2025/5/1 12:42, "Kuniyuki Iwashima" <kun...@amazon.com> wrote:
> > From: Jiayuan Chen <jiayuan.c...@linux.dev> > > Date: Thu, 1 May 2025 11:51:08 +0800 > > > > > For some services we are using "established-over-unconnected" model. > > > > > > > > ''' > > > > // create unconnected socket and 'listen()' > > > > srv_fd = socket(AF_INET, SOCK_DGRAM) > > > > setsockopt(srv_fd, SO_REUSEPORT) > > > > bind(srv_fd, SERVER_ADDR, SERVER_PORT) > > > > > > > > // 'accept()' > > > > data, client_addr = recvmsg(srv_fd) > > > > > > > > // create a connected socket for this request > > > > cli_fd = socket(AF_INET, SOCK_DGRAM) > > > > setsockopt(cli_fd, SO_REUSEPORT) > > > > bind(cli_fd, SERVER_ADDR, SERVER_PORT) > > > > connect(cli, client_addr) > > > > ... > > > > // do handshake with cli_fd > > > > ''' > > > > > > > > This programming pattern simulates accept() using UDP, creating a new > > > > socket for each client request. The server can then use separate sockets > > > > to handle client requests, avoiding the need to use a single UDP socket > > > > for I/O transmission. > > > > > > > > But there is a race condition between the bind() and connect() of the > > > > connected socket: > > > > We might receive unexpected packets belonging to the unconnected socket > > > > before connect() is executed, which is not what we need. > > > > (Of course, before connect(), the unconnected socket will also receive > > > > packets from the connected socket, which is easily resolved because > > > > upper-layer protocols typically require explicit boundaries, and we > > > > receive a complete packet before creating a connected socket.) > > > > > > > > Before this patch, the connected socket had to filter requests at recvmsg > > > > time, acting as a dispatcher to some extent. With this patch, we can > > > > consider the bind and connect operations to be atomic. > > > > SO_ATTACH_REUSEPORT_EBPF is what you want. > > The socket won't receive any packets until the socket is added to > > the BPF map. > > No need to reinvent a subset of BPF functionalities. > I think this feature is for selecting one socket, not filtering out certain sockets. Does this mean that I need to first capture all sockets bound to the same port, and then if the kernel selects a socket that I don't want to receive packets on, I'll need to implement an algorithm in the BPF program to choose another socket from the ones I've captured, in order to avoid returning that socket? This looks like it completely bypasses the kernel's built-in scoring logic. Or is expanding BPF_PROG_TYPE_SK_REUSEPORT to have filtering capabilities also an acceptable solution?
