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linux
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strparser
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strparser.c
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strparser.c
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/* * Stream Parser * * Copyright (c) 2016 Tom Herbert <tom@herbertland.com> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. */ #include <linux/bpf.h> #include <linux/errno.h> #include <linux/errqueue.h> #include <linux/file.h> #include <linux/in.h> #include <linux/kernel.h> #include <linux/module.h> #include <linux/net.h> #include <linux/netdevice.h> #include <linux/poll.h> #include <linux/rculist.h> #include <linux/skbuff.h> #include <linux/socket.h> #include <linux/uaccess.h> #include <linux/workqueue.h> #include <net/strparser.h> #include <net/netns/generic.h> #include <net/sock.h> static struct workqueue_struct *strp_wq; struct _strp_msg { /* Internal cb structure. struct strp_msg must be first for passing * to upper layer. */ struct strp_msg strp; int accum_len; int early_eaten; }; static inline struct _strp_msg *_strp_msg(struct sk_buff *skb) { return (struct _strp_msg *)((void *)skb->cb + offsetof(struct qdisc_skb_cb, data)); } /* Lower lock held */ static void strp_abort_strp(struct strparser *strp, int err) { /* Unrecoverable error in receive */ cancel_delayed_work(&strp->msg_timer_work); if (strp->stopped) return; strp->stopped = 1; if (strp->sk) { struct sock *sk = strp->sk; /* Report an error on the lower socket */ sk->sk_err = -err; sk->sk_error_report(sk); } } static void strp_start_timer(struct strparser *strp, long timeo) { if (timeo) mod_delayed_work(strp_wq, &strp->msg_timer_work, timeo); } /* Lower lock held */ static void strp_parser_err(struct strparser *strp, int err, read_descriptor_t *desc) { desc->error = err; kfree_skb(strp->skb_head); strp->skb_head = NULL; strp->cb.abort_parser(strp, err); } static inline int strp_peek_len(struct strparser *strp) { if (strp->sk) { struct socket *sock = strp->sk->sk_socket; return sock->ops->peek_len(sock); } /* If we don't have an associated socket there's nothing to peek. * Return int max to avoid stopping the strparser. */ return INT_MAX; } /* Lower socket lock held */ static int __strp_recv(read_descriptor_t *desc, struct sk_buff *orig_skb, unsigned int orig_offset, size_t orig_len, size_t max_msg_size, long timeo) { struct strparser *strp = (struct strparser *)desc->arg.data; struct _strp_msg *stm; struct sk_buff *head, *skb; size_t eaten = 0, cand_len; ssize_t extra; int err; bool cloned_orig = false; if (strp->paused) return 0; head = strp->skb_head; if (head) { /* Message already in progress */ stm = _strp_msg(head); if (unlikely(stm->early_eaten)) { /* Already some number of bytes on the receive sock * data saved in skb_head, just indicate they * are consumed. */ eaten = orig_len <= stm->early_eaten ? orig_len : stm->early_eaten; stm->early_eaten -= eaten; return eaten; } if (unlikely(orig_offset)) { /* Getting data with a non-zero offset when a message is * in progress is not expected. If it does happen, we * need to clone and pull since we can't deal with * offsets in the skbs for a message expect in the head. */ orig_skb = skb_clone(orig_skb, GFP_ATOMIC); if (!orig_skb) { STRP_STATS_INCR(strp->stats.mem_fail); desc->error = -ENOMEM; return 0; } if (!pskb_pull(orig_skb, orig_offset)) { STRP_STATS_INCR(strp->stats.mem_fail); kfree_skb(orig_skb); desc->error = -ENOMEM; return 0; } cloned_orig = true; orig_offset = 0; } if (!strp->skb_nextp) { /* We are going to append to the frags_list of head. * Need to unshare the frag_list. */ err = skb_unclone(head, GFP_ATOMIC); if (err) { STRP_STATS_INCR(strp->stats.mem_fail); desc->error = err; return 0; } if (unlikely(skb_shinfo(head)->frag_list)) { /* We can't append to an sk_buff that already * has a frag_list. We create a new head, point * the frag_list of that to the old head, and * then are able to use the old head->next for * appending to the message. */ if (WARN_ON(head->next)) { desc->error = -EINVAL; return 0; } skb = alloc_skb(0, GFP_ATOMIC); if (!skb) { STRP_STATS_INCR(strp->stats.mem_fail); desc->error = -ENOMEM; return 0; } skb->len = head->len; skb->data_len = head->len; skb->truesize = head->truesize; *_strp_msg(skb) = *_strp_msg(head); strp->skb_nextp = &head->next; skb_shinfo(skb)->frag_list = head; strp->skb_head = skb; head = skb; } else { strp->skb_nextp = &skb_shinfo(head)->frag_list; } } } while (eaten < orig_len) { /* Always clone since we will consume something */ skb = skb_clone(orig_skb, GFP_ATOMIC); if (!skb) { STRP_STATS_INCR(strp->stats.mem_fail); desc->error = -ENOMEM; break; } cand_len = orig_len - eaten; head = strp->skb_head; if (!head) { head = skb; strp->skb_head = head; /* Will set skb_nextp on next packet if needed */ strp->skb_nextp = NULL; stm = _strp_msg(head); memset(stm, 0, sizeof(*stm)); stm->strp.offset = orig_offset + eaten; } else { /* Unclone since we may be appending to an skb that we * already share a frag_list with. */ err = skb_unclone(skb, GFP_ATOMIC); if (err) { STRP_STATS_INCR(strp->stats.mem_fail); desc->error = err; break; } stm = _strp_msg(head); *strp->skb_nextp = skb; strp->skb_nextp = &skb->next; head->data_len += skb->len; head->len += skb->len; head->truesize += skb->truesize; } if (!stm->strp.full_len) { ssize_t len; len = (*strp->cb.parse_msg)(strp, head); if (!len) { /* Need more header to determine length */ if (!stm->accum_len) { /* Start RX timer for new message */ strp_start_timer(strp, timeo); } stm->accum_len += cand_len; eaten += cand_len; STRP_STATS_INCR(strp->stats.need_more_hdr); WARN_ON(eaten != orig_len); break; } else if (len < 0) { if (len == -ESTRPIPE && stm->accum_len) { len = -ENODATA; strp->unrecov_intr = 1; } else { strp->interrupted = 1; } strp_parser_err(strp, len, desc); break; } else if (len > max_msg_size) { /* Message length exceeds maximum allowed */ STRP_STATS_INCR(strp->stats.msg_too_big); strp_parser_err(strp, -EMSGSIZE, desc); break; } else if (len <= (ssize_t)head->len - skb->len - stm->strp.offset) { /* Length must be into new skb (and also * greater than zero) */ STRP_STATS_INCR(strp->stats.bad_hdr_len); strp_parser_err(strp, -EPROTO, desc); break; } stm->strp.full_len = len; } extra = (ssize_t)(stm->accum_len + cand_len) - stm->strp.full_len; if (extra < 0) { /* Message not complete yet. */ if (stm->strp.full_len - stm->accum_len > strp_peek_len(strp)) { /* Don't have the whole message in the socket * buffer. Set strp->need_bytes to wait for * the rest of the message. Also, set "early * eaten" since we've already buffered the skb * but don't consume yet per strp_read_sock. */ if (!stm->accum_len) { /* Start RX timer for new message */ strp_start_timer(strp, timeo); } stm->accum_len += cand_len; strp->need_bytes = stm->strp.full_len - stm->accum_len; stm->early_eaten = cand_len; STRP_STATS_ADD(strp->stats.bytes, cand_len); desc->count = 0; /* Stop reading socket */ break; } stm->accum_len += cand_len; eaten += cand_len; WARN_ON(eaten != orig_len); break; } /* Positive extra indicates ore bytes than needed for the * message */ WARN_ON(extra > cand_len); eaten += (cand_len - extra); /* Hurray, we have a new message! */ cancel_delayed_work(&strp->msg_timer_work); strp->skb_head = NULL; strp->need_bytes = 0; STRP_STATS_INCR(strp->stats.msgs); /* Give skb to upper layer */ strp->cb.rcv_msg(strp, head); if (unlikely(strp->paused)) { /* Upper layer paused strp */ break; } } if (cloned_orig) kfree_skb(orig_skb); STRP_STATS_ADD(strp->stats.bytes, eaten); return eaten; } int strp_process(struct strparser *strp, struct sk_buff *orig_skb, unsigned int orig_offset, size_t orig_len, size_t max_msg_size, long timeo) { read_descriptor_t desc; /* Dummy arg to strp_recv */ desc.arg.data = strp; return __strp_recv(&desc, orig_skb, orig_offset, orig_len, max_msg_size, timeo); } EXPORT_SYMBOL_GPL(strp_process); static int strp_recv(read_descriptor_t *desc, struct sk_buff *orig_skb, unsigned int orig_offset, size_t orig_len) { struct strparser *strp = (struct strparser *)desc->arg.data; return __strp_recv(desc, orig_skb, orig_offset, orig_len, strp->sk->sk_rcvbuf, strp->sk->sk_rcvtimeo); } static int default_read_sock_done(struct strparser *strp, int err) { return err; } /* Called with lock held on lower socket */ static int strp_read_sock(struct strparser *strp) { struct socket *sock = strp->sk->sk_socket; read_descriptor_t desc; if (unlikely(!sock || !sock->ops || !sock->ops->read_sock)) return -EBUSY; desc.arg.data = strp; desc.error = 0; desc.count = 1; /* give more than one skb per call */ /* sk should be locked here, so okay to do read_sock */ sock->ops->read_sock(strp->sk, &desc, strp_recv); desc.error = strp->cb.read_sock_done(strp, desc.error); return desc.error; } /* Lower sock lock held */ void strp_data_ready(struct strparser *strp) { if (unlikely(strp->stopped)) return; /* This check is needed to synchronize with do_strp_work. * do_strp_work acquires a process lock (lock_sock) whereas * the lock held here is bh_lock_sock. The two locks can be * held by different threads at the same time, but bh_lock_sock * allows a thread in BH context to safely check if the process * lock is held. In this case, if the lock is held, queue work. */ if (sock_owned_by_user_nocheck(strp->sk)) { queue_work(strp_wq, &strp->work); return; } if (strp->paused) return; if (strp->need_bytes) { if (strp_peek_len(strp) < strp->need_bytes) return; } if (strp_read_sock(strp) == -ENOMEM) queue_work(strp_wq, &strp->work); } EXPORT_SYMBOL_GPL(strp_data_ready); static void do_strp_work(struct strparser *strp) { read_descriptor_t rd_desc; /* We need the read lock to synchronize with strp_data_ready. We * need the socket lock for calling strp_read_sock. */ strp->cb.lock(strp); if (unlikely(strp->stopped)) goto out; if (strp->paused) goto out; rd_desc.arg.data = strp; if (strp_read_sock(strp) == -ENOMEM) queue_work(strp_wq, &strp->work); out: strp->cb.unlock(strp); } static void strp_work(struct work_struct *w) { do_strp_work(container_of(w, struct strparser, work)); } static void strp_msg_timeout(struct work_struct *w) { struct strparser *strp = container_of(w, struct strparser, msg_timer_work.work); /* Message assembly timed out */ STRP_STATS_INCR(strp->stats.msg_timeouts); strp->cb.lock(strp); strp->cb.abort_parser(strp, -ETIMEDOUT); strp->cb.unlock(strp); } static void strp_sock_lock(struct strparser *strp) { lock_sock(strp->sk); } static void strp_sock_unlock(struct strparser *strp) { release_sock(strp->sk); } int strp_init(struct strparser *strp, struct sock *sk, const struct strp_callbacks *cb) { if (!cb || !cb->rcv_msg || !cb->parse_msg) return -EINVAL; /* The sk (sock) arg determines the mode of the stream parser. * * If the sock is set then the strparser is in receive callback mode. * The upper layer calls strp_data_ready to kick receive processing * and strparser calls the read_sock function on the socket to * get packets. * * If the sock is not set then the strparser is in general mode. * The upper layer calls strp_process for each skb to be parsed. */ if (!sk) { if (!cb->lock || !cb->unlock) return -EINVAL; } memset(strp, 0, sizeof(*strp)); strp->sk = sk; strp->cb.lock = cb->lock ? : strp_sock_lock; strp->cb.unlock = cb->unlock ? : strp_sock_unlock; strp->cb.rcv_msg = cb->rcv_msg; strp->cb.parse_msg = cb->parse_msg; strp->cb.read_sock_done = cb->read_sock_done ? : default_read_sock_done; strp->cb.abort_parser = cb->abort_parser ? : strp_abort_strp; INIT_DELAYED_WORK(&strp->msg_timer_work, strp_msg_timeout); INIT_WORK(&strp->work, strp_work); return 0; } EXPORT_SYMBOL_GPL(strp_init); void strp_unpause(struct strparser *strp) { strp->paused = 0; /* Sync setting paused with RX work */ smp_mb(); queue_work(strp_wq, &strp->work); } EXPORT_SYMBOL_GPL(strp_unpause); /* strp must already be stopped so that strp_recv will no longer be called. * Note that strp_done is not called with the lower socket held. */ void strp_done(struct strparser *strp) { WARN_ON(!strp->stopped); cancel_delayed_work_sync(&strp->msg_timer_work); cancel_work_sync(&strp->work); if (strp->skb_head) { kfree_skb(strp->skb_head); strp->skb_head = NULL; } } EXPORT_SYMBOL_GPL(strp_done); void strp_stop(struct strparser *strp) { strp->stopped = 1; } EXPORT_SYMBOL_GPL(strp_stop); void strp_check_rcv(struct strparser *strp) { queue_work(strp_wq, &strp->work); } EXPORT_SYMBOL_GPL(strp_check_rcv); static int __init strp_mod_init(void) { strp_wq = create_singlethread_workqueue("kstrp"); return 0; } static void __exit strp_mod_exit(void) { destroy_workqueue(strp_wq); } module_init(strp_mod_init); module_exit(strp_mod_exit); MODULE_LICENSE("GPL");
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