (target_node) target_node = binder_get_node_refs_for_txn( target_node, &target_proc, &return_error); else return_error = BR_DEAD_REPLY; mutex_unlock(&context->context_mgr_node_lock); if (target_node && target_proc->pid == proc->pid) { binder_user_error("%d:%d got transaction to context manager from process owning it\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_invalid_target_handle; } } if (!target_node) { binder_txn_error("%d:%d cannot find target node\n", thread->pid, proc->pid); /* * return_error is set above */ return_error_param = -EINVAL; return_error_line = __LINE__; goto err_dead_binder; } e->to_node = target_node->debug_id; if (WARN_ON(proc == target_proc)) { binder_txn_error("%d:%d self transactions not allowed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_invalid_target_handle; } if (security_binder_transaction(proc->cred, target_proc->cred) < 0) { binder_txn_error("%d:%d transaction credentials failed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = -EPERM; return_error_line = __LINE__; goto err_invalid_target_handle; } binder_inner_proc_lock(proc); w = list_first_entry_or_null(&thread->todo, struct binder_work, entry); if (!(tr->flags & TF_ONE_WAY) && w && w->type == BINDER_WORK_TRANSACTION) { /* * Do not allow new outgoing transaction from a * thread that has a transaction at the head of * its todo list. Only need to check the head * because binder_select_thread_ilocked picks a * thread from proc->waiting_threads to enqueue * the transaction, and nothing is queued to the * todo list while the thread is on waiting_threads. */ binder_user_error("%d:%d new transaction not allowed when there is a transaction on thread todo\n", proc->pid, thread->pid); binder_inner_proc_unlock(proc); return_error = BR_FAILED_REPLY; return_error_param = -EPROTO; return_error_line = __LINE__; goto err_bad_todo_list; } if (!(tr->flags & TF_ONE_WAY) && thread->transaction_stack) { struct binder_transaction *tmp; tmp = thread->transaction_stack; if (tmp->to_thread != thread) { spin_lock(&tmp->lock); binder_user_error("%d:%d got new transaction with bad transaction stack, transaction %d has target %d:%d\n", proc->pid, thread->pid, tmp->debug_id, tmp->to_proc ? tmp->to_proc->pid : 0, tmp->to_thread ? tmp->to_thread->pid : 0); spin_unlock(&tmp->lock); binder_inner_proc_unlock(proc); return_error = BR_FAILED_REPLY; return_error_param = -EPROTO; return_error_line = __LINE__; goto err_bad_call_stack; } while (tmp) { struct binder_thread *from; spin_lock(&tmp->lock); from = tmp->from; if (from && from->proc == target_proc) { atomic_inc(&from->tmp_ref); target_thread = from; spin_unlock(&tmp->lock); break; } spin_unlock(&tmp->lock); tmp = tmp->from_parent; } } binder_inner_proc_unlock(proc); } if (target_thread) e->to_thread = target_thread->pid; e->to_proc = target_proc->pid; /* TODO: reuse incoming transaction for reply */ t = kzalloc(sizeof(*t), GFP_KERNEL); if (t == NULL) { binder_txn_error("%d:%d cannot allocate transaction\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = -ENOMEM; return_error_line = __LINE__; goto err_alloc_t_failed; } INIT_LIST_HEAD(&t->fd_fixups); binder_stats_created(BINDER_STAT_TRANSACTION); spin_lock_init(&t->lock); tcomplete = kzalloc(sizeof(*tcomplete), GFP_KERNEL); if (tcomplete == NULL) { binder_txn_error("%d:%d cannot allocate work for transaction\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = -ENOMEM; return_error_line = __LINE__; goto err_alloc_tcomplete_failed; } binder_stats_created(BINDER_STAT_TRANSACTION_COMPLETE); t->debug_id = t_debug_id; t->start_time = t_start_time; if (reply) binder_debug(BINDER_DEBUG_TRANSACTION, "%d:%d BC_REPLY %d -> %d:%d, data %016llx-%016llx size %lld-%lld-%lld\n", proc->pid, thread->pid, t->debug_id, target_proc->pid, target_thread->pid, (u64)tr->data.ptr.buffer, (u64)tr->data.ptr.offsets, (u64)tr->data_size, (u64)tr->offsets_size, (u64)extra_buffers_size); else binder_debug(BINDER_DEBUG_TRANSACTION, "%d:%d BC_TRANSACTION %d -> %d - node %d, data %016llx-%016llx size %lld-%lld-%lld\n", proc->pid, thread->pid, t->debug_id, target_proc->pid, target_node->debug_id, (u64)tr->data.ptr.buffer, (u64)tr->data.ptr.offsets, (u64)tr->data_size, (u64)tr->offsets_size, (u64)extra_buffers_size); if (!reply && !(tr->flags & TF_ONE_WAY)) t->from = thread; else t->from = NULL; t->from_pid = proc->pid; t->from_tid = thread->pid; t->sender_euid = task_euid(proc->tsk); t->to_proc = target_proc; t->to_thread = target_thread; t->code = tr->code; t->flags = tr->flags; t->priority = task_nice(current); if (target_node && target_node->txn_security_ctx) { u32 secid; size_t added_size; security_cred_getsecid(proc->cred, &secid); ret = security_secid_to_secctx(secid, &secctx, &secctx_sz); if (ret) { binder_txn_error("%d:%d failed to get security context\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = ret; return_error_line = __LINE__; goto err_get_secctx_failed; } added_size = ALIGN(secctx_sz, sizeof(u64)); extra_buffers_size += added_size; if (extra_buffers_size < added_size) { binder_txn_error("%d:%d integer overflow of extra_buffers_size\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_extra_size; } } trace_binder_transaction(reply, t, target_node); t->buffer = binder_alloc_new_buf(&target_proc->alloc, tr->data_size, tr->offsets_size, extra_buffers_size, !reply && (t->flags & TF_ONE_WAY)); if (IS_ERR(t->buffer)) { char *s; ret = PTR_ERR(t->buffer); s = (ret == -ESRCH) ? ": vma cleared, target dead or dying" : (ret == -ENOSPC) ? ": no space left" : (ret == -ENOMEM) ? ": memory allocation failed" : ""; binder_txn_error("cannot allocate buffer%s", s); return_error_param = PTR_ERR(t->buffer); return_error = return_error_param == -ESRCH ? BR_DEAD_REPLY : BR_FAILED_REPLY; return_error_line = __LINE__; t->buffer = NULL; goto err_binder_alloc_buf_failed; } if (secctx) { int err; size_t buf_offset = ALIGN(tr->data_size, sizeof(void *)) + ALIGN(tr->offsets_size, sizeof(void *)) + ALIGN(extra_buffers_size, sizeof(void *)) - ALIGN(secctx_sz, sizeof(u64)); t->security_ctx = t->buffer->user_data + buf_offset; err = binder_alloc_copy_to_buffer(&target_proc->alloc, t->buffer, buf_offset, secctx, secctx_sz); if (err) { t->security_ctx = 0; WARN_ON(1); } security_release_secctx(secctx, secctx_sz); secctx = NULL; } t->buffer->debug_id = t->debug_id; t->buffer->transaction = t; t->buffer->target_node = target_node; t->buffer->clear_on_free = !!(t->flags & TF_CLEAR_BUF); trace_binder_transaction_alloc_buf(t->buffer); if (binder_alloc_copy_user_to_buffer( &target_proc->alloc, t->buffer, ALIGN(tr->data_size, sizeof(void *)), (const void __user *) (uintptr_t)tr->data.ptr.offsets, tr->offsets_size)) { binder_user_error("%d:%d got transaction with invalid offsets ptr\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EFAULT; return_error_line = __LINE__; goto err_copy_data_failed; } if (!IS_ALIGNED(tr->offsets_size, sizeof(binder_size_t))) { binder_user_error("%d:%d got transaction with invalid offsets size, %lld\n", proc->pid, thread->pid, (u64)tr->offsets_size); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_offset; } if (!IS_ALIGNED(extra_buffers_size, sizeof(u64))) { binder_user_error("%d:%d got transaction with unaligned buffers size, %lld\n", proc->pid, thread->pid, (u64)extra_buffers_size); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_offset; } off_start_offset = ALIGN(tr->data_size, sizeof(void *)); buffer_offset = off_start_offset; off_end_offset = off_start_offset + tr->offsets_size; sg_buf_offset = ALIGN(off_end_offset, sizeof(void *)); sg_buf_end_offset = sg_buf_offset + extra_buffers_size - ALIGN(secctx_sz, sizeof(u64)); off_min = 0; for (buffer_offset = off_start_offset; buffer_offset < off_end_offset; buffer_offset += sizeof(binder_size_t)) { struct binder_object_header *hdr; size_t object_size; struct binder_object object; binder_size_t object_offset; binder_size_t copy_size; if (binder_alloc_copy_from_buffer(&target_proc->alloc, &object_offset, t->buffer, buffer_offset, sizeof(object_offset))) { binder_txn_error("%d:%d copy offset from buffer failed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_offset; } /* * Copy the source user buffer up to the next object * that will be processed. */ copy_size = object_offset - user_offset; if (copy_size && (user_offset > object_offset || object_offset > tr->data_size || binder_alloc_copy_user_to_buffer( &target_proc->alloc, t->buffer, user_offset, user_buffer + user_offset, copy_size))) { binder_user_error("%d:%d got transaction with invalid data ptr\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EFAULT; return_error_line = __LINE__; goto err_copy_data_failed; } object_size = binder_get_object(target_proc, user_buffer, t->buffer, object_offset, &object); if (object_size == 0 || object_offset < off_min) { binder_user_error("%d:%d got transaction with invalid offset (%lld, min %lld max %lld) or object.\n", proc->pid, thread->pid, (u64)object_offset, (u64)off_min, (u64)t->buffer->data_size); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_offset; } /* * Set offset to the next buffer fragment to be * copied */ user_offset = object_offset + object_size; hdr = &object.hdr; off_min = object_offset + object_size; switch (hdr->type) { case BINDER_TYPE_BINDER: case BINDER_TYPE_WEAK_BINDER: { struct flat_binder_object *fp; fp = to_flat_binder_object(hdr); ret = binder_translate_binder(fp, t, thread); if (ret < 0 || binder_alloc_copy_to_buffer(&target_proc->alloc, t->buffer, object_offset, fp, sizeof(*fp))) { binder_txn_error("%d:%d translate binder failed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = ret; return_error_line = __LINE__; goto err_translate_failed; } } break; case BINDER_TYPE_HANDLE: case BINDER_TYPE_WEAK_HANDLE: { struct flat_binder_object *fp; fp = to_flat_binder_object(hdr); ret = binder_translate_handle(fp, t, thread); if (ret < 0 || binder_alloc_copy_to_buffer(&target_proc->alloc, t->buffer, object_offset, fp, sizeof(*fp))) { binder_txn_error("%d:%d translate handle failed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = ret; return_error_line = __LINE__; goto err_translate_failed; } } break; case BINDER_TYPE_FD: { struct binder_fd_object *fp = to_binder_fd_object(hdr); binder_size_t fd_offset = object_offset + (uintptr_t)&fp->fd - (uintptr_t)fp; int ret = binder_translate_fd(fp->fd, fd_offset, t, thread, in_reply_to); fp->pad_binder = 0; if (ret < 0 || binder_alloc_copy_to_buffer(&target_proc->alloc, t->buffer, object_offset, fp, sizeof(*fp))) { binder_txn_error("%d:%d translate fd failed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = ret; return_error_line = __LINE__; goto err_translate_failed; } } break; case BINDER_TYPE_FDA: { struct binder_object ptr_object; binder_size_t parent_offset; struct binder_object user_object; size_t user_parent_size; struct binder_fd_array_object *fda = to_binder_fd_array_object(hdr); size_t num_valid = (buffer_offset - off_start_offset) / sizeof(binder_size_t); struct binder_buffer_object *parent = binder_validate_ptr(target_proc, t->buffer, &ptr_object, fda->parent, off_start_offset, &parent_offset, num_valid); if (!parent) { binder_user_error("%d:%d got transaction with invalid parent offset or type\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_parent; } if (!binder_validate_fixup(target_proc, t->buffer, off_start_offset, parent_offset, fda->parent_offset, last_fixup_obj_off, last_fixup_min_off)) { binder_user_error("%d:%d got transaction with out-of-order buffer fixup\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_parent; } /* * We need to read the user version of the parent * object to get the original user offset */ user_parent_size = binder_get_object(proc, user_buffer, t->buffer, parent_offset, &user_object); if (user_parent_size != sizeof(user_object.bbo)) { binder_user_error("%d:%d invalid ptr object size: %zd vs %zd\n", proc->pid, thread->pid, user_parent_size, sizeof(user_object.bbo)); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_parent; } ret = binder_translate_fd_array(&pf_head, fda, user_buffer, parent, &user_object.bbo, t, thread, in_reply_to); if (!ret) ret = binder_alloc_copy_to_buffer(&target_proc->alloc, t->buffer, object_offset, fda, sizeof(*fda)); if (ret) { binder_txn_error("%d:%d translate fd array failed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = ret > 0 ? -EINVAL : ret; return_error_line = __LINE__; goto err_translate_failed; } last_fixup_obj_off = parent_offset; last_fixup_min_off = fda->parent_offset + sizeof(u32) * fda->num_fds; } break; case BINDER_TYPE_PTR: { struct binder_buffer_object *bp = to_binder_buffer_object(hdr); size_t buf_left = sg_buf_end_offset - sg_buf_offset; size_t num_valid; if (bp->length > buf_left) { binder_user_error("%d:%d got transaction with too large buffer\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_offset; } ret = binder_defer_copy(&sgc_head, sg_buf_offset, (const void __user *)(uintptr_t)bp->buffer, bp->length); if (ret) { binder_txn_error("%d:%d deferred copy failed\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = ret; return_error_line = __LINE__; goto err_translate_failed; } /* Fixup buffer pointer to target proc address space */ bp->buffer = t->buffer->user_data + sg_buf_offset; sg_buf_offset += ALIGN(bp->length, sizeof(u64)); num_valid = (buffer_offset - off_start_offset) / sizeof(binder_size_t); ret = binder_fixup_parent(&pf_head, t, thread, bp, off_start_offset, num_valid, last_fixup_obj_off, last_fixup_min_off); if (ret < 0 || binder_alloc_copy_to_buffer(&target_proc->alloc, t->buffer, object_offset, bp, sizeof(*bp))) { binder_txn_error("%d:%d failed to fixup parent\n", thread->pid, proc->pid); return_error = BR_FAILED_REPLY; return_error_param = ret; return_error_line = __LINE__; goto err_translate_failed; } last_fixup_obj_off = object_offset; last_fixup_min_off = 0; } break; default: binder_user_error("%d:%d got transaction with invalid object type, %x\n", proc->pid, thread->pid, hdr->type); return_error = BR_FAILED_REPLY; return_error_param = -EINVAL; return_error_line = __LINE__; goto err_bad_object_type; } } /* Done processing objects, copy the rest of the buffer */ if (binder_alloc_copy_user_to_buffer( &target_proc->alloc, t->buffer, user_offset, user_buffer + user_offset, tr->data_size - user_offset)) { binder_user_error("%d:%d got transaction with invalid data ptr\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = -EFAULT; return_error_line = __LINE__; goto err_copy_data_failed; } ret = binder_do_deferred_txn_copies(&target_proc->alloc, t->buffer, &sgc_head, &pf_head); if (ret) { binder_user_error("%d:%d got transaction with invalid offsets ptr\n", proc->pid, thread->pid); return_error = BR_FAILED_REPLY; return_error_param = ret; return_error_line = __LINE__; goto err_copy_data_failed; } if (t->buffer->oneway_spam_suspect) tcomplete->type = BINDER_WORK_TRANSACTION_ONEWAY_SPAM_SUSPECT; else tcomplete->type = BINDER_WORK_TRANSACTION_COMPLETE; t->work.type = BINDER_WORK_TRANSACTION; if (reply) { binder_enqueue_thread_work(thread, tcomplete); binder_inner_proc_lock(target_proc); if (target_thread->is_dead) { return_error = BR_DEAD_REPLY; binder_inner_proc_unlock(target_proc); goto err_dead_proc_or_thread; } BUG_ON(t->buffer->async_transaction != 0); binder_pop_transaction_ilocked(target_thread, in_reply_to); binder_enqueue_thread_work_ilocked(target_thread, &t->work); target_proc->outstanding_txns++; binder_inner_proc_unlock(target_proc); wake_up_interruptible_sync(&target_thread->wait); binder_free_transaction(in_reply_to); } else if (!(t->flags & TF_ONE_WAY)) { BUG_ON(t->buffer->async_transaction != 0); binder_inner_proc_lock(proc); /* * Defer the TRANSACTION_COMPLETE, so we don't return to * userspace immediately; this allows the target process to * immediately start processing this transaction, reducing * latency. We will then return the TRANSACTION_COMPLETE when * the target replies (or there is an error). */ binder_enqueue_deferred_thread_work_ilocked(thread, tcomplete); t->need_reply = 1; t->from_parent = thread->transaction_stack; thread->transaction_stack = t; binder_inner_proc_unlock(proc); return_error = binder_proc_transaction(t, target_proc, target_thread); if (return_error) { binder_inner_proc_lock(proc); binder_pop_transaction_ilocked(thread, t); binder_inner_proc_unlock(proc); goto err_dead_proc_or_thread; } } else { BUG_ON(target_node == NULL); BUG_ON(t->buffer->async_transaction != 1); return_error = binder_proc_transaction(t, target_proc, NULL); /* * Let the caller know when async transaction reaches a frozen * process and is put in a pending queue, waiting for the target * process to be unfrozen. */ if (return_error == BR_TRANSACTION_PENDING_FROZEN) tcomplete->type = BINDER_WORK_TRANSACTION_PENDING; binder_enqueue_thread_work(thread, tcomplete); if (return_error && return_error != BR_TRANSACTION_PENDING_FROZEN) goto err_dead_proc_or_thread; } if (target_thread) binder_thread_dec_tmpref(target_thread); binder_proc_dec_tmpref(target_proc); if (target_node) binder_dec_node_tmpref(target_node); /* * write barrier to synchronize with initialization * of log entry */ smp_wmb(); WRITE_ONCE(e->debug_id_done, t_debug_id); return; err_dead_proc_or_thread: binder_txn_error("%d:%d dead process or thread\n", thread->pid, proc->pid); return_error_line = __LINE__; binder_dequeue_work(proc, tcomplete); err_translate_failed: err_bad_object_type: err_bad_offset: err_bad_parent: err_copy_data_failed: binder_cleanup_deferred_txn_lists(&sgc_head, &pf_head); binder_free_txn_fixups(t); trace_binder_transaction_failed_buffer_release(t->buffer); binder_transaction_buffer_release(target_proc, NULL, t->buffer, buffer_offset, true); if (target_node) binder_dec_node_tmpref(target_node); target_node = NULL; t->buffer->transaction = NULL; binder_alloc_free_buf(&target_proc->alloc, t->buffer); err_binder_alloc_buf_failed: err_bad_extra_size: if (secctx) security_release_secctx(secctx, secctx_sz); err_get_secctx_failed: kfree(tcomplete); binder_stats_deleted(BINDER_STAT_TRANSACTION_COMPLETE); err_alloc_tcomplete_failed: if (trace_binder_txn_latency_free_enabled()) binder_txn_latency_free(t); kfree(t); binder_stats_deleted(BINDER_STAT_TRANSACTION); err_alloc_t_failed: err_bad_todo_list: err_bad_call_stack: err_empty_call_stack: err_dead_binder: err_invalid_target_handle: if (target_node) { binder_dec_node(target_node, 1, 0); binder_dec_node_tmpref(target_node); } binder_debug(BINDER_DEBUG_FAILED_TRANSACTION, "%d:%d transaction %s to %d:%d failed %d/%d/%d, size %lld-%lld line %d\n", proc->pid, thread->pid, reply ? "reply" : (tr->flags & TF_ONE_WAY ? "async" : "call"), target_proc ? target_proc->pid : 0, target_thread ? target_thread->pid : 0, t_debug_id, return_error, return_error_param, (u64)tr->data_size, (u64)tr->offsets_size, return_error_line); if (target_thread) binder_thread_dec_tmpref(target_thread); if (target_proc) binder_proc_dec_tmpref(target_proc); { struct binder_transaction_log_entry *fe; e->return_error = return_error; e->return_error_param = return_error_param; e->return_error_line = return_error_line; fe = binder_transaction_log_add(&binder_transaction_log_failed); *fe = *e; /* * write barrier to synchronize with initialization * of log entry */ smp_wmb(); WRITE_ONCE(e->debug_id_done, t_debug_id); WRITE_ONCE(fe->debug_id_done, t_debug_id); } BUG_ON(thread->return_error.cmd != BR_OK); if (in_reply_to) { binder_set_txn_from_error(in_reply_to, t_debug_id, return_error, return_error_param); thread->return_error.cmd = BR_TRANSACTION_COMPLETE; binder_enqueue_thread_work(thread, &thread->return_error.work); binder_send_failed_reply(in_reply_to, return_error); } else { binder_inner_proc_lock(proc); binder_set_extended_error(&thread->ee, t_debug_id, return_error, return_error_param); binder_inner_proc_unlock(proc); thread->return_error.cmd = return_error; binder_enqueue_thread_work(thread, &thread->return_error.work); } } /** * binder_free_buf() - free the specified buffer * @proc: binder proc that owns buffer * @buffer: buffer to be freed * @is_failure: failed to send transaction * * If buffer for an async transaction, enqueue the next async * transaction from the node. * * Cleanup buffer and free it. */ static void binder_free_buf(struct binder_proc *proc, struct binder_thread *thread, struct binder_buffer *buffer, bool is_failure) { binder_inner_proc_lock(proc); if (buffer->transaction) { buffer->transaction->buffer = NULL; buffer->transaction = NULL; } binder_inner_proc_unlock(proc); if (buffer->async_transaction && buffer->target_node) { struct binder_node *buf_node; struct binder_work *w; buf_node = buffer->target_node; binder_node_inner_lock(buf_node); BUG_ON(!buf_node->has_async_transaction); BUG_ON(buf_node->proc != proc); w = binder_dequeue_work_head_ilocked( &buf_node->async_todo); if (!w) { buf_node->has_async_transaction = false; } else { binder_enqueue_work_ilocked( w, &proc->todo); binder_wakeup_proc_ilocked(proc); } binder_node_inner_unlock(buf_node); } trace_binder_transaction_buffer_release(buffer); binder_release_entire_buffer(proc, thread, buffer, is_failure); binder_alloc_free_buf(&proc->alloc, buffer); } static int binder_thread_write(struct binder_proc *proc, struct binder_thread *thread, binder_uintptr_t binder_buffer, size_t size, binder_size_t *consumed) { uint32_t cmd; struct binder_context *context = proc->context; void __user *buffer = (void __user *)(uintptr_t)binder_buffer; void __user *ptr = buffer + *consumed; void __user *end = buffer + size; while (ptr < end && thread->return_error.cmd == BR_OK) { int ret; if (get_user(cmd, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); trace_binder_command(cmd); if (_IOC_NR(cmd) < ARRAY_SIZE(binder_stats.bc)) { atomic_inc(&binder_stats.bc[_IOC_NR(cmd)]); atomic_inc(&proc->stats.bc[_IOC_NR(cmd)]); atomic_inc(&thread->stats.bc[_IOC_NR(cmd)]); } switch (cmd) { case BC_INCREFS: case BC_ACQUIRE: case BC_RELEASE: case BC_DECREFS: { uint32_t target; const char *debug_string; bool strong = cmd == BC_ACQUIRE || cmd == BC_RELEASE; bool increment = cmd == BC_INCREFS || cmd == BC_ACQUIRE; struct binder_ref_data rdata; if (get_user(target, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); ret = -1; if (increment && !target) { struct binder_node *ctx_mgr_node; mutex_lock(&context->context_mgr_node_lock); ctx_mgr_node = context->binder_context_mgr_node; if (ctx_mgr_node) { if (ctx_mgr_node->proc == proc) { binder_user_error("%d:%d context manager tried to acquire desc 0\n", proc->pid, thread->pid); mutex_unlock(&context->context_mgr_node_lock); return -EINVAL; } ret = binder_inc_ref_for_node( proc, ctx_mgr_node, strong, NULL, &rdata); } mutex_unlock(&context->context_mgr_node_lock); } if (ret) ret = binder_update_ref_for_handle( proc, target, increment, strong, &rdata); if (!ret && rdata.desc != target) { binder_user_error("%d:%d tried to acquire reference to desc %d, got %d instead\n", proc->pid, thread->pid, target, rdata.desc); } switch (cmd) { case BC_INCREFS: debug_string = "IncRefs"; break; case BC_ACQUIRE: debug_string = "Acquire"; break; case BC_RELEASE: debug_string = "Release"; break; case BC_DECREFS: default: debug_string = "DecRefs"; break; } if (ret) { binder_user_error("%d:%d %s %d refcount change on invalid ref %d ret %d\n", proc->pid, thread->pid, debug_string, strong, target, ret); break; } binder_debug(BINDER_DEBUG_USER_REFS, "%d:%d %s ref %d desc %d s %d w %d\n", proc->pid, thread->pid, debug_string, rdata.debug_id, rdata.desc, rdata.strong, rdata.weak); break; } case BC_INCREFS_DONE: case BC_ACQUIRE_DONE: { binder_uintptr_t node_ptr; binder_uintptr_t cookie; struct binder_node *node; bool free_node; if (get_user(node_ptr, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(binder_uintptr_t); if (get_user(cookie, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(binder_uintptr_t); node = binder_get_node(proc, node_ptr); if (node == NULL) { binder_user_error("%d:%d %s u%016llx no match\n", proc->pid, thread->pid, cmd == BC_INCREFS_DONE ? "BC_INCREFS_DONE" : "BC_ACQUIRE_DONE", (u64)node_ptr); break; } if (cookie != node->cookie) { binder_user_error("%d:%d %s u%016llx node %d cookie mismatch %016llx != %016llx\n", proc->pid, thread->pid, cmd == BC_INCREFS_DONE ? "BC_INCREFS_DONE" : "BC_ACQUIRE_DONE", (u64)node_ptr, node->debug_id, (u64)cookie, (u64)node->cookie); binder_put_node(node); break; } binder_node_inner_lock(node); if (cmd == BC_ACQUIRE_DONE) { if (node->pending_strong_ref == 0) { binder_user_error("%d:%d BC_ACQUIRE_DONE node %d has no pending acquire request\n", proc->pid, thread->pid, node->debug_id); binder_node_inner_unlock(node); binder_put_node(node); break; } node->pending_strong_ref = 0; } else { if (node->pending_weak_ref == 0) { binder_user_error("%d:%d BC_INCREFS_DONE node %d has no pending increfs request\n", proc->pid, thread->pid, node->debug_id); binder_node_inner_unlock(node); binder_put_node(node); break; } node->pending_weak_ref = 0; } free_node = binder_dec_node_nilocked(node, cmd == BC_ACQUIRE_DONE, 0); WARN_ON(free_node); binder_debug(BINDER_DEBUG_USER_REFS, "%d:%d %s node %d ls %d lw %d tr %d\n", proc->pid, thread->pid, cmd == BC_INCREFS_DONE ? "BC_INCREFS_DONE" : "BC_ACQUIRE_DONE", node->debug_id, node->local_strong_refs, node->local_weak_refs, node->tmp_refs); binder_node_inner_unlock(node); binder_put_node(node); break; } case BC_ATTEMPT_ACQUIRE: pr_err("BC_ATTEMPT_ACQUIRE not supported\n"); return -EINVAL; case BC_ACQUIRE_RESULT: pr_err("BC_ACQUIRE_RESULT not supported\n"); return -EINVAL; case BC_FREE_BUFFER: { binder_uintptr_t data_ptr; struct binder_buffer *buffer; if (get_user(data_ptr, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(binder_uintptr_t); buffer = binder_alloc_prepare_to_free(&proc->alloc, data_ptr); if (IS_ERR_OR_NULL(buffer)) { if (PTR_ERR(buffer) == -EPERM) { binder_user_error( "%d:%d BC_FREE_BUFFER u%016llx matched unreturned or currently freeing buffer\n", proc->pid, thread->pid, (u64)data_ptr); } else { binder_user_error( "%d:%d BC_FREE_BUFFER u%016llx no match\n", proc->pid, thread->pid, (u64)data_ptr); } break; } binder_debug(BINDER_DEBUG_FREE_BUFFER, "%d:%d BC_FREE_BUFFER u%016llx found buffer %d for %s transaction\n", proc->pid, thread->pid, (u64)data_ptr, buffer->debug_id, buffer->transaction ? "active" : "finished"); binder_free_buf(proc, thread, buffer, false); break; } case BC_TRANSACTION_SG: case BC_REPLY_SG: { struct binder_transaction_data_sg tr; if (copy_from_user(&tr, ptr, sizeof(tr))) return -EFAULT; ptr += sizeof(tr); binder_transaction(proc, thread, &tr.transaction_data, cmd == BC_REPLY_SG, tr.buffers_size); break; } case BC_TRANSACTION: case BC_REPLY: { struct binder_transaction_data tr; if (copy_from_user(&tr, ptr, sizeof(tr))) return -EFAULT; ptr += sizeof(tr); binder_transaction(proc, thread, &tr, cmd == BC_REPLY, 0); break; } case BC_REGISTER_LOOPER: binder_debug(BINDER_DEBUG_THREADS, "%d:%d BC_REGISTER_LOOPER\n", proc->pid, thread->pid); binder_inner_proc_lock(proc); if (thread->looper & BINDER_LOOPER_STATE_ENTERED) { thread->looper |= BINDER_LOOPER_STATE_INVALID; binder_user_error("%d:%d ERROR: BC_REGISTER_LOOPER called after BC_ENTER_LOOPER\n", proc->pid, thread->pid); } else if (proc->requested_threads == 0) { thread->looper |= BINDER_LOOPER_STATE_INVALID; binder_user_error("%d:%d ERROR: BC_REGISTER_LOOPER called without request\n", proc->pid, thread->pid); } else { proc->requested_threads--; proc->requested_threads_started++; } thread->looper |= BINDER_LOOPER_STATE_REGISTERED; binder_inner_proc_unlock(proc); break; case BC_ENTER_LOOPER: binder_debug(BINDER_DEBUG_THREADS, "%d:%d BC_ENTER_LOOPER\n", proc->pid, thread->pid); if (thread->looper & BINDER_LOOPER_STATE_REGISTERED) { thread->looper |= BINDER_LOOPER_STATE_INVALID; binder_user_error("%d:%d ERROR: BC_ENTER_LOOPER called after BC_REGISTER_LOOPER\n", proc->pid, thread->pid); } thread->looper |= BINDER_LOOPER_STATE_ENTERED; break; case BC_EXIT_LOOPER: binder_debug(BINDER_DEBUG_THREADS, "%d:%d BC_EXIT_LOOPER\n", proc->pid, thread->pid); thread->looper |= BINDER_LOOPER_STATE_EXITED; break; case BC_REQUEST_DEATH_NOTIFICATION: case BC_CLEAR_DEATH_NOTIFICATION: { uint32_t target; binder_uintptr_t cookie; struct binder_ref *ref; struct binder_ref_death *death = NULL; if (get_user(target, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); if (get_user(cookie, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(binder_uintptr_t); if (cmd == BC_REQUEST_DEATH_NOTIFICATION) { /* * Allocate memory for death notification * before taking lock */ death = kzalloc(sizeof(*death), GFP_KERNEL); if (death == NULL) { WARN_ON(thread->return_error.cmd != BR_OK); thread->return_error.cmd = BR_ERROR; binder_enqueue_thread_work( thread, &thread->return_error.work); binder_debug( BINDER_DEBUG_FAILED_TRANSACTION, "%d:%d BC_REQUEST_DEATH_NOTIFICATION failed\n", proc->pid, thread->pid); break; } } binder_proc_lock(proc); ref = binder_get_ref_olocked(proc, target, false); if (ref == NULL) { binder_user_error("%d:%d %s invalid ref %d\n", proc->pid, thread->pid, cmd == BC_REQUEST_DEATH_NOTIFICATION ? "BC_REQUEST_DEATH_NOTIFICATION" : "BC_CLEAR_DEATH_NOTIFICATION", target); binder_proc_unlock(proc); kfree(death); break; } binder_debug(BINDER_DEBUG_DEATH_NOTIFICATION, "%d:%d %s %016llx ref %d desc %d s %d w %d for node %d\n", proc->pid, thread->pid, cmd == BC_REQUEST_DEATH_NOTIFICATION ? "BC_REQUEST_DEATH_NOTIFICATION" : "BC_CLEAR_DEATH_NOTIFICATION", (u64)cookie, ref->data.debug_id, ref->data.desc, ref->data.strong, ref->data.weak, ref->node->debug_id); binder_node_lock(ref->node); if (cmd == BC_REQUEST_DEATH_NOTIFICATION) { if (ref->death) { binder_user_error("%d:%d BC_REQUEST_DEATH_NOTIFICATION death notification already set\n", proc->pid, thread->pid); binder_node_unlock(ref->node); binder_proc_unlock(proc); kfree(death); break; } binder_stats_created(BINDER_STAT_DEATH); INIT_LIST_HEAD(&death->work.entry); death->cookie = cookie; ref->death = death; if (ref->node->proc == NULL) { ref->death->work.type = BINDER_WORK_DEAD_BINDER; binder_inner_proc_lock(proc); binder_enqueue_work_ilocked( &ref->death->work, &proc->todo); binder_wakeup_proc_ilocked(proc); binder_inner_proc_unlock(proc); } } else { if (ref->death == NULL) { binder_user_error("%d:%d BC_CLEAR_DEATH_NOTIFICATION death notification not active\n", proc->pid, thread->pid); binder_node_unlock(ref->node); binder_proc_unlock(proc); break; } death = ref->death; if (death->cookie != cookie) { binder_user_error("%d:%d BC_CLEAR_DEATH_NOTIFICATION death notification cookie mismatch %016llx != %016llx\n", proc->pid, thread->pid, (u64)death->cookie, (u64)cookie); binder_node_unlock(ref->node); binder_proc_unlock(proc); break; } ref->death = NULL; binder_inner_proc_lock(proc); if (list_empty(&death->work.entry)) { death->work.type = BINDER_WORK_CLEAR_DEATH_NOTIFICATION; if (thread->looper & (BINDER_LOOPER_STATE_REGISTERED | BINDER_LOOPER_STATE_ENTERED)) binder_enqueue_thread_work_ilocked( thread, &death->work); else { binder_enqueue_work_ilocked( &death->work, &proc->todo); binder_wakeup_proc_ilocked( proc); } } else { BUG_ON(death->work.type != BINDER_WORK_DEAD_BINDER); death->work.type = BINDER_WORK_DEAD_BINDER_AND_CLEAR; } binder_inner_proc_unlock(proc); } binder_node_unlock(ref->node); binder_proc_unlock(proc); } break; case BC_DEAD_BINDER_DONE: { struct binder_work *w; binder_uintptr_t cookie; struct binder_ref_death *death = NULL; if (get_user(cookie, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(cookie); binder_inner_proc_lock(proc); list_for_each_entry(w, &proc->delivered_death, entry) { struct binder_ref_death *tmp_death = container_of(w, struct binder_ref_death, work); if (tmp_death->cookie == cookie) { death = tmp_death; break; } } binder_debug(BINDER_DEBUG_DEAD_BINDER, "%d:%d BC_DEAD_BINDER_DONE %016llx found %pK\n", proc->pid, thread->pid, (u64)cookie, death); if (death == NULL) { binder_user_error("%d:%d BC_DEAD_BINDER_DONE %016llx not found\n", proc->pid, thread->pid, (u64)cookie); binder_inner_proc_unlock(proc); break; } binder_dequeue_work_ilocked(&death->work); if (death->work.type == BINDER_WORK_DEAD_BINDER_AND_CLEAR) { death->work.type = BINDER_WORK_CLEAR_DEATH_NOTIFICATION; if (thread->looper & (BINDER_LOOPER_STATE_REGISTERED | BINDER_LOOPER_STATE_ENTERED)) binder_enqueue_thread_work_ilocked( thread, &death->work); else { binder_enqueue_work_ilocked( &death->work, &proc->todo); binder_wakeup_proc_ilocked(proc); } } binder_inner_proc_unlock(proc); } break; default: pr_err("%d:%d unknown command %u\n", proc->pid, thread->pid, cmd); return -EINVAL; } *consumed = ptr - buffer; } return 0; } static void binder_stat_br(struct binder_proc *proc, struct binder_thread *thread, uint32_t cmd) { trace_binder_return(cmd); if (_IOC_NR(cmd) < ARRAY_SIZE(binder_stats.br)) { atomic_inc(&binder_stats.br[_IOC_NR(cmd)]); atomic_inc(&proc->stats.br[_IOC_NR(cmd)]); atomic_inc(&thread->stats.br[_IOC_NR(cmd)]); } } static int binder_put_node_cmd(struct binder_proc *proc, struct binder_thread *thread, void __user **ptrp, binder_uintptr_t node_ptr, binder_uintptr_t node_cookie, int node_debug_id, uint32_t cmd, const char *cmd_name) { void __user *ptr = *ptrp; if (put_user(cmd, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); if (put_user(node_ptr, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(binder_uintptr_t); if (put_user(node_cookie, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(binder_uintptr_t); binder_stat_br(proc, thread, cmd); binder_debug(BINDER_DEBUG_USER_REFS, "%d:%d %s %d u%016llx c%016llx\n", proc->pid, thread->pid, cmd_name, node_debug_id, (u64)node_ptr, (u64)node_cookie); *ptrp = ptr; return 0; } static int binder_wait_for_work(struct binder_thread *thread, bool do_proc_work) { DEFINE_WAIT(wait); struct binder_proc *proc = thread->proc; int ret = 0; binder_inner_proc_lock(proc); for (;;) { prepare_to_wait(&thread->wait, &wait, TASK_INTERRUPTIBLE|TASK_FREEZABLE); if (binder_has_work_ilocked(thread, do_proc_work)) break; if (do_proc_work) list_add(&thread->waiting_thread_node, &proc->waiting_threads); binder_inner_proc_unlock(proc); schedule(); binder_inner_proc_lock(proc); list_del_init(&thread->waiting_thread_node); if (signal_pending(current)) { ret = -EINTR; break; } } finish_wait(&thread->wait, &wait); binder_inner_proc_unlock(proc); return ret; } /** * binder_apply_fd_fixups() - finish fd translation * @proc: binder_proc associated @t->buffer * @t: binder transaction with list of fd fixups * * Now that we are in the context of the transaction target * process, we can allocate and install fds. Process the * list of fds to translate and fixup the buffer with the * new fds first and only then install the files. * * If we fail to allocate an fd, skip the install and release * any fds that have already been allocated. */ static int binder_apply_fd_fixups(struct binder_proc *proc, struct binder_transaction *t) { struct binder_txn_fd_fixup *fixup, *tmp; int ret = 0; list_for_each_entry(fixup, &t->fd_fixups, fixup_entry) { int fd = get_unused_fd_flags(O_CLOEXEC); if (fd < 0) { binder_debug(BINDER_DEBUG_TRANSACTION, "failed fd fixup txn %d fd %d\n", t->debug_id, fd); ret = -ENOMEM; goto err; } binder_debug(BINDER_DEBUG_TRANSACTION, "fd fixup txn %d fd %d\n", t->debug_id, fd); trace_binder_transaction_fd_recv(t, fd, fixup->offset); fixup->target_fd = fd; if (binder_alloc_copy_to_buffer(&proc->alloc, t->buffer, fixup->offset, &fd, sizeof(u32))) { ret = -EINVAL; goto err; } } list_for_each_entry_safe(fixup, tmp, &t->fd_fixups, fixup_entry) { fd_install(fixup->target_fd, fixup->file); list_del(&fixup->fixup_entry); kfree(fixup); } return ret; err: binder_free_txn_fixups(t); return ret; } static int binder_thread_read(struct binder_proc *proc, struct binder_thread *thread, binder_uintptr_t binder_buffer, size_t size, binder_size_t *consumed, int non_block) { void __user *buffer = (void __user *)(uintptr_t)binder_buffer; void __user *ptr = buffer + *consumed; void __user *end = buffer + size; int ret = 0; int wait_for_proc_work; if (*consumed == 0) { if (put_user(BR_NOOP, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); } retry: binder_inner_proc_lock(proc); wait_for_proc_work = binder_available_for_proc_work_ilocked(thread); binder_inner_proc_unlock(proc); thread->looper |= BINDER_LOOPER_STATE_WAITING; trace_binder_wait_for_work(wait_for_proc_work, !!thread->transaction_stack, !binder_worklist_empty(proc, &thread->todo)); if (wait_for_proc_work) { if (!(thread->looper & (BINDER_LOOPER_STATE_REGISTERED | BINDER_LOOPER_STATE_ENTERED))) { binder_user_error("%d:%d ERROR: Thread waiting for process work before calling BC_REGISTER_LOOPER or BC_ENTER_LOOPER (state %x)\n", proc->pid, thread->pid, thread->looper); wait_event_interruptible(binder_user_error_wait, binder_stop_on_user_error < 2); } binder_set_nice(proc->default_priority); } if (non_block) { if (!binder_has_work(thread, wait_for_proc_work)) ret = -EAGAIN; } else { ret = binder_wait_for_work(thread, wait_for_proc_work); } thread->looper &= ~BINDER_LOOPER_STATE_WAITING; if (ret) return ret; while (1) { uint32_t cmd; struct binder_transaction_data_secctx tr; struct binder_transaction_data *trd = &tr.transaction_data; struct binder_work *w = NULL; struct list_head *list = NULL; struct binder_transaction *t = NULL; struct binder_thread *t_from; size_t trsize = sizeof(*trd); binder_inner_proc_lock(proc); if (!binder_worklist_empty_ilocked(&thread->todo)) list = &thread->todo; else if (!binder_worklist_empty_ilocked(&proc->todo) && wait_for_proc_work) list = &proc->todo; else { binder_inner_proc_unlock(proc); /* no data added */ if (ptr - buffer == 4 && !thread->looper_need_return) goto retry; break; } if (end - ptr < sizeof(tr) + 4) { binder_inner_proc_unlock(proc); break; } w = binder_dequeue_work_head_ilocked(list); if (binder_worklist_empty_ilocked(&thread->todo)) thread->process_todo = false; switch (w->type) { case BINDER_WORK_TRANSACTION: { binder_inner_proc_unlock(proc); t = container_of(w, struct binder_transaction, work); } break; case BINDER_WORK_RETURN_ERROR: { struct binder_error *e = container_of( w, struct binder_error, work); WARN_ON(e->cmd == BR_OK); binder_inner_proc_unlock(proc); if (put_user(e->cmd, (uint32_t __user *)ptr)) return -EFAULT; cmd = e->cmd; e->cmd = BR_OK; ptr += sizeof(uint32_t); binder_stat_br(proc, thread, cmd); } break; case BINDER_WORK_TRANSACTION_COMPLETE: case BINDER_WORK_TRANSACTION_PENDING: case BINDER_WORK_TRANSACTION_ONEWAY_SPAM_SUSPECT: { if (proc->oneway_spam_detection_enabled && w->type == BINDER_WORK_TRANSACTION_ONEWAY_SPAM_SUSPECT) cmd = BR_ONEWAY_SPAM_SUSPECT; else if (w->type == BINDER_WORK_TRANSACTION_PENDING) cmd = BR_TRANSACTION_PENDING_FROZEN; else cmd = BR_TRANSACTION_COMPLETE; binder_inner_proc_unlock(proc); kfree(w); binder_stats_deleted(BINDER_STAT_TRANSACTION_COMPLETE); if (put_user(cmd, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); binder_stat_br(proc, thread, cmd); binder_debug(BINDER_DEBUG_TRANSACTION_COMPLETE, "%d:%d BR_TRANSACTION_COMPLETE\n", proc->pid, thread->pid); } break; case BINDER_WORK_NODE: { struct binder_node *node = container_of(w, struct binder_node, work); int strong, weak; binder_uintptr_t node_ptr = node->ptr; binder_uintptr_t node_cookie = node->cookie; int node_debug_id = node->debug_id; int has_weak_ref; int has_strong_ref; void __user *orig_ptr = ptr; BUG_ON(proc != node->proc); strong = node->internal_strong_refs || node->local_strong_refs; weak = !hlist_empty(&node->refs) || node->local_weak_refs || node->tmp_refs || strong; has_strong_ref = node->has_strong_ref; has_weak_ref = node->has_weak_ref; if (weak && !has_weak_ref) { node->has_weak_ref = 1; node->pending_weak_ref = 1; node->local_weak_refs++; } if (strong && !has_strong_ref) { node->has_strong_ref = 1; node->pending_strong_ref = 1; node->local_strong_refs++; } if (!strong && has_strong_ref) node->has_strong_ref = 0; if (!weak && has_weak_ref) node->has_weak_ref = 0; if (!weak && !strong) { binder_debug(BINDER_DEBUG_INTERNAL_REFS, "%d:%d node %d u%016llx c%016llx deleted\n", proc->pid, thread->pid, node_debug_id, (u64)node_ptr, (u64)node_cookie); rb_erase(&node->rb_node, &proc->nodes); binder_inner_proc_unlock(proc); binder_node_lock(node); /* * Acquire the node lock before freeing the * node to serialize with other threads that * may have been holding the node lock while * decrementing this node (avoids race where * this thread frees while the other thread * is unlocking the node after the final * decrement) */ binder_node_unlock(node); binder_free_node(node); } else binder_inner_proc_unlock(proc); if (weak && !has_weak_ref) ret = binder_put_node_cmd( proc, thread, &ptr, node_ptr, node_cookie, node_debug_id, BR_INCREFS, "BR_INCREFS"); if (!ret && strong && !has_strong_ref) ret = binder_put_node_cmd( proc, thread, &ptr, node_ptr, node_cookie, node_debug_id, BR_ACQUIRE, "BR_ACQUIRE"); if (!ret && !strong && has_strong_ref) ret = binder_put_node_cmd( proc, thread, &ptr, node_ptr, node_cookie, node_debug_id, BR_RELEASE, "BR_RELEASE"); if (!ret && !weak && has_weak_ref) ret = binder_put_node_cmd( proc, thread, &ptr, node_ptr, node_cookie, node_debug_id, BR_DECREFS, "BR_DECREFS"); if (orig_ptr == ptr) binder_debug(BINDER_DEBUG_INTERNAL_REFS, "%d:%d node %d u%016llx c%016llx state unchanged\n", proc->pid, thread->pid, node_debug_id, (u64)node_ptr, (u64)node_cookie); if (ret) return ret; } break; case BINDER_WORK_DEAD_BINDER: case BINDER_WORK_DEAD_BINDER_AND_CLEAR: case BINDER_WORK_CLEAR_DEATH_NOTIFICATION: { struct binder_ref_death *death; uint32_t cmd; binder_uintptr_t cookie; death = container_of(w, struct binder_ref_death, work); if (w->type == BINDER_WORK_CLEAR_DEATH_NOTIFICATION) cmd = BR_CLEAR_DEATH_NOTIFICATION_DONE; else cmd = BR_DEAD_BINDER; cookie = death->cookie; binder_debug(BINDER_DEBUG_DEATH_NOTIFICATION, "%d:%d %s %016llx\n", proc->pid, thread->pid, cmd == BR_DEAD_BINDER ? "BR_DEAD_BINDER" : "BR_CLEAR_DEATH_NOTIFICATION_DONE", (u64)cookie); if (w->type == BINDER_WORK_CLEAR_DEATH_NOTIFICATION) { binder_inner_proc_unlock(proc); kfree(death); binder_stats_deleted(BINDER_STAT_DEATH); } else { binder_enqueue_work_ilocked( w, &proc->delivered_death); binder_inner_proc_unlock(proc); } if (put_user(cmd, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); if (put_user(cookie, (binder_uintptr_t __user *)ptr)) return -EFAULT; ptr += sizeof(binder_uintptr_t); binder_stat_br(proc, thread, cmd); if (cmd == BR_DEAD_BINDER) goto done; /* DEAD_BINDER notifications can cause transactions */ } break; default: binder_inner_proc_unlock(proc); pr_err("%d:%d: bad work type %d\n", proc->pid, thread->pid, w->type); break; } if (!t) continue; BUG_ON(t->buffer == NULL); if (t->buffer->target_node) { struct binder_node *target_node = t->buffer->target_node; trd->target.ptr = target_node->ptr; trd->cookie = target_node->cookie; t->saved_priority = task_nice(current); if (t->priority < target_node->min_priority && !(t->flags & TF_ONE_WAY)) binder_set_nice(t->priority); else if (!(t->flags & TF_ONE_WAY) || t->saved_priority > target_node->min_priority) binder_set_nice(target_node->min_priority); cmd = BR_TRANSACTION; } else { trd->target.ptr = 0; trd->cookie = 0; cmd = BR_REPLY; } trd->code = t->code; trd->flags = t->flags; trd->sender_euid = from_kuid(current_user_ns(), t->sender_euid); t_from = binder_get_txn_from(t); if (t_from) { struct task_struct *sender = t_from->proc->tsk; trd->sender_pid = task_tgid_nr_ns(sender, task_active_pid_ns(current)); } else { trd->sender_pid = 0; } ret = binder_apply_fd_fixups(proc, t); if (ret) { struct binder_buffer *buffer = t->buffer; bool oneway = !!(t->flags & TF_ONE_WAY); int tid = t->debug_id; if (t_from) binder_thread_dec_tmpref(t_from); buffer->transaction = NULL; binder_cleanup_transaction(t, "fd fixups failed", BR_FAILED_REPLY); binder_free_buf(proc, thread, buffer, true); binder_debug(BINDER_DEBUG_FAILED_TRANSACTION, "%d:%d %stransaction %d fd fixups failed %d/%d, line %d\n", proc->pid, thread->pid, oneway ? "async " : (cmd == BR_REPLY ? "reply " : ""), tid, BR_FAILED_REPLY, ret, __LINE__); if (cmd == BR_REPLY) { cmd = BR_FAILED_REPLY; if (put_user(cmd, (uint32_t __user *)ptr)) return -EFAULT; ptr += sizeof(uint32_t); binder_stat_br(proc, thread, cmd); break; } continue; } trd->data_size = t->buffer->data_size; trd->offsets_size = t->buffer->offsets_size; trd->data.ptr.buffer = t->buffer->user_data; trd->data.ptr.offsets = trd->data.ptr.buffer + ALIGN(t->buffer->data_size, sizeof(void *)); tr.secctx = t->security_ctx; if (t->security_ctx) { cmd = BR_TRANSACTION_SEC_CTX; trsize = sizeof(tr); } if (put_user(cmd, (uint32_t __user *)ptr)) { if (t_from) binder_thread_dec_tmpref(t_from); binder_cleanup_transaction(t, "put_user failed", BR_FAILED_REPLY); return -EFAULT; } ptr += sizeof(uint32_t); if (copy_to_user(ptr, &tr, trsize)) { if (t_from) binder_thread_dec_tmpref(t_from); binder_cleanup_transaction(t, "copy_to_user failed", BR_FAILED_REPLY); return -EFAULT; } ptr += trsize; trace_binder_transaction_received(t); binder_stat_br(proc, thread, cmd); binder_debug(BINDER_DEBUG_TRANSACTION, "%d:%d %s %d %d:%d, cmd %u size %zd-%zd ptr %016llx-%016llx\n", proc->pid, thread->pid, (cmd == BR_TRANSACTION) ? "BR_TRANSACTION" : (cmd == BR_TRANSACTION_SEC_CTX) ? "BR_TRANSACTION_SEC_CTX" : "BR_REPLY", t->debug_id, t_from ? t_from->proc->pid : 0, t_from ? t_from->pid : 0, cmd, t->buffer->data_size, t->buffer->offsets_size, (u64)trd->data.ptr.buffer, (u64)trd->data.ptr.offsets); if (t_from) binder_thread_dec_tmpref(t_from); t->buffer->allow_user_free = 1; if (cmd != BR_REPLY && !(t->flags & TF_ONE_WAY)) { binder_inner_proc_lock(thread->proc); t->to_parent = thread->transaction_stack; t->to_thread = thread; thread->transaction_stack = t; binder_inner_proc_unlock(thread->proc); } else { binder_free_transaction(t); } break; } done: *consumed = ptr - buffer; binder_inner_proc_lock(proc); if (proc->requested_threads == 0 && list_empty(&thread->proc->waiting_threads) && proc->requested_threads_started < proc->max_threads && (thread->looper & (BINDER_LOOPER_STATE_REGISTERED | BINDER_LOOPER_STATE_ENTERED)) /* the user-space code fails to */ /*spawn a new thread if we leave this out */) { proc->requested_threads++; binder_inner_proc_unlock(proc); binder_debug(BINDER_DEBUG_THREADS, "%d:%d BR_SPAWN_LOOPER\n", proc->pid, thread->pid); if (put_user(BR_SPAWN_LOOPER, (uint32_t __user *)buffer)) return -EFAULT; binder_stat_br(proc, thread, BR_SPAWN_LOOPER); } else binder_inner_proc_unlock(proc); return 0; } static void binder_release_work(struct binder_proc *proc, struct list_head *list) { struct binder_work *w; enum binder_work_type wtype; while (1) { binder_inner_proc_lock(proc); w = binder_dequeue_work_head_ilocked(list); wtype = w ? w->type : 0; binder_inner_proc_unlock(proc); if (!w) return; switch (wtype) { case BINDER_WORK_TRANSACTION: { struct binder_transaction *t; t = container_of(w, struct binder_transaction, work); binder_cleanup_transaction(t, "process died.", BR_DEAD_REPLY); } break; case BINDER_WORK_RETURN_ERROR: { struct binder_error *e = container_of( w, struct binder_error, work); binder_debug(BINDER_DEBUG_DEAD_TRANSACTION, "undelivered TRANSACTION_ERROR: %u\n", e->cmd); } break; case BINDER_WORK_TRANSACTION_PENDING: case BINDER_WORK_TRANSACTION_ONEWAY_SPAM_SUSPECT: case BINDER_WORK_TRANSACTION_COMPLETE: { binder_debug(BINDER_DEBUG_DEAD_TRANSACTION, "undelivered TRANSACTION_COMPLETE\n"); kfree(w); binder_stats_deleted(BINDER_STAT_TRANSACTION_COMPLETE); } break; case BINDER_WORK_DEAD_BINDER_AND_CLEAR: case BINDER_WORK_CLEAR_DEATH_NOTIFICATION: { struct binder_ref_death *death; death = container_of(w, struct binder_ref_death, work); binder_debug(BINDER_DEBUG_DEAD_TRANSACTION, "undelivered death notification, %016llx\n", (u64)death->cookie); kfree(death); binder_stats_deleted(BINDER_STAT_DEATH); } break; case BINDER_WORK_NODE: break; default: pr_err("unexpected work type, %d, not freed\n", wtype); break; } } } static struct binder_thread *binder_get_thread_ilocked( struct binder_proc *proc, struct binder_thread *new_thread) { struct binder_thread *thread = NULL; struct rb_node *parent = NULL; struct rb_node **p = &proc->threads.rb_node; while (*p) { parent = *p; thread = rb_entry(parent, struct binder_thread, rb_node); if (current->pid < thread->pid) p = &(*p)->rb_left; else if (current->pid > thread->pid) p = &(*p)->rb_right; else return thread; } if (!new_thread) return NULL; thread = new_thread; binder_stats_created(BINDER_STAT_THREAD); thread->proc = proc; thread->pid = current->pid; atomic_set(&thread->tmp_ref, 0); init_waitqueue_head(&thread->wait); INIT_LIST_HEAD(&thread->todo); rb_link_node(&thread->rb_node, parent, p); rb_insert_color(&thread->rb_node, &proc->threads); thread->looper_need_return = true; thread->return_error.work.type = BINDER_WORK_RETURN_ERROR; thread->return_error.cmd = BR_OK; thread->reply_error.work.type = BINDER_WORK_RETURN_ERROR; thread->reply_error.cmd = BR_OK; thread->ee.command = BR_OK; INIT_LIST_HEAD(&new_thread->waiting_thread_node); return thread; } static struct binder_thread *binder_get_thread(struct binder_proc *proc) { struct binder_thread *thread; struct binder_thread *new_thread; binder_inner_proc_lock(proc); thread = binder_get_thread_ilocked(proc, NULL); binder_inner_proc_unlock(proc); if (!thread) { new_thread = kzalloc(sizeof(*thread), GFP_KERNEL); if (new_thread == NULL) return NULL; binder_inner_proc_lock(proc); thread = binder_get_thread_ilocked(proc, new_thread); binder_inner_proc_unlock(proc); if (thread != new_thread) kfree(new_thread); } return thread; } static void binder_free_proc(struct binder_proc *proc) { struct binder_device *device; BUG_ON(!list_empty(&proc->todo)); BUG_ON(!list_empty(&proc->delivered_death)); if (proc->outstanding_txns) pr_warn("%s: Unexpected outstanding_txns %d\n", __func__, proc->outstanding_txns); device = container_of(proc->context, struct binder_device, context); if (refcount_dec_and_test(&device->ref)) { kfree(proc->context->name); kfree(device); } binder_alloc_deferred_release(&proc->alloc); put_task_struct(proc->tsk); put_cred(proc->cred); binder_stats_deleted(BINDER_STAT_PROC); dbitmap_free(&proc->dmap); kfree(proc); } static void binder_free_thread(struct binder_thread *thread) { BUG_ON(!list_empty(&thread->todo)); binder_stats_deleted(BINDER_STAT_THREAD); binder_proc_dec_tmpref(thread->proc); kfree(thread); } static int binder_thread_release(struct binder_proc *proc, struct binder_thread *thread) { struct binder_transaction *t; struct binder_transaction *send_reply = NULL; int active_transactions = 0; struct binder_transaction *last_t = NULL; binder_inner_proc_lock(thread->proc); /* * take a ref on the proc so it survives * after we remove this thread from proc->threads. * The corresponding dec is when we actually * free the thread in binder_free_thread() */ proc->tmp_ref++; /* * take a ref on this thread to ensure it * survives while we are releasing it */ atomic_inc(&thread->tmp_ref); rb_erase(&thread->rb_node, &proc->threads); t = thread->transaction_stack; if (t) { spin_lock(&t->lock); if (t->to_thread == thread) send_reply = t; } else { __acquire(&t->lock); } thread->is_dead = true; while (t) { last_t = t; active_transactions++; binder_debug(BINDER_DEBUG_DEAD_TRANSACTION, "release %d:%d transaction %d %s, still active\n", proc->pid, thread->pid, t->debug_id, (t->to_thread == thread) ? "in" : "out"); if (t->to_thread == thread) { thread->proc->outstanding_txns--; t->to_proc = NULL; t->to_thread = NULL; if (t->buffer) { t->buffer->transaction = NULL; t->buffer = NULL; } t = t->to_parent; } else if (t->from == thread) { t->from = NULL; t = t->from_parent; } else BUG(); spin_unlock(&last_t->lock); if (t) spin_lock(&t->lock); else __acquire(&t->lock); } /* annotation for sparse, lock not acquired in last iteration above */ __release(&t->lock); /* * If this thread used poll, make sure we remove the waitqueue from any * poll data structures holding it. */ if (thread->looper & BINDER_LOOPER_STATE_POLL) wake_up_pollfree(&thread->wait); binder_inner_proc_unlock(thread->proc); /* * This is needed to avoid races between wake_up_pollfree() above and * someone else removing the last entry from the queue for other reasons * (e.g. ep_remove_wait_queue() being called due to an epoll file * descriptor being closed). Such other users hold an RCU read lock, so * we can be sure they're done after we call synchronize_rcu(). */ if (thread->looper & BINDER_LOOPER_STATE_POLL) synchronize_rcu(); if (send_reply) binder_send_failed_reply(send_reply, BR_DEAD_REPLY); binder_release_work(proc, &thread->todo); binder_thread_dec_tmpref(thread); return active_transactions; } static __poll_t binder_poll(struct file *filp, struct poll_table_struct *wait) { struct binder_proc *proc = filp->private_data; struct binder_thread *thread = NULL; bool wait_for_proc_work; thread = binder_get_thread(proc); if (!thread) return EPOLLERR; binder_inner_proc_lock(thread->proc); thread->looper |= BINDER_LOOPER_STATE_POLL; wait_for_proc_work = binder_available_for_proc_work_ilocked(thread); binder_inner_proc_unlock(thread->proc); poll_wait(filp, &thread->wait, wait); if (binder_has_work(thread, wait_for_proc_work)) return EPOLLIN; return 0; } static int binder_ioctl_write_read(struct file *filp, unsigned long arg, struct binder_thread *thread) { int ret = 0; struct binder_proc *proc = filp->private_data; void __user *ubuf = (void __user *)arg; struct binder_write_read bwr; if (copy_from_user(&bwr, ubuf, sizeof(bwr))) { ret = -EFAULT; goto out; } binder_debug(BINDER_DEBUG_READ_WRITE, "%d:%d write %lld at %016llx, read %lld at %016llx\n", proc->pid, thread->pid, (u64)bwr.write_size, (u64)bwr.write_buffer, (u64)bwr.read_size, (u64)bwr.read_buffer); if (bwr.write_size > 0) { ret = binder_thread_write(proc, thread, bwr.write_buffer, bwr.write_size, &bwr.write_consumed); trace_binder_write_done(ret); if (ret < 0) { bwr.read_consumed = 0; if (copy_to_user(ubuf, &bwr, sizeof(bwr))) ret = -EFAULT; goto out; } } if (bwr.read_size > 0) { ret = binder_thread_read(proc, thread, bwr.read_buffer, bwr.read_size, &bwr.read_consumed, filp->f_flags & O_NONBLOCK); trace_binder_read_done(ret); binder_inner_proc_lock(proc); if (!binder_worklist_empty_ilocked(&proc->todo)) binder_wakeup_proc_ilocked(proc); binder_inner_proc_unlock(proc); if (ret < 0) { if (copy_to_user(ubuf, &bwr, sizeof(bwr))) ret = -EFAULT; goto out; } } binder_debug(BINDER_DEBUG_READ_WRITE, "%d:%d wrote %lld of %lld, read return %lld of %lld\n", proc->pid, thread->pid, (u64)bwr.write_consumed, (u64)bwr.write_size, (u64)bwr.read_consumed, (u64)bwr.read_size); if (copy_to_user(ubuf, &bwr, sizeof(bwr))) { ret = -EFAULT; goto out; } out: return ret; } static int binder_ioctl_set_ctx_mgr(struct file *filp, struct flat_binder_object *fbo) { int ret = 0; struct binder_proc *proc = filp->private_data; struct binder_context *context = proc->context; struct binder_node *new_node; kuid_t curr_euid = current_euid(); mutex_lock(&context->context_mgr_node_lock); if (context->binder_context_mgr_node) { pr_err("BINDER_SET_CONTEXT_MGR already set\n"); ret = -EBUSY; goto out; } ret = security_binder_set_context_mgr(proc->cred); if (ret < 0) goto out; if (uid_valid(context->binder_context_mgr_uid)) { if (!uid_eq(context->binder_context_mgr_uid, curr_euid)) { pr_err("BINDER_SET_CONTEXT_MGR bad uid %d != %d\n", from_kuid(&init_user_ns, curr_euid), from_kuid(&init_user_ns, context->binder_context_mgr_uid)); ret = -EPERM; goto out; } } else { context->binder_context_mgr_uid = curr_euid; } new_node = binder_new_node(proc, fbo); if (!new_node) { ret = -ENOMEM; goto out; } binder_node_lock(new_node); new_node->local_weak_refs++; new_node->local_strong_refs++; new_node->has_strong_ref = 1; new_node->has_weak_ref = 1; context->binder_context_mgr_node = new_node; binder_node_unlock(new_node); binder_put_node(new_node); out: mutex_unlock(&context->context_mgr_node_lock); return ret; } static int binder_ioctl_get_node_info_for_ref(struct binder_proc *proc, struct binder_node_info_for_ref *info) { struct binder_node *node; struct binder_context *context = proc->context; __u32 handle = info->handle; if (info->strong_count || info->weak_count || info->reserved1 || info->reserved2 || info->reserved3) { binder_user_error("%d BINDER_GET_NODE_INFO_FOR_REF: only handle may be non-zero.", proc->pid); return -EINVAL; } /* This ioctl may only be used by the context manager */ mutex_lock(&context->context_mgr_node_lock); if (!context->binder_context_mgr_node || context->binder_context_mgr_node->proc != proc) { mutex_unlock(&context->context_mgr_node_lock); return -EPERM; } mutex_unlock(&context->context_mgr_node_lock); node = binder_get_node_from_ref(proc, handle, true, NULL); if (!node) return -EINVAL; info->strong_count = node->local_strong_refs + node->internal_strong_refs; info->weak_count = node->local_weak_refs; binder_put_node(node); return 0; } static int binder_ioctl_get_node_debug_info(struct binder_proc *proc, struct binder_node_debug_info *info) { struct rb_node *n; binder_uintptr_t ptr = info->ptr; memset(info, 0, sizeof(*info)); binder_inner_proc_lock(proc); for (n = rb_first(&proc->nodes); n != NULL; n = rb_next(n)) { struct binder_node *node = rb_entry(n, struct binder_node, rb_node); if (node->ptr > ptr) { info->ptr = node->ptr; info->cookie = node->cookie; info->has_strong_ref = node->has_strong_ref; info->has_weak_ref = node->has_weak_ref; break; } } binder_inner_proc_unlock(proc); return 0; } static bool binder_txns_pending_ilocked(struct binder_proc *proc) { struct rb_node *n; struct binder_thread *thread; if (proc->outstanding_txns > 0) return true; for (n = rb_first(&proc->threads); n; n = rb_next(n)) { thread = rb_entry(n, struct binder_thread, rb_node); if (thread->transaction_stack) return true; } return false; } static int binder_ioctl_freeze(struct binder_freeze_info *info, struct binder_proc *target_proc) { int ret = 0; if (!info->enable) { binder_inner_proc_lock(target_proc); target_proc->sync_recv = false; target_proc->async_recv = false; target_proc->is_frozen = false; binder_inner_proc_unlock(target_proc); return 0; } /* * Freezing the target. Prevent new transactions by * setting frozen state. If timeout specified, wait * for transactions to drain. */ binder_inner_proc_lock(target_proc); target_proc->sync_recv = false; target_proc->async_recv = false; target_proc->is_frozen = true; binder_inner_proc_unlock(target_proc); if (info->timeout_ms > 0) ret = wait_event_interruptible_timeout( target_proc->freeze_wait, (!target_proc->outstanding_txns), msecs_to_jiffies(info->timeout_ms)); /* Check pending transactions that wait for reply */ if (ret >= 0) { binder_inner_proc_lock(target_proc); if (binder_txns_pending_ilocked(target_proc)) ret = -EAGAIN; binder_inner_proc_unlock(target_proc); } if (ret < 0) { binder_inner_proc_lock(target_proc); target_proc->is_frozen = false; binder_inner_proc_unlock(target_proc); } return ret; } static int binder_ioctl_get_freezer_info( struct binder_frozen_status_info *info) { struct binder_proc *target_proc; bool found = false; __u32 txns_pending; info->sync_recv = 0; info->async_recv = 0; mutex_lock(&binder_procs_lock); hlist_for_each_entry(target_proc, &binder_procs, proc_node) { if (target_proc->pid == info->pid) { found = true; binder_inner_proc_lock(target_proc); txns_pending = binder_txns_pending_ilocked(target_proc); info->sync_recv |= target_proc->sync_recv | (txns_pending << 1); info->async_recv |= target_proc->async_recv; binder_inner_proc_unlock(target_proc); } } mutex_unlock(&binder_procs_lock); if (!found) return -EINVAL; return 0; } static int binder_ioctl_get_extended_error(struct binder_thread *thread, void __user *ubuf) { struct binder_extended_error ee; binder_inner_proc_lock(thread->proc); ee = thread->ee; binder_set_extended_error(&thread->ee, 0, BR_OK, 0); binder_inner_proc_unlock(thread->proc); if (copy_to_user(ubuf, &ee, sizeof(ee))) return -EFAULT; return 0; } static long binder_ioctl(struct file *filp, unsigned int cmd, unsigned long arg) { int ret; struct binder_proc *proc = filp->private_data; struct binder_thread *thread; void __user *ubuf = (void __user *)arg; /*pr_info("binder_ioctl: %d:%d %x %lx\n", proc->pid, current->pid, cmd, arg);*/ binder_selftest_alloc(&proc->alloc); trace_binder_ioctl(cmd, arg); ret = wait_event_interruptible(binder_user_error_wait, binder_stop_on_user_error < 2); if (ret) goto err_unlocked; thread = binder_get_thread(proc); if (thread == NULL) { ret = -ENOMEM; goto err; } switch (cmd) { case BINDER_WRITE_READ: ret = binder_ioctl_write_read(filp, arg, thread); if (ret) goto err; break; case BINDER_SET_MAX_THREADS: { u32 max_threads; if (copy_from_user(&max_threads, ubuf, sizeof(max_threads))) { ret = -EINVAL; goto err; } binder_inner_proc_lock(proc); proc->max_threads = max_threads; binder_inner_proc_unlock(proc); break; } case BINDER_SET_CONTEXT_MGR_EXT: { struct flat_binder_object fbo; if (copy_from_user(&fbo, ubuf, sizeof(fbo))) { ret = -EINVAL; goto err; } ret = binder_ioctl_set_ctx_mgr(filp, &fbo); if (ret) goto err; break; } case BINDER_SET_CONTEXT_MGR: ret = binder_ioctl_set_ctx_mgr(filp, NULL); if (ret) goto err; break; case BINDER_THREAD_EXIT: binder_debug(BINDER_DEBUG_THREADS, "%d:%d exit\n", proc->pid, thread->pid); binder_thread_release(proc, thread); thread = NULL; break; case BINDER_VERSION: { struct binder_version __user *ver = ubuf; if (put_user(BINDER_CURRENT_PROTOCOL_VERSION, &ver->protocol_version)) { ret = -EINVAL; goto err; } break; } case BINDER_GET_NODE_INFO_FOR_REF: { struct binder_node_info_for_ref info; if (copy_from_user(&info, ubuf, sizeof(info))) { ret = -EFAULT; goto err; } ret = binder_ioctl_get_node_info_for_ref(proc, &info); if (ret < 0) goto err; if (copy_to_user(ubuf, &info, sizeof(info))) { ret = -EFAULT; goto err; } break; } case BINDER_GET_NODE_DEBUG_INFO: { struct binder_node_debug_info info; if (copy_from_user(&info, ubuf, sizeof(info))) { ret = -EFAULT; goto err; } ret = binder_ioctl_get_node_debug_info(proc, &info); if (ret < 0) goto err; if (copy_to_user(ubuf, &info, sizeof(info))) { ret = -EFAULT; goto err; } break; } case BINDER_FREEZE: { struct binder_freeze_info info; struct binder_proc **target_procs = NULL, *target_proc; int target_procs_count = 0, i = 0; ret = 0; if (copy_from_user(&info, ubuf, sizeof(info))) { ret = -EFAULT; goto err; } mutex_lock(&binder_procs_lock); hlist_for_each_entry(target_proc, &binder_procs, proc_node) { if (target_proc->pid == info.pid) target_procs_count++; } if (target_procs_count == 0) { mutex_unlock(&binder_procs_lock); ret = -EINVAL; goto err; } target_procs = kcalloc(target_procs_count, sizeof(struct binder_proc *), GFP_KERNEL); if (!target_procs) { mutex_unlock(&binder_procs_lock); ret = -ENOMEM; goto err; } hlist_for_each_entry(target_proc, &binder_procs, proc_node) { if (target_proc->pid != info.pid) continue; binder_inner_proc_lock(target_proc); target_proc->tmp_ref++; binder_inner_proc_unlock(target_proc); target_procs[i++] = target_proc; } mutex_unlock(&binder_procs_lock); for (i = 0; i < target_procs_count; i++) { if (ret >= 0) ret = binder_ioctl_freeze(&info, target_procs[i]); binder_proc_dec_tmpref(target_procs[i]); } kfree(target_procs); if (ret < 0) goto err; break; } case BINDER_GET_FROZEN_INFO: { struct binder_frozen_status_info info; if (copy_from_user(&info, ubuf, sizeof(info))) { ret = -EFAULT; goto err; } ret = binder_ioctl_get_freezer_info(&info); if (ret < 0) goto err; if (copy_to_user(ubuf, &info, sizeof(info))) { ret = -EFAULT; goto err; } break; } case BINDER_ENABLE_ONEWAY_SPAM_DETECTION: { uint32_t enable; if (copy_from_user(&enable, ubuf, sizeof(enable))) { ret = -EFAULT; goto err; } binder_inner_proc_lock(proc); proc->oneway_spam_detection_enabled = (bool)enable; binder_inner_proc_unlock(proc); break; } case BINDER_GET_EXTENDED_ERROR: ret = binder_ioctl_get_extended_error(thread, ubuf); if (ret < 0) goto err; break; default: ret = -EINVAL; goto err; } ret = 0; err: if (thread) thread->looper_need_return = false; wait_event_interruptible(binder_user_error_wait, binder_stop_on_user_error < 2); if (ret && ret != -EINTR) pr_info("%d:%d ioctl %x %lx returned %d\n", proc->pid, current->pid, cmd, arg, ret); err_unlocked: trace_binder_ioctl_done(ret); return ret; } static void binder_vma_open(struct vm_area_struct *vma) { struct binder_proc *proc = vma->vm_private_data; binder_debug(BINDER_DEBUG_OPEN_CLOSE, "%d open vm area %lx-%lx (%ld K) vma %lx pagep %lx\n", proc->pid, vma->vm_start, vma->vm_end, (vma->vm_end - vma->vm_start) / SZ_1K, vma->vm_flags, (unsigned long)pgprot_val(vma->vm_page_prot)); } static void binder_vma_close(struct vm_area_struct *vma) { struct binder_proc *proc = vma->vm_private_data; binder_debug(BINDER_DEBUG_OPEN_CLOSE, "%d close vm area %lx-%lx (%ld K) vma %lx pagep %lx\n", proc->pid, vma->vm_start, vma->vm_end, (vma->vm_end - vma->vm_start) / SZ_1K, vma->vm_flags, (unsigned long)pgprot_val(vma->vm_page_prot)); binder_alloc_vma_close(&proc->alloc); } static vm_fault_t binder_vm_fault(struct vm_fault *vmf) { return VM_FAULT_SIGBUS; } static const struct vm_operations_struct binder_vm_ops = { .open = binder_vma_open, .close = binder_vma_close, .fault = binder_vm_fault, }; static int binder_mmap(struct file *filp, struct vm_area_struct *vma) { struct binder_proc *proc = filp->private_data; if (proc->tsk != current->group_leader) return -EINVAL; binder_debug(BINDER_DEBUG_OPEN_CLOSE, "%s: %d %lx-%lx (%ld K) vma %lx pagep %lx\n", __func__, proc->pid, vma->vm_start, vma->vm_end, (vma->vm_end - vma->vm_start) / SZ_1K, vma->vm_flags, (unsigned long)pgprot_val(vma->vm_page_prot)); if (vma->vm_flags & FORBIDDEN_MMAP_FLAGS) { pr_err("%s: %d %lx-%lx %s failed %d\n", __func__, proc->pid, vma->vm_start, vma->vm_end, "bad vm_flags", -EPERM); return -EPERM; } vm_flags_mod(vma, VM_DONTCOPY | VM_MIXEDMAP, VM_MAYWRITE); vma->vm_ops = &binder_vm_ops; vma->vm_private_data = proc; return binder_alloc_mmap_handler(&proc->alloc, vma); } static int binder_open(struct inode *nodp, struct file *filp) { struct binder_proc *proc, *itr; struct binder_device *binder_dev; struct binderfs_info *info; struct dentry *binder_binderfs_dir_entry_proc = NULL; bool existing_pid = false; binder_debug(BINDER_DEBUG_OPEN_CLOSE, "%s: %d:%d\n", __func__, current->group_leader->pid, current->pid); proc = kzalloc(sizeof(*proc), GFP_KERNEL); if (proc == NULL) return -ENOMEM; dbitmap_init(&proc->dmap); spin_lock_init(&proc->inner_lock); spin_lock_init(&proc->outer_lock); get_task_struct(current->group_leader); proc->tsk = current->group_leader; proc->cred = get_cred(filp->f_cred); INIT_LIST_HEAD(&proc->todo); init_waitqueue_head(&proc->freeze_wait); proc->default_priority = task_nice(current); /* binderfs stashes devices in i_private */ if (is_binderfs_device(nodp)) { binder_dev = nodp->i_private; info = nodp->i_sb->s_fs_info; binder_binderfs_dir_entry_proc = info->proc_log_dir; } else { binder_dev = container_of(filp->private_data, struct binder_device, miscdev); } refcount_inc(&binder_dev->ref); proc->context = &binder_dev->context; binder_alloc_init(&proc->alloc); binder_stats_created(BINDER_STAT_PROC); proc->pid = current->group_leader->pid; INIT_LIST_HEAD(&proc->delivered_death); INIT_LIST_HEAD(&proc->waiting_threads); filp->private_data = proc; mutex_lock(&binder_procs_lock); hlist_for_each_entry(itr, &binder_procs, proc_node) { if (itr->pid == proc->pid) { existing_pid = true; break; } } hlist_add_head(&proc->proc_node, &binder_procs); mutex_unlock(&binder_procs_lock); if (binder_debugfs_dir_entry_proc && !existing_pid) { char strbuf[11]; snprintf(strbuf, sizeof(strbuf), "%u", proc->pid); /* * proc debug entries are shared between contexts. * Only create for the first PID to avoid debugfs log spamming * The printing code will anyway print all contexts for a given * PID so this is not a problem. */ proc->debugfs_entry = debugfs_create_file(strbuf, 0444, binder_debugfs_dir_entry_proc, (void *)(unsigned long)proc->pid, &proc_fops); } if (binder_binderfs_dir_entry_proc && !existing_pid) { char strbuf[11]; struct dentry *binderfs_entry; snprintf(strbuf, sizeof(strbuf), "%u", proc->pid); /* * Similar to debugfs, the process specific log file is shared * between contexts. Only create for the first PID. * This is ok since same as debugfs, the log file will contain * information on all contexts of a given PID. */ binderfs_entry = binderfs_create_file(binder_binderfs_dir_entry_proc, strbuf, &proc_fops, (void *)(unsigned long)proc->pid); if (!IS_ERR(binderfs_entry)) { proc->binderfs_entry = binderfs_entry; } else { int error; error = PTR_ERR(binderfs_entry); pr_warn("Unable to create file %s in binderfs (error %d)\n", strbuf, error); } } return 0; } static int binder_flush(struct file *filp, fl_owner_t id) { struct binder_proc *proc = filp->private_data; binder_defer_work(proc, BINDER_DEFERRED_FLUSH); return 0; } static void binder_deferred_flush(struct binder_proc *proc) { struct rb_node *n; int wake_count = 0; binder_inner_proc_lock(proc); for (n = rb_first(&proc->threads); n != NULL; n = rb_next(n)) { struct binder_thread *thread = rb_entry(n, struct binder_thread, rb_node); thread->looper_need_return = true; if (thread->looper & BINDER_LOOPER_STATE_WAITING) { wake_up_interruptible(&thread->wait); wake_count++; } } binder_inner_proc_unlock(proc); binder_debug(BINDER_DEBUG_OPEN_CLOSE, "binder_flush: %d woke %d threads\n", proc->pid, wake_count); } static int binder_release(struct inode *nodp, struct file *filp) { struct binder_proc *proc = filp->private_data; debugfs_remove(proc->debugfs_entry); if (proc->binderfs_entry) { binderfs_remove_file(proc->binderfs_entry); proc->binderfs_entry = NULL; } binder_defer_work(proc, BINDER_DEFERRED_RELEASE); return 0; } static int binder_node_release(struct binder_node *node, int refs) { struct binder_ref *ref; int death = 0; struct binder_proc *proc = node->proc; binder_release_work(proc, &node->async_todo); binder_node_lock(node); binder_inner_proc_lock(proc); binder_dequeue_work_ilocked(&node->work); /* * The caller must have taken a temporary ref on the node, */ BUG_ON(!node->tmp_refs); if (hlist_empty(&node->refs) && node->tmp_refs == 1) { binder_inner_proc_unlock(proc); binder_node_unlock(node); binder_free_node(node); return refs; } node->proc = NULL; node->local_strong_refs = 0; node->local_weak_refs = 0; binder_inner_proc_unlock(proc); spin_lock(&binder_dead_nodes_lock); hlist_add_head(&node->dead_node, &binder_dead_nodes); spin_unlock(&binder_dead_nodes_lock); hlist_for_each_entry(ref, &node->refs, node_entry) { refs++; /* * Need the node lock to synchronize * with new notification requests and the * inner lock to synchronize with queued * death notifications. */ binder_inner_proc_lock(ref->proc); if (!ref->death) { binder_inner_proc_unlock(ref->proc); continue; } death++; BUG_ON(!list_empty(&ref->death->work.entry)); ref->death->work.type = BINDER_WORK_DEAD_BINDER; binder_enqueue_work_ilocked(&ref->death->work, &ref->proc->todo); binder_wakeup_proc_ilocked(ref->proc); binder_inner_proc_unlock(ref->proc); } binder_debug(BINDER_DEBUG_DEAD_BINDER, "node %d now dead, refs %d, death %d\n", node->debug_id, refs, death); binder_node_unlock(node); binder_put_node(node); return refs; } static void binder_deferred_release(struct binder_proc *proc) { struct binder_context *context = proc->context; struct rb_node *n; int threads, nodes, incoming_refs, outgoing_refs, active_transactions; mutex_lock(&binder_procs_lock); hlist_del(&proc->proc_node); mutex_unlock(&binder_procs_lock); mutex_lock(&context->context_mgr_node_lock); if (context->binder_context_mgr_node && context->binder_context_mgr_node->proc == proc) { binder_debug(BINDER_DEBUG_DEAD_BINDER, "%s: %d context_mgr_node gone\n", __func__, proc->pid); context->binder_context_mgr_node = NULL; } mutex_unlock(&context->context_mgr_node_lock); binder_inner_proc_lock(proc); /* * Make sure proc stays alive after we * remove all the threads */ proc->tmp_ref++; proc->is_dead = true; proc->is_frozen = false; proc->sync_recv = false; proc->async_recv = false; threads = 0; active_transactions = 0; while ((n = rb_first(&proc->threads))) { struct binder_thread *thread; thread = rb_entry(n, struct binder_thread, rb_node); binder_inner_proc_unlock(proc); threads++; active_transactions += binder_thread_release(proc, thread); binder_inner_proc_lock(proc); } nodes = 0; incoming_refs = 0; while ((n = rb_first(&proc->nodes))) { struct binder_node *node; node = rb_entry(n, struct binder_node, rb_node); nodes++; /* * take a temporary ref on the node before * calling binder_node_release() which will either * kfree() the node or call binder_put_node() */ binder_inc_node_tmpref_ilocked(node); rb_erase(&node->rb_node, &proc->nodes); binder_inner_proc_unlock(proc); incoming_refs = binder_node_release(node, incoming_refs); binder_inner_proc_lock(proc); } binder_inner_proc_unlock(proc); outgoing_refs = 0; binder_proc_lock(proc); while ((n = rb_first(&proc->refs_by_desc))) { struct binder_ref *ref; ref = rb_entry(n, struct binder_ref, rb_node_desc); outgoing_refs++; binder_cleanup_ref_olocked(ref); binder_proc_unlock(proc); binder_free_ref(ref); binder_proc_lock(proc); } binder_proc_unlock(proc); binder_release_work(proc, &proc->todo); binder_release_work(proc, &proc->delivered_death); binder_debug(BINDER_DEBUG_OPEN_CLOSE, "%s: %d threads %d, nodes %d (ref %d), refs %d, active transactions %d\n", __func__, proc->pid, threads, nodes, incoming_refs, outgoing_refs, active_transactions); binder_proc_dec_tmpref(proc); } static void binder_deferred_func(struct work_struct *work) { struct binder_proc *proc; int defer; do { mutex_lock(&binder_deferred_lock); if (!hlist_empty(&binder_deferred_list)) { proc = hlist_entry(binder_deferred_list.first, struct binder_proc, deferred_work_node); hlist_del_init(&proc->deferred_work_node); defer = proc->deferred_work; proc->deferred_work = 0; } else { proc = NULL; defer = 0; } mutex_unlock(&binder_deferred_lock); if (defer & BINDER_DEFERRED_FLUSH) binder_deferred_flush(proc); if (defer & BINDER_DEFERRED_RELEASE) binder_deferred_release(proc); /* frees proc */ } while (proc); } static DECLARE_WORK(binder_deferred_work, binder_deferred_func); static void binder_defer_work(struct binder_proc *proc, enum binder_deferred_state defer) { mutex_lock(&binder_deferred_lock); proc->deferred_work |= defer; if (hlist_unhashed(&proc->deferred_work_node)) { hlist_add_head(&proc->deferred_work_node, &binder_deferred_list); schedule_work(&binder_deferred_work); } mutex_unlock(&binder_deferred_lock); } static void print_binder_transaction_ilocked(struct seq_file *m, struct binder_proc *proc, const char *prefix, struct binder_transaction *t) { struct binder_proc *to_proc; struct binder_buffer *buffer = t->buffer; ktime_t current_time = ktime_get(); spin_lock(&t->lock); to_proc = t->to_proc; seq_printf(m, "%s %d: %pK from %d:%d to %d:%d code %x flags %x pri %ld r%d elapsed %lldms", prefix, t->debug_id, t, t->from_pid, t->from_tid, to_proc ? to_proc->pid : 0, t->to_thread ? t->to_thread->pid : 0, t->code, t->flags, t->priority, t->need_reply, ktime_ms_delta(current_time, t->start_time)); spin_unlock(&t->lock); if (proc != to_proc) { /* * Can only safely deref buffer if we are holding the * correct proc inner lock for this node */ seq_puts(m, "\n"); return; } if (buffer == NULL) { seq_puts(m, " buffer free\n"); return; } if (buffer->target_node) seq_printf(m, " node %d", buffer->target_node->debug_id); seq_printf(m, " size %zd:%zd offset %lx\n", buffer->data_size, buffer->offsets_size, proc->alloc.buffer - buffer->user_data); } static void print_binder_work_ilocked(struct seq_file *m, struct binder_proc *proc, const char *prefix, const char *transaction_prefix, struct binder_work *w) { struct binder_node *node; struct binder_transaction *t; switch (w->type) { case BINDER_WORK_TRANSACTION: t = container_of(w, struct binder_transaction, work); print_binder_transaction_ilocked( m, proc, transaction_prefix, t); break; case BINDER_WORK_RETURN_ERROR: { struct binder_error *e = container_of( w, struct binder_error, work); seq_printf(m, "%stransaction error: %u\n", prefix, e->cmd); } break; case BINDER_WORK_TRANSACTION_COMPLETE: seq_printf(m, "%stransaction complete\n", prefix); break; case BINDER_WORK_NODE: node = container_of(w, struct binder_node, work); seq_printf(m, "%snode work %d: u%016llx c%016llx\n", prefix, node->debug_id, (u64)node->ptr, (u64)node->cookie); break; case BINDER_WORK_DEAD_BINDER: seq_printf(m, "%shas dead binder\n", prefix); break; case BINDER_WORK_DEAD_BINDER_AND_CLEAR: seq_printf(m, "%shas cleared dead binder\n", prefix); break; case BINDER_WORK_CLEAR_DEATH_NOTIFICATION: seq_printf(m, "%shas cleared death notification\n", prefix); break; default: seq_printf(m, "%sunknown work: type %d\n", prefix, w->type); break; } } static void print_binder_thread_ilocked(struct seq_file *m, struct binder_thread *thread, int print_always) { struct binder_transaction *t; struct binder_work *w; size_t start_pos = m->count; size_t header_pos; seq_printf(m, " thread %d: l %02x need_return %d tr %d\n", thread->pid, thread->looper, thread->looper_need_return, atomic_read(&thread->tmp_ref)); header_pos = m->count; t = thread->transaction_stack; while (t) { if (t->from == thread) { print_binder_transaction_ilocked(m, thread->proc, " outgoing transaction", t); t = t->from_parent; } else if (t->to_thread == thread) { print_binder_transaction_ilocked(m, thread->proc, " incoming transaction", t); t = t->to_parent; } else { print_binder_transaction_ilocked(m, thread->proc, " bad transaction", t); t = NULL; } } list_for_each_entry(w, &thread->todo, entry) { print_binder_work_ilocked(m, thread->proc, " ", " pending transaction", w); } if (!print_always && m->count == header_pos) m->count = start_pos; } static void print_binder_node_nilocked(struct seq_file *m, struct binder_node *node) { struct binder_ref *ref; struct binder_work *w; int count; count = hlist_count_nodes(&node->refs); seq_printf(m, " node %d: u%016llx c%016llx hs %d hw %d ls %d lw %d is %d iw %d tr %d", node->debug_id, (u64)node->ptr, (u64)node->cookie, node->has_strong_ref, node->has_weak_ref, node->local_strong_refs, node->local_weak_refs, node->internal_strong_refs, count, node->tmp_refs); if (count) { seq_puts(m, " proc"); hlist_for_each_entry(ref, &node->refs, node_entry) seq_printf(m, " %d", ref->proc->pid); } seq_puts(m, "\n"); if (node->proc) { list_for_each_entry(w, &node->async_todo, entry) print_binder_work_ilocked(m, node->proc, " ", " pending async transaction", w); } } static void print_binder_ref_olocked(struct seq_file *m, struct binder_ref *ref) { binder_node_lock(ref->node); seq_printf(m, " ref %d: desc %d %snode %d s %d w %d d %pK\n", ref->data.debug_id, ref->data.desc, ref->node->proc ? "" : "dead ", ref->node->debug_id, ref->data.strong, ref->data.weak, ref->death); binder_node_unlock(ref->node); } static void print_binder_proc(struct seq_file *m, struct binder_proc *proc, int print_all) { struct binder_work *w; struct rb_node *n; size_t start_pos = m->count; size_t header_pos; struct binder_node *last_node = NULL; seq_printf(m, "proc %d\n", proc->pid); seq_printf(m, "context %s\n", proc->context->name); header_pos = m->count; binder_inner_proc_lock(proc); for (n = rb_first(&proc->threads); n != NULL; n = rb_next(n)) print_binder_thread_ilocked(m, rb_entry(n, struct binder_thread, rb_node), print_all); for (n = rb_first(&proc->nodes); n != NULL; n = rb_next(n)) { struct binder_node *node = rb_entry(n, struct binder_node, rb_node); if (!print_all && !node->has_async_transaction) continue; /* * take a temporary reference on the node so it * survives and isn't removed from the tree * while we print it. */ binder_inc_node_tmpref_ilocked(node); /* Need to drop inner lock to take node lock */ binder_inner_proc_unlock(proc); if (last_node) binder_put_node(last_node); binder_node_inner_lock(node); print_binder_node_nilocked(m, node); binder_node_inner_unlock(node); last_node = node; binder_inner_proc_lock(proc); } binder_inner_proc_unlock(proc); if (last_node) binder_put_node(last_node); if (print_all) { binder_proc_lock(proc); for (n = rb_first(&proc->refs_by_desc); n != NULL; n = rb_next(n)) print_binder_ref_olocked(m, rb_entry(n, struct binder_ref, rb_node_desc)); binder_proc_unlock(proc); } binder_alloc_print_allocated(m, &proc->alloc); binder_inner_proc_lock(proc); list_for_each_entry(w, &proc->todo, entry) print_binder_work_ilocked(m, proc, " ", " pending transaction", w); list_for_each_entry(w, &proc->delivered_death, entry) { seq_puts(m, " has delivered dead binder\n"); break; } binder_inner_proc_unlock(proc); if (!print_all && m->count == header_pos) m->count = start_pos; } static const char * const binder_return_strings[] = { "BR_ERROR", "BR_OK", "BR_TRANSACTION", "BR_REPLY", "BR_ACQUIRE_RESULT", "BR_DEAD_REPLY", "BR_TRANSACTION_COMPLETE", "BR_INCREFS", "BR_ACQUIRE", "BR_RELEASE", "BR_DECREFS", "BR_ATTEMPT_ACQUIRE", "BR_NOOP", "BR_SPAWN_LOOPER", "BR_FINISHED", "BR_DEAD_BINDER", "BR_CLEAR_DEATH_NOTIFICATION_DONE", "BR_FAILED_REPLY", "BR_FROZEN_REPLY", "BR_ONEWAY_SPAM_SUSPECT", "BR_TRANSACTION_PENDING_FROZEN" }; static const char * const binder_command_strings[] = { "BC_TRANSACTION", "BC_REPLY", "BC_ACQUIRE_RESULT", "BC_FREE_BUFFER", "BC_INCREFS", "BC_ACQUIRE", "BC_RELEASE", "BC_DECREFS", "BC_INCREFS_DONE", "BC_ACQUIRE_DONE", "BC_ATTEMPT_ACQUIRE", "BC_REGISTER_LOOPER", "BC_ENTER_LOOPER", "BC_EXIT_LOOPER", "BC_REQUEST_DEATH_NOTIFICATION", "BC_CLEAR_DEATH_NOTIFICATION", "BC_DEAD_BINDER_DONE", "BC_TRANSACTION_SG", "BC_REPLY_SG", }; static const char * const binder_objstat_strings[] = { "proc", "thread", "node", "ref", "death", "transaction", "transaction_complete" }; static void print_binder_stats(struct seq_file *m, const char *prefix, struct binder_stats *stats) { int i; BUILD_BUG_ON(ARRAY_SIZE(stats->bc) != ARRAY_SIZE(binder_command_strings)); for (i = 0; i < ARRAY_SIZE(stats->bc); i++) { int temp = atomic_read(&stats->bc[i]); if (temp) seq_printf(m, "%s%s: %d\n", prefix, binder_command_strings[i], temp); } BUILD_BUG_ON(ARRAY_SIZE(stats->br) != ARRAY_SIZE(binder_return_strings)); for (i = 0; i < ARRAY_SIZE(stats->br); i++) { int temp = atomic_read(&stats->br[i]); if (temp) seq_printf(m, "%s%s: %d\n", prefix, binder_return_strings[i], temp); } BUILD_BUG_ON(ARRAY_SIZE(stats->obj_created) != ARRAY_SIZE(binder_objstat_strings)); BUILD_BUG_ON(ARRAY_SIZE(stats->obj_created) != ARRAY_SIZE(stats->obj_deleted)); for (i = 0; i < ARRAY_SIZE(stats->obj_created); i++) { int created = atomic_read(&stats->obj_created[i]); int deleted = atomic_read(&stats->obj_deleted[i]); if (created || deleted) seq_printf(m, "%s%s: active %d total %d\n", prefix, binder_objstat_strings[i], created - deleted, created); } } static void print_binder_proc_stats(struct seq_file *m, struct binder_proc *proc) { struct binder_work *w; struct binder_thread *thread; struct rb_node *n; int count, strong, weak, ready_threads; size_t free_async_space = binder_alloc_get_free_async_space(&proc->alloc); seq_printf(m, "proc %d\n", proc->pid); seq_printf(m, "context %s\n", proc->context->name); count = 0; ready_threads = 0; binder_inner_proc_lock(proc); for (n = rb_first(&proc->threads); n != NULL; n = rb_next(n)) count++; list_for_each_entry(thread, &proc->waiting_threads, waiting_thread_node) ready_threads++; seq_printf(m, " threads: %d\n", count); seq_printf(m, " requested threads: %d+%d/%d\n" " ready threads %d\n" " free async space %zd\n", proc->requested_threads, proc->requested_threads_started, proc->max_threads, ready_threads, free_async_space); count = 0; for (n = rb_first(&proc->nodes); n != NULL; n = rb_next(n)) count++; binder_inner_proc_unlock(proc); seq_printf(m, " nodes: %d\n", count); count = 0; strong = 0; weak = 0; binder_proc_lock(proc); for (n = rb_first(&proc->refs_by_desc); n != NULL; n = rb_next(n)) { struct binder_ref *ref = rb_entry(n, struct binder_ref, rb_node_desc); count++; strong += ref->data.strong; weak += ref->data.weak; } binder_proc_unlock(proc); seq_printf(m, " refs: %d s %d w %d\n", count, strong, weak); count = binder_alloc_get_allocated_count(&proc->alloc); seq_printf(m, " buffers: %d\n", count); binder_alloc_print_pages(m, &proc->alloc); count = 0; binder_inner_proc_lock(proc); list_for_each_entry(w, &proc->todo, entry) { if (w->type == BINDER_WORK_TRANSACTION) count++; } binder_inner_proc_unlock(proc); seq_printf(m, " pending transactions: %d\n", count); print_binder_stats(m, " ", &proc->stats); } static int state_show(struct seq_file *m, void *unused) { struct binder_proc *proc; struct binder_node *node; struct binder_node *last_node = NULL; seq_puts(m, "binder state:\n"); spin_lock(&binder_dead_nodes_lock); if (!hlist_empty(&binder_dead_nodes)) seq_puts(m, "dead nodes:\n"); hlist_for_each_entry(node, &binder_dead_nodes, dead_node) { /* * take a temporary reference on the node so it * survives and isn't removed from the list * while we print it. */ node->tmp_refs++; spin_unlock(&binder_dead_nodes_lock); if (last_node) binder_put_node(last_node); binder_node_lock(node); print_binder_node_nilocked(m, node); binder_node_unlock(node); last_node = node; spin_lock(&binder_dead_nodes_lock); } spin_unlock(&binder_dead_nodes_lock); if (last_node) binder_put_node(last_node); mutex_lock(&binder_procs_lock); hlist_for_each_entry(proc, &binder_procs, proc_node) print_binder_proc(m, proc, 1); mutex_unlock(&binder_procs_lock); return 0; } static int stats_show(struct seq_file *m, void *unused) { struct binder_proc *proc; seq_puts(m, "binder stats:\n"); print_binder_stats(m, "", &binder_stats); mutex_lock(&binder_procs_lock); hlist_for_each_entry(proc, &binder_procs, proc_node) print_binder_proc_stats(m, proc); mutex_unlock(&binder_procs_lock); return 0; } static int transactions_show(struct seq_file *m, void *unused) { struct binder_proc *proc; seq_puts(m, "binder transactions:\n"); mutex_lock(&binder_procs_lock); hlist_for_each_entry(proc, &binder_procs, proc_node) print_binder_proc(m, proc, 0); mutex_unlock(&binder_procs_lock); return 0; } static int proc_show(struct seq_file *m, void *unused) { struct binder_proc *itr; int pid = (unsigned long)m->private; mutex_lock(&binder_procs_lock); hlist_for_each_entry(itr, &binder_procs, proc_node) { if (itr->pid == pid) { seq_puts(m, "binder proc state:\n"); print_binder_proc(m, itr, 1); } } mutex_unlock(&binder_procs_lock); return 0; } static void print_binder_transaction_log_entry(struct seq_file *m, struct binder_transaction_log_entry *e) { int debug_id = READ_ONCE(e->debug_id_done); /* * read barrier to guarantee debug_id_done read before * we print the log values */ smp_rmb(); seq_printf(m, "%d: %s from %d:%d to %d:%d context %s node %d handle %d size %d:%d ret %d/%d l=%d", e->debug_id, (e->call_type == 2) ? "reply" : ((e->call_type == 1) ? "async" : "call "), e->from_proc, e->from_thread, e->to_proc, e->to_thread, e->context_name, e->to_node, e->target_handle, e->data_size, e->offsets_size, e->return_error, e->return_error_param, e->return_error_line); /* * read-barrier to guarantee read of debug_id_done after * done printing the fields of the entry */ smp_rmb(); seq_printf(m, debug_id && debug_id == READ_ONCE(e->debug_id_done) ? "\n" : " (incomplete)\n"); } static int transaction_log_show(struct seq_file *m, void *unused) { struct binder_transaction_log *log = m->private; unsigned int log_cur = atomic_read(&log->cur); unsigned int count; unsigned int cur; int i; count = log_cur + 1; cur = count < ARRAY_SIZE(log->entry) && !log->full ? 0 : count % ARRAY_SIZE(log->entry); if (count > ARRAY_SIZE(log->entry) || log->full) count = ARRAY_SIZE(log->entry); for (i = 0; i < count; i++) { unsigned int index = cur++ % ARRAY_SIZE(log->entry); print_binder_transaction_log_entry(m, &log->entry[index]); } return 0; } const struct file_operations binder_fops = { .owner = THIS_MODULE, .poll = binder_poll, .unlocked_ioctl = binder_ioctl, .compat_ioctl = compat_ptr_ioctl, .mmap = binder_mmap, .open = binder_open, .flush = binder_flush, .release = binder_release, }; DEFINE_SHOW_ATTRIBUTE(state); DEFINE_SHOW_ATTRIBUTE(stats); DEFINE_SHOW_ATTRIBUTE(transactions); DEFINE_SHOW_ATTRIBUTE(transaction_log); const struct binder_debugfs_entry binder_debugfs_entries[] = { { .name = "state", .mode = 0444, .fops = &state_fops, .data = NULL, }, { .name = "stats", .mode = 0444, .fops = &stats_fops, .data = NULL, }, { .name = "transactions", .mode = 0444, .fops = &transactions_fops, .data = NULL, }, { .name = "transaction_log", .mode = 0444, .fops = &transaction_log_fops, .data = &binder_transaction_log, }, { .name = "failed_transaction_log", .mode = 0444, .fops = &transaction_log_fops, .data = &binder_transaction_log_failed, }, {} /* terminator */ }; static int __init init_binder_device(const char *name) { int ret; struct binder_device *binder_device; binder_device = kzalloc(sizeof(*binder_device), GFP_KERNEL); if (!binder_device) return -ENOMEM; binder_device->miscdev.fops = &binder_fops; binder_device->miscdev.minor = MISC_DYNAMIC_MINOR; binder_device->miscdev.name = name; refcount_set(&binder_device->ref, 1); binder_device->context.binder_context_mgr_uid = INVALID_UID; binder_device->context.name = name; mutex_init(&binder_device->context.context_mgr_node_lock); ret = misc_register(&binder_device->miscdev); if (ret < 0) { kfree(binder_device); return ret; } hlist_add_head(&binder_device->hlist, &binder_devices); return ret; } static int __init binder_init(void) { int ret; char *device_name, *device_tmp; struct binder_device *device; struct hlist_node *tmp; char *device_names = NULL; const struct binder_debugfs_entry *db_entry; ret = binder_alloc_shrinker_init(); if (ret) return ret; atomic_set(&binder_transaction_log.cur, ~0U); atomic_set(&binder_transaction_log_failed.cur, ~0U); binder_debugfs_dir_entry_root = debugfs_create_dir("binder", NULL); binder_for_each_debugfs_entry(db_entry) debugfs_create_file(db_entry->name, db_entry->mode, binder_debugfs_dir_entry_root, db_entry->data, db_entry->fops); binder_debugfs_dir_entry_proc = debugfs_create_dir("proc", binder_debugfs_dir_entry_root); if (!IS_ENABLED(CONFIG_ANDROID_BINDERFS) && strcmp(binder_devices_param, "") != 0) { /* * Copy the module_parameter string, because we don't want to * tokenize it in-place. */ device_names = kstrdup(binder_devices_param, GFP_KERNEL); if (!device_names) { ret = -ENOMEM; goto err_alloc_device_names_failed; } device_tmp = device_names; while ((device_name = strsep(&device_tmp, ","))) { ret = init_binder_device(device_name); if (ret) goto err_init_binder_device_failed; } } ret = init_binderfs(); if (ret) goto err_init_binder_device_failed; return ret; err_init_binder_device_failed: hlist_for_each_entry_safe(device, tmp, &binder_devices, hlist) { misc_deregister(&device->miscdev); hlist_del(&device->hlist); kfree(device); } kfree(device_names); err_alloc_device_names_failed: debugfs_remove_recursive(binder_debugfs_dir_entry_root); binder_alloc_shrinker_exit(); return ret; } device_initcall(binder_init); #define CREATE_TRACE_POINTS #include "binder_trace.h" MODULE_LICENSE("GPL v2"); |