Example #1
0
static void
env_init(void)
{
  vsf_sysutil_make_session_leader();
  /* Set up a secure umask - we'll set the proper one after login */
  vsf_sysutil_set_umask(VSFTP_SECURE_UMASK);
  /* Fire up libc's timezone initialisation, before we chroot()! */
  vsf_sysutil_tzset();
  /* Signals. We'll always take -EPIPE rather than a rude signal, thanks */
  vsf_sysutil_install_null_sighandler(kVSFSysUtilSigPIPE);
}
Example #2
0
struct vsf_client_launch
vsf_standalone_main(void)
{
    struct vsf_sysutil_sockaddr* p_accept_addr = 0;
    int listen_sock = -1;
    int retval;
    s_ipaddr_size = vsf_sysutil_get_ipaddr_size();
    if (tunable_listen && tunable_listen_ipv6)
    {
        die("run two copies of vsftpd for IPv4 and IPv6");
    }
    if (tunable_background)
    {
        int forkret = vsf_sysutil_fork();
        if (forkret > 0)
        {
            /* Parent, just exit */
            vsf_sysutil_exit(0);
        }
        vsf_sysutil_make_session_leader();
    }
    if (tunable_listen)
    {
        listen_sock = vsf_sysutil_get_ipv4_sock();
    }
    else
    {
        listen_sock = vsf_sysutil_get_ipv6_sock();
    }
    vsf_sysutil_activate_reuseaddr(listen_sock);

    s_p_ip_count_hash = hash_alloc(256, s_ipaddr_size,
                                   sizeof(unsigned int), hash_ip);
    s_p_pid_ip_hash = hash_alloc(256, sizeof(int),
                                 s_ipaddr_size, hash_pid);
    if (tunable_setproctitle_enable)
    {
        vsf_sysutil_setproctitle("LISTENER");
    }
    vsf_sysutil_install_async_sighandler(kVSFSysUtilSigCHLD, handle_sigchld);
    vsf_sysutil_install_async_sighandler(kVSFSysUtilSigHUP, handle_sighup);
    if (tunable_listen)
    {
        struct vsf_sysutil_sockaddr* p_sockaddr = 0;
        vsf_sysutil_sockaddr_alloc_ipv4(&p_sockaddr);
        vsf_sysutil_sockaddr_set_port(p_sockaddr, tunable_listen_port);
        if (!tunable_listen_address)
        {
            vsf_sysutil_sockaddr_set_any(p_sockaddr);
        }
        else
        {
            if (!vsf_sysutil_inet_aton(tunable_listen_address, p_sockaddr))
            {
                die2("bad listen_address: ", tunable_listen_address);
            }
        }
        retval = vsf_sysutil_bind(listen_sock, p_sockaddr);
        vsf_sysutil_free(p_sockaddr);
        if (vsf_sysutil_retval_is_error(retval))
        {
            die("could not bind listening IPv4 socket");
        }
    }
    else
    {
        struct vsf_sysutil_sockaddr* p_sockaddr = 0;
        vsf_sysutil_sockaddr_alloc_ipv6(&p_sockaddr);
        vsf_sysutil_sockaddr_set_port(p_sockaddr, tunable_listen_port);
        if (!tunable_listen_address6)
        {
            vsf_sysutil_sockaddr_set_any(p_sockaddr);
        }
        else
        {
            struct mystr addr_str = INIT_MYSTR;
            const unsigned char* p_raw_addr;
            str_alloc_text(&addr_str, tunable_listen_address6);
            p_raw_addr = vsf_sysutil_parse_ipv6(&addr_str);
            str_free(&addr_str);
            if (!p_raw_addr)
            {
                die2("bad listen_address6: ", tunable_listen_address6);
            }
            vsf_sysutil_sockaddr_set_ipv6addr(p_sockaddr, p_raw_addr);
        }
        retval = vsf_sysutil_bind(listen_sock, p_sockaddr);
        vsf_sysutil_free(p_sockaddr);
        if (vsf_sysutil_retval_is_error(retval))
        {
            die("could not bind listening IPv6 socket");
        }
    }
    vsf_sysutil_listen(listen_sock, VSFTP_LISTEN_BACKLOG);
    vsf_sysutil_sockaddr_alloc(&p_accept_addr);
    while (1)
    {
        struct vsf_client_launch child_info;
        void* p_raw_addr;
        int new_child;
        int new_client_sock;
        vsf_sysutil_unblock_sig(kVSFSysUtilSigCHLD);
        vsf_sysutil_unblock_sig(kVSFSysUtilSigHUP);
        new_client_sock = vsf_sysutil_accept_timeout(
                              listen_sock, p_accept_addr, 0);
        vsf_sysutil_block_sig(kVSFSysUtilSigCHLD);
        vsf_sysutil_block_sig(kVSFSysUtilSigHUP);
        if (vsf_sysutil_retval_is_error(new_client_sock))
        {
            continue;
        }
        ++s_children;
        child_info.num_children = s_children;
        child_info.num_this_ip = 0;
        p_raw_addr = vsf_sysutil_sockaddr_get_raw_addr(p_accept_addr);
        child_info.num_this_ip = handle_ip_count(p_raw_addr);
        new_child = vsf_sysutil_fork_failok();
        if (new_child != 0)
        {
            /* Parent context */
            vsf_sysutil_close(new_client_sock);
            if (new_child > 0)
            {
                hash_add_entry(s_p_pid_ip_hash, (void*)&new_child, p_raw_addr);
            }
            else
            {
                /* fork() failed, clear up! */
                --s_children;
                drop_ip_count(p_raw_addr);
            }
            /* Fall through to while() loop and accept() again */
        }
        else
        {
            /* Child context */
            vsf_sysutil_close(listen_sock);
            prepare_child(new_client_sock);
            /* By returning here we "launch" the child process with the same
             * contract as xinetd would provide.
             */
            return child_info;
        }
    }
}