Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jon Paul Maloy | 2629 | 70.07% | 44 | 54.32% |
Tuong Lien | 541 | 14.42% | 7 | 8.64% |
Per Liden | 200 | 5.33% | 1 | 1.23% |
Ying Xue | 155 | 4.13% | 7 | 8.64% |
Tung Nguyen | 84 | 2.24% | 3 | 3.70% |
Menglong Dong | 38 | 1.01% | 2 | 2.47% |
Allan Stephens | 25 | 0.67% | 3 | 3.70% |
Parthasarathy Bhuvaragan | 19 | 0.51% | 2 | 2.47% |
Al Viro | 19 | 0.51% | 4 | 4.94% |
Xin Long | 18 | 0.48% | 2 | 2.47% |
Randy Dunlap | 8 | 0.21% | 1 | 1.23% |
Erik Hugne | 8 | 0.21% | 2 | 2.47% |
Hoang Le | 6 | 0.16% | 1 | 1.23% |
Stephen Hemminger | 2 | 0.05% | 2 | 2.47% |
Total | 3752 | 81 |
/* * net/tipc/msg.c: TIPC message header routines * * Copyright (c) 2000-2006, 2014-2015, Ericsson AB * Copyright (c) 2005, 2010-2011, Wind River Systems * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the names of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include <net/sock.h> #include "core.h" #include "msg.h" #include "addr.h" #include "name_table.h" #include "crypto.h" #define BUF_ALIGN(x) ALIGN(x, 4) #define MAX_FORWARD_SIZE 1024 #ifdef CONFIG_TIPC_CRYPTO #define BUF_HEADROOM ALIGN(((LL_MAX_HEADER + 48) + EHDR_MAX_SIZE), 16) #define BUF_OVERHEAD (BUF_HEADROOM + TIPC_AES_GCM_TAG_SIZE) #else #define BUF_HEADROOM (LL_MAX_HEADER + 48) #define BUF_OVERHEAD BUF_HEADROOM #endif const int one_page_mtu = PAGE_SIZE - SKB_DATA_ALIGN(BUF_OVERHEAD) - SKB_DATA_ALIGN(sizeof(struct skb_shared_info)); /** * tipc_buf_acquire - creates a TIPC message buffer * @size: message size (including TIPC header) * @gfp: memory allocation flags * * Return: a new buffer with data pointers set to the specified size. * * NOTE: * Headroom is reserved to allow prepending of a data link header. * There may also be unrequested tailroom present at the buffer's end. */ struct sk_buff *tipc_buf_acquire(u32 size, gfp_t gfp) { struct sk_buff *skb; skb = alloc_skb_fclone(BUF_OVERHEAD + size, gfp); if (skb) { skb_reserve(skb, BUF_HEADROOM); skb_put(skb, size); skb->next = NULL; } return skb; } void tipc_msg_init(u32 own_node, struct tipc_msg *m, u32 user, u32 type, u32 hsize, u32 dnode) { memset(m, 0, hsize); msg_set_version(m); msg_set_user(m, user); msg_set_hdr_sz(m, hsize); msg_set_size(m, hsize); msg_set_prevnode(m, own_node); msg_set_type(m, type); if (hsize > SHORT_H_SIZE) { msg_set_orignode(m, own_node); msg_set_destnode(m, dnode); } } struct sk_buff *tipc_msg_create(uint user, uint type, uint hdr_sz, uint data_sz, u32 dnode, u32 onode, u32 dport, u32 oport, int errcode) { struct tipc_msg *msg; struct sk_buff *buf; buf = tipc_buf_acquire(hdr_sz + data_sz, GFP_ATOMIC); if (unlikely(!buf)) return NULL; msg = buf_msg(buf); tipc_msg_init(onode, msg, user, type, hdr_sz, dnode); msg_set_size(msg, hdr_sz + data_sz); msg_set_origport(msg, oport); msg_set_destport(msg, dport); msg_set_errcode(msg, errcode); return buf; } /* tipc_buf_append(): Append a buffer to the fragment list of another buffer * @*headbuf: in: NULL for first frag, otherwise value returned from prev call * out: set when successful non-complete reassembly, otherwise NULL * @*buf: in: the buffer to append. Always defined * out: head buf after successful complete reassembly, otherwise NULL * Returns 1 when reassembly complete, otherwise 0 */ int tipc_buf_append(struct sk_buff **headbuf, struct sk_buff **buf) { struct sk_buff *head = *headbuf; struct sk_buff *frag = *buf; struct sk_buff *tail = NULL; struct tipc_msg *msg; u32 fragid; int delta; bool headstolen; if (!frag) goto err; msg = buf_msg(frag); fragid = msg_type(msg); frag->next = NULL; skb_pull(frag, msg_hdr_sz(msg)); if (fragid == FIRST_FRAGMENT) { if (unlikely(head)) goto err; *buf = NULL; if (skb_has_frag_list(frag) && __skb_linearize(frag)) goto err; frag = skb_unshare(frag, GFP_ATOMIC); if (unlikely(!frag)) goto err; head = *headbuf = frag; TIPC_SKB_CB(head)->tail = NULL; return 0; } if (!head) goto err; if (skb_try_coalesce(head, frag, &headstolen, &delta)) { kfree_skb_partial(frag, headstolen); } else { tail = TIPC_SKB_CB(head)->tail; if (!skb_has_frag_list(head)) skb_shinfo(head)->frag_list = frag; else tail->next = frag; head->truesize += frag->truesize; head->data_len += frag->len; head->len += frag->len; TIPC_SKB_CB(head)->tail = frag; } if (fragid == LAST_FRAGMENT) { TIPC_SKB_CB(head)->validated = 0; if (unlikely(!tipc_msg_validate(&head))) goto err; *buf = head; TIPC_SKB_CB(head)->tail = NULL; *headbuf = NULL; return 1; } *buf = NULL; return 0; err: kfree_skb(*buf); kfree_skb(*headbuf); *buf = *headbuf = NULL; return 0; } /** * tipc_msg_append(): Append data to tail of an existing buffer queue * @_hdr: header to be used * @m: the data to be appended * @mss: max allowable size of buffer * @dlen: size of data to be appended * @txq: queue to append to * * Return: the number of 1k blocks appended or errno value */ int tipc_msg_append(struct tipc_msg *_hdr, struct msghdr *m, int dlen, int mss, struct sk_buff_head *txq) { struct sk_buff *skb; int accounted, total, curr; int mlen, cpy, rem = dlen; struct tipc_msg *hdr; skb = skb_peek_tail(txq); accounted = skb ? msg_blocks(buf_msg(skb)) : 0; total = accounted; do { if (!skb || skb->len >= mss) { skb = tipc_buf_acquire(mss, GFP_KERNEL); if (unlikely(!skb)) return -ENOMEM; skb_orphan(skb); skb_trim(skb, MIN_H_SIZE); hdr = buf_msg(skb); skb_copy_to_linear_data(skb, _hdr, MIN_H_SIZE); msg_set_hdr_sz(hdr, MIN_H_SIZE); msg_set_size(hdr, MIN_H_SIZE); __skb_queue_tail(txq, skb); total += 1; } hdr = buf_msg(skb); curr = msg_blocks(hdr); mlen = msg_size(hdr); cpy = min_t(size_t, rem, mss - mlen); if (cpy != copy_from_iter(skb->data + mlen, cpy, &m->msg_iter)) return -EFAULT; msg_set_size(hdr, mlen + cpy); skb_put(skb, cpy); rem -= cpy; total += msg_blocks(hdr) - curr; } while (rem > 0); return total - accounted; } /* tipc_msg_validate - validate basic format of received message * * This routine ensures a TIPC message has an acceptable header, and at least * as much data as the header indicates it should. The routine also ensures * that the entire message header is stored in the main fragment of the message * buffer, to simplify future access to message header fields. * * Note: Having extra info present in the message header or data areas is OK. * TIPC will ignore the excess, under the assumption that it is optional info * introduced by a later release of the protocol. */ bool tipc_msg_validate(struct sk_buff **_skb) { struct sk_buff *skb = *_skb; struct tipc_msg *hdr; int msz, hsz; /* Ensure that flow control ratio condition is satisfied */ if (unlikely(skb->truesize / buf_roundup_len(skb) >= 4)) { skb = skb_copy_expand(skb, BUF_HEADROOM, 0, GFP_ATOMIC); if (!skb) return false; kfree_skb(*_skb); *_skb = skb; } if (unlikely(TIPC_SKB_CB(skb)->validated)) return true; if (unlikely(!pskb_may_pull(skb, MIN_H_SIZE))) return false; hsz = msg_hdr_sz(buf_msg(skb)); if (unlikely(hsz < MIN_H_SIZE) || (hsz > MAX_H_SIZE)) return false; if (unlikely(!pskb_may_pull(skb, hsz))) return false; hdr = buf_msg(skb); if (unlikely(msg_version(hdr) != TIPC_VERSION)) return false; msz = msg_size(hdr); if (unlikely(msz < hsz)) return false; if (unlikely((msz - hsz) > TIPC_MAX_USER_MSG_SIZE)) return false; if (unlikely(skb->len < msz)) return false; TIPC_SKB_CB(skb)->validated = 1; return true; } /** * tipc_msg_fragment - build a fragment skb list for TIPC message * * @skb: TIPC message skb * @hdr: internal msg header to be put on the top of the fragments * @pktmax: max size of a fragment incl. the header * @frags: returned fragment skb list * * Return: 0 if the fragmentation is successful, otherwise: -EINVAL * or -ENOMEM */ int tipc_msg_fragment(struct sk_buff *skb, const struct tipc_msg *hdr, int pktmax, struct sk_buff_head *frags) { int pktno, nof_fragms, dsz, dmax, eat; struct tipc_msg *_hdr; struct sk_buff *_skb; u8 *data; /* Non-linear buffer? */ if (skb_linearize(skb)) return -ENOMEM; data = (u8 *)skb->data; dsz = msg_size(buf_msg(skb)); dmax = pktmax - INT_H_SIZE; if (dsz <= dmax || !dmax) return -EINVAL; nof_fragms = dsz / dmax + 1; for (pktno = 1; pktno <= nof_fragms; pktno++) { if (pktno < nof_fragms) eat = dmax; else eat = dsz % dmax; /* Allocate a new fragment */ _skb = tipc_buf_acquire(INT_H_SIZE + eat, GFP_ATOMIC); if (!_skb) goto error; skb_orphan(_skb); __skb_queue_tail(frags, _skb); /* Copy header & data to the fragment */ skb_copy_to_linear_data(_skb, hdr, INT_H_SIZE); skb_copy_to_linear_data_offset(_skb, INT_H_SIZE, data, eat); data += eat; /* Update the fragment's header */ _hdr = buf_msg(_skb); msg_set_fragm_no(_hdr, pktno); msg_set_nof_fragms(_hdr, nof_fragms); msg_set_size(_hdr, INT_H_SIZE + eat); } return 0; error: __skb_queue_purge(frags); __skb_queue_head_init(frags); return -ENOMEM; } /** * tipc_msg_build - create buffer chain containing specified header and data * @mhdr: Message header, to be prepended to data * @m: User message * @offset: buffer offset for fragmented messages (FIXME) * @dsz: Total length of user data * @pktmax: Max packet size that can be used * @list: Buffer or chain of buffers to be returned to caller * * Note that the recursive call we are making here is safe, since it can * logically go only one further level down. * * Return: message data size or errno: -ENOMEM, -EFAULT */ int tipc_msg_build(struct tipc_msg *mhdr, struct msghdr *m, int offset, int dsz, int pktmax, struct sk_buff_head *list) { int mhsz = msg_hdr_sz(mhdr); struct tipc_msg pkthdr; int msz = mhsz + dsz; int pktrem = pktmax; struct sk_buff *skb; int drem = dsz; int pktno = 1; char *pktpos; int pktsz; int rc; msg_set_size(mhdr, msz); /* No fragmentation needed? */ if (likely(msz <= pktmax)) { skb = tipc_buf_acquire(msz, GFP_KERNEL); /* Fall back to smaller MTU if node local message */ if (unlikely(!skb)) { if (pktmax != MAX_MSG_SIZE) return -ENOMEM; rc = tipc_msg_build(mhdr, m, offset, dsz, one_page_mtu, list); if (rc != dsz) return rc; if (tipc_msg_assemble(list)) return dsz; return -ENOMEM; } skb_orphan(skb); __skb_queue_tail(list, skb); skb_copy_to_linear_data(skb, mhdr, mhsz); pktpos = skb->data + mhsz; if (copy_from_iter_full(pktpos, dsz, &m->msg_iter)) return dsz; rc = -EFAULT; goto error; } /* Prepare reusable fragment header */ tipc_msg_init(msg_prevnode(mhdr), &pkthdr, MSG_FRAGMENTER, FIRST_FRAGMENT, INT_H_SIZE, msg_destnode(mhdr)); msg_set_size(&pkthdr, pktmax); msg_set_fragm_no(&pkthdr, pktno); msg_set_importance(&pkthdr, msg_importance(mhdr)); /* Prepare first fragment */ skb = tipc_buf_acquire(pktmax, GFP_KERNEL); if (!skb) return -ENOMEM; skb_orphan(skb); __skb_queue_tail(list, skb); pktpos = skb->data; skb_copy_to_linear_data(skb, &pkthdr, INT_H_SIZE); pktpos += INT_H_SIZE; pktrem -= INT_H_SIZE; skb_copy_to_linear_data_offset(skb, INT_H_SIZE, mhdr, mhsz); pktpos += mhsz; pktrem -= mhsz; do { if (drem < pktrem) pktrem = drem; if (!copy_from_iter_full(pktpos, pktrem, &m->msg_iter)) { rc = -EFAULT; goto error; } drem -= pktrem; if (!drem) break; /* Prepare new fragment: */ if (drem < (pktmax - INT_H_SIZE)) pktsz = drem + INT_H_SIZE; else pktsz = pktmax; skb = tipc_buf_acquire(pktsz, GFP_KERNEL); if (!skb) { rc = -ENOMEM; goto error; } skb_orphan(skb); __skb_queue_tail(list, skb); msg_set_type(&pkthdr, FRAGMENT); msg_set_size(&pkthdr, pktsz); msg_set_fragm_no(&pkthdr, ++pktno); skb_copy_to_linear_data(skb, &pkthdr, INT_H_SIZE); pktpos = skb->data + INT_H_SIZE; pktrem = pktsz - INT_H_SIZE; } while (1); msg_set_type(buf_msg(skb), LAST_FRAGMENT); return dsz; error: __skb_queue_purge(list); __skb_queue_head_init(list); return rc; } /** * tipc_msg_bundle - Append contents of a buffer to tail of an existing one * @bskb: the bundle buffer to append to * @msg: message to be appended * @max: max allowable size for the bundle buffer * * Return: "true" if bundling has been performed, otherwise "false" */ static bool tipc_msg_bundle(struct sk_buff *bskb, struct tipc_msg *msg, u32 max) { struct tipc_msg *bmsg = buf_msg(bskb); u32 msz, bsz, offset, pad; msz = msg_size(msg); bsz = msg_size(bmsg); offset = BUF_ALIGN(bsz); pad = offset - bsz; if (unlikely(skb_tailroom(bskb) < (pad + msz))) return false; if (unlikely(max < (offset + msz))) return false; skb_put(bskb, pad + msz); skb_copy_to_linear_data_offset(bskb, offset, msg, msz); msg_set_size(bmsg, offset + msz); msg_set_msgcnt(bmsg, msg_msgcnt(bmsg) + 1); return true; } /** * tipc_msg_try_bundle - Try to bundle a new message to the last one * @tskb: the last/target message to which the new one will be appended * @skb: the new message skb pointer * @mss: max message size (header inclusive) * @dnode: destination node for the message * @new_bundle: if this call made a new bundle or not * * Return: "true" if the new message skb is potential for bundling this time or * later, in the case a bundling has been done this time, the skb is consumed * (the skb pointer = NULL). * Otherwise, "false" if the skb cannot be bundled at all. */ bool tipc_msg_try_bundle(struct sk_buff *tskb, struct sk_buff **skb, u32 mss, u32 dnode, bool *new_bundle) { struct tipc_msg *msg, *inner, *outer; u32 tsz; /* First, check if the new buffer is suitable for bundling */ msg = buf_msg(*skb); if (msg_user(msg) == MSG_FRAGMENTER) return false; if (msg_user(msg) == TUNNEL_PROTOCOL) return false; if (msg_user(msg) == BCAST_PROTOCOL) return false; if (mss <= INT_H_SIZE + msg_size(msg)) return false; /* Ok, but the last/target buffer can be empty? */ if (unlikely(!tskb)) return true; /* Is it a bundle already? Try to bundle the new message to it */ if (msg_user(buf_msg(tskb)) == MSG_BUNDLER) { *new_bundle = false; goto bundle; } /* Make a new bundle of the two messages if possible */ tsz = msg_size(buf_msg(tskb)); if (unlikely(mss < BUF_ALIGN(INT_H_SIZE + tsz) + msg_size(msg))) return true; if (unlikely(pskb_expand_head(tskb, INT_H_SIZE, mss - tsz - INT_H_SIZE, GFP_ATOMIC))) return true; inner = buf_msg(tskb); skb_push(tskb, INT_H_SIZE); outer = buf_msg(tskb); tipc_msg_init(msg_prevnode(inner), outer, MSG_BUNDLER, 0, INT_H_SIZE, dnode); msg_set_importance(outer, msg_importance(inner)); msg_set_size(outer, INT_H_SIZE + tsz); msg_set_msgcnt(outer, 1); *new_bundle = true; bundle: if (likely(tipc_msg_bundle(tskb, msg, mss))) { consume_skb(*skb); *skb = NULL; } return true; } /** * tipc_msg_extract(): extract bundled inner packet from buffer * @skb: buffer to be extracted from. * @iskb: extracted inner buffer, to be returned * @pos: position in outer message of msg to be extracted. * Returns position of next msg. * Consumes outer buffer when last packet extracted * Return: true when there is an extracted buffer, otherwise false */ bool tipc_msg_extract(struct sk_buff *skb, struct sk_buff **iskb, int *pos) { struct tipc_msg *hdr, *ihdr; int imsz; *iskb = NULL; if (unlikely(skb_linearize(skb))) goto none; hdr = buf_msg(skb); if (unlikely(*pos > (msg_data_sz(hdr) - MIN_H_SIZE))) goto none; ihdr = (struct tipc_msg *)(msg_data(hdr) + *pos); imsz = msg_size(ihdr); if ((*pos + imsz) > msg_data_sz(hdr)) goto none; *iskb = tipc_buf_acquire(imsz, GFP_ATOMIC); if (!*iskb) goto none; skb_copy_to_linear_data(*iskb, ihdr, imsz); if (unlikely(!tipc_msg_validate(iskb))) goto none; *pos += BUF_ALIGN(imsz); return true; none: kfree_skb(skb); kfree_skb(*iskb); *iskb = NULL; return false; } /** * tipc_msg_reverse(): swap source and destination addresses and add error code * @own_node: originating node id for reversed message * @skb: buffer containing message to be reversed; will be consumed * @err: error code to be set in message, if any * Replaces consumed buffer with new one when successful * Return: true if success, otherwise false */ bool tipc_msg_reverse(u32 own_node, struct sk_buff **skb, int err) { struct sk_buff *_skb = *skb; struct tipc_msg *_hdr, *hdr; int hlen, dlen; if (skb_linearize(_skb)) goto exit; _hdr = buf_msg(_skb); dlen = min_t(uint, msg_data_sz(_hdr), MAX_FORWARD_SIZE); hlen = msg_hdr_sz(_hdr); if (msg_dest_droppable(_hdr)) goto exit; if (msg_errcode(_hdr)) goto exit; /* Never return SHORT header */ if (hlen == SHORT_H_SIZE) hlen = BASIC_H_SIZE; /* Don't return data along with SYN+, - sender has a clone */ if (msg_is_syn(_hdr) && err == TIPC_ERR_OVERLOAD) dlen = 0; /* Allocate new buffer to return */ *skb = tipc_buf_acquire(hlen + dlen, GFP_ATOMIC); if (!*skb) goto exit; memcpy((*skb)->data, _skb->data, msg_hdr_sz(_hdr)); memcpy((*skb)->data + hlen, msg_data(_hdr), dlen); /* Build reverse header in new buffer */ hdr = buf_msg(*skb); msg_set_hdr_sz(hdr, hlen); msg_set_errcode(hdr, err); msg_set_non_seq(hdr, 0); msg_set_origport(hdr, msg_destport(_hdr)); msg_set_destport(hdr, msg_origport(_hdr)); msg_set_destnode(hdr, msg_prevnode(_hdr)); msg_set_prevnode(hdr, own_node); msg_set_orignode(hdr, own_node); msg_set_size(hdr, hlen + dlen); skb_orphan(_skb); kfree_skb(_skb); return true; exit: kfree_skb(_skb); *skb = NULL; return false; } bool tipc_msg_skb_clone(struct sk_buff_head *msg, struct sk_buff_head *cpy) { struct sk_buff *skb, *_skb; skb_queue_walk(msg, skb) { _skb = skb_clone(skb, GFP_ATOMIC); if (!_skb) { __skb_queue_purge(cpy); pr_err_ratelimited("Failed to clone buffer chain\n"); return false; } __skb_queue_tail(cpy, _skb); } return true; } /** * tipc_msg_lookup_dest(): try to find new destination for named message * @net: pointer to associated network namespace * @skb: the buffer containing the message. * @err: error code to be used by caller if lookup fails * Does not consume buffer * Return: true if a destination is found, false otherwise */ bool tipc_msg_lookup_dest(struct net *net, struct sk_buff *skb, int *err) { struct tipc_msg *msg = buf_msg(skb); u32 scope = msg_lookup_scope(msg); u32 self = tipc_own_addr(net); u32 inst = msg_nameinst(msg); struct tipc_socket_addr sk; struct tipc_uaddr ua; if (!msg_isdata(msg)) return false; if (!msg_named(msg)) return false; if (msg_errcode(msg)) return false; *err = TIPC_ERR_NO_NAME; if (skb_linearize(skb)) return false; msg = buf_msg(skb); if (msg_reroute_cnt(msg)) return false; tipc_uaddr(&ua, TIPC_SERVICE_RANGE, scope, msg_nametype(msg), inst, inst); sk.node = tipc_scope2node(net, scope); if (!tipc_nametbl_lookup_anycast(net, &ua, &sk)) return false; msg_incr_reroute_cnt(msg); if (sk.node != self) msg_set_prevnode(msg, self); msg_set_destnode(msg, sk.node); msg_set_destport(msg, sk.ref); *err = TIPC_OK; return true; } /* tipc_msg_assemble() - assemble chain of fragments into one message */ bool tipc_msg_assemble(struct sk_buff_head *list) { struct sk_buff *skb, *tmp = NULL; if (skb_queue_len(list) == 1) return true; while ((skb = __skb_dequeue(list))) { skb->next = NULL; if (tipc_buf_append(&tmp, &skb)) { __skb_queue_tail(list, skb); return true; } if (!tmp) break; } __skb_queue_purge(list); __skb_queue_head_init(list); pr_warn("Failed do assemble buffer\n"); return false; } /* tipc_msg_reassemble() - clone a buffer chain of fragments and * reassemble the clones into one message */ bool tipc_msg_reassemble(struct sk_buff_head *list, struct sk_buff_head *rcvq) { struct sk_buff *skb, *_skb; struct sk_buff *frag = NULL; struct sk_buff *head = NULL; int hdr_len; /* Copy header if single buffer */ if (skb_queue_len(list) == 1) { skb = skb_peek(list); hdr_len = skb_headroom(skb) + msg_hdr_sz(buf_msg(skb)); _skb = __pskb_copy(skb, hdr_len, GFP_ATOMIC); if (!_skb) return false; __skb_queue_tail(rcvq, _skb); return true; } /* Clone all fragments and reassemble */ skb_queue_walk(list, skb) { frag = skb_clone(skb, GFP_ATOMIC); if (!frag) goto error; frag->next = NULL; if (tipc_buf_append(&head, &frag)) break; if (!head) goto error; } __skb_queue_tail(rcvq, frag); return true; error: pr_warn("Failed do clone local mcast rcv buffer\n"); kfree_skb(head); return false; } bool tipc_msg_pskb_copy(u32 dst, struct sk_buff_head *msg, struct sk_buff_head *cpy) { struct sk_buff *skb, *_skb; skb_queue_walk(msg, skb) { _skb = pskb_copy(skb, GFP_ATOMIC); if (!_skb) { __skb_queue_purge(cpy); return false; } msg_set_destnode(buf_msg(_skb), dst); __skb_queue_tail(cpy, _skb); } return true; } /* tipc_skb_queue_sorted(); sort pkt into list according to sequence number * @list: list to be appended to * @seqno: sequence number of buffer to add * @skb: buffer to add */ bool __tipc_skb_queue_sorted(struct sk_buff_head *list, u16 seqno, struct sk_buff *skb) { struct sk_buff *_skb, *tmp; if (skb_queue_empty(list) || less(seqno, buf_seqno(skb_peek(list)))) { __skb_queue_head(list, skb); return true; } if (more(seqno, buf_seqno(skb_peek_tail(list)))) { __skb_queue_tail(list, skb); return true; } skb_queue_walk_safe(list, _skb, tmp) { if (more(seqno, buf_seqno(_skb))) continue; if (seqno == buf_seqno(_skb)) break; __skb_queue_before(list, _skb, skb); return true; } kfree_skb(skb); return false; } void tipc_skb_reject(struct net *net, int err, struct sk_buff *skb, struct sk_buff_head *xmitq) { if (tipc_msg_reverse(tipc_own_addr(net), &skb, err)) __skb_queue_tail(xmitq, skb); }
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