FreeCalypso > hg > fc-magnetite
diff src/g23m-fad/tcpip/tcpip_api_layer.c @ 174:90eb61ecd093
src/g23m-fad: initial import from TCS3.2/LoCosto
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Wed, 12 Oct 2016 05:40:46 +0000 |
| parents | |
| children |
line wrap: on
line diff
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/g23m-fad/tcpip/tcpip_api_layer.c Wed Oct 12 05:40:46 2016 +0000 @@ -0,0 +1,1881 @@ +/* ++------------------------------------------------------------------------------ +| File: tcpip_api_layer.c ++------------------------------------------------------------------------------ +| Copyright 2003 Texas Instruments Berlin, AG +| All rights reserved. +| +| This file is confidential and a trade secret of Texas +| Instruments Berlin, AG +| The receipt of or possession of this file does not convey +| any rights to reproduce or disclose its contents or to +| manufacture, use, or sell anything it may describe, in +| whole, or in part, without the specific written consent of +| Texas Instruments Berlin, AG. ++----------------------------------------------------------------------------- +| Purpose : GPF-based TCP/IP's glue layer towards the socket API. ++----------------------------------------------------------------------------- +*/ + + +#define TCPIP_API_LAYER_C + +#define ENTITY_TCPIP + +/*==== INCLUDES =============================================================*/ + +#include <string.h> /* String functions, e. g. strncpy(). */ + +#include "typedefs.h" /* to get Condat data types */ +#include "vsi.h" /* to get a lot of macros */ +#include "custom.h" +#include "gsm.h" /* to get a lot of macros */ +#include "prim.h" /* to get the definitions of used SAP and directions */ +#include "pei.h" /* to get PEI interface */ +#include "tools.h" /* to get common tools */ +#include "dti.h" /* For DTI library definitions. */ +#include "glob_defs.h" +#include "tcpip.h" /* to get the global entity definitions */ +#include "tcpip_int.h" + +/* RNET includes + */ +#include "rv_general.h" +#include "rnet_api.h" +#include "rnet_rt_env.h" +#include "rnet_message.h" +#include "rnet_rt_i.h" + +/* NexGenIP includes + */ +#include <ngip/if.h> + +#ifdef _SIMULATION_ +#include "tcpip_sim_utils.h" /* Utilities for use in the simulation. */ +#endif /* _SIMULATION_ */ + + + +/*==== Local prototypes =====================================================*/ + + + + +/*==== Macros ===============================================================*/ + +/* Two macros to go from socket descriptor to sock_table[] index and vice + * versa. + */ +#define SOCK_S_INDEX(desc) (SOCKPAR_GET(desc)->s_index) +#define SOCK_RT_DESC(s_index) (sock_table[s_index]->rtdesc) + +/* Retrieve the parameter block associated with a socket descriptor (as + * user_data). + */ +#define SOCKPAR_GET(socket) ((T_sockpar *) rnet_get_user_data(socket)) + +/* Check if there is a valid socket for the specified socket index. + */ +#define INVALID_S_INDEX(socket) \ + ((socket) >= RNET_RT_SOCK_MAX OR sock_table[socket] EQ NULL) + + +/* We don't have a fixed value for the application handle (there will be more + * than one). TCPIP wants to send a message to itself, so it is not convenient + * to redirect all primitives, so we use the MMI handle for the application + * for testing. This will then be redirected to the TAP. + */ +#ifdef _SIMULATION_ +#define APP_HANDLE hCommMMI +#else /* _SIMULATION_ */ +#define APP_HANDLE app_handle +#endif /* _SIMULATION_ */ + + +/*==== Types ================================================================*/ + +/* This struct is to be associated to a socket descriptor as user_data in + * order to provide context for the event handler functions. The struct is + * zero-initialized, so all default values must be zero. + * + * Pointers to these structures are kept in sock_table[]. + */ +typedef struct sock_params { + int s_index ; /* Index in socket table. */ + T_RNET_DESC *rtdesc ; /* The RNET_RT socket descriptor. */ + T_HANDLE app_handle ; /* Communication handle of application + * entity. */ + U8 ipproto ; /* IP protocol number of socket. */ + U32 request_id ; /* Request identification (if present). */ + U32 expected_event ; /* The event we are waiting for on this + * connection. This is necessary + * for error handling, because the + * RNET_ERROR_IND function gets no information + * *which* request caused the error. */ + BOOL is_connected ; /* Connected UDP or TCP socket. (NexGenIP does + * not give us an error code when we try to + * send on a non-connected socket, so we have + * to maintain this status by ourselves in + * order to report the error to the + * application. */ + BOOL recv_waiting ; /* TRUE iff incoming data is (or might be) + * available. */ + BOOL appl_xoff ; /* TRUE iff flow control to the application is + * in "xoff" status. */ + struct + { + U16 total_length ; /* Total length of buffer, zero if no data is + * waiting. */ + U16 offset ; /* Offset of first byte not yet sent. */ + U8 *buffer ; /* Pointer to data buffer waiting to be + * sent. */ + } send ; +} T_sockpar ; + + +/*==== Local data ===========================================================*/ + + +/* Table of active socket descriptors; provides the mapping between the small + * integers used in the primitives and the actual RNET socket descriptors. + */ +static T_sockpar *sock_table[RNET_RT_SOCK_MAX] ; + + + +/*==== Primitive sender functions ===========================================*/ + + +/** Confirm the result of a TCPIP_INITIALIZE_REQ. + * + * @param result Result of the initialization. + */ +static void tcpip_initialize_cnf(U8 result) +{ + TRACE_FUNCTION("tcpip_initialize_cnf()") ; + + { + PALLOC(prim, TCPIP_INITIALIZE_CNF) ; + prim->result = result ; + PSENDX(MMI, prim) ; + } +} + + +/** Confirm the result of a TCPIP_SHUTDOWN_REQ + * + * @param result Result of the shutdown. + */ +static void tcpip_shutdown_cnf(U8 result) +{ + TRACE_FUNCTION("tcpip_shutdown_cnf()") ; + + { + PALLOC(prim, TCPIP_SHUTDOWN_CNF) ; + prim->result = result ; + PSENDX(MMI, prim) ; + } +} + + +/** Confirm the result of a TCPIP_IFCONFIG_REQ + * + * @param result Result of the configuration. + */ +static void tcpip_ifconfig_cnf(U8 result) +{ + TRACE_FUNCTION("tcpip_ifconfig_cnf()") ; + + { + PALLOC(prim, TCPIP_IFCONFIG_CNF) ; + prim->result = result ; + PSENDX(MMI, prim) ; + } +} + + +/** Confirm the result of a TCPIP_DTI_REQ. This function is called + * from tcpip_dti.c, so it must not be static. + * + * @param dti_conn Indicates whether the DTI link is to be established or + * disconnected + * @param link_id DTI link identifier + */ +void tcpip_dti_cnf(U8 dti_conn, U32 link_id) +{ + TRACE_FUNCTION("tcpip_dti_cnf()") ; + + { + PALLOC(prim, TCPIP_DTI_CNF) ; + prim->dti_conn = dti_conn ; + prim->link_id = link_id ; + PSENDX(MMI, prim) ; + } +} + + +/** Confirm the result of a TCPIP_CREATE_REQ. + * + * @param app_handle Communication handle of requesting task. + * @param result Result of the operation. + * @param socket Index of newly created socket (if OK). + * @param request_id Request ID as passed in TCPIP_CREATE_REQ. + */ +static void tcpip_create_cnf(T_HANDLE app_handle, U8 result, int socket, + U32 request_id) +{ + TRACE_FUNCTION("tcpip_create_cnf()") ; + TRACE_EVENT_P1("app_handle %d",APP_HANDLE); + + { + PALLOC(prim, TCPIP_CREATE_CNF) ; + prim->event_type = TCPIP_EVT_CREATE_CNF ; + prim->result = result ; + prim->socket = socket ; + prim->request_id = request_id ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_CLOSE_REQ. + * + * @param app_handle Communication handle of requesting task. + * @param result Result of the operation. + * @param socket Index of (no longer valid) socket. + */ +static void tcpip_close_cnf(T_HANDLE app_handle, U8 result, int socket) +{ + TRACE_FUNCTION("tcpip_close_cnf()") ; + + { + PALLOC(prim, TCPIP_CLOSE_CNF) ; + prim->event_type = TCPIP_EVT_CLOSE_CNF ; + prim->result = result ; + prim->socket = socket ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_BIND_REQ. + * + * @param app_handle Communication handle of requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + */ +static void tcpip_bind_cnf(T_HANDLE app_handle, U8 result, int socket) +{ + TRACE_FUNCTION("tcpip_bind_cnf()") ; + + { + PALLOC(prim, TCPIP_BIND_CNF) ; + prim->event_type = TCPIP_EVT_BIND_CNF ; + prim->result = result ; + prim->socket = socket ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_LISTEN_REQ. + * + * @param app_handle Communication handle of requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + */ +static void tcpip_listen_cnf(T_HANDLE app_handle, U8 result, int socket) +{ + TRACE_FUNCTION("tcpip_listen_cnf()") ; + + { + PALLOC(prim, TCPIP_LISTEN_CNF) ; + prim->event_type = TCPIP_EVT_LISTEN_CNF ; + prim->result = result ; + prim->socket = socket ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_CONNECT_REQ. + * + * @param app_handle Communication handle of requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + */ +static void tcpip_connect_cnf(T_HANDLE app_handle, U8 result, int socket) +{ + TRACE_FUNCTION("tcpip_connect_cnf()") ; + + { + PALLOC(prim, TCPIP_CONNECT_CNF) ; + prim->event_type = TCPIP_EVT_CONNECT_CNF ; + prim->result = result ; + prim->socket = socket ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_DATA_REQ. + * + * @param app_handle Communication handle of requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + * @param window Window size for sender. + */ +static void tcpip_data_cnf(T_HANDLE app_handle, U8 result, int socket, + U16 window) +{ + TRACE_FUNCTION("tcpip_data_cnf()") ; + + { + PALLOC(prim, TCPIP_DATA_CNF) ; + prim->event_type = TCPIP_EVT_FLOW_READY_IND ; + prim->result = result ; + prim->socket = socket ; + prim->window = window ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Indicate incoming data. + * + * @param app_handle Communication handle of requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + * @param ipaddr Source IP address. + * @param port Source port number. + * @param buflen Length of payload data. + * @param data Adress of payload data buffer. + */ +static void tcpip_data_ind(T_HANDLE app_handle, U8 result, int socket, + U32 ipaddr, U16 port, U16 buflen, U8 *data) +{ + TRACE_FUNCTION("tcpip_data_ind()") ; + + { + PALLOC(prim, TCPIP_DATA_IND) ; + prim->event_type = TCPIP_EVT_RECV_IND ; /* Unfortunately not _DATA_IND */ + prim->result = result ; + prim->socket = socket ; + prim->ipaddr = ipaddr ; + prim->port = port ; + prim->buflen = buflen ; + prim->data = (U32) data ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_SOCKNAME_REQ. + * + * @param app_handle Communication handle of the requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + * @param ipaddr IP address of the socket. + * @param port Port number of the socket. + */ +static void tcpip_sockname_cnf(T_HANDLE app_handle, U8 result, int socket, + U32 ipaddr, U16 port) +{ + TRACE_FUNCTION("tcpip_sockname_cnf()") ; + + { + PALLOC(prim, TCPIP_SOCKNAME_CNF) ; + prim->event_type = TCPIP_EVT_SOCKNAME_CNF ; + prim->result = result ; + prim->socket = socket ; + prim->ipaddr = ipaddr ; + prim->port = port ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_PEERNAME_REQ. + * + * @param app_handle Communication handle of the requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + * @param ipaddr IP address of the remote peer. + * @param port Remore port number of the socket. + */ +static void tcpip_peername_cnf(T_HANDLE app_handle, U8 result, int socket, + U32 ipaddr, U16 port) +{ + TRACE_FUNCTION("tcpip_peername_cnf()") ; + + { + PALLOC(prim, TCPIP_PEERNAME_CNF) ; + prim->event_type = TCPIP_EVT_PEERNAME_CNF ; + prim->result = result ; + prim->socket = socket ; + prim->ipaddr = ipaddr ; + prim->port = port ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_HOSTINFO_REQ. + * + * @param app_handle Communication handle of the requesting task. + * @param result Result of the operation. + * @param request_id Request ID as passed in TCPIP_CREATE_REQ. + * @param hostname Full-qualified domain name of the host, may be NULL. + * @param ipaddr IP address of the host. + */ +static void tcpip_hostinfo_cnf(T_HANDLE app_handle, U8 result, U32 request_id, + char *hostname, U32 ipaddr) +{ + TRACE_FUNCTION("tcpip_hostinfo_cnf()") ; + + { + PALLOC(prim, TCPIP_HOSTINFO_CNF) ; + prim->event_type = TCPIP_EVT_HOSTINFO_CNF ; + prim->result = result ; + prim->request_id = request_id ; + if (hostname NEQ NULL) + { + strncpy((char *) prim->hostname, hostname, TCPIP_HNAMELEN) ; + prim->hostname[TCPIP_HNAMELEN-1] = '\0' ; + } + else + { + prim->hostname[0] = '\0' ; + } + prim->ipaddr = ipaddr ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Confirm the result of a TCPIP_MTU_SIZE_REQ. + * + * @param app_handle Communication handle of the requesting task. + * @param result Result of the operation. + * @param socket Index of the socket. + * @param mtu_size Size of the MTU. + */ +static void tcpip_mtu_size_cnf(T_HANDLE app_handle, U8 result, int socket, + U16 mtu_size) +{ + TRACE_FUNCTION("tcpip_mtu_size_cnf()") ; + + { + PALLOC(prim, TCPIP_MTU_SIZE_CNF) ; + prim->event_type = TCPIP_EVT_MTU_SIZE_CNF ; + prim->result = result ; + prim->socket = socket ; + prim->mtu_size = mtu_size ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Indicate an incoming TCP connection. + * + * @param app_handle Communication handle of the task. + * @param socket Index of the listening socket. + * @param new_socket New socket for this connection. + * @param ipaddr IP address of the remote peer. + * @param port Remore port number of the socket. + */ +static void tcpip_connect_ind(T_HANDLE app_handle, int socket, + int new_socket, U32 ipaddr, U16 port) +{ + TRACE_FUNCTION("tcpip_connect_ind()") ; + + { + PALLOC(prim, TCPIP_CONNECT_IND) ; + prim->event_type = TCPIP_EVT_CONNECT_IND ; + prim->result = TCPIP_RESULT_OK ; + prim->socket = socket ; + prim->new_socket = new_socket ; + prim->ipaddr = ngHTONL(ipaddr) ; + prim->port = ngHTONS(port) ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Indicate that a connection has been closed. + * + * @param app_handle Communication handle of the task. + * @param socket Index of the socket. + */ +static void tcpip_conn_closed_ind(T_HANDLE app_handle, int socket) +{ + TRACE_FUNCTION("tcpip_conn_closed_ind()") ; + + { + PALLOC(prim, TCPIP_CONN_CLOSED_IND) ; + prim->event_type = TCPIP_EVT_CONN_CLOSED_IND ; + prim->result = TCPIP_RESULT_OK ; + prim->socket = socket ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Indicate an asynchronous error on a socket. + * + * @param app_handle Communication handle of the task. + * @param result Result code of the error. + * @param socket Index of the socket. + */ +static void tcpip_error_ind(T_HANDLE app_handle, U8 result, int socket) +{ + TRACE_FUNCTION("tcpip_error_ind()") ; + + { + PALLOC(prim, TCPIP_ERROR_IND) ; + prim->event_type = TCPIP_EVT_ERROR_IND ; + prim->result = result ; + prim->socket = socket ; + PSEND(APP_HANDLE, prim) ; + } +} + + +/** Send a message to self. + * + * @param msg_p pointer to message + * @param msg_id message identification + */ +void tcpip_send_internal_ind(U32 msg_p, U32 msg_id) +{ + TRACE_FUNCTION("tcpip_send_internal_ind()") ; + + { + PALLOC(prim, TCPIP_INTERNAL_IND) ; + prim->msg_p = msg_p ; + prim->msg_id = msg_id ; + PSEND(hCommTCPIP, prim) ; + } +} + + +/*==== Local utility functions ==============================================*/ + +/** Allocate a new socket parameter block, initialize it with the given + * parameters, and put it into the list. Allocate a slot in the sock_table[] + * and fill it. If we cannot allocate a slot, return NULL. This is considered + * an internal error, because we *have* a slot free for each possible socket. + * + * @param socket The socket descriptor (if applicable). + * @param app_handle Communication handle of application task. + * @param request_id Request identification (if applicable). + * @return a pointer to the sock_params struct or NULL on error. + */ +static T_sockpar *sockpar_new(T_RNET_DESC *socket, T_HANDLE app_handle, + U8 ipproto, U32 request_id) +{ + T_sockpar *sp ; /* Pointer to new struct. */ + int sti ; /* Socket table index. */ + + TRACE_FUNCTION("sockpar_new()") ; + + /* Allocate and enqueue. */ + MALLOC(sp, sizeof(T_sockpar)) ; + /* TRACE_EVENT_P1("MALLOC gives us %08x", sp) ; */ + memset(sp, 0, sizeof(T_sockpar)) ; + + sp->rtdesc = socket ; + sp->app_handle = app_handle ; + sp->ipproto = ipproto ; + sp->request_id = request_id ; + + for (sti = 0; sti < RNET_RT_SOCK_MAX; sti++) + { + if (sock_table[sti] EQ NULL) + { + sock_table[sti] = sp ; + sp->s_index = sti ; + return sp ; + } + } + /* No free slot in table found -- this must be an error, because we have a + * slot for each possible socket. */ + TRACE_ERROR("No free slot in sock_table[] found") ; + /* TRACE_EVENT_P1("We MFREE %08x", sp) ; */ + MFREE(sp) ; + return NULL ; +} + + +/** Dequeue and deallocate a socket parameter block. Free the slot in + * sock_table[]. + * + * @param sp Pointer to sock_params struct. + */ +static void sockpar_delete(T_sockpar *sp) +{ + TRACE_FUNCTION("sockpar_delete()") ; + + sock_table[sp->s_index] = 0 ; + /* TRACE_EVENT_P1("We MFREE %08x", sp) ; */ + MFREE(sp) ; +} + + +/** Clear the send buffer of a socket parameter block and free the associated + * data. + * + * @param sockpar The socket parameter block. + */ +static void tcpip_clear_send_buffer(T_sockpar *sockpar) +{ + sockpar->send.total_length = 0 ; + sockpar->send.offset = 0 ; +#ifndef _SIMULATION_ + /* The simulation would crash in the MFREE(), as the send.buffer is not a + * frame-allocated piece of memory. */ + /* TRACE_EVENT_P1("MFREE sockpar->send.buffer %x", sockpar->send.buffer) ; */ + MFREE(sockpar->send.buffer) ; +#endif /* _SIMULATION_ */ + sockpar->send.buffer = NULL ; +} + + +/** Convert an RNET error code to the appropriate TCPIP result code. + * + * @param rnet_ret The RNET error code. + * @return The TCPIP result code. + */ +static U8 rnet_error_to_tcpip_result(T_RNET_RET rnet_ret) +{ + switch (rnet_ret) + { + case RNET_OK: + TRACE_EVENT("RNET_OK -> TCPIP_RESULT_OK") ; + return TCPIP_RESULT_OK ; + case RNET_MEMORY_ERR: + TRACE_EVENT("RNET_MEMORY_ERR -> TCPIP_RESULT_OUT_OF_MEMORY") ; + return TCPIP_RESULT_OUT_OF_MEMORY ; + case RNET_INVALID_PARAMETER: + TRACE_EVENT("RNET_INVALID_PARAMETER -> TCPIP_RESULT_INVALID_PARAMETER") ; + return TCPIP_RESULT_INVALID_PARAMETER ; + case RNET_NOT_SUPPORTED: + TRACE_EVENT("RNET_NOT_SUPPORTED -> TCPIP_RESULT_NOT_SUPPORTED") ; + return TCPIP_RESULT_NOT_SUPPORTED ; + case RNET_NOT_READY: + TRACE_EVENT("RNET_NOT_READY -> TCPIP_RESULT_NOT_READY") ; + return TCPIP_RESULT_NOT_READY ; + case RNET_INTERNAL_ERR: + TRACE_EVENT("RNET_INTERNAL_ERR -> TCPIP_RESULT_INTERNAL_ERROR") ; + return TCPIP_RESULT_INTERNAL_ERROR ; + case RNET_IN_USE: + TRACE_EVENT("RNET_IN_USE -> TCPIP_RESULT_ADDR_IN_USE") ; + return TCPIP_RESULT_ADDR_IN_USE ; + case RNET_NOT_INITIALIZED: + TRACE_EVENT("RNET_NOT_INITIALIZED -> TCPIP_RESULT_NOT_READY") ; + return TCPIP_RESULT_NOT_READY ; + case RNET_NET_UNREACHABLE: + TRACE_EVENT("RNET_NET_UNREACHABLE -> TCPIP_RESULT_UNREACHABLE") ; + return TCPIP_RESULT_UNREACHABLE ; + case RNET_TIMEOUT: + TRACE_EVENT("RNET_TIMEOUT -> TCPIP_RESULT_TIMEOUT") ; + return TCPIP_RESULT_TIMEOUT ; + case RNET_CONN_REFUSED: + TRACE_EVENT("RNET_CONN_REFUSED -> TCPIP_RESULT_CONN_REFUSED") ; + return TCPIP_RESULT_CONN_REFUSED ; + case RNET_CONN_RESET: + TRACE_EVENT("RNET_CONN_RESET -> TCPIP_RESULT_CONN_RESET") ; + return TCPIP_RESULT_CONN_RESET ; + case RNET_CONN_ABORTED: + TRACE_EVENT("RNET_CONN_ABORTED -> TCPIP_RESULT_CONN_ABORTED") ; + return TCPIP_RESULT_CONN_ABORTED ; + case RNET_MSG_SIZE: + TRACE_EVENT("RNET_MSG_SIZE -> TCPIP_RESULT_MSG_TOO_BIG") ; + return TCPIP_RESULT_MSG_TOO_BIG ; + case RNET_HOST_NOT_FOUND: + TRACE_EVENT("RNET_HOST_NOT_FOUND -> TCPIP_RESULT_HOST_NOT_FOUND") ; + return TCPIP_RESULT_HOST_NOT_FOUND ; + + /* The following should not be delivered as a result code: */ + case RNET_CONN_CLOSED: + TRACE_EVENT("RNET_CONN_CLOSED -> TCPIP_RESULT_INTERNAL_ERROR") ; + return TCPIP_RESULT_INTERNAL_ERROR ; + case RNET_PARTIAL_SENT: + TRACE_EVENT("RNET_PARTIAL_SENT -> TCPIP_RESULT_INTERNAL_ERROR") ; + return TCPIP_RESULT_INTERNAL_ERROR ; + default: + TRACE_EVENT_P1("unknown (%d) ->TCPIP_RESULT_INTERNAL_ERROR", rnet_ret) ; + return TCPIP_RESULT_INTERNAL_ERROR ; + } +} + + +/** Read incoming data (from TCP/IP to the application). This function is + * called only when the flow control status towards the application is in xon + * state. + * + * @param sockpar Socket parameter block. + */ +static void tcpip_read_incoming_to_app(T_sockpar *sockpar) +{ + U8 *buffer ; /* Payload data buffer. */ + U16 length ; /* Payload data length. */ + T_RNET_RET retval ; /* Return value of rnet_recv(). */ + T_RNET_IP_ADDR ipaddr ; /* IP address of sender. */ + T_RNET_PORT port ; /* Port numer at remote end. */ + + TRACE_FUNCTION("tcpip_read_incoming_to_app()") ; + + /* If flow control status is off, we must not send incoming data. */ + if (sockpar->appl_xoff) + { + TRACE_EVENT("tcpip_read_incoming_to_app() called in xoff state") ; + return ; + } + + /* We don't expect to read packets larger than this. To be precise, we + * aren't able to. */ + MALLOC(buffer, TCPIP_DEFAULT_MTU_SIZE) ; + /* TRACE_EVENT_P1("MALLOC gives us %08x", buffer) ; */ + length = TCPIP_DEFAULT_MTU_SIZE ; + + /* Should be unspecified for TCP; will be set by rnet_recv_from() for + * UDP. */ + ipaddr = TCPIP_UNSPECIFIED_IPADDR ; + port = TCPIP_UNSPECIFIED_PORT ; + + switch (sockpar->ipproto) + { + case TCPIP_IPPROTO_TCP: + TRACE_EVENT_P2("Calling rnet_recv() for socket %d length %d", + sockpar->s_index, length) ; + retval = rnet_recv(sockpar->rtdesc, buffer, &length) ; + TRACE_EVENT_P2("rnet_recv() returns %d length %d", retval, length) ; + break ; + case TCPIP_IPPROTO_UDP: /* Need to read sender address with UDP. */ + TRACE_EVENT_P4("Calling rnet_recv_from() for socket %d length %d " + "ipaddr %x port %d", + sockpar->s_index, length, ipaddr, port) ; + retval = rnet_recv_from(sockpar->rtdesc, buffer, &length, + &ipaddr, &port) ; + TRACE_EVENT_P4("rnet_recv_from() returns %d length %d ipaddr %x port %d", + retval, length, ipaddr, port) ; + break ; + default: + retval = RNET_INVALID_PARAMETER ; + TRACE_ERROR("tcpip_read_incoming_to_app: unknown IP protocol") ; + break ; + } + + if (retval EQ RNET_OK) + { + /* Only if the length is zero, there is no more data waiting. */ + if (length EQ 0) + { + sockpar->recv_waiting = FALSE ; + /* TRACE_EVENT_P1("We MFREE %08x", buffer) ; */ + MFREE(buffer) ; + } + else + { + /* We use an effective window size of zero, so flow control status is + * xoff after sending a primitive. */ + tcpip_data_ind(sockpar->app_handle, TCPIP_RESULT_OK, + sockpar->s_index, ipaddr, port, length, buffer) ; + TRACE_EVENT("switch flow control towards application to xoff") ; + dti_stop(tcpip_data->dti_handle, 0, TCPIP_DTI_TO_LOWER_LAYER, 0) ; // Add one flow control to not allow SNDCP send next data package. OMAPS00172999 05132008 + + sockpar->appl_xoff = TRUE ; +#ifdef _SIMULATION_ + /* In the simulation, free the buffer -- it is meaningless for the TAP + * and will not be freed at any other place. */ + MFREE(buffer) ; +#endif /* _SIMULATION_ */ + } + } + else /* retval != RNET_OK */ + { + /* TRACE_EVENT_P1("We MFREE %08x", buffer) ; */ + MFREE(buffer) ; + tcpip_error_ind(sockpar->app_handle, rnet_error_to_tcpip_result(retval), + sockpar->s_index) ; + } +} + + +/** Try to send data over RNET. To be called after the application has sent + * data, and if we have waiting data and RNET has signalled that we may send + * again. + * + * @param sockpar Socket parameter block. + */ +static void tcpip_try_send_data(T_sockpar *sockpar) +{ + U16 length ; /* Length of data to send or sent. */ + T_RNET_RET retval ; /* Return value of rnet_send(). */ + + TRACE_FUNCTION("tcpip_try_send_data()") ; + + if (sockpar->send.total_length EQ 0) + { + TRACE_ERROR("tcpip_try_send_data: called although no data present") ; + } + else + { + length = sockpar->send.total_length - sockpar->send.offset ; + TRACE_EVENT_P2("Calling rnet_send() socket %d length %d", + sockpar->s_index, length) ; + retval = rnet_send(sockpar->rtdesc, sockpar->send.buffer, &length) ; + TRACE_EVENT_P2("rnet_send() returns %d length %d", retval, length) ; + switch (retval) + { + case RNET_OK: /* We could send all data, so clear send + * buffer and send a confirmation to the + * application. */ + tcpip_clear_send_buffer(sockpar) ; + tcpip_data_cnf(sockpar->app_handle, TCPIP_RESULT_OK, + sockpar->s_index, TCPIP_DEFAULT_WINDOW) ; + break ; + case RNET_PARTIAL_SENT: /* Not all of the data could be sent. We + * update the send buffer offset and wait for + * an RNET_SEND_RDY event to continue. */ + sockpar->send.offset += length ; + break ; + default: /* Every other return value indicates an + * error. We translate the return value to our + * result codes and send an error indication + * to the application. The data will no longer + * be needed and is freed. */ + tcpip_clear_send_buffer(sockpar) ; + tcpip_data_cnf(sockpar->app_handle, + rnet_error_to_tcpip_result(retval), + sockpar->s_index, TCPIP_DEFAULT_WINDOW) ; + break ; + } + } +} + + +/** Initialize RNET and the data of the TCPIP entity. + * + * This in a separate function to make control flow more elegant -- this way + * we can jump out of the initialization sequence without having to use a + * goto. + * + * @return a result code with the usual semantics + */ +static U8 tcpip_do_initialization(void) +{ + static T_RVF_MB_ID entity_bk_id_table[8]; + static T_RV_RETURN_PATH entity_return_pathes[8]; + T_RNET_RET retval ; /* Return value of RNET initialisation. */ + + TRACE_FUNCTION("tcpip_do_initialization()") ; + + if (tcpip_data->is_initialized) + { + TRACE_ERROR("initialization called although tcpip_data->is_initialized") ; + return TCPIP_RESULT_INTERNAL_ERROR ; + } + + memset(sock_table,0,sizeof(sock_table)); + + /* quite ad-hoc: both arrays "entity_return_pathes", + "entity_bk_id_table" are uninitialized and arbitrarily set to length + 8. last param, call_back_error_ft function, undefined. */ + rnet_rt_set_info((T_RVF_ADDR_ID) tcpip_handle, entity_return_pathes, + entity_bk_id_table, 0); + + retval = (T_RNET_RET)rnet_rt_init() ; + if (retval NEQ RNET_OK ) + { + TRACE_ERROR("rnet_rt_init() != RV_OK") ; + return rnet_error_to_tcpip_result(retval) ; + } + + retval = (T_RNET_RET)rnet_rt_start() ; + if (retval NEQ RNET_OK ) + { + TRACE_ERROR("rnet_rt_start() != RV_OK") ; + rnet_rt_kill() ; + return rnet_error_to_tcpip_result(retval) ; + } + +#ifdef _SIMULATION_ + tcpip_if_properties(&rnet_rt_env_ctrl_blk_p->ifnet_lo) ; +#endif /* _SIMULATION_ */ + + tcpip_data->is_initialized = TRUE ; + + return TCPIP_RESULT_OK ; +} + + + + +/** Mark an event as expected for the specified socket. + * + * @param sock_desc The Socket descriptor. + * @param expected_event The event type. + */ +static void socket_expect_event(T_RNET_DESC* sock_desc, U32 expected_event) +{ +#ifdef TRACING + char *event_name ; + + switch (expected_event) + { + case TCPIP_EVT_CONNECT_CNF: + event_name = "CONNECT_CNF" ; + break ; + case TCPIP_EVT_RECV_IND: + event_name = "RECV_IND" ; + break ; + case TCPIP_EVT_CONNECT_IND: + event_name = "CONNECT_IND" ; + break ; + default: + event_name = "<none>" ; + break ; + } + TRACE_EVENT_P1("ready for TCPIP_EVT_%s for %d", + event_name, SOCK_S_INDEX(sock_desc)) ; +#endif /* TRACING */ + SOCKPAR_GET(sock_desc)->expected_event = expected_event ; +} + + + +/*==== Specific event handler functions =====================================*/ + + +/** Handle an RNET_CONNECT_IND event; pass it through to the application. + * + * @param connect_ind Pointer to the event message. + */ +static void tcpip_handle_rnet_connect_ind(T_RNET_CONNECT_IND *connect_ind) +{ + T_sockpar *sockpar, *sp_new ; + + TRACE_FUNCTION("tcpip_handle_rnet_connect_ind()") ; + + sockpar = SOCKPAR_GET(connect_ind->listen_desc) ; + sp_new = sockpar_new(connect_ind->new_desc, + sockpar->app_handle, + sockpar->ipproto, 0) ; + if (sp_new EQ NULL) + { + tcpip_error_ind(sockpar->app_handle, TCPIP_RESULT_INTERNAL_ERROR, + sockpar->s_index) ; + } + else + { + sp_new->is_connected = TRUE ; + rnet_set_user_data(connect_ind->new_desc, (void *) sp_new) ; + tcpip_connect_ind(sockpar->app_handle, + sockpar->s_index, + sp_new->s_index, + connect_ind->peer_addr, + connect_ind->peer_port) ; + socket_expect_event(connect_ind->new_desc, TCPIP_EVT_RECV_IND) ; + } + rvf_free_buf(connect_ind) ; +} + + +/** Handle an RNET_CONNECT_CFM event; pass it through to the application. + * + * @param connect_cfm Pointer to the event message. + */ +static void tcpip_handle_rnet_connect_cfm(T_RNET_CONNECT_CFM *connect_cfm) +{ + T_sockpar *sockpar ; + + TRACE_FUNCTION("tcpip_handle_rnet_connect_cfm()") ; + + sockpar = SOCKPAR_GET(connect_cfm->desc) ; + sockpar->is_connected = TRUE ; + tcpip_connect_cnf(sockpar->app_handle, + TCPIP_RESULT_OK, SOCK_S_INDEX(connect_cfm->desc)) ; + socket_expect_event(connect_cfm->desc, TCPIP_EVT_RECV_IND) ; + rvf_free_buf(connect_cfm) ; +} + + +/** Handle an RNET_SEND_RDY event; try to send more data if anything is left. + * + * @param send_rdy Pointer to the event message. + */ +static void tcpip_handle_rnet_send_rdy(T_RNET_SEND_RDY *send_rdy) +{ + T_sockpar *sockpar ; + + TRACE_FUNCTION("tcpip_handle_rnet_send_rdy()") ; + + sockpar = SOCKPAR_GET(send_rdy->desc) ; + if( sockpar ) + { + if (sockpar->send.total_length) + { + tcpip_try_send_data(sockpar) ; + } + else + { + TRACE_EVENT("received RNET_SEND_RDY; no data waiting") ; + } + }else + TRACE_ERROR("tcpip_handle_rnet_send_rdy(): WARNING: sockpar=0"); + + rvf_free_buf(send_rdy) ; +} + + +/** Handle an RNET_RECV_IND event; read incoming data. + * + * @param recv_ind Pointer to the event message. + */ +static void tcpip_handle_rnet_recv_ind(T_RNET_RECV_IND *recv_ind) +{ + T_sockpar *sockpar ; /* Socket parameters. */ + + TRACE_FUNCTION("tcpip_handle_rnet_recv_ind()") ; + + sockpar = SOCKPAR_GET(recv_ind->desc) ; + sockpar->recv_waiting = TRUE ; + tcpip_read_incoming_to_app(sockpar) ; + + rvf_free_buf(recv_ind) ; +} + + +/** Handle an RNET_ERROR_IND event; + * + * @param error_ind Pointer to the event message. + */ +static void tcpip_handle_rnet_error_ind(T_RNET_ERROR_IND *error_ind) +{ + T_sockpar *sockpar ; + + TRACE_FUNCTION("tcpip_handle_rnet_error_ind()") ; + TRACE_EVENT_P1("RNET_ERROR_IND for socket %08x", error_ind->desc) ; + + sockpar = SOCKPAR_GET(error_ind->desc) ; + if (error_ind->error EQ RNET_CONN_CLOSED) + { + TRACE_EVENT("RNET_CONN_CLOSED") ; + tcpip_conn_closed_ind(sockpar->app_handle, sockpar->s_index) ; + } + else + { + /* TODO: this switch looks bogus -- we are only interested in + * TCPIP_EVT_CONNECT_CNF, right? Everything else is handled the same + * anyway. */ + switch (sockpar->expected_event) + { + case TCPIP_EVT_CONNECT_CNF: + TRACE_EVENT("error received when expecting TCPIP_EVT_CONNECT_CNF") ; + tcpip_connect_cnf(sockpar->app_handle, + rnet_error_to_tcpip_result(error_ind->error), + sockpar->s_index) ; + break ; + case TCPIP_EVT_RECV_IND: + TRACE_EVENT("error received when expecting TCPIP_EVT_RECV_IND") ; + tcpip_error_ind(sockpar->app_handle, + rnet_error_to_tcpip_result(error_ind->error), + sockpar->s_index) ; + break ; + case TCPIP_EVT_CONNECT_IND: + TRACE_EVENT("error received when expecting TCPIP_EVT_CONNECT_IND") ; + tcpip_error_ind(sockpar->app_handle, + rnet_error_to_tcpip_result(error_ind->error), + sockpar->s_index) ; + break ; + default: + TRACE_EVENT_P1("error received when expecting unknown event (%d)?", + sockpar->expected_event) ; + TRACE_ERROR("Unexpected sockpar->expected_event in " + "tcpip_handle_rnet_error_ind()") ; + tcpip_error_ind(sockpar->app_handle, + rnet_error_to_tcpip_result(error_ind->error), + sockpar->s_index) ; + break ; + } + } + + rvf_free_buf(error_ind) ; +} + + + +/*==== Callback functions ===================================================*/ + + +/** Callback for rnet_get_host_info(). + * + * @param + * @return + */ +void tcpip_hostinfo_callback(void *msg) +{ + T_RNET_HOST_INFO *hinfo ; + T_TCPIP_HOSTINFO_REQ *request ; + + TRACE_FUNCTION("tcpip_hostinfo_callback()") ; + + hinfo = msg ; + request = hinfo->user_data ; + switch (hinfo->error) + { + case RNET_OK: + tcpip_hostinfo_cnf(request->app_handle, + TCPIP_RESULT_OK, + request->request_id, + hinfo->host_name, + ngHTONL(hinfo->host_addr)) ; + break ; + default: + tcpip_hostinfo_cnf(request->app_handle, + rnet_error_to_tcpip_result(hinfo->error), + request->request_id, + NULL, + 0) ; + break ; + } + PFREE(request) ; + //PatternVibrator("o20f10", 1); + //rvf_free_buf(msg) ; + //PatternVibrator("o20f10", 1); +} + + +/** Callback for RNET events. + * + * @param rv_msg Pointer to Riviera message. + */ +static void tcpip_rnet_callback(void *rv_msg) +{ + T_RV_HDR *rv_hdr ; /* Header of Riviera message. */ + rv_hdr = (T_RV_HDR *) rv_msg ; + + TRACE_FUNCTION("tcpip_rnet_callback()") ; + TRACE_EVENT_P1("rv_hdr->msg_id = %d",rv_hdr->msg_id); + + switch (rv_hdr->msg_id) + { + case RNET_CONNECT_IND: + TRACE_EVENT("tcpip_rnet_callback() called with RNET_CONNECT_IND") ; + tcpip_handle_rnet_connect_ind((T_RNET_CONNECT_IND *) rv_hdr) ; + break ; + case RNET_CONNECT_CFM: + TRACE_EVENT("tcpip_rnet_callback() called with RNET_CONNECT_CFM") ; + tcpip_handle_rnet_connect_cfm((T_RNET_CONNECT_CFM *) rv_hdr) ; + break ; + case RNET_SEND_RDY: + TRACE_EVENT("tcpip_rnet_callback() called with RNET_SEND_RDY") ; + tcpip_handle_rnet_send_rdy((T_RNET_SEND_RDY *) rv_hdr) ; + break ; + case RNET_RECV_IND: + TRACE_EVENT("tcpip_rnet_callback() called with RNET_RECV_IND") ; + tcpip_handle_rnet_recv_ind((T_RNET_RECV_IND *) rv_hdr) ; + break ; + case RNET_ERROR_IND: + TRACE_EVENT("tcpip_rnet_callback() called with RNET_ERROR_IND") ; + tcpip_handle_rnet_error_ind((T_RNET_ERROR_IND *) rv_hdr) ; + break ; + default: + TRACE_ERROR("Default: unknown RNET event:") ; + TRACE_EVENT_P1("[ERROR] event 0x%08x from RNET\n", rv_hdr->msg_id) ; + break ; + } +} + + +/*==== Other public functions ===============================================*/ + +/** Shut down RNET and deallocate data. This defined as a separate function + * because it will also be called by pei_exit(). + * + */ +void tcpip_do_shutdown(void) +{ + int s_index ; /* Socket index in sock_table[]. */ + + TRACE_FUNCTION("tcpip_do_shutdown()") ; + + if (tcpip_data->is_initialized) + { + /* The error code conversion is done only for the trace in + * rnet_error_to_tcpip_result(). It doesn't hurt anyway. */ + rnet_error_to_tcpip_result((T_RNET_RET)rnet_rt_stop()) ; + rnet_error_to_tcpip_result((T_RNET_RET)rnet_rt_kill()) ; + + for (s_index = 0; s_index < RNET_RT_SOCK_MAX; s_index++) + { + T_sockpar *sp ; /* Pointer to socket parameter struct. */ + + sp = sock_table[s_index] ; + if (sp) + { + tcpip_error_ind(sp->app_handle, TCPIP_RESULT_NETWORK_LOST, + sp->s_index) ; + sockpar_delete(sp) ; + } + } + tcpip_data->is_initialized = FALSE ; + } +} + + + + +/*==== Primitive handler functions ==========================================*/ + + +/** Handle a TCPIP_INITIALIZE_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_initialize_req(void *primdata) +{ + U8 result ; /* Result code of initialization. */ + + TRACE_FUNCTION("tcpip_initialize_req()") ; + + /* The variable should be optimized away by the compiler, but it looks + * clearer with the initialization call on a separate line. + */ + result = tcpip_do_initialization() ; + tcpip_initialize_cnf(result) ; + PFREE(primdata) ; +} + + +/** Handle a TCPIP_SHUTDOWN_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_shutdown_req(void *primdata) +{ + TRACE_FUNCTION("tcpip_shutdown_req()") ; + + tcpip_do_shutdown() ; + tcpip_shutdown_cnf(TCPIP_RESULT_OK) ; + PFREE(primdata) ; +} + + +/** Handle a TCPIP_IFCONFIG_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_ifconfig_req(void *primdata) +{ + T_TCPIP_IFCONFIG_REQ *prim ; + NGifnet *netp ; /* Pointer to network interface struct. */ + NGuint local_addr ; /* Local address of interface (host byte + * order). */ + NGuint dest_addr ; /* Destination address (always zero in our + * case). */ + NGuint netmask ; + U8 result = TCPIP_RESULT_INTERNAL_ERROR ; /* Result code of operation. */ + + /* We don't jump through all the hoops of constructing a message in a + * message and sending it to the network interface control function, but + * rather twiddle the necessary bits by ourselves. This saves quite some + * code and is lots easier to read. */ + TRACE_FUNCTION("tcpip_ifconfig_req()") ; + + prim = (T_TCPIP_IFCONFIG_REQ *) primdata ; + + /* First, find the network interface. This turned out to be surprisingly + * easy. :-) */ + netp = &rnet_rt_env_ctrl_blk_p->ifnet_dti.dti_ifnet ; + + switch (prim->if_up) + { + case TCPIP_IFCONFIG_DOWN: + TRACE_EVENT("ifconfig down") ; + netp->if_flags &= ~NG_IFF_UP ; + /* Lint loves the void: */ + (void) ngProto_IP.pr_cntl_f(NG_CNTL_SET, NG_IPO_NETDOWN, netp) ; + result = TCPIP_RESULT_OK ; + break ; + case TCPIP_IFCONFIG_UP: + netp->if_flags |= NG_IFF_UP ; + netp->if_mtu = prim->mtu_size ; + local_addr = prim->ipaddr ; + dest_addr = TCPIP_UNSPECIFIED_IPADDR ; + netmask = 0xffffffff ; + + if (tcpip_data->config_dns_address) + { + TRACE_EVENT("override dnsaddr1 by address from config primitive") ; + prim->dnsaddr1 = tcpip_data->config_dns_address ; + } + + TRACE_EVENT_P3("ifconfig %08x dns %08x, %08x up", + ngNTOHL(local_addr), + ngNTOHL(prim->dnsaddr1), ngNTOHL(prim->dnsaddr2)) ; + + ngIfGenCntl(netp, NG_CNTL_SET, NG_IFO_ADDR, &local_addr) ; + ngIfGenCntl(netp, NG_CNTL_SET, NG_IFO_DSTADDR, &dest_addr) ; + ngIfGenCntl(netp, NG_CNTL_GET, NG_IFO_NETMASK, &netmask) ; + (void) ngProto_IP.pr_cntl_f(NG_CNTL_SET, NG_IPO_ROUTE_DEFAULT, + &local_addr); + (void) ngProto_RESOLV.pr_cntl_f(NG_CNTL_SET, NG_RSLVO_SERV1_IPADDR, + &prim->dnsaddr1) ; + (void) ngProto_RESOLV.pr_cntl_f(NG_CNTL_SET, NG_RSLVO_SERV2_IPADDR, + &prim->dnsaddr2) ; + result = TCPIP_RESULT_OK ; + break ; + default: + TRACE_ERROR("ifconfig: bogus prim->if_up value") ; + result = TCPIP_RESULT_INVALID_PARAMETER ; + break ; + } + +#ifdef _SIMULATION_ + tcpip_if_properties(netp) ; +#endif /* _SIMULATION_ */ + + tcpip_ifconfig_cnf(result) ; + PFREE(primdata) ; +} + + +/** Handle a TCPIP_DTI_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_dti_req(void *primdata) +{ + T_TCPIP_DTI_REQ *prim ; + + TRACE_FUNCTION("tcpip_dti_req()") ; + + prim = (T_TCPIP_DTI_REQ *) primdata ; + if (prim->dti_direction EQ TCPIP_DTI_TO_LOWER_LAYER) + { + tcpip_data->ll[0].link_id = prim->link_id ; + + if(prim->dti_conn == TCPIP_CONNECT_DTI) + { + if(dti_open(tcpip_data->dti_handle, + 0, /* instance */ + prim->dti_direction, + 0, /* channel */ + TCPIP_DTI_QUEUE_SIZE, + prim->dti_direction, + DTI_QUEUE_WATERMARK, + DTI_VERSION_10, +#ifdef _SIMULATION_ + "SND", +#else + (U8 *) prim->entity_name, +#endif + prim->link_id) != TRUE) + { + TRACE_ERROR("dti_open returns with error") ; + } + } + else + { + dti_close(tcpip_data->dti_handle,0,prim->dti_direction,0,FALSE); + // TCPIP_DISCONNECT_CNF is sent here, because the DTI callback is not called + // after DTI2_DISCONNECT_REQ was sent (no CNF-primitive) + tcpip_dti_cnf(TCPIP_DISCONNECT_DTI,prim->link_id); + } + } + else + { + TRACE_ERROR("DTI link to other than upper layer not (yet) supported!") ; + } + /* The result will be signalled by DTI. */ + PFREE(primdata) ; +} + + +/** Handle a TCPIP_CREATE_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_create_req(void *primdata) +{ + T_TCPIP_CREATE_REQ *prim = primdata ; + T_RNET_RET retval ; + T_RNET_DESC *sdesc ; /* The socket descriptor. */ + T_RV_RETURN_PATH retpath = { 0, tcpip_rnet_callback } ; + T_sockpar *sockpar ; /* Pointer to socket parameter struct ; */ + + TRACE_FUNCTION("tcpip_create_req()") ; + + TRACE_EVENT_P1("Calling rnet_new() for ipproto %d", prim->ipproto) ; + retval = rnet_new((T_RNET_IPPROTO) prim->ipproto, &sdesc, retpath) ; + TRACE_EVENT_P1("rnet_new() returns %d", retval) ; + + if (retval EQ RNET_OK) + { + sockpar = sockpar_new(sdesc, prim->app_handle, prim->ipproto, 0) ; + TRACE_EVENT_P1("New socket is %d", sockpar->s_index) ; + if (sockpar EQ NULL) + { + tcpip_create_cnf(prim->app_handle, TCPIP_RESULT_INTERNAL_ERROR, + 0, prim->request_id) ; + rnet_close(sdesc) ; + } + else + { + rnet_set_user_data(sdesc, (void *) sockpar) ; + tcpip_create_cnf(prim->app_handle, TCPIP_RESULT_OK, + sockpar->s_index, prim->request_id) ; + } + } + else + { + tcpip_create_cnf(prim->app_handle, rnet_error_to_tcpip_result(retval), + 0, prim->request_id) ; + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_CLOSE_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_close_req(void *primdata) +{ + T_TCPIP_CLOSE_REQ *prim = primdata ; + T_RNET_RET retval ; /* Return value of rnet_close(). */ + T_sockpar *sockpar ; /* Socket parameter block. */ + T_RNET_DESC *sdesc ; /* Socket descriptor. */ + + TRACE_FUNCTION("tcpip_close_req()") ; + if (INVALID_S_INDEX(prim->socket)) + { + TRACE_ERROR("Invalid socket index in tcpip_close_req()") ; + tcpip_close_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket) ; + } + else + { + sdesc = SOCK_RT_DESC(prim->socket) ; + sockpar = SOCKPAR_GET(sdesc) ; + TRACE_EVENT_P1("Calling rnet_close() for socket %d", sockpar->s_index) ; + retval = rnet_close(sdesc) ; + TRACE_EVENT_P1("rnet_close() returns %d", retval) ; + tcpip_close_cnf(prim->app_handle, + (U8) ((retval EQ RNET_OK) ? + TCPIP_RESULT_OK : rnet_error_to_tcpip_result(retval)), + prim->socket) ; + sockpar_delete(sockpar) ; + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_BIND_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_bind_req(void *primdata) +{ + T_TCPIP_BIND_REQ *prim = primdata ; + T_RNET_RET retval ; /* Return value of rnet_bind(). */ + T_RNET_DESC *sdesc ; /* Socket descriptor. */ + + TRACE_FUNCTION("tcpip_bind_req()") ; + if (INVALID_S_INDEX(prim->socket)) + { + TRACE_ERROR("Invalid socket index in tcpip_bind_req()") ; + tcpip_bind_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket) ; + } + else + { + sdesc = SOCK_RT_DESC(prim->socket) ; + TRACE_EVENT_P2("Calling rnet_bind() for socket %d port %d", + prim->socket, prim->port) ; + retval = rnet_bind(sdesc, TCPIP_UNSPECIFIED_IPADDR, + (U16) ngNTOHS(prim->port)) ; + TRACE_EVENT_P1("rnet_bind() returns %d", retval) ; + tcpip_bind_cnf(prim->app_handle, + (U8) ((retval EQ RNET_OK) ? + TCPIP_RESULT_OK : rnet_error_to_tcpip_result(retval)), + prim->socket) ; + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_LISTEN_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_listen_req(void *primdata) +{ + T_TCPIP_LISTEN_REQ *prim = primdata ; + T_RNET_RET retval ; /* Return value of rnet_listen(). */ + T_RNET_DESC *sdesc ; /* Socket descriptor. */ + + TRACE_FUNCTION("tcpip_listen_req()") ; + if (INVALID_S_INDEX(prim->socket)) + { + TRACE_ERROR("Invalid socket index in tcpip_listen_req()") ; + tcpip_listen_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket) ; + } + else + { + sdesc = SOCK_RT_DESC(prim->socket) ; + TRACE_EVENT_P1("Calling rnet_listen() for socket %d", prim->socket) ; + retval = rnet_listen(sdesc) ; + TRACE_EVENT_P1("rnet_listen() returns %d", retval) ; + switch (retval) + { + case RNET_OK: + socket_expect_event(sdesc, TCPIP_EVT_CONNECT_IND) ; + tcpip_listen_cnf(prim->app_handle, TCPIP_RESULT_OK, prim->socket) ; + break ; + default: + tcpip_listen_cnf(prim->app_handle, rnet_error_to_tcpip_result(retval), + prim->socket) ; + break ; + } + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_CONNECT_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_connect_req(void *primdata) +{ + T_TCPIP_CONNECT_REQ *prim = primdata ; + T_RNET_RET retval ; /* Return value of rnet_connect(). */ + T_RNET_DESC *sdesc ; /* Socket descriptor. */ + T_sockpar *sockpar ; /* Socket parameter block. */ + + TRACE_FUNCTION("tcpip_connect_req()") ; + if (INVALID_S_INDEX(prim->socket)) + { + TRACE_ERROR("Invalid socket index in tcpip_connect_req()") ; + tcpip_connect_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket) ; + } + else + { + sdesc = SOCK_RT_DESC(prim->socket) ; + socket_expect_event(sdesc, TCPIP_EVT_CONNECT_CNF) ; + TRACE_EVENT_P3("Calling rnet_connect() for socket %d ipaddr %x port %d", + prim->socket, ngNTOHL(prim->ipaddr), + ngNTOHS(prim->port)) ; + retval = rnet_connect(sdesc, ngNTOHL(prim->ipaddr), + (U16) ngNTOHS(prim->port)) ; + TRACE_EVENT_P1("rnet_connect() returns %d", retval) ; + + sockpar = SOCKPAR_GET(sdesc) ; + switch (sockpar->ipproto) + { + case TCPIP_IPPROTO_TCP: + if (retval EQ RNET_OK) + { + TRACE_EVENT("wait... TCPIP_CONNECT_CNF"); + /* Wait for the result of the connect; we will send a + * TCPIP_CONNECT_CNF then. */ + } + else + { + tcpip_connect_cnf(prim->app_handle, + rnet_error_to_tcpip_result(retval), prim->socket) ; + socket_expect_event(sdesc, 0) ; + } + break ; + case TCPIP_IPPROTO_UDP: + sockpar->is_connected = TRUE ; + tcpip_connect_cnf(prim->app_handle, rnet_error_to_tcpip_result(retval), + prim->socket) ; + socket_expect_event(sdesc, 0) ; + break ; + default: + TRACE_ERROR("unknown protocol in tcpip_connect_req()!?") ; + break ; + } + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_DATA_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_data_req(void *primdata) +{ + T_TCPIP_DATA_REQ *prim = primdata ; + T_sockpar *sockpar ; + T_RNET_DESC *sdesc ; /* Socket descriptor. */ + + TRACE_FUNCTION("tcpip_data_req()") ; + if (INVALID_S_INDEX(prim->socket)) + { + tcpip_data_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket, 0) ; + TRACE_ERROR("Invalid socket index in tcpip_data_req()") ; + } + else + { + sdesc = SOCK_RT_DESC(prim->socket) ; + sockpar = SOCKPAR_GET(sdesc) ; + + if (sockpar->send.total_length) + { + /* We haven't sent the previous block completely, but the API already + * sends more data. That must be an error -- either an error of the + * socket API or we have sent out a TCPIP_DATA_CNF too early. */ + TRACE_ERROR("tcpip_data_req: new data although old data is still left") ; + tcpip_data_cnf(prim->app_handle, TCPIP_RESULT_INTERNAL_ERROR, + prim->socket, 0) ; + } + else if (!sockpar->is_connected AND + (sockpar->ipproto EQ TCPIP_IPPROTO_TCP + OR prim->ipaddr EQ 0 + OR prim->port EQ 0)) + { + /* Application tried to send on a non-connected TCP socket or a + * non-connected UDP socket without specifying IP address and port + * number. RNET or, respectively, NexGenIP does for some reason not + * catch this error, so we do it here. + */ + tcpip_data_cnf(prim->app_handle, TCPIP_RESULT_NOT_CONNECTED, + prim->socket, 1) ; + } + else /* Finally ok. */ + { + sockpar->send.total_length = prim->buflen ; + sockpar->send.offset = 0 ; +#ifdef _SIMULATION_ + prim->data = tcpip_sim_fake_data(prim->socket, prim->buflen) ; +#endif /* _SIMULATION_ */ + sockpar->send.buffer = (U8 *) prim->data ; + tcpip_try_send_data(sockpar) ; + } + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_DATA_RES primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_data_res(void *primdata) +{ + T_TCPIP_DATA_RES *prim = primdata ; + T_sockpar *sockpar ; + + TRACE_FUNCTION("tcpip_data_res()") ; + if (INVALID_S_INDEX(prim->socket)) + { + /* Do nothing -- what *could* we do in response to a response? */ + TRACE_ERROR("Invalid socket index in tcpip_data_res()") ; + } + else + { + TRACE_EVENT("switch flow control towards application to xon") ; + sockpar = sock_table[prim->socket] ; + sockpar->appl_xoff = FALSE ; + dti_start(tcpip_data->dti_handle, 0, TCPIP_DTI_TO_LOWER_LAYER, 0) ; // when receive the application data confrim then allow SNDCP send next data package 05132008 + // OMAPS00172999 fix + if (sockpar->recv_waiting) + { + tcpip_read_incoming_to_app(sockpar) ; + } + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_SOCKNAME_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_sockname_req(void *primdata) +{ + T_TCPIP_SOCKNAME_REQ *prim = primdata ; + T_RNET_RET retval ; + T_RNET_IP_ADDR ipaddr ; + T_RNET_PORT port ; + T_RNET_DESC *sdesc ; /* The socket descriptor. */ + + TRACE_FUNCTION("tcpip_sockname_req()") ; + if (INVALID_S_INDEX(prim->socket)) + { + TRACE_ERROR("Invalid socket index in tcpip_sockname_req()") ; + tcpip_sockname_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket, TCPIP_UNSPECIFIED_IPADDR, + TCPIP_UNSPECIFIED_PORT) ; + } + else + { + sdesc = SOCK_RT_DESC(prim->socket) ; + TRACE_EVENT_P1("Calling rnet_get_local_addr_port() for socket %d", + prim->socket) ; + retval = rnet_get_local_addr_port(sdesc, &ipaddr, &port) ; + TRACE_EVENT_P3("rnet_get_local_addr_port() returns %d, " + "ipaddr %d port %d", retval, ipaddr, port) ; + switch (retval) + { + case RNET_OK: + tcpip_sockname_cnf(prim->app_handle, TCPIP_RESULT_OK, prim->socket, + ngHTONL(ipaddr), (U16) ngHTONS(port)) ; + break ; + default: + tcpip_sockname_cnf(prim->app_handle, rnet_error_to_tcpip_result(retval), + prim->socket, TCPIP_UNSPECIFIED_IPADDR, + TCPIP_UNSPECIFIED_PORT) ; + break ; + } + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_PEERNAME_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_peername_req(void *primdata) +{ + T_TCPIP_PEERNAME_REQ *prim = primdata ; + T_RNET_RET retval ; + T_RNET_DESC *sdesc ; /* The socket descriptor. */ + NGsockaddr addr ; /* Socket address struct. */ + int optlen ; /* Length of option (address struct). */ + + TRACE_FUNCTION("tcpip_peername_req()") ; + if (INVALID_S_INDEX(prim->socket)) + { + TRACE_ERROR("Invalid socket index in tcpip_peername_req()") ; + tcpip_peername_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket, TCPIP_UNSPECIFIED_IPADDR, + TCPIP_UNSPECIFIED_PORT) ; + } + else + { + sdesc = SOCK_RT_DESC(prim->socket) ; + optlen = sizeof(addr) ; + TRACE_EVENT_P1("Calling ngSAIOGetOption() for peername socket %d", + prim->socket) ; + retval = (T_RNET_RET) ngSAIOGetOption((NGsock *) sdesc, NG_IOCTL_SOCKET, + NG_SO_PEERNAME, &addr, &optlen) ; + TRACE_EVENT_P3("ngSAIOGetOption() returns %d ipaddr %x port %d (net order)", + retval, addr.sin_addr, addr.sin_port) ; + switch (rnet_rt_ngip_error(retval)) + { + case RNET_OK: + tcpip_peername_cnf(prim->app_handle, TCPIP_RESULT_OK, prim->socket, + addr.sin_addr, addr.sin_port) ; + break ; + default: + tcpip_peername_cnf(prim->app_handle, rnet_error_to_tcpip_result(retval), + prim->socket, TCPIP_UNSPECIFIED_IPADDR, + TCPIP_UNSPECIFIED_PORT) ; + break ; + } + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_HOSTINFO_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_hostinfo_req(void *primdata) +{ + T_TCPIP_HOSTINFO_REQ *prim = primdata ; + T_RV_RETURN_PATH retpath = { 0, tcpip_hostinfo_callback } ; + + /* Trick: We use the primitive itself as user data for the RNET call. This + * way we do not have to allocate extra memory to save the request_id and + * the app_handle. */ + + TRACE_FUNCTION("tcpip_hostinfo_req()") ; + + switch (rnet_get_host_info((char *) prim->hostname, ngNTOHL(prim->ipaddr), + retpath, primdata)) + { + case RNET_OK: + /* We now wait for the hostinfo callback being called. */ + break ; + case RNET_MEMORY_ERR: + tcpip_hostinfo_cnf(prim->app_handle, TCPIP_RESULT_OUT_OF_MEMORY, + prim->request_id, NULL, TCPIP_UNSPECIFIED_IPADDR) ; + PFREE(prim) ; + break ; + default: /* Unexpected error code. */ + tcpip_hostinfo_cnf(prim->app_handle, TCPIP_RESULT_INTERNAL_ERROR, + prim->request_id, NULL, TCPIP_UNSPECIFIED_IPADDR) ; + PFREE(prim) ; + break ; + } + /* Do *not* PFREE(primdata) -- the primitive is used as userdata for the + * RNET call. */ +} + + +/** Handle a TCPIP_MTU_SIZE_REQ primitive from the Socket API. + * + * @param primdata Data part of the primitive. + */ +void tcpip_mtu_size_req(void *primdata) +{ + T_TCPIP_MTU_SIZE_REQ *prim = primdata ; + + TRACE_FUNCTION("tcpip_mtu_size_req()") ; + + if (INVALID_S_INDEX(prim->socket)) + { + TRACE_ERROR("Invalid socket index in tcpip_mtu_size_req()") ; + tcpip_mtu_size_cnf(prim->app_handle, TCPIP_RESULT_INVALID_PARAMETER, + prim->socket, TCPIP_DEFAULT_MTU_SIZE) ; + } + else + { + /* The MTU size is usually not negotiated between the network and the + * mobile station. It is guaranteed, though, that it is not less than 1500 + * bytes, and that is what we report here. This might be changed to some + * "real" value queried from the interface when the need comes up. + */ + tcpip_mtu_size_cnf(prim->app_handle, TCPIP_RESULT_OK, prim->socket, + TCPIP_DEFAULT_MTU_SIZE) ; + } + PFREE(primdata) ; +} + + +/** Handle a TCPIP_INTERNAL_IND primitive sent by TCPIP itself. + * + * @param primdata Data part of the primitive. + * @return + */ +void tcpip_internal_ind(void *primdata) +{ + T_TCPIP_INTERNAL_IND *prim = primdata ; + T_RVM_RETURN retval ; + + TRACE_FUNCTION("tcpip_internal_ind()") ; + + TRACE_EVENT_P1("received TCPIP_INTERNAL_IND id %d", prim->msg_id) ; + retval = rnet_rt_handle_message((T_RV_HDR *) prim->msg_p) ; + if (retval != RV_OK) + { + TRACE_EVENT_P1("rnet_rt_handle_message() returned %d", retval) ; + } + PFREE(primdata) ; +} + +/* EOF */