Index: stable/11/sys/dev/isci/scil/scif_sas_controller.c
===================================================================
--- stable/11/sys/dev/isci/scil/scif_sas_controller.c	(revision 360841)
+++ stable/11/sys/dev/isci/scil/scif_sas_controller.c	(revision 360842)
@@ -1,1255 +1,1255 @@
 /*-
  * This file is provided under a dual BSD/GPLv2 license.  When using or
  * redistributing this file, you may do so under either license.
  *
  * GPL LICENSE SUMMARY
  *
  * Copyright(c) 2008 - 2011 Intel Corporation. All rights reserved.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of version 2 of the GNU General Public License as
  * published by the Free Software Foundation.
  *
  * This program is distributed in the hope that it will be useful, but
  * WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
  * The full GNU General Public License is included in this distribution
  * in the file called LICENSE.GPL.
  *
  * BSD LICENSE
  *
  * Copyright(c) 2008 - 2011 Intel Corporation. All rights reserved.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  *
  *   * Redistributions of source code must retain the above copyright
  *     notice, this list of conditions and the following disclaimer.
  *   * Redistributions in binary form must reproduce the above copyright
  *     notice, this list of conditions and the following disclaimer in
  *     the documentation and/or other materials provided with the
  *     distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */
 
 #include <sys/cdefs.h>
 __FBSDID("$FreeBSD$");
 
 /**
  * @file
  *
  * @brief This file contains the implementation of the SCIF_SAS_CONTROLLER
  *        object.
  */
 
 
 #include <dev/isci/scil/sci_status.h>
 #include <dev/isci/scil/sci_util.h>
 #include <dev/isci/scil/sci_controller.h>
 #include <dev/isci/scil/scic_controller.h>
 #include <dev/isci/scil/scic_user_callback.h>
 #include <dev/isci/scil/scif_user_callback.h>
 
 #include <dev/isci/scil/scif_sas_controller.h>
 #include <dev/isci/scil/scif_sas_library.h>
 #include <dev/isci/scil/scif_sas_logger.h>
 
 
 //******************************************************************************
 //* P U B L I C   M E T H O D S
 //******************************************************************************
 
 SCI_STATUS scif_controller_construct(
    SCI_LIBRARY_HANDLE_T      library,
    SCI_CONTROLLER_HANDLE_T   controller,
    void *                    user_object
 )
 {
    SCI_STATUS              status        = SCI_SUCCESS;
    SCIF_SAS_LIBRARY_T    * fw_library    = (SCIF_SAS_LIBRARY_T*) library;
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if ((library == SCI_INVALID_HANDLE) || (controller == SCI_INVALID_HANDLE))
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(library),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_INITIALIZATION,
       "scif_controller_construct(0x%x, 0x%x) enter\n",
       library, controller
    ));
 
    // Construct the base controller.  As part of constructing the base
    // controller we ask it to also manage the MDL iteration for the Core.
    sci_base_controller_construct(
       &fw_controller->parent,
       sci_base_object_get_logger(fw_library),
       scif_sas_controller_state_table,
       fw_controller->mdes,
       SCIF_SAS_MAX_MEMORY_DESCRIPTORS,
       sci_controller_get_memory_descriptor_list_handle(fw_controller->core_object)
    );
 
    scif_sas_controller_initialize_state_logging(fw_controller);
 
    sci_object_set_association(fw_controller, user_object);
 
    status = scic_controller_construct(
                fw_library->core_object, fw_controller->core_object, fw_controller
             );
 
    // If the core controller was successfully constructed, then
    // finish construction of the framework controller.
    if (status == SCI_SUCCESS)
    {
       // Set the association in the core controller to this framework
       // controller.
       sci_object_set_association(
          (SCI_OBJECT_HANDLE_T) fw_controller->core_object, fw_controller
       );
 
       sci_base_state_machine_change_state(
         &fw_controller->parent.state_machine,
          SCI_BASE_CONTROLLER_STATE_RESET
       );
    }
 
    return status;
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_initialize(
    SCI_CONTROLLER_HANDLE_T   controller
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if (controller == SCI_INVALID_HANDLE)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_INITIALIZATION,
       "scif_controller_initialize(0x%x) enter\n",
       controller
    ));
 
    return fw_controller->state_handlers->initialize_handler(
              &fw_controller->parent
           );
 }
 
 // ---------------------------------------------------------------------------
 
 U32 scif_controller_get_suggested_start_timeout(
    SCI_CONTROLLER_HANDLE_T  controller
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if (controller == SCI_INVALID_HANDLE)
       return 0;
 
    // Currently we aren't adding any additional time into the suggested
    // timeout value for the start operation.  Simply utilize the core
    // value.
    return scic_controller_get_suggested_start_timeout(fw_controller->core_object);
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_start(
    SCI_CONTROLLER_HANDLE_T  controller,
    U32                      timeout
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if (controller == SCI_INVALID_HANDLE)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_INITIALIZATION,
       "scif_controller_start(0x%x, 0x%x) enter\n",
       controller, timeout
    ));
 
    return fw_controller->state_handlers->
           start_handler(&fw_controller->parent, timeout);
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_stop(
    SCI_CONTROLLER_HANDLE_T  controller,
    U32                      timeout
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if (controller == SCI_INVALID_HANDLE)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_SHUTDOWN,
       "scif_controller_stop(0x%x, 0x%x) enter\n",
       controller, timeout
    ));
 
    return fw_controller->state_handlers->
           stop_handler(&fw_controller->parent, timeout);
 
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_reset(
    SCI_CONTROLLER_HANDLE_T  controller
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if (controller == SCI_INVALID_HANDLE)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_CONTROLLER_RESET,
       "scif_controller_reset(0x%x) enter\n",
       controller
    ));
 
    return fw_controller->state_handlers->
           reset_handler(&fw_controller->parent);
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_CONTROLLER_HANDLE_T scif_controller_get_scic_handle(
    SCI_CONTROLLER_HANDLE_T   controller
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    return fw_controller->core_object;
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_IO_STATUS scif_controller_start_io(
    SCI_CONTROLLER_HANDLE_T     controller,
    SCI_REMOTE_DEVICE_HANDLE_T  remote_device,
    SCI_IO_REQUEST_HANDLE_T     io_request,
    U16                         io_tag
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
    SCI_STATUS              status;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_IO_REQUEST,
       "scif_controller_start_io(0x%x, 0x%x, 0x%x, 0x%x) enter\n",
       controller, remote_device, io_request, io_tag
    ));
 
    if (
          sci_pool_empty(fw_controller->hprq.pool)
       || scif_sas_controller_sufficient_resource(controller)
       )
    {
       status = fw_controller->state_handlers->start_io_handler(
                 (SCI_BASE_CONTROLLER_T*) controller,
                 (SCI_BASE_REMOTE_DEVICE_T*) remote_device,
                 (SCI_BASE_REQUEST_T*) io_request,
                 io_tag
              );
    }
    else
       status = SCI_FAILURE_INSUFFICIENT_RESOURCES;
 
    return (SCI_IO_STATUS)status;
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_TASK_STATUS scif_controller_start_task(
    SCI_CONTROLLER_HANDLE_T     controller,
    SCI_REMOTE_DEVICE_HANDLE_T  remote_device,
    SCI_TASK_REQUEST_HANDLE_T   task_request,
    U16                         io_tag
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
    SCI_STATUS              status;
 
    // Validate the user supplied parameters.
    if (  (controller == SCI_INVALID_HANDLE)
       || (remote_device == SCI_INVALID_HANDLE)
       || (task_request == SCI_INVALID_HANDLE) )
    {
       return SCI_TASK_FAILURE_INVALID_PARAMETER_VALUE;
    }
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_TASK_MANAGEMENT,
       "scif_controller_start_task(0x%x, 0x%x, 0x%x, 0x%x) enter\n",
       controller, remote_device, task_request, io_tag
    ));
 
    if (scif_sas_controller_sufficient_resource(controller))
    {
       status = fw_controller->state_handlers->start_task_handler(
              (SCI_BASE_CONTROLLER_T*) controller,
              (SCI_BASE_REMOTE_DEVICE_T*) remote_device,
              (SCI_BASE_REQUEST_T*) task_request,
              io_tag
           );
    }
    else
       status = SCI_FAILURE_INSUFFICIENT_RESOURCES;
 
    return (SCI_TASK_STATUS)status;
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_complete_io(
    SCI_CONTROLLER_HANDLE_T     controller,
    SCI_REMOTE_DEVICE_HANDLE_T  remote_device,
    SCI_IO_REQUEST_HANDLE_T     io_request
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_IO_REQUEST,
       "scif_controller_complete_io(0x%x, 0x%x, 0x%x) enter\n",
       controller, remote_device, io_request
    ));
 
    return fw_controller->state_handlers->complete_io_handler(
              (SCI_BASE_CONTROLLER_T*) controller,
              (SCI_BASE_REMOTE_DEVICE_T*) remote_device,
              (SCI_BASE_REQUEST_T*) io_request
           );
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_complete_task(
    SCI_CONTROLLER_HANDLE_T     controller,
    SCI_REMOTE_DEVICE_HANDLE_T  remote_device,
    SCI_TASK_REQUEST_HANDLE_T   task_request
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if (  (controller == SCI_INVALID_HANDLE)
       || (remote_device == SCI_INVALID_HANDLE)
       || (task_request == SCI_INVALID_HANDLE) )
    {
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
    }
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_TASK_MANAGEMENT,
       "scif_controller_complete_task(0x%x, 0x%x, 0x%x) enter\n",
       controller, remote_device, task_request
    ));
 
    return fw_controller->state_handlers->complete_task_handler(
              (SCI_BASE_CONTROLLER_T*) controller,
              (SCI_BASE_REMOTE_DEVICE_T*) remote_device,
              (SCI_BASE_REQUEST_T*) task_request
           );
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_get_domain_handle(
    SCI_CONTROLLER_HANDLE_T   controller,
    U8                        port_index,
    SCI_DOMAIN_HANDLE_T     * domain_handle
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    // Validate the user supplied parameters.
    if (controller == SCI_INVALID_HANDLE)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    // Retrieve the domain handle if the supplied index is legitimate.
    if (port_index < SCI_MAX_PORTS)
    {
       *domain_handle = &fw_controller->domains[port_index];
       return SCI_SUCCESS;
    }
 
    return SCI_FAILURE_INVALID_PORT;
 }
 
 /**
  * @brief This method builds the memory descriptor list for this
  *        controller.
  *
  * @param[in] fw_controller This parameter specifies the framework
  *            controller object for which to build the MDL.
  *
  * @return none
  */
 void scif_sas_controller_build_mdl(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    // one internal request for each domain.
    sci_base_mde_construct(
       &fw_controller->mdes[SCIF_SAS_MDE_INTERNAL_IO],
       4,
       fw_controller->internal_request_entries *
          scif_sas_internal_request_get_object_size(),
       SCI_MDE_ATTRIBUTE_PHYSICALLY_CONTIGUOUS
    );
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_controller_set_mode(
    SCI_CONTROLLER_HANDLE_T   controller,
    SCI_CONTROLLER_MODE       mode
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
    SCI_STATUS              status          = SCI_SUCCESS;
 
    if (
          (fw_controller->parent.state_machine.current_state_id
           == SCI_BASE_CONTROLLER_STATE_INITIALIZING)
       || (fw_controller->parent.state_machine.current_state_id
           == SCI_BASE_CONTROLLER_STATE_INITIALIZED)
       )
    {
       switch (mode)
       {
       case SCI_MODE_SPEED:
          fw_controller->internal_request_entries =
             MIN(fw_controller->internal_request_entries, SCIF_SAS_MAX_INTERNAL_REQUEST_COUNT);
          scif_sas_controller_build_mdl(fw_controller);
       break;
 
       case SCI_MODE_SIZE:
          fw_controller->internal_request_entries =
             MIN(fw_controller->internal_request_entries, SCIF_SAS_MIN_INTERNAL_REQUEST_COUNT);
          scif_sas_controller_build_mdl(fw_controller);
       break;
 
       default:
          status = SCI_FAILURE_INVALID_PARAMETER_VALUE;
       break;
       }
    }
    else
       status = SCI_FAILURE_INVALID_STATE;
 
    if (status != SCI_SUCCESS)
    {
       return status;
    }
    else
    {
       // Currently, the framework doesn't change any configurations for
       // speed or size modes.  Default to speed mode basically.
       return scic_controller_set_mode(fw_controller->core_object, mode);
    }
 }
 
 // ---------------------------------------------------------------------------
 
 U32 scif_controller_get_sat_compliance_version(
    void
 )
 {
    /// @todo Fix return of SAT compliance version.
    return 0;
 }
 
 // ---------------------------------------------------------------------------
 
 U32 scif_controller_get_sat_compliance_version_revision(
    void
 )
 {
    /// @todo Fix return of SAT compliance revision.
    return 0;
 }
 
 // ---------------------------------------------------------------------------
 
 SCI_STATUS scif_user_parameters_set(
    SCI_CONTROLLER_HANDLE_T   controller,
    SCIF_USER_PARAMETERS_T  * scif_parms
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    //validate all the registry entries before overwriting the default parameter
    //values.
    if (scif_parms->sas.is_sata_ncq_enabled != 1 && scif_parms->sas.is_sata_ncq_enabled != 0)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
-   if (scif_parms->sas.max_ncq_depth < 1 && scif_parms->sas.max_ncq_depth > 32)
+   if (scif_parms->sas.max_ncq_depth < 1 || scif_parms->sas.max_ncq_depth > 32)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    if (scif_parms->sas.is_sata_standby_timer_enabled != 1
        && scif_parms->sas.is_sata_standby_timer_enabled != 0)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    if (scif_parms->sas.is_non_zero_buffer_offsets_enabled != 1
        && scif_parms->sas.is_non_zero_buffer_offsets_enabled != 0)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    if (scif_parms->sas.reset_type != SCI_SAS_ABORT_TASK
        && scif_parms->sas.reset_type != SCI_SAS_ABORT_TASK_SET
        && scif_parms->sas.reset_type != SCI_SAS_CLEAR_TASK_SET
        && scif_parms->sas.reset_type != SCI_SAS_LOGICAL_UNIT_RESET
        && scif_parms->sas.reset_type != SCI_SAS_I_T_NEXUS_RESET
        && scif_parms->sas.reset_type != SCI_SAS_CLEAR_ACA
        && scif_parms->sas.reset_type != SCI_SAS_QUERY_TASK
        && scif_parms->sas.reset_type != SCI_SAS_QUERY_TASK_SET
        && scif_parms->sas.reset_type != SCI_SAS_QUERY_ASYNCHRONOUS_EVENT
        && scif_parms->sas.reset_type != SCI_SAS_HARD_RESET)
       return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    if (scif_parms->sas.clear_affiliation_during_controller_stop != 1
        && scif_parms->sas.clear_affiliation_during_controller_stop !=0)
        return SCI_FAILURE_INVALID_PARAMETER_VALUE;
 
    memcpy((&fw_controller->user_parameters), scif_parms, sizeof(*scif_parms));
 
    // In the future more could be done to prevent setting parameters at the
    // wrong time, but for now we'll simply set the values even if it is too
    // late for them to take affect.
    return SCI_SUCCESS;
 }
 
 // ---------------------------------------------------------------------------
 
 #if !defined(DISABLE_INTERRUPTS)
 
 /**
  * @brief This routine check each domain of the controller to see if
  *           any domain is overriding interrupt coalescence.
  *
  * @param[in] fw_controller frame controller
  * @param[in] fw_smp_phy The smp phy to be freed.
  *
  * @return none
  */
 static
 BOOL scif_sas_controller_is_overriding_interrupt_coalescence(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    U8 index;
 
    for(index = 0; index < SCI_MAX_DOMAINS; index++)
    {
       if(fw_controller->domains[index].parent.state_machine.current_state_id ==
             SCI_BASE_DOMAIN_STATE_DISCOVERING)
          return TRUE;
    }
 
    return FALSE;
 }
 
 SCI_STATUS scif_controller_set_interrupt_coalescence(
    SCI_CONTROLLER_HANDLE_T controller,
    U32                     coalesce_number,
    U32                     coalesce_timeout
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T * )controller;
 
    ///when framework is in the middle of temporarily overriding the interrupt
    ///coalescence values, user's request of setting interrupt coalescence
    ///will be saved. As soon as the framework done the temporary overriding,
    ///it will serve user's request to set new interrupt coalescence.
    if (scif_sas_controller_is_overriding_interrupt_coalescence(fw_controller))
    {
       U32 curr_coalesce_number;
       U32 curr_coalesce_timeout;
       SCI_STATUS core_status;
 
       // save current interrupt coalescence info.
       scic_controller_get_interrupt_coalescence (
          fw_controller->core_object, &curr_coalesce_number, &curr_coalesce_timeout);
 
       //try user's request out in the core, but immediately restore core's
       //current setting.
       core_status = scic_controller_set_interrupt_coalescence(
                        fw_controller->core_object, coalesce_number, coalesce_timeout);
 
       if ( core_status == SCI_SUCCESS )
       {
          fw_controller->saved_interrupt_coalesce_number = (U16)coalesce_number;
          fw_controller->saved_interrupt_coalesce_timeout = coalesce_timeout;
       }
 
        //restore current interrupt coalescence.
       scic_controller_set_interrupt_coalescence(
          fw_controller->core_object, curr_coalesce_number, curr_coalesce_timeout);
 
       return core_status;
    }
    else
    {
       ///If framework is not internally overriding the interrupt coalescence,
       ///serve user's request immediately by passing the reqeust to core.
       return scic_controller_set_interrupt_coalescence(
                 fw_controller->core_object, coalesce_number, coalesce_timeout);
    }
 }
 
 // ---------------------------------------------------------------------------
 
 void scif_controller_get_interrupt_coalescence(
    SCI_CONTROLLER_HANDLE_T controller,
    U32                   * coalesce_number,
    U32                   * coalesce_timeout
 )
 {
    SCIF_SAS_CONTROLLER_T * scif_controller = (SCIF_SAS_CONTROLLER_T * )controller;
 
    scic_controller_get_interrupt_coalescence(
       scif_controller->core_object, coalesce_number, coalesce_timeout);
 }
 
 /**
  * @brief This method will save the interrupt coalescence values.  If
  *        the interrupt coalescence values have already been saved,
  *        then this method performs no operations.
  *
  * @param[in,out] fw_controller This parameter specifies the controller
  *                for which to save the interrupt coalescence values.
  *
  * @return none
  */
 void scif_sas_controller_save_interrupt_coalescence(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    if ( !scif_sas_controller_is_overriding_interrupt_coalescence(fw_controller))
    {
       // Override core's interrupt coalescing settings during SMP
       // DISCOVER process cause' there is only 1 outstanding SMP
       // request per domain is allowed.
       scic_controller_get_interrupt_coalescence(
          fw_controller->core_object,
          (U32*)&(fw_controller->saved_interrupt_coalesce_number),
          &(fw_controller->saved_interrupt_coalesce_timeout)
       );
 
       // Temporarily disable the interrupt coalescing.
       scic_controller_set_interrupt_coalescence(fw_controller->core_object,0,0);
    }
 }
 
 /**
  * @brief This method will restore the interrupt coalescence values.  If
  *        the interrupt coalescence values have not already been saved,
  *        then this method performs no operations.
  *
  * @param[in,out] fw_controller This parameter specifies the controller
  *                for which to restore the interrupt coalescence values.
  *
  * @return none
  */
 void scif_sas_controller_restore_interrupt_coalescence(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    if ( !scif_sas_controller_is_overriding_interrupt_coalescence(fw_controller))
       scic_controller_set_interrupt_coalescence(
          fw_controller->core_object,
          fw_controller->saved_interrupt_coalesce_number,
          fw_controller->saved_interrupt_coalesce_timeout
       );
 }
 
 #endif // !defined(DISABLE_INTERRUPTS)
 
 // ---------------------------------------------------------------------------
 
 void scic_cb_controller_start_complete(
    SCI_CONTROLLER_HANDLE_T  controller,
    SCI_STATUS               completion_status
 )
 {
    SCIF_SAS_CONTROLLER_T *fw_controller = (SCIF_SAS_CONTROLLER_T*)
                                          sci_object_get_association(controller);
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_INITIALIZATION,
       "scic_cb_controller_start_complete(0x%x, 0x%x) enter\n",
       controller, completion_status
    ));
 
    if (completion_status == SCI_SUCCESS
        || completion_status == SCI_FAILURE_TIMEOUT)
    {
       // Even the initialization of the core controller timed out, framework
       // controller should still transit to READY state.
       sci_base_state_machine_change_state(
          &fw_controller->parent.state_machine,
          SCI_BASE_CONTROLLER_STATE_READY
       );
    }
 
    scif_cb_controller_start_complete(fw_controller, completion_status);
 }
 
 // ---------------------------------------------------------------------------
 
 void scic_cb_controller_stop_complete(
    SCI_CONTROLLER_HANDLE_T  controller,
    SCI_STATUS               completion_status
 )
 {
    SCIF_SAS_CONTROLLER_T *fw_controller = (SCIF_SAS_CONTROLLER_T*)
                                          sci_object_get_association(controller);
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_SHUTDOWN,
       "scic_cb_controller_stop_complete(0x%x, 0x%x) enter\n",
       controller, completion_status
    ));
 
    if (completion_status == SCI_SUCCESS)
    {
       sci_base_state_machine_change_state(
          &fw_controller->parent.state_machine,
          SCI_BASE_CONTROLLER_STATE_STOPPED
       );
    }
    else
    {
       sci_base_state_machine_change_state(
          &fw_controller->parent.state_machine,
          SCI_BASE_CONTROLLER_STATE_FAILED
       );
    }
 
    scif_cb_controller_stop_complete(fw_controller, completion_status);
 }
 
 
 // ---------------------------------------------------------------------------
 
 void scic_cb_controller_error(
    SCI_CONTROLLER_HANDLE_T  controller,
    SCI_CONTROLLER_ERROR error
 )
 {
    SCIF_SAS_CONTROLLER_T *fw_controller = (SCIF_SAS_CONTROLLER_T*)
                                          sci_object_get_association(controller);
 
    fw_controller->parent.error = error;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_SHUTDOWN,
       "scic_cb_controller_not_ready(0x%x) enter\n",
       controller
    ));
 
    sci_base_state_machine_change_state(
       &fw_controller->parent.state_machine,
       SCI_BASE_CONTROLLER_STATE_FAILED
    );
 }
 
 //******************************************************************************
 //* P R O T E C T E D    M E T H O D S
 //******************************************************************************
 
 /**
  * @brief This method is utilized to continue an internal IO operation
  *        on the controller.  This method is utilized for SAT translated
  *        requests that generate multiple ATA commands in order to fulfill
  *        the original SCSI request.
  *
  * @param[in]  controller This parameter specifies the controller on which
  *             to continue an internal IO request.
  * @param[in]  remote_device This parameter specifies the remote device
  *             on which to continue an internal IO request.
  * @param[in]  io_request This parameter specifies the IO request to be
  *             continue.
  *
  * @return Indicate if the continue operation was successful.
  * @retval SCI_SUCCESS This value is returned if the operation succeeded.
  */
 SCI_STATUS scif_sas_controller_continue_io(
    SCI_CONTROLLER_HANDLE_T     controller,
    SCI_REMOTE_DEVICE_HANDLE_T  remote_device,
    SCI_IO_REQUEST_HANDLE_T     io_request
 )
 {
    SCIF_SAS_CONTROLLER_T * fw_controller = (SCIF_SAS_CONTROLLER_T*) controller;
 
    return fw_controller->state_handlers->continue_io_handler(
              (SCI_BASE_CONTROLLER_T*) controller,
              (SCI_BASE_REMOTE_DEVICE_T*) remote_device,
              (SCI_BASE_REQUEST_T*) io_request
           );
 }
 
 /**
  * @brief This method will attempt to destruct a framework controller.
  *        This includes free any resources retreived from the user (e.g.
  *        timers).
  *
  * @param[in]  fw_controller This parameter specifies the framework
  *             controller to destructed.
  *
  * @return none
  */
 void scif_sas_controller_destruct(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_SHUTDOWN,
       "scif_sas_controller_destruct(0x%x) enter\n",
       fw_controller
    ));
 }
 
 //-----------------------------------------------------------------------------
 // INTERNAL REQUEST RELATED METHODS
 //-----------------------------------------------------------------------------
 
 /**
  * @brief This routine is to allocate the memory for creating a new internal
  *        request.
  *
  * @param[in] scif_controller handle to frame controller
  *
  * @return void* address to internal request memory
  */
 void * scif_sas_controller_allocate_internal_request(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    POINTER_UINT internal_io_address;
 
    if( !sci_pool_empty(fw_controller->internal_request_memory_pool) )
    {
       sci_pool_get(
          fw_controller->internal_request_memory_pool, internal_io_address
       );
 
       //clean the memory.
       memset((char*)internal_io_address, 0, scif_sas_internal_request_get_object_size());
 
       return (void *) internal_io_address;
    }
    else
       return NULL;
 }
 
 /**
  * @brief This routine is to free the memory for a completed internal request.
  *
  * @param[in] scif_controller handle to frame controller
  * @param[in] fw_internal_io The internal IO to be freed.
  *
  * @return none
  */
 void scif_sas_controller_free_internal_request(
    SCIF_SAS_CONTROLLER_T * fw_controller,
    void                  * fw_internal_request_buffer
 )
 {
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_IO_REQUEST,
       "scif_controller_free_internal_request(0x%x, 0x%x) enter\n",
       fw_controller, fw_internal_request_buffer
    ));
 
    //return the memory to the pool.
    if( !sci_pool_full(fw_controller->internal_request_memory_pool) )
    {
       sci_pool_put(
          fw_controller->internal_request_memory_pool,
          (POINTER_UINT) fw_internal_request_buffer
       );
    }
 }
 
 
 /**
  * @brief this routine is called by OS' DPC to start io requests from internal
  *        high priority request queue
  * @param[in] fw_controller The framework controller.
  *
  * @return none
  */
 void scif_sas_controller_start_high_priority_io(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    POINTER_UINT            io_address;
    SCIF_SAS_IO_REQUEST_T * fw_io;
    SCI_STATUS              status;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_IO_REQUEST,
       "scif_controller_start_high_priority_io(0x%x) enter\n",
       fw_controller
    ));
 
    while ( !sci_pool_empty(fw_controller->hprq.pool) )
    {
       sci_pool_get(fw_controller->hprq.pool, io_address);
 
       fw_io = (SCIF_SAS_IO_REQUEST_T *)io_address;
 
       status = fw_controller->state_handlers->start_high_priority_io_handler(
          (SCI_BASE_CONTROLLER_T*) fw_controller,
          (SCI_BASE_REMOTE_DEVICE_T*) fw_io->parent.device,
          (SCI_BASE_REQUEST_T*) fw_io,
          SCI_CONTROLLER_INVALID_IO_TAG
       );
    }
 }
 
 /**
  * @brief This method will check how many outstanding IOs currently and number
  * of IOs in high priority queue, if the overall number exceeds the max_tc,
  * return FALSE.
  *
  * @param[in] fw_controller The framework controller.
  *
  * @return BOOL Indicate whether there is sufficient resource to start an IO.
  * @retvalue TRUE The controller has sufficient resource.
  * @retvalue FALSE There is not sufficient resource available.
  */
 BOOL scif_sas_controller_sufficient_resource(
    SCIF_SAS_CONTROLLER_T *fw_controller
 )
 {
    SCIF_SAS_DOMAIN_T * fw_domain;
    U32 domain_index;
    U32 outstanding_io_count = 0;
    U32 high_priority_io_count = 0;
 
    for(domain_index = 0; domain_index < SCI_MAX_DOMAINS; domain_index++)
    {
       fw_domain = &fw_controller->domains[domain_index];
       outstanding_io_count += fw_domain->request_list.element_count;
    }
 
    high_priority_io_count = sci_pool_count(fw_controller->hprq.pool);
 
    if ( (outstanding_io_count + high_priority_io_count) > SCI_MAX_IO_REQUESTS )
       return FALSE;
 
    return TRUE;
 }
 
 
 /**
  * @brief This method is the starting point to complete high prority io for a
  *        controller then down to domain, device.
  *
  * @param[in] fw_controller The framework controller
  * @param[in] remote_device  The framework remote device.
  * @param[in] io_request The high priority io request to be completed.
  *
  * @return SCI_STATUS indicate the completion status from framework down to the
  *         core.
  */
 SCI_STATUS scif_sas_controller_complete_high_priority_io(
    SCIF_SAS_CONTROLLER_T    *fw_controller,
    SCIF_SAS_REMOTE_DEVICE_T *remote_device,
    SCIF_SAS_REQUEST_T       *io_request
 )
 {
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER | SCIF_LOG_OBJECT_IO_REQUEST,
       "scif_sas_controller_complete_high_priority_io(0x%x, 0x%x, 0x%x) enter\n",
       fw_controller, remote_device, io_request
    ));
 
    //call controller's new added complete_high_priority_io_handler
    return fw_controller->state_handlers->complete_high_priority_io_handler(
              (SCI_BASE_CONTROLLER_T*) fw_controller,
              (SCI_BASE_REMOTE_DEVICE_T*) remote_device,
              (SCI_BASE_REQUEST_T*) io_request
           );
 }
 
 /**
 
  * @brief This routine is to allocate the memory for creating a smp phy object.
  *
  * @param[in] scif_controller handle to frame controller
  *
  * @return SCIF_SAS_SMP_PHY_T * An allocated space for smp phy. If failed to allocate,
  *            return NULL.
  */
 SCIF_SAS_SMP_PHY_T * scif_sas_controller_allocate_smp_phy(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    SCIF_SAS_SMP_PHY_T * smp_phy;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER,
       "scif_controller_allocate_smp_phy(0x%x) enter\n",
       fw_controller
    ));
 
    if( !sci_fast_list_is_empty(&fw_controller->smp_phy_memory_list) )
    {
       smp_phy = (SCIF_SAS_SMP_PHY_T *)
          sci_fast_list_remove_head(&fw_controller->smp_phy_memory_list);
 
       //clean the memory.
       memset((char*)smp_phy,
              0,
              sizeof(SCIF_SAS_SMP_PHY_T)
             );
 
       return smp_phy;
    }
    else
       return NULL;
 }
 
 /**
  * @brief This routine is to free the memory for a released smp phy.
  *
  * @param[in] fw_controller The framework controller, a smp phy is released
  *                to its memory.
  * @param[in] fw_smp_phy The smp phy to be freed.
  *
  * @return none
  */
 void scif_sas_controller_free_smp_phy(
    SCIF_SAS_CONTROLLER_T * fw_controller,
    SCIF_SAS_SMP_PHY_T    * smp_phy
 )
 {
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER,
       "scif_controller_free_smp_phy(0x%x, 0x%x) enter\n",
       fw_controller, smp_phy
    ));
 
    //return the memory to the list.
    sci_fast_list_insert_tail(
       &fw_controller->smp_phy_memory_list,
       &smp_phy->list_element
    );
 }
 
 
 /**
  * @brief This method clear affiliation for all the EA SATA devices associated
  *        to this controller.
  *
  * @param[in] fw_controller This parameter specifies the framework
  *            controller object for whose remote devices are to be stopped.
  *
  * @return This method returns a value indicating if the operation completed.
  * @retval SCI_COMPLETE This value indicates that all the EA SATA devices'
  *         affiliation was cleared.
  * @retval SCI_INCOMPLETE This value indicates clear affiliation activity is
  *         yet to be completed.
  */
 SCI_STATUS scif_sas_controller_clear_affiliation(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    U8 index;
    SCI_STATUS status;
    SCIF_SAS_DOMAIN_T * fw_domain;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER,
       "scif_sas_controller_clear_affiliation(0x%x) enter\n",
       fw_controller
    ));
 
    index = fw_controller->current_domain_to_clear_affiliation;
 
    if (index < SCI_MAX_DOMAINS)
    {
       fw_domain = &fw_controller->domains[index];
 
       //Need to stop all the on-going smp activities before clearing affiliation.
       scif_sas_domain_cancel_smp_activities(fw_domain);
 
       scif_sas_domain_start_clear_affiliation(fw_domain);
 
       status = SCI_WARNING_SEQUENCE_INCOMPLETE;
    }
    else
    {  //the controller has done clear affiliation work to all its domains.
       scif_sas_controller_continue_to_stop(fw_controller);
       status = SCI_SUCCESS;
    }
 
    return status;
 }
 
 
 /**
  * @brief This method sets SCIF user parameters to
  *        default values.  Users can override these values utilizing
  *        the sciF_user_parameters_set() methods.
  *
  * @param[in] controller This parameter specifies the controller for
  *            which to set the configuration parameters to their
  *            default values.
  *
  * @return none
  */
 void scif_sas_controller_set_default_config_parameters(
    SCIF_SAS_CONTROLLER_T * this_controller
 )
 {
    SCIF_USER_PARAMETERS_T * scif_parms = &(this_controller->user_parameters);
 
    scif_parms->sas.is_sata_ncq_enabled = TRUE;
    scif_parms->sas.max_ncq_depth = 32;
    scif_parms->sas.is_sata_standby_timer_enabled = FALSE;
    scif_parms->sas.is_non_zero_buffer_offsets_enabled = FALSE;
    scif_parms->sas.reset_type = SCI_SAS_LOGICAL_UNIT_RESET;
    scif_parms->sas.clear_affiliation_during_controller_stop = TRUE;
    scif_parms->sas.ignore_fua = FALSE;
 
 }
 
 
 /**
  * @brief This method releases resource for framework controller and associated
  *        objects.
  *
  * @param[in] fw_controller This parameter specifies the framework
  *            controller and associated objects whose resources are to be released.
  *
  * @return This method returns a value indicating if the operation succeeded.
  * @retval SCI_SUCCESS This value indicates that resource release succeeded.
  * @retval SCI_FAILURE This value indicates certain failure during the process
  *            of resource release.
  */
 SCI_STATUS scif_sas_controller_release_resource(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    U8 index;
    SCIF_SAS_DOMAIN_T * fw_domain;
 
    SCIF_LOG_TRACE((
       sci_base_object_get_logger(fw_controller),
       SCIF_LOG_OBJECT_CONTROLLER,
       "scif_sas_controller_release_resource(0x%x) enter\n",
       fw_controller
    ));
 
    //currently the only resource to be released is domain's timer.
    for (index = 0; index < SCI_MAX_DOMAINS; index++)
    {
       fw_domain = &fw_controller->domains[index];
 
       scif_sas_domain_release_resource(fw_controller, fw_domain);
    }
 
    return SCI_SUCCESS;
 }
 
 
 #ifdef SCI_LOGGING
 /**
  * This method will start state transition logging for the framework
  * controller object.
  *
  * @param[in] fw_controller The framework controller object on which to
  *       observe state changes.
  *
  * @return none
  */
 void scif_sas_controller_initialize_state_logging(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    sci_base_state_machine_logger_initialize(
       &fw_controller->parent.state_machine_logger,
       &fw_controller->parent.state_machine,
       &fw_controller->parent.parent,
       scif_cb_logger_log_states,
       "SCIF_SAS_CONTROLLER_T", "base state machine",
       SCIF_LOG_OBJECT_CONTROLLER
    );
 }
 
 /**
  * This method will remove the logging of state transitions from the framework
  * controller object.
  *
  * @param[in] fw_controller The framework controller to change.
  *
  * @return none
  */
 void scif_sas_controller_deinitialize_state_logging(
    SCIF_SAS_CONTROLLER_T * fw_controller
 )
 {
    sci_base_state_machine_logger_deinitialize(
       &fw_controller->parent.state_machine_logger,
       &fw_controller->parent.state_machine
    );
 }
 #endif // SCI_LOGGING
Index: stable/11
===================================================================
--- stable/11	(revision 360841)
+++ stable/11	(revision 360842)

Property changes on: stable/11
___________________________________________________________________
Modified: svn:mergeinfo
## -0,0 +0,1 ##
   Merged /head:r315205