view src/g23m-gprs/sm/sm_mm_output_handler.c @ 268:f2e52cab0a73

abb_inth.c: check all interrupt causes, not just one The original code used if - else if - else if etc constructs, thus the first detected interrupt was the only one handled. However, Iota ITSTATREG is a clear-on-read register, thus if we only handle the first detected interrupt and skip checking the others, then the other interrupts will be lost, if more than one interrupt happened to occur in one ABB interrupt handling cycle - a form of rare race condition. Change the code to check all interrupts that were read in this cycle.
author Mychaela Falconia <falcon@freecalypso.org>
date Sun, 13 Jun 2021 18:17:53 +0000
parents fa8dc04885d8
children
line wrap: on
line source

/*----------------------------------------------------------------------------
|  Project :  3G PS
|  Module  :  SM
+-----------------------------------------------------------------------------
|             Copyright 2003 Texas Instruments.
|             All rights reserved. 
| 
|             This file is confidential and a trade secret of Texas 
|             Instruments .
|             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. 
+-----------------------------------------------------------------------------
| Purpose:    Output functions for primitives from SM to the MM entity.
|             For design details, see:
|             8010.908 SM Detailed Specification
+---------------------------------------------------------------------------*/

/*==== DECLARATION CONTROL =================================================*/

/*==== INCLUDES ============================================================*/

#include "sm.h"
#include "message.h"
#include "ccdapi.h"

#include "sm_mm_output_handler.h"
#include "sm_qos.h"
#include "sm_tft.h"

/*==== CONSTS ===============================================================*/

/*==== TYPES ================================================================*/

/*==== LOCALS ===============================================================*/

#define SM_MM_SEND_MSG(c,e,s,M) sm_mm_send_msg(c,e,s,BSIZE_##M##)

/*==== PRIVATE FUNCTIONS ====================================================*/

/*
+------------------------------------------------------------------------------
| Function    :  sm_set_ti_pd
+------------------------------------------------------------------------------
| Description : Prepend TI and PD to an outgoing air interface message
|
| Parameters  : ti, pd
|
+------------------------------------------------------------------------------
*/
static void sm_set_ti_pd(U8 ti, T_MSGBUF *msg)
{
  U8 ti_flag  = ti & SM_TI_FLAG;
  U8 msg_type = msg->buf[msg->o_buf >> 3];

  /* Check for extended ti */
  if ( (ti & SM_TI_MASK) > (U8)SM_MAX_NON_EXT_TI) {  /* TRUE == Extended TI */
    /* Value assigned to variable to shut up Visual C */
    U8 ti_msb = ti_flag | 0x70 | PD_SM;
    U8 ti_lsb = ti & 127 | 0x80; /* TI EXT must be 1 [3G 24.007, 11.2.3.1.3] */

    /* Insert extended ti flag + PD in first octet, and ti value in octet 2 */
    (void)ccd_codeByte(msg->buf, (U16)(msg->o_buf-16), (U16)8, ti_msb);
    (void)ccd_codeByte(msg->buf, (U16)(msg->o_buf-8),  (U16)8, ti_lsb);
    msg->l_buf += 16;
    msg->o_buf -= 16;

    (void)TRACE_EVENT_P8("L3 HDR: 0x%02x [0x%02x] 0x%02x {ti_flag=%d, "
                         "ti=%d, pd=%d, ext_ti=%d, msg_type=0x%02x}",
                         msg->buf[msg->o_buf >> 3],
                         msg->buf[(msg->o_buf >> 3) + 1],
                         msg->buf[(msg->o_buf >> 3) + 2],
                         (ti_flag != (U8)0 ? 1 : 0),
                         ti, PD_SM, ti_lsb, msg_type);
  } else {  /* (ti & SM_TI_MASK) <= SM_MAX_NON_EXT_TI:  Non-extended TI */
    /* Value assigned to variable to shut up Visual C */
    U8 ti_val = ti_flag | ((ti & SM_TI_NON_EXT_MASK) << 4) | PD_SM;

    /* Insert non-extended ti value in msg */
    (void)ccd_codeByte(msg->buf, (USHORT)(msg->o_buf-8), (U16)8, ti_val);
    msg->l_buf += 8;
    msg->o_buf -= 8;

    (void)TRACE_EVENT_P6("L3 HDR: 0x%02x [] 0x%02x {ti_flag=%d, "
                         "ti=%d, pd=%d, msg_type=0x%02x}",
                         msg->buf[msg->o_buf >> 3],
                         msg->buf[(msg->o_buf >> 3) + 1],
                         (ti_flag != (U8)0 ? 1 : 0), ti, PD_SM, msg_type);
 }
}

static U8 sm_mmpm_establish_cause(struct T_SM_CONTEXT_DATA *context)
{
  T_PS_tc traffic_class;

  if (context != NULL) {
    /*
     * Call QoS helper function to extract requested traffic class QoS
     * parameter from the requested QoS parameters for this context/NSAPI.
     */
    traffic_class = (T_PS_tc)sm_qos_get_traffic_class(context);

    switch (traffic_class) {
    case PS_TC_CONV:
      return (U8)MMPM_CAUSE_ESTABL_ORIG_CONVERSATIONAL;
    case PS_TC_STREAM:
      return (U8)MMPM_CAUSE_ESTABL_ORIG_STREAMING;
    case PS_TC_INTER:
      return (U8)MMPM_CAUSE_ESTABL_ORIG_INTERACTIVE;
    case PS_TC_BG:
      return (U8)MMPM_CAUSE_ESTABL_ORIG_BACKGROUND;
    default:
      /* For subscribed QoS, high priority signalling is used by default. */
      return (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING;
    }
  } else {
    return (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING;
  }
}

static U8 sm_cause_ps_to_air(T_CAUSE_ps_cause *cause)
{
  switch (cause->ctrl_value) {
  case CAUSE_is_from_nwsm:
    return (U8)cause->value.nwsm_cause;
  default:
    (void)TRACE_ERROR("Causes not from M_SM not supported yet!");
    return (U8)cause->value.nwsm_cause;
  }
}

/*
+------------------------------------------------------------------------------
| Function    : send_mmpm_unitdata_req
+------------------------------------------------------------------------------
| Description : Call CCD to code AIM and send MMPM_UNITDATA_REQ primitive.
|
| Parameters  : ti          - Transaction identifier
|               est_cause   - establish cause (for MM)
|               prim        - Formatted air interface message
+------------------------------------------------------------------------------
*/
static void send_mmpm_unitdata_req(U8 ti, U8 est_cause,
                                   /*@null@*/struct T_SM_CONTEXT_DATA *context,
                                   /*@only@*/ /*@null@*/
                                   T_MMPM_UNITDATA_REQ *prim)
{
  (void)TRACE_FUNCTION("send_mmpm_unitdata_req");

  TRACE_ASSERT (prim != NULL);

  if (prim EQ NULL)
    return;

  /* Originating entity is SM */
  prim->org_entity        = (U8)NAS_ORG_ENTITY_SM;

  /* Add establish cause and PDP context status elements */
  prim->v_establish_cause = (U8)TRUE;
  prim->establish_cause   = est_cause;

  prim->v_nsapi_set       = (U8)TRUE;
  prim->nsapi_set         = sm_get_pdp_context_status();

  if (ccd_codeMsg((U8)CCDENT_SM, (U8)UPLINK, (T_MSGBUF *)&prim->sdu,
                  _decodedMsg, (U8)NOT_PRESENT_8BIT) != (U8)ccdOK) {
    /*
     * Error Handling
     */
    (void)TRACE_ERROR( "Error in outgoing message" ) ;
    sm_pfree(prim);
  } else {
    /*
     * Add TI and PD to air interface message
     * Note: "sm_set_ti_pd" updates SDU length and offset according
     * to TI size (i.e. whether extended TIs are needed)
     */
    sm_set_ti_pd(ti, (T_MSGBUF *)&prim->sdu);

    if (context != NULL) {
      /* Store coded message for retransmission etc. */
      sm_allocate_and_copy_coded_msg(context, est_cause, &prim->sdu);
    }

    /* No sending primitives if SM is suspended or not attached
     * - resume will cause retransmission */
    if (!sm_is_suspended() && sm_is_attached()) {
      (void)PSEND(hCommMM, prim);
    } else {
      (void)TRACE_EVENT( "Primitive NOT sent to GMM. SM is suspended or GPRS not attached" );
      sm_pfree(prim);
    }
  }
}

/*
+------------------------------------------------------------------------------
| Function    : sm_mm_send_msg
+------------------------------------------------------------------------------
| Description : Send message using MM.  Codes message using CCD, stores it
|               for retransmission, and sends it (unless SM is suspended).
|
| Parameters  : context     - Context data
|               est_cause   - establish cause (for MM)
|               msg_bitlen  - Maximum message bit length
+------------------------------------------------------------------------------
*/
static void sm_mm_send_msg(struct T_SM_CONTEXT_DATA *context, U8 est_cause,
                           BOOL store_coded_msg, int msg_bitlen)
{
  (void)TRACE_FUNCTION("sm_mm_send_msg");

  {
    T_MMPM_UNITDATA_REQ *mmpm_unitdata_req;

    mmpm_unitdata_req = (T_MMPM_UNITDATA_REQ *)
      vsi_c_new_sdu(SIZ(T_MMPM_UNITDATA_REQ), MMPM_UNITDATA_REQ,
                    (U16)msg_bitlen, offsetof(T_MMPM_UNITDATA_REQ, sdu), /*lint -e413*/
                    ENCODE_OFFSET  FILE_LINE_MACRO);

    TRACE_ASSERT(mmpm_unitdata_req != NULL);

    send_mmpm_unitdata_req(context->ti, est_cause,
                           (store_coded_msg ? context : NULL),
                           mmpm_unitdata_req);
  }
}

/*==== PUBLIC FUNCTIONS =====================================================*/

/*
+------------------------------------------------------------------------------
| Function    : resend_msg
+------------------------------------------------------------------------------
| Description : Resend previously coded message
|
| Parameters  : ti          - Transaction identifier
|               est_cause   - establish cause (for MM)
+------------------------------------------------------------------------------
*/
void resend_msg(struct T_SM_CONTEXT_DATA *context)
{
  T_sdu  *message = context->coded_msg;

  (void)TRACE_FUNCTION("resend_msg");

  /* Send nothing if SM is suspended or not attached */
  if (sm_is_suspended() || !sm_is_attached())
  {
    return;
  }

  if (message != NULL)
  {
    T_MMPM_UNITDATA_REQ *prim;

    prim = (T_MMPM_UNITDATA_REQ *)
      vsi_c_new_sdu(SIZ(T_MMPM_UNITDATA_REQ), MMPM_UNITDATA_REQ,
                    message->l_buf, offsetof(T_MMPM_UNITDATA_REQ, sdu), /*lint -e413*/
                    ENCODE_OFFSET  FILE_LINE_MACRO);

    TRACE_ASSERT (prim != NULL);

    if (prim EQ NULL)
      return;

    prim->sdu.l_buf = message->l_buf;
    memcpy(&prim->sdu.buf[(prim->sdu.o_buf >> 3)], message->buf,
           (size_t)(message->l_buf >> 3));

    /* Originating entity is SM */
    prim->org_entity        = (U8)NAS_ORG_ENTITY_SM;

    /* Add establish cause and PDP context status elements */
    prim->v_establish_cause = (U8)TRUE;
    prim->establish_cause   = (U8)message->o_buf;

    prim->v_nsapi_set       = (U8)TRUE;
    prim->nsapi_set         = sm_get_pdp_context_status();

    (void)PSEND(hCommMM, prim);
  }
}

/*
+------------------------------------------------------------------------------
| Function    : send_mmpm_pdp_context_status_req
+------------------------------------------------------------------------------
| Description : Allocate, pack and send MMPM_PDP_CONTEXT_STATUS_REQ primitive.
|
| Parameters  : None
+------------------------------------------------------------------------------
*/
void send_mmpm_pdp_context_status_req(void)
{
  (void)TRACE_FUNCTION("send_mmpm_pdp_context_status_req");
  {
    PALLOC(prim, MMPM_PDP_CONTEXT_STATUS_REQ);

    TRACE_ASSERT(prim != NULL);
/*lint -e613 (Possible use of null pointer 'prim' in left argument to operator '->') */
    prim->nsapi_set         = sm_get_pdp_context_status();

    (void)PSEND(hCommMM, prim);
/*lint +e613 (Possible use of null pointer 'prim' in left argument to operator '->') */	
  }
}

/* Air Interface Message formatting functions */
void send_msg_activate_pdp_context_request(struct T_SM_CONTEXT_DATA *context)
{
  int   addr_len;
  MCAST(msg, ACTIVATE_PDP_CONTEXT_REQUEST);

  (void)TRACE_FUNCTION("send_msg_activate_pdp_context_request");

  msg->msg_type        = (U8)ACTIVATE_PDP_CONTEXT_REQUEST;
  msg->nsapi.nsapi_val = context->nsapi;

  msg->llc_sapi.sapi   = (U8)PS_SAPI_3;

  /*
   * Assign air message QoS parameters from SMREG parameters. Release conversion included.
   */
  sm_qos_convert_to_aim(&context->requested_qos,
                        &msg->qos, sm_get_current_nw_release());

  switch (context->pdp_type) {
  case SMREG_PDP_PPP:
    msg->address.pdp_type_org = (U8)M_SM_ETSI_ORG;
    msg->address.pdp_type_no  = (U8)M_SM_PPP_TYPE;
    break;
  case SMREG_PDP_IPV6:
    msg->address.pdp_type_org = (U8)M_SM_IETF_ORG;
    msg->address.pdp_type_no  = (U8)M_SM_IP6_TYPE;
    break;
  case SMREG_PDP_IPV4:
    msg->address.pdp_type_org = (U8)M_SM_IETF_ORG;
    msg->address.pdp_type_no  = (U8)M_SM_IP4_TYPE;
    break;
  case SMREG_PDP_EMPTY:
  default:
    msg->address.pdp_type_org = (U8)M_SM_PDP_MT;
    msg->address.pdp_type_no  = (U8)0;
  }

  switch (context->requested_address.ctrl_ip_address) {
  case NAS_is_ipv4:
    addr_len = NAS_SIZE_IPv4_ADDR;
    break;
  case NAS_is_ipv6:
    addr_len = NAS_SIZE_IPv6_ADDR;
    break;
  case NAS_is_ip_not_present: /* No IP address requested == dynamic IP */
  default:
    addr_len = 0;
    break;
  }
  msg->address.c_add_info = (U8)addr_len;
  memcpy(&msg->address.add_info,
         &context->requested_address.ip_address,
         (size_t)addr_len);

  /*
   * Access Point Name.
   */
  if (context->apn != NULL && context->apn->c_apn_buf > (U8)0) {
    msg->v_apn           = (U8)TRUE;
    msg->apn.c_apn_value = context->apn->c_apn_buf;
    memcpy(msg->apn.apn_value,
           context->apn->apn_buf,
           (size_t)context->apn->c_apn_buf);
  } else {
    msg->v_apn           = (U8)FALSE;
    msg->apn.c_apn_value = (U8)0;
  }

  /*
   * Protocol configuration options.
   */
  if (context->requested_pco != NULL &&
      context->requested_pco->c_pco_value > (U8)0) {
    msg->v_pco           = (U8)TRUE;
    msg->pco.c_pco_value = context->requested_pco->c_pco_value;
    memcpy(msg->pco.pco_value,
           context->requested_pco->pco_value,
           (size_t)context->requested_pco->c_pco_value);
  } else {
    msg->v_pco           = (U8)FALSE;
  }

  SM_MM_SEND_MSG(context, sm_mmpm_establish_cause(context),
                 TRUE, ACTIVATE_PDP_CONTEXT_REQUEST);
}

void send_msg_activate_secondary_pdp_context_request(struct T_SM_CONTEXT_DATA *context)
{
  MCAST(msg, ACTIVATE_SECONDARY_PDP_CONTEXT_REQUEST);

  (void)TRACE_FUNCTION("send_msg_activate_secondary_pdp_context_request");

  msg->msg_type        = (U8)ACTIVATE_SECONDARY_PDP_CONTEXT_REQUEST;
  msg->nsapi.nsapi_val = (U8)context->nsapi;

  msg->llc_sapi.sapi   = (U8)PS_SAPI_3;

  /*
   * Assign air message QoS parameters from SMREG parameters. Release conversion included.
   */
  sm_qos_convert_to_aim(&context->requested_qos,
                        &msg->qos, sm_get_current_nw_release());

  if (context->requested_tft.ptr_tft_pf != NULL)
  {
    msg->v_tft = (U8)TRUE;
    sm_tft_convert_to_aim(context, &msg->tft);
  } else {
    msg->v_tft = (U8)FALSE;
  }

  SM_MM_SEND_MSG(context, sm_mmpm_establish_cause(context),
                 TRUE, ACTIVATE_SECONDARY_PDP_CONTEXT_REQUEST);
}

void send_msg_deactivate_pdp_context_accept(struct T_SM_CONTEXT_DATA *context)
{
  MCAST(msg, DEACTIVATE_PDP_CONTEXT_ACCEPT);

  (void)TRACE_FUNCTION("send_msg_deactivate_pdp_context_accept");

  msg->msg_type        = (U8)DEACTIVATE_PDP_CONTEXT_ACCEPT;

  SM_MM_SEND_MSG(context, (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING,
                 FALSE, DEACTIVATE_PDP_CONTEXT_ACCEPT);
}

void send_msg_deactivate_pdp_context_request(struct T_SM_CONTEXT_DATA *context, /*@partial@*/T_CAUSE_ps_cause *cause, BOOL tear_down)
{
  MCAST(msg, DEACTIVATE_PDP_CONTEXT_REQUEST);

  (void)TRACE_FUNCTION("send_msg_deactivate_pdp_context_request");

  msg->msg_type        = (U8)DEACTIVATE_PDP_CONTEXT_REQUEST;

  msg->sm_cause.sm_cause_val = sm_cause_ps_to_air(cause);

  if (tear_down) {
    msg->v_tear_down   = (U8)TRUE;
    msg->tear_down.tear_down_flag = (U8)1;
  } else {
    msg->v_tear_down   = (U8)FALSE;
  }

  SM_MM_SEND_MSG(context, (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING,
                 TRUE, DEACTIVATE_PDP_CONTEXT_REQUEST);
}

void send_msg_modify_pdp_context_accept(struct T_SM_CONTEXT_DATA *context)
{
  MCAST(msg, U_MODIFY_PDP_CONTEXT_ACCEPT);

  (void)TRACE_FUNCTION("send_msg_modify_pdp_context_accept");

  msg->msg_type        = (U8)U_MODIFY_PDP_CONTEXT_ACCEPT;

  SM_MM_SEND_MSG(context, (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING,
                 FALSE, U_MODIFY_PDP_CONTEXT_ACCEPT);
}

void send_msg_modify_pdp_context_request(struct T_SM_CONTEXT_DATA *context)
{
  MCAST(msg, U_MODIFY_PDP_CONTEXT_REQUEST);

  (void)TRACE_FUNCTION("send_msg_modify_pdp_context_request");

  msg->msg_type        = (U8)U_MODIFY_PDP_CONTEXT_REQUEST;

  if (context->sapi != (U8)PS_SAPI_0) {
    msg->v_llc_sapi    = (U8)TRUE;
    msg->llc_sapi.sapi = (U8)context->sapi;
  } else {
    msg->v_llc_sapi    = (U8)FALSE;
  }

  if (sm_qos_is_requested_qos_present(context)) {
    msg->v_qos         = (U8)TRUE;
    /* Assign air message QoS parameters from SMREG parameters. Release conversion included. */
    sm_qos_convert_to_aim(&context->requested_qos,
                          &msg->qos, sm_get_current_nw_release());
  } else {
    msg->v_qos         = (U8)FALSE;
  }

  if (sm_tft_more_to_modify(context))
  {
    msg->v_tft = (U8)TRUE;
    sm_tft_convert_to_aim(context, &msg->tft);
  } else {
    msg->v_tft = (U8)FALSE;
  }

  SM_MM_SEND_MSG(context, (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING,
                 TRUE, U_MODIFY_PDP_CONTEXT_REQUEST);
}

void send_msg_request_pdp_context_activation_reject(struct T_SM_CONTEXT_DATA *context, /*@partial@*/T_CAUSE_ps_cause *cause)
{
  MCAST(msg, REQUEST_PDP_CONTEXT_ACTIVATION_REJECT);

  (void)TRACE_FUNCTION("send_msg_request_pdp_context_activation_reject");

  msg->msg_type              = (U8)REQUEST_PDP_CONTEXT_ACTIVATION_REJECT;
  msg->sm_cause.sm_cause_val = (U8)sm_cause_ps_to_air(cause);
  {
    /* This message must ALWAYS have TI flag set, as it is a reply to the network. */
    U8 ti = context->ti | SM_TI_FLAG;
    PALLOC_MSG(mmpm_unitdata_req, MMPM_UNITDATA_REQ, REQUEST_PDP_CONTEXT_ACTIVATION_REJECT);

    send_mmpm_unitdata_req(ti, (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING,
                           NULL, mmpm_unitdata_req);
  }
}

void send_msg_sm_status(U8 ti, /*@partial@*/T_CAUSE_ps_cause *cause)
{
  MCAST(msg, SM_STATUS);

  (void)TRACE_FUNCTION("send_msg_sm_status");

  msg->msg_type              = (U8)SM_STATUS;
  msg->sm_cause.sm_cause_val = sm_cause_ps_to_air(cause);
  {
    PALLOC_MSG(mmpm_unitdata_req, MMPM_UNITDATA_REQ, SM_STATUS);

    send_mmpm_unitdata_req(ti, (U8)MMPM_CAUSE_ESTABL_ORIG_HIGH_PRIO_SIGNALLING,
                           NULL, mmpm_unitdata_req);
  }
}

/*==== END OF FILE ==========================================================*/