/* net_stack_driver.h * structures and defines to deal with the network stack pseudo-driver... */ #ifndef NET_STACK_DRIVER_H #define NET_STACK_DRIVER_H #include #define NET_STACK_DRIVER_DEV "net/stack" #define NET_STACK_DRIVER_PATH "/dev/" ## NET_STACK_DRIVER_DEV enum { // Paranoia mode: be far away of B_DEVICE_OP_CODES_END opcodes!!! // You never know what another device driver ioctl() will do // if think our NET_STACK_* is in fact his DO_RISKY_BUSINESS opcode, or whatever... NET_IOCTL_BASE = 0xbe230000, NET_STACK_IOCTL_BASE = NET_IOCTL_BASE + 0x200 }; enum { NET_STACK_SOCKET = NET_STACK_IOCTL_BASE, // socket_args * NET_STACK_BIND, // sockaddr_args * NET_STACK_RECVFROM, // struct msghdr * NET_STACK_RECV, // data_xfer_args * NET_STACK_SENDTO, // struct msghdr * NET_STACK_SEND, // data_xfer_args * NET_STACK_LISTEN, // int_args * (value = backlog) NET_STACK_ACCEPT, // accept_args * NET_STACK_CONNECT, // sockaddr_args * NET_STACK_SHUTDOWN, // int_args * (value = how) NET_STACK_GETSOCKOPT, // sockopt_args * NET_STACK_SETSOCKOPT, // sockopt_args * NET_STACK_GETSOCKNAME, // sockaddr_args * NET_STACK_GETPEERNAME, // sockaddr_args * NET_STACK_SYSCTL, // sysctl_args * NET_STACK_SELECT, // select_args * NET_STACK_DESELECT, // select_args * NET_STACK_GET_COOKIE, // void ** NET_STACK_STOP, NET_STACK_NOTIFY_SOCKET_EVENT, // notify_socket_event_args * (userland stack only) NET_STACK_IOCTL_MAX }; struct int_args { // used by NET_STACK_LISTEN/_SHUTDOWN int value; }; struct sockaddr_args { // used by NET_STACK_CONNECT/_BIND/_GETSOCKNAME/_GETPEERNAME struct sockaddr *addr; int addrlen; }; struct sockopt_args { // used by NET_STACK_SETSOCKOPT/_GETSOCKOPT int level; int option; void *optval; int optlen; }; struct data_xfer_args { // used by NET_STACK_SEND/_RECV void *data; size_t datalen; int flags; struct sockaddr *addr; // unused in *_SEND and *_RECV cases int addrlen; // unused in *_SEND and *_RECV cases }; struct socket_args { // used by NET_STACK_SOCKET int family; int type; int proto; }; struct getcookie_args { // used by NET_STACK_GET_COOKIE void **cookie; }; struct accept_args { // used by NET_STACK_ACCEPT void *cookie; struct sockaddr *addr; int addrlen; }; struct sysctl_args { // used by NET_STACK_SYSCTL int *name; uint namelen; void *oldp; size_t *oldlenp; void *newp; size_t newlen; }; /* Userland stack driver on_socket_event() callback mecanism implementation: the driver start a kernel thread waiting on a port for a NET_STACK_SOCKET_EVENT_MSG message, which come with a socket_event_data block. The on_socket_event() mechanism stay in driver (kernelland) because it's only there we can call kernel's notify_select_event() on BONE systems. For non-BONE systems, we use our own r5_notify_select_event() implementation, that could be moved into the userland net_server code, but it'll have split (again!) the /dev/net/stack driver code... */ struct notify_socket_event_args { // used by NET_STACK_NOTIFY_SOCKET_EVENT port_id notify_port; // port waiting for notification, -1 = stop notify void * cookie; // this cookie value will be pass back in the socket_event_args }; #define NET_STACK_SOCKET_EVENT_NOTIFICATION 'sevn' struct socket_event_data { uint32 event; // B_SELECT_READ, B_SELECT_WRITE or B_SELECT_EXCEPTION void * cookie; // The cookie as set in notify_socket_event_args for this socket }; /* R5.0.3 and before select() kernel support is too buggy to be used, so here are the structures we used to support select() on sockets, and *only* on sockets! */ struct select_args { // used by NET_STACK_SELECT and NET_STACK_DESELECT struct selectsync * sync; // in fact, it's the area_id of a r5_selectsync struct!!! uint32 ref; }; struct r5_selectsync { sem_id lock; // lock this r5_selectsync sem_id wakeup; // sem to release to wakeup select() struct fd_set rbits; // read event bits field struct fd_set wbits; // write event bits field struct fd_set ebits; // exception event bits field }; #endif /* NET_STACK_DRIVER_H */