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view src/g23m-fad/udp/udp_kerf.c @ 214:adfdbcd360fd

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backlight evolution: API between Condat driver and MFW With this change, the API between the Condat backlight driver and its user in MFW now carries more abstract backlight state codes (fully off, fully on, in call, charging boot mode) instead of 0-255 levels. This change is needed in order to more properly support different hardware targets with different capabilities and approaches in terms of backlight handling.
author Mychaela Falconia <falcon@freecalypso.org>
date Fri, 23 Apr 2021 23:52:02 +0000
parents fa8dc04885d8
children
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/*
+----------------------------------------------------------------------------
|  Project :
|  Modul   :
+----------------------------------------------------------------------------
|  Copyright 2002 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 :  This Modul defines the functions for processing
|             of incomming primitives for the component
|             Internet Protocol of the mobile station
+----------------------------------------------------------------------------
*/

#define ENTITY_UDP

#include <string.h>
#include "typedefs.h"
#include "pcm.h"
#include "pconst.cdg"
#include "mconst.cdg"
#include "message.h"
#include "ccdapi.h"
#include "vsi.h"
#include "macdef.h" /* to get PFREE_DESC2 */
#include "custom.h"
#include "gsm.h"
#include "prim.h"
#include "cus_udp.h"
#include "cnf_udp.h"
#include "mon_udp.h"
#include "pei.h"
#include "tok.h"
#include "dti.h" /* to get dti lib */
#include "udp.h"
#include "ip_udp.h"

/*
+--------------------------------------------------------------------+
| PROJECT : WAP                                 MODULE  : udp_kerf.c |
| STATE   : code                                ROUTINE : init_udp   |
+--------------------------------------------------------------------+

  PURPOSE : Init the global variables of UDP
*/

void init_udp (void)
{
  T_HILA * p_ul;
  T_LOLA * p_dl;
  T_KER * p_ker = & udp_data->ker;

  /* Set global variables for every entity */

  INIT_STATE (HILA, DOWN);
  INIT_STATE (LOLA, DOWN);

  p_ul = & udp_data->hila;
  *p_ul->entity_name = 0;
  p_ul->dti_state    = DTI_CLOSED;
  p_ul->dti_data_req = NULL;

  p_dl = & udp_data->lola;
  *p_dl->entity_name = 0;
  p_dl->dti_state    = DTI_CLOSED;
  p_dl->dti_data_ind = NULL;
  p_dl->drop_packet  = FALSE;
  p_dl->state_err    = STATE_DL_NO_ERROR;
  p_dl->src_addr     = NO_ADDR;
  p_dl->dst_addr     = NO_ADDR;
  p_dl->dst_port     = NO_PORT;
  p_dl->src_port     = NO_PORT;

  /* Downlink and uplink for one entity */

  p_ker->send_icmp         = FALSE;
  p_ker->port_state        = PORT_DOWN;
  p_ker->dti_data_req_icmp = NULL;

  p_ker->dst_addr = NO_ADDR;
  p_ker->src_addr = NO_ADDR;
  p_ker->src_port = NO_PORT;
  p_ker->dst_port = NO_PORT;
}

/*
+--------------------------------------------------------------------+
| PROJECT : WAP                           MODULE  : udp_kerf.c       |
| STATE   : code                          ROUTINE : udp_build_packet |
+--------------------------------------------------------------------+

  PURPOSE : Build UDP and ICMP packets to send
*/

void udp_build_packet (BOOL hila, UBYTE to_do)
{
  T_KER * p_ker = & udp_data->ker;

  if (hila) /* Build the packets for higher layer */
  {
    switch (to_do)
    {
    case B_NORMAL_PACKET:
      {
        T_desc_list2 * desc_list = & udp_data->hila.dti_data_req->desc_list2;
        T_desc2 * desc = (T_desc2 *) desc_list->first;
        USHORT udp_payload_len = desc_list->list_len;

        if (desc == NULL)
        {
          TRACE_ERROR ("Hila's desc == NULL in udp_build_packet().");
          return;
        }
        else
        {
          /* Make a new desc for the IP and UDP packet header */

          USHORT headroom = LEN_IP_HEADER_B + LEN_UDP_HEADER_B;
          UBYTE * ip_header;
          T_desc2 * desc_new = M_ALLOC (offsetof (T_desc2, buffer) + headroom);

          if (desc_new == NULL)
          {
            TRACE_ERROR ("Not enough memory in udp_build_packet().");
            return;
          }
          desc_new->next = (ULONG) desc;
          desc_new->offset = 0;
          desc_new->len = headroom;
          desc_new->size = headroom;
          ip_header = desc_new->buffer;
          {
            register unsigned i;
            for (i=0; i < headroom; i++)
              ip_header[i] = '\0';/*lint !e661 !e662 (Warning -- access/creation of out-of-bounds pointer) */
          }

          /* Put the desc at the first place of the descs and
           * build the UDP header */

          desc_list->first = (ULONG) desc_new;
          desc_list->list_len = (USHORT) (desc_new->len + desc_list->list_len);

          /* Fill in IP header information */

          SET_IP_VERSION (ip_header, IP_VERSION);
          SET_IP_HEADER_LEN (ip_header, MIN_HEADER_LEN);
          /*lint -e{661, 662} (Warning -- access/creation of out-of-bounds pointer) */
         {
          SET_IP_TOTAL_LEN (ip_header, desc_list->list_len);
          SET_IP_PROT (ip_header, UDP_PROT);
          SET_IP_SOURCE_ADDR (ip_header, p_ker->src_addr);
          SET_IP_DEST_ADDR (ip_header, p_ker->dst_addr);

          SET_UDP_SRC_PORT (ip_header, p_ker->src_port);
          SET_UDP_DST_PORT (ip_header, p_ker->dst_port);
          SET_UDP_LEN (ip_header, udp_payload_len + LEN_UDP_HEADER_B);
          }
          {
            UBYTE pseudo_header [LEN_PSEUDO_HEADER_B];
            ULONG overlay;
            USHORT chksum;

            /* Build the pseudoheader for to calculate the chksum */

            SET_UDP_PSEUDO_H_SRC_ADDR (pseudo_header, p_ker->src_addr);
            SET_UDP_PSEUDO_H_DEST_ADDR (pseudo_header, p_ker->dst_addr);
            SET_UDP_PSEUDO_H_ZERO (pseudo_header, 0);
            SET_UDP_PSEUDO_H_PROT (pseudo_header, UDP_PROT);
            SET_UDP_PSEUDO_H_LEN (pseudo_header, udp_payload_len + LEN_UDP_HEADER_B);

            /* Calculate the checksum for the pseudoheader */
            overlay = partial_checksum (pseudo_header, LEN_PSEUDO_HEADER_B);

            /* Calculate for the UDP header and the data */
            RESET_UDP_CHKSUM (ip_header, LEN_IP_HEADER_B);/*lint !e661 !e662 (Warning -- access/creation of out-of-bounds pointer) */
            chksum = desc_checksum (desc_list, LEN_IP_HEADER_B, overlay);
            SET_UDP_CHKSUM (ip_header, LEN_IP_HEADER_B, chksum);/*lint !e661 !e662 (Warning -- access/creation of out-of-bounds pointer) */
          }
        }
      }
      break;

    default:
      break;
    }
  }
  else /* Build the packets for lower layer */
  {
    T_LOLA * p_dl = & udp_data->lola;
    T_desc_list2 * desc_list = & p_dl->dti_data_ind->desc_list2;
    T_desc2 * desc = (T_desc2 *) desc_list->first;

    if (desc == NULL)
    {
      TRACE_ERROR ("Lola's desc == NULL in udp_build_packet().");
      return;
    }
    if (desc->len < LEN_IP_HEADER_B)
    {
      TRACE_ERROR (
        "Lola's desc->len < LEN_IP_HEADER_B "
        "in udp_build_packet()."
      );
      return;
    }
    if (GET_IP_HEADER_LEN_B (desc->buffer + desc->offset) < LEN_IP_HEADER_B)
    {
      TRACE_ERROR (
        "Lola's GET_IP_HEADER_LEN_B() < LEN_IP_HEADER_B "
        "in udp_build_packet()."
      );
      return;
    }

    switch (to_do)
    {
    case B_NORMAL_PACKET:
      {
        /* Build a new desc for IP addresses and port numbers */

        T_desc2 * addr = M_ALLOC (
          offsetof (T_desc2, buffer) + sizeof (T_SRC_DES)
        );
        if (addr == NULL) {
          TRACE_ERROR ("Not enough memory in udp_build_packet().");
          return;
        }

        addr->next = (ULONG) desc;
        addr->offset = 0;
        addr->len = sizeof (T_SRC_DES);
        addr->size = sizeof (T_SRC_DES);

        memcpy (((T_SRC_DES *) addr->buffer)->src_ip, & p_dl->src_addr, 4);
        memcpy (((T_SRC_DES *) addr->buffer)->des_ip, & p_dl->dst_addr, 4);
        memcpy (((T_SRC_DES *) addr->buffer)->src_port, & p_dl->src_port, 2);
        memcpy (((T_SRC_DES *) addr->buffer)->des_port, & p_dl->dst_port, 2);

        desc_list->first = (ULONG) addr;
        desc_list->list_len = (USHORT) (addr->len + desc_list->list_len);

        /* Filter out the given IP and UDP header */
        {
          register unsigned headroom =
            GET_IP_HEADER_LEN_B (desc->buffer + desc->offset) + LEN_UDP_HEADER_B;
          if (desc->len < headroom)
          {
            TRACE_ERROR ("Lola's IP packet is short in udp_build_packet().");
            return;
          }
          memmove (
            desc->buffer + desc->offset,
            desc->buffer + desc->offset + headroom,
            desc->len - headroom
          );
          desc->len = (USHORT) (desc->len - headroom);
          desc_list->list_len = (USHORT) (desc_list->list_len - headroom);
        }
      }
      break;

    case B_NO_DEST_PORT:
      {
        /* We build the whole ICMP packet */

        PPASS (p_dl->dti_data_ind, data_req, DTI2_DATA_REQ);

        desc_list = & data_req->desc_list2;
        desc = (T_desc2 *) desc_list->first;

        build_icmp_with_payload (
          data_req,
          IDENTITY_0,
          STANDARD_TTL,
          GET_IP_DEST_ADDR (desc->buffer + desc->offset),
          ICMP_TYP_DEST_URECHBL,
          ICMP_CODE_NO_PORT
        );

        p_ker->dti_data_req_icmp = data_req;
      }
      break;

    default:
      break;
    }
  }
}

/*-------------------------------------------------------------------------*/