The sk_buff has two places where it can store the next fragmentation data:
What are the differences between these two ways to handle fragmentation?
Both are used for different cases.
When your device supports scatter-gather I/O, and you want it to do the combining of data, etc., you can populate the
frags structure starting with the second fragment till the nth fragment. The first fragment is always specified by the
tail pointers. The rest of the fragments are filled in the
frags structure. If you don't use scatter gather, this variable is empty.
This is the list of IP fragments. This will be filled during
sk_buffs are in this arrangement,
sk_buff0->next = sk_buff1 sk_buff1->next = sk_buff2 ... sk_buffn-1->next = sk_buffn
ip_push_pending_frames is called
sk_buff0->frag_list = sk_buff1 sk_buff1->next = sk_buff2 ... sk_buffn-1->next = sk_buffn
fragsare for scatter-gather I/O buffers
frag_listis for IP fragments
If the NIC supports SG I/O, __ip_append_data will copy user space data to skb_shinfo(head)->frags. The NIC driver (e.g., ixgbe_add_rx_frag) can also use these frags to carry the received network traffic; please note that every content in frags is a part of a complete packet. A complete packet consists of all frags + (skb->data ~ skb->tail).
This member is not used by IP fragmentation directly. In __ip_make_skb(), the frag_list is used to collect all skbs from sk->sk_write_queue; some NIC drivers also use this frag_list for carrying a packet to the upper network stack. Every content/skb in frag_list is also not a complete packet; tcp_v4_send_ack -> ip_send_unicast_reply -> ip_push_pending_frames -> ip_finish_skb -> __ip_make_skb;