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|
/*
* 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.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* 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 "isci.h"
#include "scic_remote_device.h"
#include "scic_io_request.h"
#include "scic_task_request.h"
#include "scic_port.h"
#include "task.h"
#include "request.h"
#include "sata.h"
#include "scu_completion_codes.h"
static enum sci_status isci_request_ssp_request_construct(
struct isci_request *request)
{
enum sci_status status;
dev_dbg(&request->isci_host->pdev->dev,
"%s: request = %p\n",
__func__,
request);
status = scic_io_request_construct_basic_ssp(
request->sci_request_handle
);
return status;
}
static enum sci_status isci_request_stp_request_construct(
struct isci_request *request)
{
struct sas_task *task = isci_request_access_task(request);
enum sci_status status;
struct host_to_dev_fis *register_fis;
dev_dbg(&request->isci_host->pdev->dev,
"%s: request = %p\n",
__func__,
request);
/* Get the host_to_dev_fis from the core and copy
* the fis from the task into it.
*/
register_fis = isci_sata_task_to_fis_copy(task);
status = scic_io_request_construct_basic_sata(
request->sci_request_handle
);
/* Set the ncq tag in the fis, from the queue
* command in the task.
*/
if (isci_sata_is_task_ncq(task)) {
isci_sata_set_ncq_tag(
register_fis,
task
);
}
return status;
}
/**
* isci_smp_request_build() - This function builds the smp request object.
* @isci_host: This parameter specifies the ISCI host object
* @request: This parameter points to the isci_request object allocated in the
* request construct function.
* @sci_device: This parameter is the handle for the sci core's remote device
* object that is the destination for this request.
*
* SCI_SUCCESS on successfull completion, or specific failure code.
*/
static enum sci_status isci_smp_request_build(
struct isci_request *request)
{
enum sci_status status = SCI_FAILURE;
struct sas_task *task = isci_request_access_task(request);
void *command_iu_address =
scic_io_request_get_command_iu_address(
request->sci_request_handle
);
dev_dbg(&request->isci_host->pdev->dev,
"%s: request = %p\n",
__func__,
request);
dev_dbg(&request->isci_host->pdev->dev,
"%s: smp_req len = %d\n",
__func__,
task->smp_task.smp_req.length);
/* copy the smp_command to the address; */
sg_copy_to_buffer(&task->smp_task.smp_req, 1,
(char *)command_iu_address,
sizeof(struct smp_request)
);
status = scic_io_request_construct_smp(request->sci_request_handle);
if (status != SCI_SUCCESS)
dev_warn(&request->isci_host->pdev->dev,
"%s: scic_io_request_construct_smp failed with "
"status = %d\n",
__func__,
status);
return status;
}
/**
* isci_io_request_build() - This function builds the io request object.
* @isci_host: This parameter specifies the ISCI host object
* @request: This parameter points to the isci_request object allocated in the
* request construct function.
* @sci_device: This parameter is the handle for the sci core's remote device
* object that is the destination for this request.
*
* SCI_SUCCESS on successfull completion, or specific failure code.
*/
static enum sci_status isci_io_request_build(
struct isci_host *isci_host,
struct isci_request *request,
struct isci_remote_device *isci_device)
{
struct smp_discover_response_protocols dev_protocols;
enum sci_status status = SCI_SUCCESS;
struct sas_task *task = isci_request_access_task(request);
struct scic_sds_remote_device *sci_device = to_sci_dev(isci_device);
dev_dbg(&isci_host->pdev->dev,
"%s: isci_device = 0x%p; request = %p, "
"num_scatter = %d\n",
__func__,
isci_device,
request,
task->num_scatter);
/* map the sgl addresses, if present.
* libata does the mapping for sata devices
* before we get the request.
*/
if (task->num_scatter &&
!sas_protocol_ata(task->task_proto) &&
!(SAS_PROTOCOL_SMP & task->task_proto)) {
request->num_sg_entries = dma_map_sg(
&isci_host->pdev->dev,
task->scatter,
task->num_scatter,
task->data_dir
);
if (request->num_sg_entries == 0)
return SCI_FAILURE_INSUFFICIENT_RESOURCES;
}
/* build the common request object. For now,
* we will let the core allocate the IO tag.
*/
status = scic_io_request_construct(
isci_host->core_controller,
sci_device,
SCI_CONTROLLER_INVALID_IO_TAG,
request,
request->sci_request_mem_ptr,
(struct scic_sds_request **)&request->sci_request_handle
);
if (status != SCI_SUCCESS) {
dev_warn(&isci_host->pdev->dev,
"%s: failed request construct\n",
__func__);
return SCI_FAILURE;
}
sci_object_set_association(request->sci_request_handle, request);
/* Determine protocol and call the appropriate basic constructor */
scic_remote_device_get_protocols(sci_device, &dev_protocols);
if (dev_protocols.u.bits.attached_ssp_target)
status = isci_request_ssp_request_construct(request);
else if (dev_protocols.u.bits.attached_stp_target)
status = isci_request_stp_request_construct(request);
else if (dev_protocols.u.bits.attached_smp_target)
status = isci_smp_request_build(request);
else {
dev_warn(&isci_host->pdev->dev,
"%s: unknown protocol\n", __func__);
return SCI_FAILURE;
}
return SCI_SUCCESS;
}
/**
* isci_request_alloc_core() - This function gets the request object from the
* isci_host dma cache.
* @isci_host: This parameter specifies the ISCI host object
* @isci_request: This parameter will contain the pointer to the new
* isci_request object.
* @isci_device: This parameter is the pointer to the isci remote device object
* that is the destination for this request.
* @gfp_flags: This parameter specifies the os allocation flags.
*
* SCI_SUCCESS on successfull completion, or specific failure code.
*/
static int isci_request_alloc_core(
struct isci_host *isci_host,
struct isci_request **isci_request,
struct isci_remote_device *isci_device,
gfp_t gfp_flags)
{
int ret = 0;
dma_addr_t handle;
struct isci_request *request;
/* get pointer to dma memory. This actually points
* to both the isci_remote_device object and the
* sci object. The isci object is at the beginning
* of the memory allocated here.
*/
request = dma_pool_alloc(isci_host->dma_pool, gfp_flags, &handle);
if (!request) {
dev_warn(&isci_host->pdev->dev,
"%s: dma_pool_alloc returned NULL\n", __func__);
return -ENOMEM;
}
/* initialize the request object. */
spin_lock_init(&request->state_lock);
request->sci_request_mem_ptr = ((u8 *)request) +
sizeof(struct isci_request);
request->request_daddr = handle;
request->isci_host = isci_host;
request->isci_device = isci_device;
request->io_request_completion = NULL;
request->request_alloc_size = isci_host->dma_pool_alloc_size;
request->num_sg_entries = 0;
request->complete_in_target = false;
INIT_LIST_HEAD(&request->completed_node);
INIT_LIST_HEAD(&request->dev_node);
*isci_request = request;
isci_request_change_state(request, allocated);
return ret;
}
static int isci_request_alloc_io(
struct isci_host *isci_host,
struct sas_task *task,
struct isci_request **isci_request,
struct isci_remote_device *isci_device,
gfp_t gfp_flags)
{
int retval = isci_request_alloc_core(isci_host, isci_request,
isci_device, gfp_flags);
if (!retval) {
(*isci_request)->ttype_ptr.io_task_ptr = task;
(*isci_request)->ttype = io_task;
task->lldd_task = *isci_request;
}
return retval;
}
/**
* isci_request_alloc_tmf() - This function gets the request object from the
* isci_host dma cache and initializes the relevant fields as a sas_task.
* @isci_host: This parameter specifies the ISCI host object
* @sas_task: This parameter is the task struct from the upper layer driver.
* @isci_request: This parameter will contain the pointer to the new
* isci_request object.
* @isci_device: This parameter is the pointer to the isci remote device object
* that is the destination for this request.
* @gfp_flags: This parameter specifies the os allocation flags.
*
* SCI_SUCCESS on successfull completion, or specific failure code.
*/
int isci_request_alloc_tmf(
struct isci_host *isci_host,
struct isci_tmf *isci_tmf,
struct isci_request **isci_request,
struct isci_remote_device *isci_device,
gfp_t gfp_flags)
{
int retval = isci_request_alloc_core(isci_host, isci_request,
isci_device, gfp_flags);
if (!retval) {
(*isci_request)->ttype_ptr.tmf_task_ptr = isci_tmf;
(*isci_request)->ttype = tmf_task;
}
return retval;
}
/**
* isci_request_execute() - This function allocates the isci_request object,
* all fills in some common fields.
* @isci_host: This parameter specifies the ISCI host object
* @sas_task: This parameter is the task struct from the upper layer driver.
* @isci_request: This parameter will contain the pointer to the new
* isci_request object.
* @gfp_flags: This parameter specifies the os allocation flags.
*
* SCI_SUCCESS on successfull completion, or specific failure code.
*/
int isci_request_execute(
struct isci_host *isci_host,
struct sas_task *task,
struct isci_request **isci_request,
gfp_t gfp_flags)
{
int ret = 0;
struct scic_sds_remote_device *sci_device;
enum sci_status status = SCI_FAILURE_UNSUPPORTED_PROTOCOL;
struct isci_remote_device *isci_device;
struct isci_request *request;
unsigned long flags;
isci_device = task->dev->lldd_dev;
sci_device = to_sci_dev(isci_device);
/* do common allocation and init of request object. */
ret = isci_request_alloc_io(
isci_host,
task,
&request,
isci_device,
gfp_flags
);
if (ret)
goto out;
status = isci_io_request_build(isci_host, request, isci_device);
if (status == SCI_SUCCESS) {
spin_lock_irqsave(&isci_host->scic_lock, flags);
/* send the request, let the core assign the IO TAG. */
status = scic_controller_start_io(
isci_host->core_controller,
sci_device,
request->sci_request_handle,
SCI_CONTROLLER_INVALID_IO_TAG
);
if (status == SCI_SUCCESS ||
status == SCI_FAILURE_REMOTE_DEVICE_RESET_REQUIRED) {
/* Either I/O started OK, or the core has signaled that
* the device needs a target reset.
*
* In either case, hold onto the I/O for later.
*
* Update it's status and add it to the list in the
* remote device object.
*/
isci_request_change_state(request, started);
list_add(&request->dev_node,
&isci_device->reqs_in_process);
if (status == SCI_SUCCESS) {
/* Save the tag for possible task mgmt later. */
request->io_tag = scic_io_request_get_io_tag(
request->sci_request_handle);
} else {
/* The request did not really start in the
* hardware, so clear the request handle
* here so no terminations will be done.
*/
request->sci_request_handle = NULL;
}
} else
dev_warn(&isci_host->pdev->dev,
"%s: failed request start (0x%x)\n",
__func__, status);
spin_unlock_irqrestore(&isci_host->scic_lock, flags);
if (status ==
SCI_FAILURE_REMOTE_DEVICE_RESET_REQUIRED) {
/* Signal libsas that we need the SCSI error
* handler thread to work on this I/O and that
* we want a device reset.
*/
spin_lock_irqsave(&task->task_state_lock, flags);
task->task_state_flags |= SAS_TASK_NEED_DEV_RESET;
spin_unlock_irqrestore(&task->task_state_lock, flags);
/* Cause this task to be scheduled in the SCSI error
* handler thread.
*/
isci_execpath_callback(isci_host, task,
sas_task_abort);
/* Change the status, since we are holding
* the I/O until it is managed by the SCSI
* error handler.
*/
status = SCI_SUCCESS;
}
} else
dev_warn(&isci_host->pdev->dev,
"%s: request_construct failed - status = 0x%x\n",
__func__,
status);
out:
if (status != SCI_SUCCESS) {
/* release dma memory on failure. */
isci_request_free(isci_host, request);
request = NULL;
ret = SCI_FAILURE;
}
*isci_request = request;
return ret;
}
/**
* isci_request_process_response_iu() - This function sets the status and
* response iu, in the task struct, from the request object for the upper
* layer driver.
* @sas_task: This parameter is the task struct from the upper layer driver.
* @resp_iu: This parameter points to the response iu of the completed request.
* @dev: This parameter specifies the linux device struct.
*
* none.
*/
static void isci_request_process_response_iu(
struct sas_task *task,
struct ssp_response_iu *resp_iu,
struct device *dev)
{
dev_dbg(dev,
"%s: resp_iu = %p "
"resp_iu->status = 0x%x,\nresp_iu->datapres = %d "
"resp_iu->response_data_len = %x, "
"resp_iu->sense_data_len = %x\nrepsonse data: ",
__func__,
resp_iu,
resp_iu->status,
resp_iu->datapres,
resp_iu->response_data_len,
resp_iu->sense_data_len);
task->task_status.stat = resp_iu->status;
/* libsas updates the task status fields based on the response iu. */
sas_ssp_task_response(dev, task, resp_iu);
}
/**
* isci_request_set_open_reject_status() - This function prepares the I/O
* completion for OPEN_REJECT conditions.
* @request: This parameter is the completed isci_request object.
* @response_ptr: This parameter specifies the service response for the I/O.
* @status_ptr: This parameter specifies the exec status for the I/O.
* @complete_to_host_ptr: This parameter specifies the action to be taken by
* the LLDD with respect to completing this request or forcing an abort
* condition on the I/O.
* @open_rej_reason: This parameter specifies the encoded reason for the
* abandon-class reject.
*
* none.
*/
static void isci_request_set_open_reject_status(
struct isci_request *request,
struct sas_task *task,
enum service_response *response_ptr,
enum exec_status *status_ptr,
enum isci_completion_selection *complete_to_host_ptr,
enum sas_open_rej_reason open_rej_reason)
{
/* Task in the target is done. */
request->complete_in_target = true;
*response_ptr = SAS_TASK_UNDELIVERED;
*status_ptr = SAS_OPEN_REJECT;
*complete_to_host_ptr = isci_perform_normal_io_completion;
task->task_status.open_rej_reason = open_rej_reason;
}
/**
* isci_request_handle_controller_specific_errors() - This function decodes
* controller-specific I/O completion error conditions.
* @request: This parameter is the completed isci_request object.
* @response_ptr: This parameter specifies the service response for the I/O.
* @status_ptr: This parameter specifies the exec status for the I/O.
* @complete_to_host_ptr: This parameter specifies the action to be taken by
* the LLDD with respect to completing this request or forcing an abort
* condition on the I/O.
*
* none.
*/
static void isci_request_handle_controller_specific_errors(
struct isci_remote_device *isci_device,
struct isci_request *request,
struct sas_task *task,
enum service_response *response_ptr,
enum exec_status *status_ptr,
enum isci_completion_selection *complete_to_host_ptr)
{
unsigned int cstatus;
cstatus = scic_request_get_controller_status(
request->sci_request_handle
);
dev_dbg(&request->isci_host->pdev->dev,
"%s: %p SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR "
"- controller status = 0x%x\n",
__func__, request, cstatus);
/* Decode the controller-specific errors; most
* important is to recognize those conditions in which
* the target may still have a task outstanding that
* must be aborted.
*
* Note that there are SCU completion codes being
* named in the decode below for which SCIC has already
* done work to handle them in a way other than as
* a controller-specific completion code; these are left
* in the decode below for completeness sake.
*/
switch (cstatus) {
case SCU_TASK_DONE_DMASETUP_DIRERR:
/* Also SCU_TASK_DONE_SMP_FRM_TYPE_ERR: */
case SCU_TASK_DONE_XFERCNT_ERR:
/* Also SCU_TASK_DONE_SMP_UFI_ERR: */
if (task->task_proto == SAS_PROTOCOL_SMP) {
/* SCU_TASK_DONE_SMP_UFI_ERR == Task Done. */
*response_ptr = SAS_TASK_COMPLETE;
/* See if the device has been/is being stopped. Note
* that we ignore the quiesce state, since we are
* concerned about the actual device state.
*/
if ((isci_device->status == isci_stopping) ||
(isci_device->status == isci_stopped))
*status_ptr = SAS_DEVICE_UNKNOWN;
else
*status_ptr = SAS_ABORTED_TASK;
request->complete_in_target = true;
*complete_to_host_ptr =
isci_perform_normal_io_completion;
} else {
/* Task in the target is not done. */
*response_ptr = SAS_TASK_UNDELIVERED;
if ((isci_device->status == isci_stopping) ||
(isci_device->status == isci_stopped))
*status_ptr = SAS_DEVICE_UNKNOWN;
else
*status_ptr = SAM_STAT_TASK_ABORTED;
request->complete_in_target = false;
*complete_to_host_ptr =
isci_perform_error_io_completion;
}
break;
case SCU_TASK_DONE_CRC_ERR:
case SCU_TASK_DONE_NAK_CMD_ERR:
case SCU_TASK_DONE_EXCESS_DATA:
case SCU_TASK_DONE_UNEXP_FIS:
/* Also SCU_TASK_DONE_UNEXP_RESP: */
case SCU_TASK_DONE_VIIT_ENTRY_NV: /* TODO - conditions? */
case SCU_TASK_DONE_IIT_ENTRY_NV: /* TODO - conditions? */
case SCU_TASK_DONE_RNCNV_OUTBOUND: /* TODO - conditions? */
/* These are conditions in which the target
* has completed the task, so that no cleanup
* is necessary.
*/
*response_ptr = SAS_TASK_COMPLETE;
/* See if the device has been/is being stopped. Note
* that we ignore the quiesce state, since we are
* concerned about the actual device state.
*/
if ((isci_device->status == isci_stopping) ||
(isci_device->status == isci_stopped))
*status_ptr = SAS_DEVICE_UNKNOWN;
else
*status_ptr = SAS_ABORTED_TASK;
request->complete_in_target = true;
*complete_to_host_ptr = isci_perform_normal_io_completion;
break;
/* Note that the only open reject completion codes seen here will be
* abandon-class codes; all others are automatically retried in the SCU.
*/
case SCU_TASK_OPEN_REJECT_WRONG_DESTINATION:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_WRONG_DEST);
break;
case SCU_TASK_OPEN_REJECT_ZONE_VIOLATION:
/* Note - the return of AB0 will change when
* libsas implements detection of zone violations.
*/
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_RESV_AB0);
break;
case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_1:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_RESV_AB1);
break;
case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_2:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_RESV_AB2);
break;
case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_3:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_RESV_AB3);
break;
case SCU_TASK_OPEN_REJECT_BAD_DESTINATION:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_BAD_DEST);
break;
case SCU_TASK_OPEN_REJECT_STP_RESOURCES_BUSY:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_STP_NORES);
break;
case SCU_TASK_OPEN_REJECT_PROTOCOL_NOT_SUPPORTED:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_EPROTO);
break;
case SCU_TASK_OPEN_REJECT_CONNECTION_RATE_NOT_SUPPORTED:
isci_request_set_open_reject_status(
request, task, response_ptr, status_ptr,
complete_to_host_ptr, SAS_OREJ_CONN_RATE);
break;
case SCU_TASK_DONE_LL_R_ERR:
/* Also SCU_TASK_DONE_ACK_NAK_TO: */
case SCU_TASK_DONE_LL_PERR:
case SCU_TASK_DONE_LL_SY_TERM:
/* Also SCU_TASK_DONE_NAK_ERR:*/
case SCU_TASK_DONE_LL_LF_TERM:
/* Also SCU_TASK_DONE_DATA_LEN_ERR: */
case SCU_TASK_DONE_LL_ABORT_ERR:
case SCU_TASK_DONE_SEQ_INV_TYPE:
/* Also SCU_TASK_DONE_UNEXP_XR: */
case SCU_TASK_DONE_XR_IU_LEN_ERR:
case SCU_TASK_DONE_INV_FIS_LEN:
/* Also SCU_TASK_DONE_XR_WD_LEN: */
case SCU_TASK_DONE_SDMA_ERR:
case SCU_TASK_DONE_OFFSET_ERR:
case SCU_TASK_DONE_MAX_PLD_ERR:
case SCU_TASK_DONE_LF_ERR:
case SCU_TASK_DONE_SMP_RESP_TO_ERR: /* Escalate to dev reset? */
case SCU_TASK_DONE_SMP_LL_RX_ERR:
case SCU_TASK_DONE_UNEXP_DATA:
case SCU_TASK_DONE_UNEXP_SDBFIS:
case SCU_TASK_DONE_REG_ERR:
case SCU_TASK_DONE_SDB_ERR:
case SCU_TASK_DONE_TASK_ABORT:
default:
/* Task in the target is not done. */
*response_ptr = SAS_TASK_UNDELIVERED;
*status_ptr = SAM_STAT_TASK_ABORTED;
request->complete_in_target = false;
*complete_to_host_ptr = isci_perform_error_io_completion;
break;
}
}
/**
* isci_task_save_for_upper_layer_completion() - This function saves the
* request for later completion to the upper layer driver.
* @host: This parameter is a pointer to the host on which the the request
* should be queued (either as an error or success).
* @request: This parameter is the completed request.
* @response: This parameter is the response code for the completed task.
* @status: This parameter is the status code for the completed task.
*
* none.
*/
static void isci_task_save_for_upper_layer_completion(
struct isci_host *host,
struct isci_request *request,
enum service_response response,
enum exec_status status,
enum isci_completion_selection task_notification_selection)
{
struct sas_task *task = isci_request_access_task(request);
task_notification_selection
= isci_task_set_completion_status(task, response, status,
task_notification_selection);
/* Tasks aborted specifically by a call to the lldd_abort_task
* function should not be completed to the host in the regular path.
*/
switch (task_notification_selection) {
case isci_perform_normal_io_completion:
/* Normal notification (task_done) */
dev_dbg(&host->pdev->dev,
"%s: Normal - task = %p, response=%d (%d), status=%d (%d)\n",
__func__,
task,
task->task_status.resp, response,
task->task_status.stat, status);
/* Add to the completed list. */
list_add(&request->completed_node,
&host->requests_to_complete);
/* Take the request off the device's pending request list. */
list_del_init(&request->dev_node);
break;
case isci_perform_aborted_io_completion:
/* No notification to libsas because this request is
* already in the abort path.
*/
dev_warn(&host->pdev->dev,
"%s: Aborted - task = %p, response=%d (%d), status=%d (%d)\n",
__func__,
task,
task->task_status.resp, response,
task->task_status.stat, status);
/* Wake up whatever process was waiting for this
* request to complete.
*/
WARN_ON(request->io_request_completion == NULL);
if (request->io_request_completion != NULL) {
/* Signal whoever is waiting that this
* request is complete.
*/
complete(request->io_request_completion);
}
break;
case isci_perform_error_io_completion:
/* Use sas_task_abort */
dev_warn(&host->pdev->dev,
"%s: Error - task = %p, response=%d (%d), status=%d (%d)\n",
__func__,
task,
task->task_status.resp, response,
task->task_status.stat, status);
/* Add to the aborted list. */
list_add(&request->completed_node,
&host->requests_to_errorback);
break;
default:
dev_warn(&host->pdev->dev,
"%s: Unknown - task = %p, response=%d (%d), status=%d (%d)\n",
__func__,
task,
task->task_status.resp, response,
task->task_status.stat, status);
/* Add to the error to libsas list. */
list_add(&request->completed_node,
&host->requests_to_errorback);
break;
}
}
/**
* isci_request_io_request_complete() - This function is called by the sci core
* when an io request completes.
* @isci_host: This parameter specifies the ISCI host object
* @request: This parameter is the completed isci_request object.
* @completion_status: This parameter specifies the completion status from the
* sci core.
*
* none.
*/
void isci_request_io_request_complete(
struct isci_host *isci_host,
struct isci_request *request,
enum sci_io_status completion_status)
{
struct sas_task *task = isci_request_access_task(request);
struct ssp_response_iu *resp_iu;
void *resp_buf;
unsigned long task_flags;
struct isci_remote_device *isci_device = request->isci_device;
enum service_response response = SAS_TASK_UNDELIVERED;
enum exec_status status = SAS_ABORTED_TASK;
enum isci_request_status request_status;
enum isci_completion_selection complete_to_host
= isci_perform_normal_io_completion;
dev_dbg(&isci_host->pdev->dev,
"%s: request = %p, task = %p,\n"
"task->data_dir = %d completion_status = 0x%x\n",
__func__,
request,
task,
task->data_dir,
completion_status);
spin_lock(&request->state_lock);
request_status = isci_request_get_state(request);
/* Decode the request status. Note that if the request has been
* aborted by a task management function, we don't care
* what the status is.
*/
switch (request_status) {
case aborted:
/* "aborted" indicates that the request was aborted by a task
* management function, since once a task management request is
* perfomed by the device, the request only completes because
* of the subsequent driver terminate.
*
* Aborted also means an external thread is explicitly managing
* this request, so that we do not complete it up the stack.
*
* The target is still there (since the TMF was successful).
*/
request->complete_in_target = true;
response = SAS_TASK_COMPLETE;
/* See if the device has been/is being stopped. Note
* that we ignore the quiesce state, since we are
* concerned about the actual device state.
*/
if ((isci_device->status == isci_stopping)
|| (isci_device->status == isci_stopped)
)
status = SAS_DEVICE_UNKNOWN;
else
status = SAS_ABORTED_TASK;
complete_to_host = isci_perform_aborted_io_completion;
/* This was an aborted request. */
spin_unlock(&request->state_lock);
break;
case aborting:
/* aborting means that the task management function tried and
* failed to abort the request. We need to note the request
* as SAS_TASK_UNDELIVERED, so that the scsi mid layer marks the
* target as down.
*
* Aborting also means an external thread is explicitly managing
* this request, so that we do not complete it up the stack.
*/
request->complete_in_target = true;
response = SAS_TASK_UNDELIVERED;
if ((isci_device->status == isci_stopping) ||
(isci_device->status == isci_stopped))
/* The device has been /is being stopped. Note that
* we ignore the quiesce state, since we are
* concerned about the actual device state.
*/
status = SAS_DEVICE_UNKNOWN;
else
status = SAS_PHY_DOWN;
complete_to_host = isci_perform_aborted_io_completion;
/* This was an aborted request. */
spin_unlock(&request->state_lock);
break;
case terminating:
/* This was an terminated request. This happens when
* the I/O is being terminated because of an action on
* the device (reset, tear down, etc.), and the I/O needs
* to be completed up the stack.
*/
request->complete_in_target = true;
response = SAS_TASK_UNDELIVERED;
/* See if the device has been/is being stopped. Note
* that we ignore the quiesce state, since we are
* concerned about the actual device state.
*/
if ((isci_device->status == isci_stopping) ||
(isci_device->status == isci_stopped))
status = SAS_DEVICE_UNKNOWN;
else
status = SAS_ABORTED_TASK;
complete_to_host = isci_perform_aborted_io_completion;
/* This was a terminated request. */
spin_unlock(&request->state_lock);
break;
default:
/* The request is done from an SCU HW perspective. */
request->status = completed;
spin_unlock(&request->state_lock);
/* This is an active request being completed from the core. */
switch (completion_status) {
case SCI_IO_FAILURE_RESPONSE_VALID:
dev_dbg(&isci_host->pdev->dev,
"%s: SCI_IO_FAILURE_RESPONSE_VALID (%p/%p)\n",
__func__,
request,
task);
if (sas_protocol_ata(task->task_proto)) {
resp_buf
= scic_stp_io_request_get_d2h_reg_address(
request->sci_request_handle
);
isci_request_process_stp_response(task,
resp_buf
);
} else if (SAS_PROTOCOL_SSP == task->task_proto) {
/* crack the iu response buffer. */
resp_iu
= scic_io_request_get_response_iu_address(
request->sci_request_handle
);
isci_request_process_response_iu(task, resp_iu,
&isci_host->pdev->dev
);
} else if (SAS_PROTOCOL_SMP == task->task_proto) {
dev_err(&isci_host->pdev->dev,
"%s: SCI_IO_FAILURE_RESPONSE_VALID: "
"SAS_PROTOCOL_SMP protocol\n",
__func__);
} else
dev_err(&isci_host->pdev->dev,
"%s: unknown protocol\n", __func__);
/* use the task status set in the task struct by the
* isci_request_process_response_iu call.
*/
request->complete_in_target = true;
response = task->task_status.resp;
status = task->task_status.stat;
break;
case SCI_IO_SUCCESS:
case SCI_IO_SUCCESS_IO_DONE_EARLY:
response = SAS_TASK_COMPLETE;
status = SAM_STAT_GOOD;
request->complete_in_target = true;
if (task->task_proto == SAS_PROTOCOL_SMP) {
u8 *command_iu_address
= scic_io_request_get_command_iu_address(
request->sci_request_handle
);
dev_dbg(&isci_host->pdev->dev,
"%s: SMP protocol completion\n",
__func__);
sg_copy_from_buffer(
&task->smp_task.smp_resp, 1,
command_iu_address
+ sizeof(struct smp_request),
sizeof(struct smp_resp)
);
} else if (completion_status
== SCI_IO_SUCCESS_IO_DONE_EARLY) {
/* This was an SSP / STP / SATA transfer.
* There is a possibility that less data than
* the maximum was transferred.
*/
u32 transferred_length
= scic_io_request_get_number_of_bytes_transferred(
request->sci_request_handle);
task->task_status.residual
= task->total_xfer_len - transferred_length;
/* If there were residual bytes, call this an
* underrun.
*/
if (task->task_status.residual != 0)
status = SAS_DATA_UNDERRUN;
dev_dbg(&isci_host->pdev->dev,
"%s: SCI_IO_SUCCESS_IO_DONE_EARLY %d\n",
__func__,
status);
} else
dev_dbg(&isci_host->pdev->dev,
"%s: SCI_IO_SUCCESS\n",
__func__);
break;
case SCI_IO_FAILURE_TERMINATED:
dev_dbg(&isci_host->pdev->dev,
"%s: SCI_IO_FAILURE_TERMINATED (%p/%p)\n",
__func__,
request,
task);
/* The request was terminated explicitly. No handling
* is needed in the SCSI error handler path.
*/
request->complete_in_target = true;
response = SAS_TASK_UNDELIVERED;
/* See if the device has been/is being stopped. Note
* that we ignore the quiesce state, since we are
* concerned about the actual device state.
*/
if ((isci_device->status == isci_stopping) ||
(isci_device->status == isci_stopped))
status = SAS_DEVICE_UNKNOWN;
else
status = SAS_ABORTED_TASK;
complete_to_host = isci_perform_normal_io_completion;
break;
case SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR:
isci_request_handle_controller_specific_errors(
isci_device, request, task, &response, &status,
&complete_to_host);
break;
case SCI_IO_FAILURE_REMOTE_DEVICE_RESET_REQUIRED:
/* This is a special case, in that the I/O completion
* is telling us that the device needs a reset.
* In order for the device reset condition to be
* noticed, the I/O has to be handled in the error
* handler. Set the reset flag and cause the
* SCSI error thread to be scheduled.
*/
spin_lock_irqsave(&task->task_state_lock, task_flags);
task->task_state_flags |= SAS_TASK_NEED_DEV_RESET;
spin_unlock_irqrestore(&task->task_state_lock, task_flags);
/* Fail the I/O. */
response = SAS_TASK_UNDELIVERED;
status = SAM_STAT_TASK_ABORTED;
complete_to_host = isci_perform_error_io_completion;
request->complete_in_target = false;
break;
default:
/* Catch any otherwise unhandled error codes here. */
dev_warn(&isci_host->pdev->dev,
"%s: invalid completion code: 0x%x - "
"isci_request = %p\n",
__func__, completion_status, request);
response = SAS_TASK_UNDELIVERED;
/* See if the device has been/is being stopped. Note
* that we ignore the quiesce state, since we are
* concerned about the actual device state.
*/
if ((isci_device->status == isci_stopping) ||
(isci_device->status == isci_stopped))
status = SAS_DEVICE_UNKNOWN;
else
status = SAS_ABORTED_TASK;
complete_to_host = isci_perform_error_io_completion;
request->complete_in_target = false;
break;
}
break;
}
isci_request_unmap_sgl(request, isci_host->pdev);
/* Put the completed request on the correct list */
isci_task_save_for_upper_layer_completion(isci_host, request, response,
status, complete_to_host
);
/* complete the io request to the core. */
scic_controller_complete_io(
isci_host->core_controller,
to_sci_dev(isci_device),
request->sci_request_handle
);
/* NULL the request handle so it cannot be completed or
* terminated again, and to cause any calls into abort
* task to recognize the already completed case.
*/
request->sci_request_handle = NULL;
isci_host_can_dequeue(isci_host, 1);
}
/**
* isci_request_io_request_get_transfer_length() - This function is called by
* the sci core to retrieve the transfer length for a given request.
* @request: This parameter is the isci_request object.
*
* length of transfer for specified request.
*/
u32 isci_request_io_request_get_transfer_length(struct isci_request *request)
{
struct sas_task *task = isci_request_access_task(request);
dev_dbg(&request->isci_host->pdev->dev,
"%s: total_xfer_len: %d\n",
__func__,
task->total_xfer_len);
return task->total_xfer_len;
}
/**
* isci_request_io_request_get_data_direction() - This function is called by
* the sci core to retrieve the data direction for a given request.
* @request: This parameter is the isci_request object.
*
* data direction for specified request.
*/
enum dma_data_direction isci_request_io_request_get_data_direction(
struct isci_request *request)
{
struct sas_task *task = isci_request_access_task(request);
return task->data_dir;
}
/**
* isci_request_sge_get_address_field() - This function is called by the sci
* core to retrieve the address field contents for a given sge.
* @request: This parameter is the isci_request object.
* @sge_address: This parameter is the sge.
*
* physical address in the specified sge.
*/
/**
* isci_request_sge_get_length_field() - This function is called by the sci
* core to retrieve the length field contents for a given sge.
* @request: This parameter is the isci_request object.
* @sge_address: This parameter is the sge.
*
* length field value in the specified sge.
*/
/**
* isci_request_ssp_io_request_get_cdb_address() - This function is called by
* the sci core to retrieve the cdb address for a given request.
* @request: This parameter is the isci_request object.
*
* cdb address for specified request.
*/
void *isci_request_ssp_io_request_get_cdb_address(
struct isci_request *request)
{
struct sas_task *task = isci_request_access_task(request);
dev_dbg(&request->isci_host->pdev->dev,
"%s: request->task->ssp_task.cdb = %p\n",
__func__,
task->ssp_task.cdb);
return task->ssp_task.cdb;
}
/**
* isci_request_ssp_io_request_get_cdb_length() - This function is called by
* the sci core to retrieve the cdb length for a given request.
* @request: This parameter is the isci_request object.
*
* cdb length for specified request.
*/
u32 isci_request_ssp_io_request_get_cdb_length(
struct isci_request *request)
{
return 16;
}
/**
* isci_request_ssp_io_request_get_lun() - This function is called by the sci
* core to retrieve the lun for a given request.
* @request: This parameter is the isci_request object.
*
* lun for specified request.
*/
u32 isci_request_ssp_io_request_get_lun(
struct isci_request *request)
{
struct sas_task *task = isci_request_access_task(request);
#ifdef DEBUG
int i;
for (i = 0; i < 8; i++)
dev_dbg(&request->isci_host->pdev->dev,
"%s: task->ssp_task.LUN[%d] = %x\n",
__func__, i, task->ssp_task.LUN[i]);
#endif
return task->ssp_task.LUN[0];
}
/**
* isci_request_ssp_io_request_get_task_attribute() - This function is called
* by the sci core to retrieve the task attribute for a given request.
* @request: This parameter is the isci_request object.
*
* task attribute for specified request.
*/
u32 isci_request_ssp_io_request_get_task_attribute(
struct isci_request *request)
{
struct sas_task *task = isci_request_access_task(request);
dev_dbg(&request->isci_host->pdev->dev,
"%s: request->task->ssp_task.task_attr = %x\n",
__func__,
task->ssp_task.task_attr);
return task->ssp_task.task_attr;
}
/**
* isci_request_ssp_io_request_get_command_priority() - This function is called
* by the sci core to retrieve the command priority for a given request.
* @request: This parameter is the isci_request object.
*
* command priority for specified request.
*/
u32 isci_request_ssp_io_request_get_command_priority(
struct isci_request *request)
{
struct sas_task *task = isci_request_access_task(request);
dev_dbg(&request->isci_host->pdev->dev,
"%s: request->task->ssp_task.task_prio = %x\n",
__func__,
task->ssp_task.task_prio);
return task->ssp_task.task_prio;
}
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