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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 <scsi/scsi_cmnd.h>
- #include "isci.h"
- #include "task.h"
- #include "request.h"
- #include "scu_completion_codes.h"
- #include "scu_event_codes.h"
- #include "sas.h"
- #undef C
- #define C(a) (#a)
- const char *req_state_name(enum sci_base_request_states state)
- {
- static const char * const strings[] = REQUEST_STATES;
- return strings[state];
- }
- #undef C
- static struct scu_sgl_element_pair *to_sgl_element_pair(struct isci_request *ireq,
- int idx)
- {
- if (idx == 0)
- return &ireq->tc->sgl_pair_ab;
- else if (idx == 1)
- return &ireq->tc->sgl_pair_cd;
- else if (idx < 0)
- return NULL;
- else
- return &ireq->sg_table[idx - 2];
- }
- static dma_addr_t to_sgl_element_pair_dma(struct isci_host *ihost,
- struct isci_request *ireq, u32 idx)
- {
- u32 offset;
- if (idx == 0) {
- offset = (void *) &ireq->tc->sgl_pair_ab -
- (void *) &ihost->task_context_table[0];
- return ihost->tc_dma + offset;
- } else if (idx == 1) {
- offset = (void *) &ireq->tc->sgl_pair_cd -
- (void *) &ihost->task_context_table[0];
- return ihost->tc_dma + offset;
- }
- return sci_io_request_get_dma_addr(ireq, &ireq->sg_table[idx - 2]);
- }
- static void init_sgl_element(struct scu_sgl_element *e, struct scatterlist *sg)
- {
- e->length = sg_dma_len(sg);
- e->address_upper = upper_32_bits(sg_dma_address(sg));
- e->address_lower = lower_32_bits(sg_dma_address(sg));
- e->address_modifier = 0;
- }
- static void sci_request_build_sgl(struct isci_request *ireq)
- {
- struct isci_host *ihost = ireq->isci_host;
- struct sas_task *task = isci_request_access_task(ireq);
- struct scatterlist *sg = NULL;
- dma_addr_t dma_addr;
- u32 sg_idx = 0;
- struct scu_sgl_element_pair *scu_sg = NULL;
- struct scu_sgl_element_pair *prev_sg = NULL;
- if (task->num_scatter > 0) {
- sg = task->scatter;
- while (sg) {
- scu_sg = to_sgl_element_pair(ireq, sg_idx);
- init_sgl_element(&scu_sg->A, sg);
- sg = sg_next(sg);
- if (sg) {
- init_sgl_element(&scu_sg->B, sg);
- sg = sg_next(sg);
- } else
- memset(&scu_sg->B, 0, sizeof(scu_sg->B));
- if (prev_sg) {
- dma_addr = to_sgl_element_pair_dma(ihost,
- ireq,
- sg_idx);
- prev_sg->next_pair_upper =
- upper_32_bits(dma_addr);
- prev_sg->next_pair_lower =
- lower_32_bits(dma_addr);
- }
- prev_sg = scu_sg;
- sg_idx++;
- }
- } else { /* handle when no sg */
- scu_sg = to_sgl_element_pair(ireq, sg_idx);
- dma_addr = dma_map_single(&ihost->pdev->dev,
- task->scatter,
- task->total_xfer_len,
- task->data_dir);
- ireq->zero_scatter_daddr = dma_addr;
- scu_sg->A.length = task->total_xfer_len;
- scu_sg->A.address_upper = upper_32_bits(dma_addr);
- scu_sg->A.address_lower = lower_32_bits(dma_addr);
- }
- if (scu_sg) {
- scu_sg->next_pair_upper = 0;
- scu_sg->next_pair_lower = 0;
- }
- }
- static void sci_io_request_build_ssp_command_iu(struct isci_request *ireq)
- {
- struct ssp_cmd_iu *cmd_iu;
- struct sas_task *task = isci_request_access_task(ireq);
- cmd_iu = &ireq->ssp.cmd;
- memcpy(cmd_iu->LUN, task->ssp_task.LUN, 8);
- cmd_iu->add_cdb_len = 0;
- cmd_iu->_r_a = 0;
- cmd_iu->_r_b = 0;
- cmd_iu->en_fburst = 0; /* unsupported */
- cmd_iu->task_prio = task->ssp_task.task_prio;
- cmd_iu->task_attr = task->ssp_task.task_attr;
- cmd_iu->_r_c = 0;
- sci_swab32_cpy(&cmd_iu->cdb, task->ssp_task.cmd->cmnd,
- (task->ssp_task.cmd->cmd_len+3) / sizeof(u32));
- }
- static void sci_task_request_build_ssp_task_iu(struct isci_request *ireq)
- {
- struct ssp_task_iu *task_iu;
- struct sas_task *task = isci_request_access_task(ireq);
- struct isci_tmf *isci_tmf = isci_request_access_tmf(ireq);
- task_iu = &ireq->ssp.tmf;
- memset(task_iu, 0, sizeof(struct ssp_task_iu));
- memcpy(task_iu->LUN, task->ssp_task.LUN, 8);
- task_iu->task_func = isci_tmf->tmf_code;
- task_iu->task_tag =
- (test_bit(IREQ_TMF, &ireq->flags)) ?
- isci_tmf->io_tag :
- SCI_CONTROLLER_INVALID_IO_TAG;
- }
- /**
- * This method is will fill in the SCU Task Context for any type of SSP request.
- * @sci_req:
- * @task_context:
- *
- */
- static void scu_ssp_request_construct_task_context(
- struct isci_request *ireq,
- struct scu_task_context *task_context)
- {
- dma_addr_t dma_addr;
- struct isci_remote_device *idev;
- struct isci_port *iport;
- idev = ireq->target_device;
- iport = idev->owning_port;
- /* Fill in the TC with the its required data */
- task_context->abort = 0;
- task_context->priority = 0;
- task_context->initiator_request = 1;
- task_context->connection_rate = idev->connection_rate;
- task_context->protocol_engine_index = ISCI_PEG;
- task_context->logical_port_index = iport->physical_port_index;
- task_context->protocol_type = SCU_TASK_CONTEXT_PROTOCOL_SSP;
- task_context->valid = SCU_TASK_CONTEXT_VALID;
- task_context->context_type = SCU_TASK_CONTEXT_TYPE;
- task_context->remote_node_index = idev->rnc.remote_node_index;
- task_context->command_code = 0;
- task_context->link_layer_control = 0;
- task_context->do_not_dma_ssp_good_response = 1;
- task_context->strict_ordering = 0;
- task_context->control_frame = 0;
- task_context->timeout_enable = 0;
- task_context->block_guard_enable = 0;
- task_context->address_modifier = 0;
- /* task_context->type.ssp.tag = ireq->io_tag; */
- task_context->task_phase = 0x01;
- ireq->post_context = (SCU_CONTEXT_COMMAND_REQUEST_TYPE_POST_TC |
- (ISCI_PEG << SCU_CONTEXT_COMMAND_PROTOCOL_ENGINE_GROUP_SHIFT) |
- (iport->physical_port_index <<
- SCU_CONTEXT_COMMAND_LOGICAL_PORT_SHIFT) |
- ISCI_TAG_TCI(ireq->io_tag));
- /*
- * Copy the physical address for the command buffer to the
- * SCU Task Context
- */
- dma_addr = sci_io_request_get_dma_addr(ireq, &ireq->ssp.cmd);
- task_context->command_iu_upper = upper_32_bits(dma_addr);
- task_context->command_iu_lower = lower_32_bits(dma_addr);
- /*
- * Copy the physical address for the response buffer to the
- * SCU Task Context
- */
- dma_addr = sci_io_request_get_dma_addr(ireq, &ireq->ssp.rsp);
- task_context->response_iu_upper = upper_32_bits(dma_addr);
- task_context->response_iu_lower = lower_32_bits(dma_addr);
- }
- static u8 scu_bg_blk_size(struct scsi_device *sdp)
- {
- switch (sdp->sector_size) {
- case 512:
- return 0;
- case 1024:
- return 1;
- case 4096:
- return 3;
- default:
- return 0xff;
- }
- }
- static u32 scu_dif_bytes(u32 len, u32 sector_size)
- {
- return (len >> ilog2(sector_size)) * 8;
- }
- static void scu_ssp_ireq_dif_insert(struct isci_request *ireq, u8 type, u8 op)
- {
- struct scu_task_context *tc = ireq->tc;
- struct scsi_cmnd *scmd = ireq->ttype_ptr.io_task_ptr->uldd_task;
- u8 blk_sz = scu_bg_blk_size(scmd->device);
- tc->block_guard_enable = 1;
- tc->blk_prot_en = 1;
- tc->blk_sz = blk_sz;
- /* DIF write insert */
- tc->blk_prot_func = 0x2;
- tc->transfer_length_bytes += scu_dif_bytes(tc->transfer_length_bytes,
- scmd->device->sector_size);
- /* always init to 0, used by hw */
- tc->interm_crc_val = 0;
- tc->init_crc_seed = 0;
- tc->app_tag_verify = 0;
- tc->app_tag_gen = 0;
- tc->ref_tag_seed_verify = 0;
- /* always init to same as bg_blk_sz */
- tc->UD_bytes_immed_val = scmd->device->sector_size;
- tc->reserved_DC_0 = 0;
- /* always init to 8 */
- tc->DIF_bytes_immed_val = 8;
- tc->reserved_DC_1 = 0;
- tc->bgc_blk_sz = scmd->device->sector_size;
- tc->reserved_E0_0 = 0;
- tc->app_tag_gen_mask = 0;
- /** setup block guard control **/
- tc->bgctl = 0;
- /* DIF write insert */
- tc->bgctl_f.op = 0x2;
- tc->app_tag_verify_mask = 0;
- /* must init to 0 for hw */
- tc->blk_guard_err = 0;
- tc->reserved_E8_0 = 0;
- if ((type & SCSI_PROT_DIF_TYPE1) || (type & SCSI_PROT_DIF_TYPE2))
- tc->ref_tag_seed_gen = scsi_get_lba(scmd) & 0xffffffff;
- else if (type & SCSI_PROT_DIF_TYPE3)
- tc->ref_tag_seed_gen = 0;
- }
- static void scu_ssp_ireq_dif_strip(struct isci_request *ireq, u8 type, u8 op)
- {
- struct scu_task_context *tc = ireq->tc;
- struct scsi_cmnd *scmd = ireq->ttype_ptr.io_task_ptr->uldd_task;
- u8 blk_sz = scu_bg_blk_size(scmd->device);
- tc->block_guard_enable = 1;
- tc->blk_prot_en = 1;
- tc->blk_sz = blk_sz;
- /* DIF read strip */
- tc->blk_prot_func = 0x1;
- tc->transfer_length_bytes += scu_dif_bytes(tc->transfer_length_bytes,
- scmd->device->sector_size);
- /* always init to 0, used by hw */
- tc->interm_crc_val = 0;
- tc->init_crc_seed = 0;
- tc->app_tag_verify = 0;
- tc->app_tag_gen = 0;
- if ((type & SCSI_PROT_DIF_TYPE1) || (type & SCSI_PROT_DIF_TYPE2))
- tc->ref_tag_seed_verify = scsi_get_lba(scmd) & 0xffffffff;
- else if (type & SCSI_PROT_DIF_TYPE3)
- tc->ref_tag_seed_verify = 0;
- /* always init to same as bg_blk_sz */
- tc->UD_bytes_immed_val = scmd->device->sector_size;
- tc->reserved_DC_0 = 0;
- /* always init to 8 */
- tc->DIF_bytes_immed_val = 8;
- tc->reserved_DC_1 = 0;
- tc->bgc_blk_sz = scmd->device->sector_size;
- tc->reserved_E0_0 = 0;
- tc->app_tag_gen_mask = 0;
- /** setup block guard control **/
- tc->bgctl = 0;
- /* DIF read strip */
- tc->bgctl_f.crc_verify = 1;
- tc->bgctl_f.op = 0x1;
- if ((type & SCSI_PROT_DIF_TYPE1) || (type & SCSI_PROT_DIF_TYPE2)) {
- tc->bgctl_f.ref_tag_chk = 1;
- tc->bgctl_f.app_f_detect = 1;
- } else if (type & SCSI_PROT_DIF_TYPE3)
- tc->bgctl_f.app_ref_f_detect = 1;
- tc->app_tag_verify_mask = 0;
- /* must init to 0 for hw */
- tc->blk_guard_err = 0;
- tc->reserved_E8_0 = 0;
- tc->ref_tag_seed_gen = 0;
- }
- /**
- * This method is will fill in the SCU Task Context for a SSP IO request.
- * @sci_req:
- *
- */
- static void scu_ssp_io_request_construct_task_context(struct isci_request *ireq,
- enum dma_data_direction dir,
- u32 len)
- {
- struct scu_task_context *task_context = ireq->tc;
- struct sas_task *sas_task = ireq->ttype_ptr.io_task_ptr;
- struct scsi_cmnd *scmd = sas_task->uldd_task;
- u8 prot_type = scsi_get_prot_type(scmd);
- u8 prot_op = scsi_get_prot_op(scmd);
- scu_ssp_request_construct_task_context(ireq, task_context);
- task_context->ssp_command_iu_length =
- sizeof(struct ssp_cmd_iu) / sizeof(u32);
- task_context->type.ssp.frame_type = SSP_COMMAND;
- switch (dir) {
- case DMA_FROM_DEVICE:
- case DMA_NONE:
- default:
- task_context->task_type = SCU_TASK_TYPE_IOREAD;
- break;
- case DMA_TO_DEVICE:
- task_context->task_type = SCU_TASK_TYPE_IOWRITE;
- break;
- }
- task_context->transfer_length_bytes = len;
- if (task_context->transfer_length_bytes > 0)
- sci_request_build_sgl(ireq);
- if (prot_type != SCSI_PROT_DIF_TYPE0) {
- if (prot_op == SCSI_PROT_READ_STRIP)
- scu_ssp_ireq_dif_strip(ireq, prot_type, prot_op);
- else if (prot_op == SCSI_PROT_WRITE_INSERT)
- scu_ssp_ireq_dif_insert(ireq, prot_type, prot_op);
- }
- }
- /**
- * This method will fill in the SCU Task Context for a SSP Task request. The
- * following important settings are utilized: -# priority ==
- * SCU_TASK_PRIORITY_HIGH. This ensures that the task request is issued
- * ahead of other task destined for the same Remote Node. -# task_type ==
- * SCU_TASK_TYPE_IOREAD. This simply indicates that a normal request type
- * (i.e. non-raw frame) is being utilized to perform task management. -#
- * control_frame == 1. This ensures that the proper endianess is set so
- * that the bytes are transmitted in the right order for a task frame.
- * @sci_req: This parameter specifies the task request object being
- * constructed.
- *
- */
- static void scu_ssp_task_request_construct_task_context(struct isci_request *ireq)
- {
- struct scu_task_context *task_context = ireq->tc;
- scu_ssp_request_construct_task_context(ireq, task_context);
- task_context->control_frame = 1;
- task_context->priority = SCU_TASK_PRIORITY_HIGH;
- task_context->task_type = SCU_TASK_TYPE_RAW_FRAME;
- task_context->transfer_length_bytes = 0;
- task_context->type.ssp.frame_type = SSP_TASK;
- task_context->ssp_command_iu_length =
- sizeof(struct ssp_task_iu) / sizeof(u32);
- }
- /**
- * This method is will fill in the SCU Task Context for any type of SATA
- * request. This is called from the various SATA constructors.
- * @sci_req: The general IO request object which is to be used in
- * constructing the SCU task context.
- * @task_context: The buffer pointer for the SCU task context which is being
- * constructed.
- *
- * The general io request construction is complete. The buffer assignment for
- * the command buffer is complete. none Revisit task context construction to
- * determine what is common for SSP/SMP/STP task context structures.
- */
- static void scu_sata_request_construct_task_context(
- struct isci_request *ireq,
- struct scu_task_context *task_context)
- {
- dma_addr_t dma_addr;
- struct isci_remote_device *idev;
- struct isci_port *iport;
- idev = ireq->target_device;
- iport = idev->owning_port;
- /* Fill in the TC with the its required data */
- task_context->abort = 0;
- task_context->priority = SCU_TASK_PRIORITY_NORMAL;
- task_context->initiator_request = 1;
- task_context->connection_rate = idev->connection_rate;
- task_context->protocol_engine_index = ISCI_PEG;
- task_context->logical_port_index = iport->physical_port_index;
- task_context->protocol_type = SCU_TASK_CONTEXT_PROTOCOL_STP;
- task_context->valid = SCU_TASK_CONTEXT_VALID;
- task_context->context_type = SCU_TASK_CONTEXT_TYPE;
- task_context->remote_node_index = idev->rnc.remote_node_index;
- task_context->command_code = 0;
- task_context->link_layer_control = 0;
- task_context->do_not_dma_ssp_good_response = 1;
- task_context->strict_ordering = 0;
- task_context->control_frame = 0;
- task_context->timeout_enable = 0;
- task_context->block_guard_enable = 0;
- task_context->address_modifier = 0;
- task_context->task_phase = 0x01;
- task_context->ssp_command_iu_length =
- (sizeof(struct host_to_dev_fis) - sizeof(u32)) / sizeof(u32);
- /* Set the first word of the H2D REG FIS */
- task_context->type.words[0] = *(u32 *)&ireq->stp.cmd;
- ireq->post_context = (SCU_CONTEXT_COMMAND_REQUEST_TYPE_POST_TC |
- (ISCI_PEG << SCU_CONTEXT_COMMAND_PROTOCOL_ENGINE_GROUP_SHIFT) |
- (iport->physical_port_index <<
- SCU_CONTEXT_COMMAND_LOGICAL_PORT_SHIFT) |
- ISCI_TAG_TCI(ireq->io_tag));
- /*
- * Copy the physical address for the command buffer to the SCU Task
- * Context. We must offset the command buffer by 4 bytes because the
- * first 4 bytes are transfered in the body of the TC.
- */
- dma_addr = sci_io_request_get_dma_addr(ireq,
- ((char *) &ireq->stp.cmd) +
- sizeof(u32));
- task_context->command_iu_upper = upper_32_bits(dma_addr);
- task_context->command_iu_lower = lower_32_bits(dma_addr);
- /* SATA Requests do not have a response buffer */
- task_context->response_iu_upper = 0;
- task_context->response_iu_lower = 0;
- }
- static void scu_stp_raw_request_construct_task_context(struct isci_request *ireq)
- {
- struct scu_task_context *task_context = ireq->tc;
- scu_sata_request_construct_task_context(ireq, task_context);
- task_context->control_frame = 0;
- task_context->priority = SCU_TASK_PRIORITY_NORMAL;
- task_context->task_type = SCU_TASK_TYPE_SATA_RAW_FRAME;
- task_context->type.stp.fis_type = FIS_REGH2D;
- task_context->transfer_length_bytes = sizeof(struct host_to_dev_fis) - sizeof(u32);
- }
- static enum sci_status sci_stp_pio_request_construct(struct isci_request *ireq,
- bool copy_rx_frame)
- {
- struct isci_stp_request *stp_req = &ireq->stp.req;
- scu_stp_raw_request_construct_task_context(ireq);
- stp_req->status = 0;
- stp_req->sgl.offset = 0;
- stp_req->sgl.set = SCU_SGL_ELEMENT_PAIR_A;
- if (copy_rx_frame) {
- sci_request_build_sgl(ireq);
- stp_req->sgl.index = 0;
- } else {
- /* The user does not want the data copied to the SGL buffer location */
- stp_req->sgl.index = -1;
- }
- return SCI_SUCCESS;
- }
- /**
- *
- * @sci_req: This parameter specifies the request to be constructed as an
- * optimized request.
- * @optimized_task_type: This parameter specifies whether the request is to be
- * an UDMA request or a NCQ request. - A value of 0 indicates UDMA. - A
- * value of 1 indicates NCQ.
- *
- * This method will perform request construction common to all types of STP
- * requests that are optimized by the silicon (i.e. UDMA, NCQ). This method
- * returns an indication as to whether the construction was successful.
- */
- static void sci_stp_optimized_request_construct(struct isci_request *ireq,
- u8 optimized_task_type,
- u32 len,
- enum dma_data_direction dir)
- {
- struct scu_task_context *task_context = ireq->tc;
- /* Build the STP task context structure */
- scu_sata_request_construct_task_context(ireq, task_context);
- /* Copy over the SGL elements */
- sci_request_build_sgl(ireq);
- /* Copy over the number of bytes to be transfered */
- task_context->transfer_length_bytes = len;
- if (dir == DMA_TO_DEVICE) {
- /*
- * The difference between the DMA IN and DMA OUT request task type
- * values are consistent with the difference between FPDMA READ
- * and FPDMA WRITE values. Add the supplied task type parameter
- * to this difference to set the task type properly for this
- * DATA OUT (WRITE) case. */
- task_context->task_type = optimized_task_type + (SCU_TASK_TYPE_DMA_OUT
- - SCU_TASK_TYPE_DMA_IN);
- } else {
- /*
- * For the DATA IN (READ) case, simply save the supplied
- * optimized task type. */
- task_context->task_type = optimized_task_type;
- }
- }
- static void sci_atapi_construct(struct isci_request *ireq)
- {
- struct host_to_dev_fis *h2d_fis = &ireq->stp.cmd;
- struct sas_task *task;
- /* To simplify the implementation we take advantage of the
- * silicon's partial acceleration of atapi protocol (dma data
- * transfers), so we promote all commands to dma protocol. This
- * breaks compatibility with ATA_HORKAGE_ATAPI_MOD16_DMA drives.
- */
- h2d_fis->features |= ATAPI_PKT_DMA;
- scu_stp_raw_request_construct_task_context(ireq);
- task = isci_request_access_task(ireq);
- if (task->data_dir == DMA_NONE)
- task->total_xfer_len = 0;
- /* clear the response so we can detect arrivial of an
- * unsolicited h2d fis
- */
- ireq->stp.rsp.fis_type = 0;
- }
- static enum sci_status
- sci_io_request_construct_sata(struct isci_request *ireq,
- u32 len,
- enum dma_data_direction dir,
- bool copy)
- {
- enum sci_status status = SCI_SUCCESS;
- struct sas_task *task = isci_request_access_task(ireq);
- struct domain_device *dev = ireq->target_device->domain_dev;
- /* check for management protocols */
- if (test_bit(IREQ_TMF, &ireq->flags)) {
- struct isci_tmf *tmf = isci_request_access_tmf(ireq);
- dev_err(&ireq->owning_controller->pdev->dev,
- "%s: Request 0x%p received un-handled SAT "
- "management protocol 0x%x.\n",
- __func__, ireq, tmf->tmf_code);
- return SCI_FAILURE;
- }
- if (!sas_protocol_ata(task->task_proto)) {
- dev_err(&ireq->owning_controller->pdev->dev,
- "%s: Non-ATA protocol in SATA path: 0x%x\n",
- __func__,
- task->task_proto);
- return SCI_FAILURE;
- }
- /* ATAPI */
- if (dev->sata_dev.class == ATA_DEV_ATAPI &&
- task->ata_task.fis.command == ATA_CMD_PACKET) {
- sci_atapi_construct(ireq);
- return SCI_SUCCESS;
- }
- /* non data */
- if (task->data_dir == DMA_NONE) {
- scu_stp_raw_request_construct_task_context(ireq);
- return SCI_SUCCESS;
- }
- /* NCQ */
- if (task->ata_task.use_ncq) {
- sci_stp_optimized_request_construct(ireq,
- SCU_TASK_TYPE_FPDMAQ_READ,
- len, dir);
- return SCI_SUCCESS;
- }
- /* DMA */
- if (task->ata_task.dma_xfer) {
- sci_stp_optimized_request_construct(ireq,
- SCU_TASK_TYPE_DMA_IN,
- len, dir);
- return SCI_SUCCESS;
- } else /* PIO */
- return sci_stp_pio_request_construct(ireq, copy);
- return status;
- }
- static enum sci_status sci_io_request_construct_basic_ssp(struct isci_request *ireq)
- {
- struct sas_task *task = isci_request_access_task(ireq);
- ireq->protocol = SAS_PROTOCOL_SSP;
- scu_ssp_io_request_construct_task_context(ireq,
- task->data_dir,
- task->total_xfer_len);
- sci_io_request_build_ssp_command_iu(ireq);
- sci_change_state(&ireq->sm, SCI_REQ_CONSTRUCTED);
- return SCI_SUCCESS;
- }
- enum sci_status sci_task_request_construct_ssp(
- struct isci_request *ireq)
- {
- /* Construct the SSP Task SCU Task Context */
- scu_ssp_task_request_construct_task_context(ireq);
- /* Fill in the SSP Task IU */
- sci_task_request_build_ssp_task_iu(ireq);
- sci_change_state(&ireq->sm, SCI_REQ_CONSTRUCTED);
- return SCI_SUCCESS;
- }
- static enum sci_status sci_io_request_construct_basic_sata(struct isci_request *ireq)
- {
- enum sci_status status;
- bool copy = false;
- struct sas_task *task = isci_request_access_task(ireq);
- ireq->protocol = SAS_PROTOCOL_STP;
- copy = (task->data_dir == DMA_NONE) ? false : true;
- status = sci_io_request_construct_sata(ireq,
- task->total_xfer_len,
- task->data_dir,
- copy);
- if (status == SCI_SUCCESS)
- sci_change_state(&ireq->sm, SCI_REQ_CONSTRUCTED);
- return status;
- }
- /**
- * sci_req_tx_bytes - bytes transferred when reply underruns request
- * @ireq: request that was terminated early
- */
- #define SCU_TASK_CONTEXT_SRAM 0x200000
- static u32 sci_req_tx_bytes(struct isci_request *ireq)
- {
- struct isci_host *ihost = ireq->owning_controller;
- u32 ret_val = 0;
- if (readl(&ihost->smu_registers->address_modifier) == 0) {
- void __iomem *scu_reg_base = ihost->scu_registers;
- /* get the bytes of data from the Address == BAR1 + 20002Ch + (256*TCi) where
- * BAR1 is the scu_registers
- * 0x20002C = 0x200000 + 0x2c
- * = start of task context SRAM + offset of (type.ssp.data_offset)
- * TCi is the io_tag of struct sci_request
- */
- ret_val = readl(scu_reg_base +
- (SCU_TASK_CONTEXT_SRAM + offsetof(struct scu_task_context, type.ssp.data_offset)) +
- ((sizeof(struct scu_task_context)) * ISCI_TAG_TCI(ireq->io_tag)));
- }
- return ret_val;
- }
- enum sci_status sci_request_start(struct isci_request *ireq)
- {
- enum sci_base_request_states state;
- struct scu_task_context *tc = ireq->tc;
- struct isci_host *ihost = ireq->owning_controller;
- state = ireq->sm.current_state_id;
- if (state != SCI_REQ_CONSTRUCTED) {
- dev_warn(&ihost->pdev->dev,
- "%s: SCIC IO Request requested to start while in wrong "
- "state %d\n", __func__, state);
- return SCI_FAILURE_INVALID_STATE;
- }
- tc->task_index = ISCI_TAG_TCI(ireq->io_tag);
- switch (tc->protocol_type) {
- case SCU_TASK_CONTEXT_PROTOCOL_SMP:
- case SCU_TASK_CONTEXT_PROTOCOL_SSP:
- /* SSP/SMP Frame */
- tc->type.ssp.tag = ireq->io_tag;
- tc->type.ssp.target_port_transfer_tag = 0xFFFF;
- break;
- case SCU_TASK_CONTEXT_PROTOCOL_STP:
- /* STP/SATA Frame
- * tc->type.stp.ncq_tag = ireq->ncq_tag;
- */
- break;
- case SCU_TASK_CONTEXT_PROTOCOL_NONE:
- /* / @todo When do we set no protocol type? */
- break;
- default:
- /* This should never happen since we build the IO
- * requests */
- break;
- }
- /* Add to the post_context the io tag value */
- ireq->post_context |= ISCI_TAG_TCI(ireq->io_tag);
- /* Everything is good go ahead and change state */
- sci_change_state(&ireq->sm, SCI_REQ_STARTED);
- return SCI_SUCCESS;
- }
- enum sci_status
- sci_io_request_terminate(struct isci_request *ireq)
- {
- enum sci_base_request_states state;
- state = ireq->sm.current_state_id;
- switch (state) {
- case SCI_REQ_CONSTRUCTED:
- /* Set to make sure no HW terminate posting is done: */
- set_bit(IREQ_TC_ABORT_POSTED, &ireq->flags);
- ireq->scu_status = SCU_TASK_DONE_TASK_ABORT;
- ireq->sci_status = SCI_FAILURE_IO_TERMINATED;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- return SCI_SUCCESS;
- case SCI_REQ_STARTED:
- case SCI_REQ_TASK_WAIT_TC_COMP:
- case SCI_REQ_SMP_WAIT_RESP:
- case SCI_REQ_SMP_WAIT_TC_COMP:
- case SCI_REQ_STP_UDMA_WAIT_TC_COMP:
- case SCI_REQ_STP_UDMA_WAIT_D2H:
- case SCI_REQ_STP_NON_DATA_WAIT_H2D:
- case SCI_REQ_STP_NON_DATA_WAIT_D2H:
- case SCI_REQ_STP_PIO_WAIT_H2D:
- case SCI_REQ_STP_PIO_WAIT_FRAME:
- case SCI_REQ_STP_PIO_DATA_IN:
- case SCI_REQ_STP_PIO_DATA_OUT:
- case SCI_REQ_ATAPI_WAIT_H2D:
- case SCI_REQ_ATAPI_WAIT_PIO_SETUP:
- case SCI_REQ_ATAPI_WAIT_D2H:
- case SCI_REQ_ATAPI_WAIT_TC_COMP:
- /* Fall through and change state to ABORTING... */
- case SCI_REQ_TASK_WAIT_TC_RESP:
- /* The task frame was already confirmed to have been
- * sent by the SCU HW. Since the state machine is
- * now only waiting for the task response itself,
- * abort the request and complete it immediately
- * and don't wait for the task response.
- */
- sci_change_state(&ireq->sm, SCI_REQ_ABORTING);
- /* Fall through and handle like ABORTING... */
- case SCI_REQ_ABORTING:
- if (!isci_remote_device_is_safe_to_abort(ireq->target_device))
- set_bit(IREQ_PENDING_ABORT, &ireq->flags);
- else
- clear_bit(IREQ_PENDING_ABORT, &ireq->flags);
- /* If the request is only waiting on the remote device
- * suspension, return SUCCESS so the caller will wait too.
- */
- return SCI_SUCCESS;
- case SCI_REQ_COMPLETED:
- default:
- dev_warn(&ireq->owning_controller->pdev->dev,
- "%s: SCIC IO Request requested to abort while in wrong "
- "state %d\n", __func__, ireq->sm.current_state_id);
- break;
- }
- return SCI_FAILURE_INVALID_STATE;
- }
- enum sci_status sci_request_complete(struct isci_request *ireq)
- {
- enum sci_base_request_states state;
- struct isci_host *ihost = ireq->owning_controller;
- state = ireq->sm.current_state_id;
- if (WARN_ONCE(state != SCI_REQ_COMPLETED,
- "isci: request completion from wrong state (%s)\n",
- req_state_name(state)))
- return SCI_FAILURE_INVALID_STATE;
- if (ireq->saved_rx_frame_index != SCU_INVALID_FRAME_INDEX)
- sci_controller_release_frame(ihost,
- ireq->saved_rx_frame_index);
- /* XXX can we just stop the machine and remove the 'final' state? */
- sci_change_state(&ireq->sm, SCI_REQ_FINAL);
- return SCI_SUCCESS;
- }
- enum sci_status sci_io_request_event_handler(struct isci_request *ireq,
- u32 event_code)
- {
- enum sci_base_request_states state;
- struct isci_host *ihost = ireq->owning_controller;
- state = ireq->sm.current_state_id;
- if (state != SCI_REQ_STP_PIO_DATA_IN) {
- dev_warn(&ihost->pdev->dev, "%s: (%x) in wrong state %s\n",
- __func__, event_code, req_state_name(state));
- return SCI_FAILURE_INVALID_STATE;
- }
- switch (scu_get_event_specifier(event_code)) {
- case SCU_TASK_DONE_CRC_ERR << SCU_EVENT_SPECIFIC_CODE_SHIFT:
- /* We are waiting for data and the SCU has R_ERR the data frame.
- * Go back to waiting for the D2H Register FIS
- */
- sci_change_state(&ireq->sm, SCI_REQ_STP_PIO_WAIT_FRAME);
- return SCI_SUCCESS;
- default:
- dev_err(&ihost->pdev->dev,
- "%s: pio request unexpected event %#x\n",
- __func__, event_code);
- /* TODO Should we fail the PIO request when we get an
- * unexpected event?
- */
- return SCI_FAILURE;
- }
- }
- /*
- * This function copies response data for requests returning response data
- * instead of sense data.
- * @sci_req: This parameter specifies the request object for which to copy
- * the response data.
- */
- static void sci_io_request_copy_response(struct isci_request *ireq)
- {
- void *resp_buf;
- u32 len;
- struct ssp_response_iu *ssp_response;
- struct isci_tmf *isci_tmf = isci_request_access_tmf(ireq);
- ssp_response = &ireq->ssp.rsp;
- resp_buf = &isci_tmf->resp.resp_iu;
- len = min_t(u32,
- SSP_RESP_IU_MAX_SIZE,
- be32_to_cpu(ssp_response->response_data_len));
- memcpy(resp_buf, ssp_response->resp_data, len);
- }
- static enum sci_status
- request_started_state_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- struct ssp_response_iu *resp_iu;
- u8 datapres;
- /* TODO: Any SDMA return code of other than 0 is bad decode 0x003C0000
- * to determine SDMA status
- */
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- break;
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_EARLY_RESP): {
- /* There are times when the SCU hardware will return an early
- * response because the io request specified more data than is
- * returned by the target device (mode pages, inquiry data,
- * etc.). We must check the response stats to see if this is
- * truly a failed request or a good request that just got
- * completed early.
- */
- struct ssp_response_iu *resp = &ireq->ssp.rsp;
- ssize_t word_cnt = SSP_RESP_IU_MAX_SIZE / sizeof(u32);
- sci_swab32_cpy(&ireq->ssp.rsp,
- &ireq->ssp.rsp,
- word_cnt);
- if (resp->status == 0) {
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS_IO_DONE_EARLY;
- } else {
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- }
- break;
- }
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_CHECK_RESPONSE): {
- ssize_t word_cnt = SSP_RESP_IU_MAX_SIZE / sizeof(u32);
- sci_swab32_cpy(&ireq->ssp.rsp,
- &ireq->ssp.rsp,
- word_cnt);
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- break;
- }
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_RESP_LEN_ERR):
- /* TODO With TASK_DONE_RESP_LEN_ERR is the response frame
- * guaranteed to be received before this completion status is
- * posted?
- */
- resp_iu = &ireq->ssp.rsp;
- datapres = resp_iu->datapres;
- if (datapres == 1 || datapres == 2) {
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- } else {
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- }
- break;
- /* only stp device gets suspended. */
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_ACK_NAK_TO):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_LL_PERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_NAK_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_DATA_LEN_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_LL_ABORT_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_XR_WD_LEN):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_MAX_PLD_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_UNEXP_RESP):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_UNEXP_SDBFIS):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_REG_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SDB_ERR):
- if (ireq->protocol == SAS_PROTOCOL_STP) {
- ireq->scu_status = SCU_GET_COMPLETION_TL_STATUS(completion_code) >>
- SCU_COMPLETION_TL_STATUS_SHIFT;
- ireq->sci_status = SCI_FAILURE_REMOTE_DEVICE_RESET_REQUIRED;
- } else {
- ireq->scu_status = SCU_GET_COMPLETION_TL_STATUS(completion_code) >>
- SCU_COMPLETION_TL_STATUS_SHIFT;
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- }
- break;
- /* both stp/ssp device gets suspended */
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_LF_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_WRONG_DESTINATION):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_1):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_2):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_3):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_BAD_DESTINATION):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_ZONE_VIOLATION):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_STP_RESOURCES_BUSY):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_PROTOCOL_NOT_SUPPORTED):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_OPEN_REJECT_CONNECTION_RATE_NOT_SUPPORTED):
- ireq->scu_status = SCU_GET_COMPLETION_TL_STATUS(completion_code) >>
- SCU_COMPLETION_TL_STATUS_SHIFT;
- ireq->sci_status = SCI_FAILURE_REMOTE_DEVICE_RESET_REQUIRED;
- break;
- /* neither ssp nor stp gets suspended. */
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_NAK_CMD_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_UNEXP_XR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_XR_IU_LEN_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SDMA_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_OFFSET_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_EXCESS_DATA):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_RESP_TO_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_UFI_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_FRM_TYPE_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_LL_RX_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_UNEXP_DATA):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_OPEN_FAIL):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_VIIT_ENTRY_NV):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_IIT_ENTRY_NV):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_RNCNV_OUTBOUND):
- default:
- ireq->scu_status = SCU_GET_COMPLETION_TL_STATUS(completion_code) >>
- SCU_COMPLETION_TL_STATUS_SHIFT;
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- break;
- }
- /*
- * TODO: This is probably wrong for ACK/NAK timeout conditions
- */
- /* In all cases we will treat this as the completion of the IO req. */
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- return SCI_SUCCESS;
- }
- static enum sci_status
- request_aborting_state_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case (SCU_TASK_DONE_GOOD << SCU_COMPLETION_TL_STATUS_SHIFT):
- case (SCU_TASK_DONE_TASK_ABORT << SCU_COMPLETION_TL_STATUS_SHIFT):
- ireq->scu_status = SCU_TASK_DONE_TASK_ABORT;
- ireq->sci_status = SCI_FAILURE_IO_TERMINATED;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- default:
- /* Unless we get some strange error wait for the task abort to complete
- * TODO: Should there be a state change for this completion?
- */
- break;
- }
- return SCI_SUCCESS;
- }
- static enum sci_status ssp_task_request_await_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_TASK_WAIT_TC_RESP);
- break;
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_ACK_NAK_TO):
- /* Currently, the decision is to simply allow the task request
- * to timeout if the task IU wasn't received successfully.
- * There is a potential for receiving multiple task responses if
- * we decide to send the task IU again.
- */
- dev_warn(&ireq->owning_controller->pdev->dev,
- "%s: TaskRequest:0x%p CompletionCode:%x - "
- "ACK/NAK timeout\n", __func__, ireq,
- completion_code);
- sci_change_state(&ireq->sm, SCI_REQ_TASK_WAIT_TC_RESP);
- break;
- default:
- /*
- * All other completion status cause the IO to be complete.
- * If a NAK was received, then it is up to the user to retry
- * the request.
- */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return SCI_SUCCESS;
- }
- static enum sci_status
- smp_request_await_response_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- /* In the AWAIT RESPONSE state, any TC completion is
- * unexpected. but if the TC has success status, we
- * complete the IO anyway.
- */
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_RESP_TO_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_UFI_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_FRM_TYPE_ERR):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_SMP_LL_RX_ERR):
- /* These status has been seen in a specific LSI
- * expander, which sometimes is not able to send smp
- * response within 2 ms. This causes our hardware break
- * the connection and set TC completion with one of
- * these SMP_XXX_XX_ERR status. For these type of error,
- * we ask ihost user to retry the request.
- */
- ireq->scu_status = SCU_TASK_DONE_SMP_RESP_TO_ERR;
- ireq->sci_status = SCI_FAILURE_RETRY_REQUIRED;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- default:
- /* All other completion status cause the IO to be complete. If a NAK
- * was received, then it is up to the user to retry the request
- */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return SCI_SUCCESS;
- }
- static enum sci_status
- smp_request_await_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- default:
- /* All other completion status cause the IO to be
- * complete. If a NAK was received, then it is up to
- * the user to retry the request.
- */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return SCI_SUCCESS;
- }
- static struct scu_sgl_element *pio_sgl_next(struct isci_stp_request *stp_req)
- {
- struct scu_sgl_element *sgl;
- struct scu_sgl_element_pair *sgl_pair;
- struct isci_request *ireq = to_ireq(stp_req);
- struct isci_stp_pio_sgl *pio_sgl = &stp_req->sgl;
- sgl_pair = to_sgl_element_pair(ireq, pio_sgl->index);
- if (!sgl_pair)
- sgl = NULL;
- else if (pio_sgl->set == SCU_SGL_ELEMENT_PAIR_A) {
- if (sgl_pair->B.address_lower == 0 &&
- sgl_pair->B.address_upper == 0) {
- sgl = NULL;
- } else {
- pio_sgl->set = SCU_SGL_ELEMENT_PAIR_B;
- sgl = &sgl_pair->B;
- }
- } else {
- if (sgl_pair->next_pair_lower == 0 &&
- sgl_pair->next_pair_upper == 0) {
- sgl = NULL;
- } else {
- pio_sgl->index++;
- pio_sgl->set = SCU_SGL_ELEMENT_PAIR_A;
- sgl_pair = to_sgl_element_pair(ireq, pio_sgl->index);
- sgl = &sgl_pair->A;
- }
- }
- return sgl;
- }
- static enum sci_status
- stp_request_non_data_await_h2d_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_STP_NON_DATA_WAIT_D2H);
- break;
- default:
- /* All other completion status cause the IO to be
- * complete. If a NAK was received, then it is up to
- * the user to retry the request.
- */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return SCI_SUCCESS;
- }
- #define SCU_MAX_FRAME_BUFFER_SIZE 0x400 /* 1K is the maximum SCU frame data payload */
- /* transmit DATA_FIS from (current sgl + offset) for input
- * parameter length. current sgl and offset is alreay stored in the IO request
- */
- static enum sci_status sci_stp_request_pio_data_out_trasmit_data_frame(
- struct isci_request *ireq,
- u32 length)
- {
- struct isci_stp_request *stp_req = &ireq->stp.req;
- struct scu_task_context *task_context = ireq->tc;
- struct scu_sgl_element_pair *sgl_pair;
- struct scu_sgl_element *current_sgl;
- /* Recycle the TC and reconstruct it for sending out DATA FIS containing
- * for the data from current_sgl+offset for the input length
- */
- sgl_pair = to_sgl_element_pair(ireq, stp_req->sgl.index);
- if (stp_req->sgl.set == SCU_SGL_ELEMENT_PAIR_A)
- current_sgl = &sgl_pair->A;
- else
- current_sgl = &sgl_pair->B;
- /* update the TC */
- task_context->command_iu_upper = current_sgl->address_upper;
- task_context->command_iu_lower = current_sgl->address_lower;
- task_context->transfer_length_bytes = length;
- task_context->type.stp.fis_type = FIS_DATA;
- /* send the new TC out. */
- return sci_controller_continue_io(ireq);
- }
- static enum sci_status sci_stp_request_pio_data_out_transmit_data(struct isci_request *ireq)
- {
- struct isci_stp_request *stp_req = &ireq->stp.req;
- struct scu_sgl_element_pair *sgl_pair;
- enum sci_status status = SCI_SUCCESS;
- struct scu_sgl_element *sgl;
- u32 offset;
- u32 len = 0;
- offset = stp_req->sgl.offset;
- sgl_pair = to_sgl_element_pair(ireq, stp_req->sgl.index);
- if (WARN_ONCE(!sgl_pair, "%s: null sgl element", __func__))
- return SCI_FAILURE;
- if (stp_req->sgl.set == SCU_SGL_ELEMENT_PAIR_A) {
- sgl = &sgl_pair->A;
- len = sgl_pair->A.length - offset;
- } else {
- sgl = &sgl_pair->B;
- len = sgl_pair->B.length - offset;
- }
- if (stp_req->pio_len == 0)
- return SCI_SUCCESS;
- if (stp_req->pio_len >= len) {
- status = sci_stp_request_pio_data_out_trasmit_data_frame(ireq, len);
- if (status != SCI_SUCCESS)
- return status;
- stp_req->pio_len -= len;
- /* update the current sgl, offset and save for future */
- sgl = pio_sgl_next(stp_req);
- offset = 0;
- } else if (stp_req->pio_len < len) {
- sci_stp_request_pio_data_out_trasmit_data_frame(ireq, stp_req->pio_len);
- /* Sgl offset will be adjusted and saved for future */
- offset += stp_req->pio_len;
- sgl->address_lower += stp_req->pio_len;
- stp_req->pio_len = 0;
- }
- stp_req->sgl.offset = offset;
- return status;
- }
- /**
- *
- * @stp_request: The request that is used for the SGL processing.
- * @data_buffer: The buffer of data to be copied.
- * @length: The length of the data transfer.
- *
- * Copy the data from the buffer for the length specified to the IO request SGL
- * specified data region. enum sci_status
- */
- static enum sci_status
- sci_stp_request_pio_data_in_copy_data_buffer(struct isci_stp_request *stp_req,
- u8 *data_buf, u32 len)
- {
- struct isci_request *ireq;
- u8 *src_addr;
- int copy_len;
- struct sas_task *task;
- struct scatterlist *sg;
- void *kaddr;
- int total_len = len;
- ireq = to_ireq(stp_req);
- task = isci_request_access_task(ireq);
- src_addr = data_buf;
- if (task->num_scatter > 0) {
- sg = task->scatter;
- while (total_len > 0) {
- struct page *page = sg_page(sg);
- copy_len = min_t(int, total_len, sg_dma_len(sg));
- kaddr = kmap_atomic(page);
- memcpy(kaddr + sg->offset, src_addr, copy_len);
- kunmap_atomic(kaddr);
- total_len -= copy_len;
- src_addr += copy_len;
- sg = sg_next(sg);
- }
- } else {
- BUG_ON(task->total_xfer_len < total_len);
- memcpy(task->scatter, src_addr, total_len);
- }
- return SCI_SUCCESS;
- }
- /**
- *
- * @sci_req: The PIO DATA IN request that is to receive the data.
- * @data_buffer: The buffer to copy from.
- *
- * Copy the data buffer to the io request data region. enum sci_status
- */
- static enum sci_status sci_stp_request_pio_data_in_copy_data(
- struct isci_stp_request *stp_req,
- u8 *data_buffer)
- {
- enum sci_status status;
- /*
- * If there is less than 1K remaining in the transfer request
- * copy just the data for the transfer */
- if (stp_req->pio_len < SCU_MAX_FRAME_BUFFER_SIZE) {
- status = sci_stp_request_pio_data_in_copy_data_buffer(
- stp_req, data_buffer, stp_req->pio_len);
- if (status == SCI_SUCCESS)
- stp_req->pio_len = 0;
- } else {
- /* We are transfering the whole frame so copy */
- status = sci_stp_request_pio_data_in_copy_data_buffer(
- stp_req, data_buffer, SCU_MAX_FRAME_BUFFER_SIZE);
- if (status == SCI_SUCCESS)
- stp_req->pio_len -= SCU_MAX_FRAME_BUFFER_SIZE;
- }
- return status;
- }
- static enum sci_status
- stp_request_pio_await_h2d_completion_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- enum sci_status status = SCI_SUCCESS;
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_STP_PIO_WAIT_FRAME);
- break;
- default:
- /* All other completion status cause the IO to be
- * complete. If a NAK was received, then it is up to
- * the user to retry the request.
- */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return status;
- }
- static enum sci_status
- pio_data_out_tx_done_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- enum sci_status status = SCI_SUCCESS;
- bool all_frames_transferred = false;
- struct isci_stp_request *stp_req = &ireq->stp.req;
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- /* Transmit data */
- if (stp_req->pio_len != 0) {
- status = sci_stp_request_pio_data_out_transmit_data(ireq);
- if (status == SCI_SUCCESS) {
- if (stp_req->pio_len == 0)
- all_frames_transferred = true;
- }
- } else if (stp_req->pio_len == 0) {
- /*
- * this will happen if the all data is written at the
- * first time after the pio setup fis is received
- */
- all_frames_transferred = true;
- }
- /* all data transferred. */
- if (all_frames_transferred) {
- /*
- * Change the state to SCI_REQ_STP_PIO_DATA_IN
- * and wait for PIO_SETUP fis / or D2H REg fis. */
- sci_change_state(&ireq->sm, SCI_REQ_STP_PIO_WAIT_FRAME);
- }
- break;
- default:
- /*
- * All other completion status cause the IO to be complete.
- * If a NAK was received, then it is up to the user to retry
- * the request.
- */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return status;
- }
- static enum sci_status sci_stp_request_udma_general_frame_handler(struct isci_request *ireq,
- u32 frame_index)
- {
- struct isci_host *ihost = ireq->owning_controller;
- struct dev_to_host_fis *frame_header;
- enum sci_status status;
- u32 *frame_buffer;
- status = sci_unsolicited_frame_control_get_header(&ihost->uf_control,
- frame_index,
- (void **)&frame_header);
- if ((status == SCI_SUCCESS) &&
- (frame_header->fis_type == FIS_REGD2H)) {
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- (void **)&frame_buffer);
- sci_controller_copy_sata_response(&ireq->stp.rsp,
- frame_header,
- frame_buffer);
- }
- sci_controller_release_frame(ihost, frame_index);
- return status;
- }
- static enum sci_status process_unsolicited_fis(struct isci_request *ireq,
- u32 frame_index)
- {
- struct isci_host *ihost = ireq->owning_controller;
- enum sci_status status;
- struct dev_to_host_fis *frame_header;
- u32 *frame_buffer;
- status = sci_unsolicited_frame_control_get_header(&ihost->uf_control,
- frame_index,
- (void **)&frame_header);
- if (status != SCI_SUCCESS)
- return status;
- if (frame_header->fis_type != FIS_REGD2H) {
- dev_err(&ireq->isci_host->pdev->dev,
- "%s ERROR: invalid fis type 0x%X\n",
- __func__, frame_header->fis_type);
- return SCI_FAILURE;
- }
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- (void **)&frame_buffer);
- sci_controller_copy_sata_response(&ireq->stp.rsp,
- (u32 *)frame_header,
- frame_buffer);
- /* Frame has been decoded return it to the controller */
- sci_controller_release_frame(ihost, frame_index);
- return status;
- }
- static enum sci_status atapi_d2h_reg_frame_handler(struct isci_request *ireq,
- u32 frame_index)
- {
- struct sas_task *task = isci_request_access_task(ireq);
- enum sci_status status;
- status = process_unsolicited_fis(ireq, frame_index);
- if (status == SCI_SUCCESS) {
- if (ireq->stp.rsp.status & ATA_ERR)
- status = SCI_FAILURE_IO_RESPONSE_VALID;
- } else {
- status = SCI_FAILURE_IO_RESPONSE_VALID;
- }
- if (status != SCI_SUCCESS) {
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = status;
- } else {
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- }
- /* the d2h ufi is the end of non-data commands */
- if (task->data_dir == DMA_NONE)
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- return status;
- }
- static void scu_atapi_reconstruct_raw_frame_task_context(struct isci_request *ireq)
- {
- struct ata_device *dev = sas_to_ata_dev(ireq->target_device->domain_dev);
- void *atapi_cdb = ireq->ttype_ptr.io_task_ptr->ata_task.atapi_packet;
- struct scu_task_context *task_context = ireq->tc;
- /* fill in the SCU Task Context for a DATA fis containing CDB in Raw Frame
- * type. The TC for previous Packet fis was already there, we only need to
- * change the H2D fis content.
- */
- memset(&ireq->stp.cmd, 0, sizeof(struct host_to_dev_fis));
- memcpy(((u8 *)&ireq->stp.cmd + sizeof(u32)), atapi_cdb, ATAPI_CDB_LEN);
- memset(&(task_context->type.stp), 0, sizeof(struct stp_task_context));
- task_context->type.stp.fis_type = FIS_DATA;
- task_context->transfer_length_bytes = dev->cdb_len;
- }
- static void scu_atapi_construct_task_context(struct isci_request *ireq)
- {
- struct ata_device *dev = sas_to_ata_dev(ireq->target_device->domain_dev);
- struct sas_task *task = isci_request_access_task(ireq);
- struct scu_task_context *task_context = ireq->tc;
- int cdb_len = dev->cdb_len;
- /* reference: SSTL 1.13.4.2
- * task_type, sata_direction
- */
- if (task->data_dir == DMA_TO_DEVICE) {
- task_context->task_type = SCU_TASK_TYPE_PACKET_DMA_OUT;
- task_context->sata_direction = 0;
- } else {
- /* todo: for NO_DATA command, we need to send out raw frame. */
- task_context->task_type = SCU_TASK_TYPE_PACKET_DMA_IN;
- task_context->sata_direction = 1;
- }
- memset(&task_context->type.stp, 0, sizeof(task_context->type.stp));
- task_context->type.stp.fis_type = FIS_DATA;
- memset(&ireq->stp.cmd, 0, sizeof(ireq->stp.cmd));
- memcpy(&ireq->stp.cmd.lbal, task->ata_task.atapi_packet, cdb_len);
- task_context->ssp_command_iu_length = cdb_len / sizeof(u32);
- /* task phase is set to TX_CMD */
- task_context->task_phase = 0x1;
- /* retry counter */
- task_context->stp_retry_count = 0;
- /* data transfer size. */
- task_context->transfer_length_bytes = task->total_xfer_len;
- /* setup sgl */
- sci_request_build_sgl(ireq);
- }
- enum sci_status
- sci_io_request_frame_handler(struct isci_request *ireq,
- u32 frame_index)
- {
- struct isci_host *ihost = ireq->owning_controller;
- struct isci_stp_request *stp_req = &ireq->stp.req;
- enum sci_base_request_states state;
- enum sci_status status;
- ssize_t word_cnt;
- state = ireq->sm.current_state_id;
- switch (state) {
- case SCI_REQ_STARTED: {
- struct ssp_frame_hdr ssp_hdr;
- void *frame_header;
- sci_unsolicited_frame_control_get_header(&ihost->uf_control,
- frame_index,
- &frame_header);
- word_cnt = sizeof(struct ssp_frame_hdr) / sizeof(u32);
- sci_swab32_cpy(&ssp_hdr, frame_header, word_cnt);
- if (ssp_hdr.frame_type == SSP_RESPONSE) {
- struct ssp_response_iu *resp_iu;
- ssize_t word_cnt = SSP_RESP_IU_MAX_SIZE / sizeof(u32);
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- (void **)&resp_iu);
- sci_swab32_cpy(&ireq->ssp.rsp, resp_iu, word_cnt);
- resp_iu = &ireq->ssp.rsp;
- if (resp_iu->datapres == 0x01 ||
- resp_iu->datapres == 0x02) {
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- } else {
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- }
- } else {
- /* not a response frame, why did it get forwarded? */
- dev_err(&ihost->pdev->dev,
- "%s: SCIC IO Request 0x%p received unexpected "
- "frame %d type 0x%02x\n", __func__, ireq,
- frame_index, ssp_hdr.frame_type);
- }
- /*
- * In any case we are done with this frame buffer return it to
- * the controller
- */
- sci_controller_release_frame(ihost, frame_index);
- return SCI_SUCCESS;
- }
- case SCI_REQ_TASK_WAIT_TC_RESP:
- sci_io_request_copy_response(ireq);
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- sci_controller_release_frame(ihost, frame_index);
- return SCI_SUCCESS;
- case SCI_REQ_SMP_WAIT_RESP: {
- struct sas_task *task = isci_request_access_task(ireq);
- struct scatterlist *sg = &task->smp_task.smp_resp;
- void *frame_header, *kaddr;
- u8 *rsp;
- sci_unsolicited_frame_control_get_header(&ihost->uf_control,
- frame_index,
- &frame_header);
- kaddr = kmap_atomic(sg_page(sg));
- rsp = kaddr + sg->offset;
- sci_swab32_cpy(rsp, frame_header, 1);
- if (rsp[0] == SMP_RESPONSE) {
- void *smp_resp;
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- &smp_resp);
- word_cnt = (sg->length/4)-1;
- if (word_cnt > 0)
- word_cnt = min_t(unsigned int, word_cnt,
- SCU_UNSOLICITED_FRAME_BUFFER_SIZE/4);
- sci_swab32_cpy(rsp + 4, smp_resp, word_cnt);
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_SMP_WAIT_TC_COMP);
- } else {
- /*
- * This was not a response frame why did it get
- * forwarded?
- */
- dev_err(&ihost->pdev->dev,
- "%s: SCIC SMP Request 0x%p received unexpected "
- "frame %d type 0x%02x\n",
- __func__,
- ireq,
- frame_index,
- rsp[0]);
- ireq->scu_status = SCU_TASK_DONE_SMP_FRM_TYPE_ERR;
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- }
- kunmap_atomic(kaddr);
- sci_controller_release_frame(ihost, frame_index);
- return SCI_SUCCESS;
- }
- case SCI_REQ_STP_UDMA_WAIT_TC_COMP:
- return sci_stp_request_udma_general_frame_handler(ireq,
- frame_index);
- case SCI_REQ_STP_UDMA_WAIT_D2H:
- /* Use the general frame handler to copy the resposne data */
- status = sci_stp_request_udma_general_frame_handler(ireq, frame_index);
- if (status != SCI_SUCCESS)
- return status;
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- return SCI_SUCCESS;
- case SCI_REQ_STP_NON_DATA_WAIT_D2H: {
- struct dev_to_host_fis *frame_header;
- u32 *frame_buffer;
- status = sci_unsolicited_frame_control_get_header(&ihost->uf_control,
- frame_index,
- (void **)&frame_header);
- if (status != SCI_SUCCESS) {
- dev_err(&ihost->pdev->dev,
- "%s: SCIC IO Request 0x%p could not get frame "
- "header for frame index %d, status %x\n",
- __func__,
- stp_req,
- frame_index,
- status);
- return status;
- }
- switch (frame_header->fis_type) {
- case FIS_REGD2H:
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- (void **)&frame_buffer);
- sci_controller_copy_sata_response(&ireq->stp.rsp,
- frame_header,
- frame_buffer);
- /* The command has completed with error */
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- break;
- default:
- dev_warn(&ihost->pdev->dev,
- "%s: IO Request:0x%p Frame Id:%d protocol "
- "violation occurred\n", __func__, stp_req,
- frame_index);
- ireq->scu_status = SCU_TASK_DONE_UNEXP_FIS;
- ireq->sci_status = SCI_FAILURE_PROTOCOL_VIOLATION;
- break;
- }
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- /* Frame has been decoded return it to the controller */
- sci_controller_release_frame(ihost, frame_index);
- return status;
- }
- case SCI_REQ_STP_PIO_WAIT_FRAME: {
- struct sas_task *task = isci_request_access_task(ireq);
- struct dev_to_host_fis *frame_header;
- u32 *frame_buffer;
- status = sci_unsolicited_frame_control_get_header(&ihost->uf_control,
- frame_index,
- (void **)&frame_header);
- if (status != SCI_SUCCESS) {
- dev_err(&ihost->pdev->dev,
- "%s: SCIC IO Request 0x%p could not get frame "
- "header for frame index %d, status %x\n",
- __func__, stp_req, frame_index, status);
- return status;
- }
- switch (frame_header->fis_type) {
- case FIS_PIO_SETUP:
- /* Get from the frame buffer the PIO Setup Data */
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- (void **)&frame_buffer);
- /* Get the data from the PIO Setup The SCU Hardware
- * returns first word in the frame_header and the rest
- * of the data is in the frame buffer so we need to
- * back up one dword
- */
- /* transfer_count: first 16bits in the 4th dword */
- stp_req->pio_len = frame_buffer[3] & 0xffff;
- /* status: 4th byte in the 3rd dword */
- stp_req->status = (frame_buffer[2] >> 24) & 0xff;
- sci_controller_copy_sata_response(&ireq->stp.rsp,
- frame_header,
- frame_buffer);
- ireq->stp.rsp.status = stp_req->status;
- /* The next state is dependent on whether the
- * request was PIO Data-in or Data out
- */
- if (task->data_dir == DMA_FROM_DEVICE) {
- sci_change_state(&ireq->sm, SCI_REQ_STP_PIO_DATA_IN);
- } else if (task->data_dir == DMA_TO_DEVICE) {
- /* Transmit data */
- status = sci_stp_request_pio_data_out_transmit_data(ireq);
- if (status != SCI_SUCCESS)
- break;
- sci_change_state(&ireq->sm, SCI_REQ_STP_PIO_DATA_OUT);
- }
- break;
- case FIS_SETDEVBITS:
- sci_change_state(&ireq->sm, SCI_REQ_STP_PIO_WAIT_FRAME);
- break;
- case FIS_REGD2H:
- if (frame_header->status & ATA_BUSY) {
- /*
- * Now why is the drive sending a D2H Register
- * FIS when it is still busy? Do nothing since
- * we are still in the right state.
- */
- dev_dbg(&ihost->pdev->dev,
- "%s: SCIC PIO Request 0x%p received "
- "D2H Register FIS with BSY status "
- "0x%x\n",
- __func__,
- stp_req,
- frame_header->status);
- break;
- }
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- (void **)&frame_buffer);
- sci_controller_copy_sata_response(&ireq->stp.rsp,
- frame_header,
- frame_buffer);
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- default:
- /* FIXME: what do we do here? */
- break;
- }
- /* Frame is decoded return it to the controller */
- sci_controller_release_frame(ihost, frame_index);
- return status;
- }
- case SCI_REQ_STP_PIO_DATA_IN: {
- struct dev_to_host_fis *frame_header;
- struct sata_fis_data *frame_buffer;
- status = sci_unsolicited_frame_control_get_header(&ihost->uf_control,
- frame_index,
- (void **)&frame_header);
- if (status != SCI_SUCCESS) {
- dev_err(&ihost->pdev->dev,
- "%s: SCIC IO Request 0x%p could not get frame "
- "header for frame index %d, status %x\n",
- __func__,
- stp_req,
- frame_index,
- status);
- return status;
- }
- if (frame_header->fis_type != FIS_DATA) {
- dev_err(&ihost->pdev->dev,
- "%s: SCIC PIO Request 0x%p received frame %d "
- "with fis type 0x%02x when expecting a data "
- "fis.\n",
- __func__,
- stp_req,
- frame_index,
- frame_header->fis_type);
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_FAILURE_IO_REQUIRES_SCSI_ABORT;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- /* Frame is decoded return it to the controller */
- sci_controller_release_frame(ihost, frame_index);
- return status;
- }
- if (stp_req->sgl.index < 0) {
- ireq->saved_rx_frame_index = frame_index;
- stp_req->pio_len = 0;
- } else {
- sci_unsolicited_frame_control_get_buffer(&ihost->uf_control,
- frame_index,
- (void **)&frame_buffer);
- status = sci_stp_request_pio_data_in_copy_data(stp_req,
- (u8 *)frame_buffer);
- /* Frame is decoded return it to the controller */
- sci_controller_release_frame(ihost, frame_index);
- }
- /* Check for the end of the transfer, are there more
- * bytes remaining for this data transfer
- */
- if (status != SCI_SUCCESS || stp_req->pio_len != 0)
- return status;
- if ((stp_req->status & ATA_BUSY) == 0) {
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- } else {
- sci_change_state(&ireq->sm, SCI_REQ_STP_PIO_WAIT_FRAME);
- }
- return status;
- }
- case SCI_REQ_ATAPI_WAIT_PIO_SETUP: {
- struct sas_task *task = isci_request_access_task(ireq);
- sci_controller_release_frame(ihost, frame_index);
- ireq->target_device->working_request = ireq;
- if (task->data_dir == DMA_NONE) {
- sci_change_state(&ireq->sm, SCI_REQ_ATAPI_WAIT_TC_COMP);
- scu_atapi_reconstruct_raw_frame_task_context(ireq);
- } else {
- sci_change_state(&ireq->sm, SCI_REQ_ATAPI_WAIT_D2H);
- scu_atapi_construct_task_context(ireq);
- }
- sci_controller_continue_io(ireq);
- return SCI_SUCCESS;
- }
- case SCI_REQ_ATAPI_WAIT_D2H:
- return atapi_d2h_reg_frame_handler(ireq, frame_index);
- case SCI_REQ_ABORTING:
- /*
- * TODO: Is it even possible to get an unsolicited frame in the
- * aborting state?
- */
- sci_controller_release_frame(ihost, frame_index);
- return SCI_SUCCESS;
- default:
- dev_warn(&ihost->pdev->dev,
- "%s: SCIC IO Request given unexpected frame %x while "
- "in state %d\n",
- __func__,
- frame_index,
- state);
- sci_controller_release_frame(ihost, frame_index);
- return SCI_FAILURE_INVALID_STATE;
- }
- }
- static enum sci_status stp_request_udma_await_tc_event(struct isci_request *ireq,
- u32 completion_code)
- {
- enum sci_status status = SCI_SUCCESS;
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_UNEXP_FIS):
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_REG_ERR):
- /* We must check ther response buffer to see if the D2H
- * Register FIS was received before we got the TC
- * completion.
- */
- if (ireq->stp.rsp.fis_type == FIS_REGD2H) {
- sci_remote_device_suspend(ireq->target_device,
- SCI_SW_SUSPEND_NORMAL);
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- } else {
- /* If we have an error completion status for the
- * TC then we can expect a D2H register FIS from
- * the device so we must change state to wait
- * for it
- */
- sci_change_state(&ireq->sm, SCI_REQ_STP_UDMA_WAIT_D2H);
- }
- break;
- /* TODO Check to see if any of these completion status need to
- * wait for the device to host register fis.
- */
- /* TODO We can retry the command for SCU_TASK_DONE_CMD_LL_R_ERR
- * - this comes only for B0
- */
- default:
- /* All other completion status cause the IO to be complete. */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return status;
- }
- static enum sci_status atapi_raw_completion(struct isci_request *ireq, u32 completion_code,
- enum sci_base_request_states next)
- {
- enum sci_status status = SCI_SUCCESS;
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case SCU_MAKE_COMPLETION_STATUS(SCU_TASK_DONE_GOOD):
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, next);
- break;
- default:
- /* All other completion status cause the IO to be complete.
- * If a NAK was received, then it is up to the user to retry
- * the request.
- */
- ireq->scu_status = SCU_NORMALIZE_COMPLETION_STATUS(completion_code);
- ireq->sci_status = SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- }
- return status;
- }
- static enum sci_status atapi_data_tc_completion_handler(struct isci_request *ireq,
- u32 completion_code)
- {
- struct isci_remote_device *idev = ireq->target_device;
- struct dev_to_host_fis *d2h = &ireq->stp.rsp;
- enum sci_status status = SCI_SUCCESS;
- switch (SCU_GET_COMPLETION_TL_STATUS(completion_code)) {
- case (SCU_TASK_DONE_GOOD << SCU_COMPLETION_TL_STATUS_SHIFT):
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- case (SCU_TASK_DONE_UNEXP_FIS << SCU_COMPLETION_TL_STATUS_SHIFT): {
- u16 len = sci_req_tx_bytes(ireq);
- /* likely non-error data underrrun, workaround missing
- * d2h frame from the controller
- */
- if (d2h->fis_type != FIS_REGD2H) {
- d2h->fis_type = FIS_REGD2H;
- d2h->flags = (1 << 6);
- d2h->status = 0x50;
- d2h->error = 0;
- d2h->lbal = 0;
- d2h->byte_count_low = len & 0xff;
- d2h->byte_count_high = len >> 8;
- d2h->device = 0xa0;
- d2h->lbal_exp = 0;
- d2h->lbam_exp = 0;
- d2h->lbah_exp = 0;
- d2h->_r_a = 0;
- d2h->sector_count = 0x3;
- d2h->sector_count_exp = 0;
- d2h->_r_b = 0;
- d2h->_r_c = 0;
- d2h->_r_d = 0;
- }
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS_IO_DONE_EARLY;
- status = ireq->sci_status;
- /* the hw will have suspended the rnc, so complete the
- * request upon pending resume
- */
- sci_change_state(&idev->sm, SCI_STP_DEV_ATAPI_ERROR);
- break;
- }
- case (SCU_TASK_DONE_EXCESS_DATA << SCU_COMPLETION_TL_STATUS_SHIFT):
- /* In this case, there is no UF coming after.
- * compelte the IO now.
- */
- ireq->scu_status = SCU_TASK_DONE_GOOD;
- ireq->sci_status = SCI_SUCCESS;
- sci_change_state(&ireq->sm, SCI_REQ_COMPLETED);
- break;
- default:
- if (d2h->fis_type == FIS_REGD2H) {
- /* UF received change the device state to ATAPI_ERROR */
- status = ireq->sci_status;
- sci_change_state(&idev->sm, SCI_STP_DEV_ATAPI_ERROR);
- } else {
- /* If receiving any non-success TC status, no UF
- * received yet, then an UF for the status fis
- * is coming after (XXX: suspect this is
- * actually a protocol error or a bug like the
- * DONE_UNEXP_FIS case)
- */
- ireq->scu_status = SCU_TASK_DONE_CHECK_RESPONSE;
- ireq->sci_status = SCI_FAILURE_IO_RESPONSE_VALID;
- sci_change_state(&ireq->sm, SCI_REQ_ATAPI_WAIT_D2H);
- }
- break;
- }
- return status;
- }
- static int sci_request_smp_completion_status_is_tx_suspend(
- unsigned int completion_status)
- {
- switch (completion_status) {
- case SCU_TASK_OPEN_REJECT_WRONG_DESTINATION:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_1:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_2:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_3:
- case SCU_TASK_OPEN_REJECT_BAD_DESTINATION:
- case SCU_TASK_OPEN_REJECT_ZONE_VIOLATION:
- return 1;
- }
- return 0;
- }
- static int sci_request_smp_completion_status_is_tx_rx_suspend(
- unsigned int completion_status)
- {
- return 0; /* There are no Tx/Rx SMP suspend conditions. */
- }
- static int sci_request_ssp_completion_status_is_tx_suspend(
- unsigned int completion_status)
- {
- switch (completion_status) {
- case SCU_TASK_DONE_TX_RAW_CMD_ERR:
- case SCU_TASK_DONE_LF_ERR:
- case SCU_TASK_OPEN_REJECT_WRONG_DESTINATION:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_1:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_2:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_3:
- case SCU_TASK_OPEN_REJECT_BAD_DESTINATION:
- case SCU_TASK_OPEN_REJECT_ZONE_VIOLATION:
- case SCU_TASK_OPEN_REJECT_STP_RESOURCES_BUSY:
- case SCU_TASK_OPEN_REJECT_PROTOCOL_NOT_SUPPORTED:
- case SCU_TASK_OPEN_REJECT_CONNECTION_RATE_NOT_SUPPORTED:
- return 1;
- }
- return 0;
- }
- static int sci_request_ssp_completion_status_is_tx_rx_suspend(
- unsigned int completion_status)
- {
- return 0; /* There are no Tx/Rx SSP suspend conditions. */
- }
- static int sci_request_stpsata_completion_status_is_tx_suspend(
- unsigned int completion_status)
- {
- switch (completion_status) {
- case SCU_TASK_DONE_TX_RAW_CMD_ERR:
- case SCU_TASK_DONE_LL_R_ERR:
- case SCU_TASK_DONE_LL_PERR:
- case SCU_TASK_DONE_REG_ERR:
- case SCU_TASK_DONE_SDB_ERR:
- case SCU_TASK_OPEN_REJECT_WRONG_DESTINATION:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_1:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_2:
- case SCU_TASK_OPEN_REJECT_RESERVED_ABANDON_3:
- case SCU_TASK_OPEN_REJECT_BAD_DESTINATION:
- case SCU_TASK_OPEN_REJECT_ZONE_VIOLATION:
- case SCU_TASK_OPEN_REJECT_STP_RESOURCES_BUSY:
- case SCU_TASK_OPEN_REJECT_PROTOCOL_NOT_SUPPORTED:
- case SCU_TASK_OPEN_REJECT_CONNECTION_RATE_NOT_SUPPORTED:
- return 1;
- }
- return 0;
- }
- static int sci_request_stpsata_completion_status_is_tx_rx_suspend(
- unsigned int completion_status)
- {
- switch (completion_status) {
- case SCU_TASK_DONE_LF_ERR:
- case SCU_TASK_DONE_LL_SY_TERM:
- case SCU_TASK_DONE_LL_LF_TERM:
- case SCU_TASK_DONE_BREAK_RCVD:
- case SCU_TASK_DONE_INV_FIS_LEN:
- case SCU_TASK_DONE_UNEXP_FIS:
- case SCU_TASK_DONE_UNEXP_SDBFIS:
- case SCU_TASK_DONE_MAX_PLD_ERR:
- return 1;
- }
- return 0;
- }
- static void sci_request_handle_suspending_completions(
- struct isci_request *ireq,
- u32 completion_code)
- {
- int is_tx = 0;
- int is_tx_rx = 0;
- switch (ireq->protocol) {
- case SAS_PROTOCOL_SMP:
- is_tx = sci_request_smp_completion_status_is_tx_suspend(
- completion_code);
- is_tx_rx = sci_request_smp_completion_status_is_tx_rx_suspend(
- completion_code);
- break;
- case SAS_PROTOCOL_SSP:
- is_tx = sci_request_ssp_completion_status_is_tx_suspend(
- completion_code);
- is_tx_rx = sci_request_ssp_completion_status_is_tx_rx_suspend(
- completion_code);
- break;
- case SAS_PROTOCOL_STP:
- is_tx = sci_request_stpsata_completion_status_is_tx_suspend(
- completion_code);
- is_tx_rx =
- sci_request_stpsata_completion_status_is_tx_rx_suspend(
- completion_code);
- break;
- default:
- dev_warn(&ireq->isci_host->pdev->dev,
- "%s: request %p has no valid protocol\n",
- __func__, ireq);
- break;
- }
- if (is_tx || is_tx_rx) {
- BUG_ON(is_tx && is_tx_rx);
- sci_remote_node_context_suspend(
- &ireq->target_device->rnc,
- SCI_HW_SUSPEND,
- (is_tx_rx) ? SCU_EVENT_TL_RNC_SUSPEND_TX_RX
- : SCU_EVENT_TL_RNC_SUSPEND_TX);
- }
- }
- enum sci_status
- sci_io_request_tc_completion(struct isci_request *ireq,
- u32 completion_code)
- {
- enum sci_base_request_states state;
- struct isci_host *ihost = ireq->owning_controller;
- state = ireq->sm.current_state_id;
- /* Decode those completions that signal upcoming suspension events. */
- sci_request_handle_suspending_completions(
- ireq, SCU_GET_COMPLETION_TL_STATUS(completion_code));
- switch (state) {
- case SCI_REQ_STARTED:
- return request_started_state_tc_event(ireq, completion_code);
- case SCI_REQ_TASK_WAIT_TC_COMP:
- return ssp_task_request_await_tc_event(ireq,
- completion_code);
- case SCI_REQ_SMP_WAIT_RESP:
- return smp_request_await_response_tc_event(ireq,
- completion_code);
- case SCI_REQ_SMP_WAIT_TC_COMP:
- return smp_request_await_tc_event(ireq, completion_code);
- case SCI_REQ_STP_UDMA_WAIT_TC_COMP:
- return stp_request_udma_await_tc_event(ireq,
- completion_code);
- case SCI_REQ_STP_NON_DATA_WAIT_H2D:
- return stp_request_non_data_await_h2d_tc_event(ireq,
- completion_code);
- case SCI_REQ_STP_PIO_WAIT_H2D:
- return stp_request_pio_await_h2d_completion_tc_event(ireq,
- completion_code);
- case SCI_REQ_STP_PIO_DATA_OUT:
- return pio_data_out_tx_done_tc_event(ireq, completion_code);
- case SCI_REQ_ABORTING:
- return request_aborting_state_tc_event(ireq,
- completion_code);
- case SCI_REQ_ATAPI_WAIT_H2D:
- return atapi_raw_completion(ireq, completion_code,
- SCI_REQ_ATAPI_WAIT_PIO_SETUP);
- case SCI_REQ_ATAPI_WAIT_TC_COMP:
- return atapi_raw_completion(ireq, completion_code,
- SCI_REQ_ATAPI_WAIT_D2H);
- case SCI_REQ_ATAPI_WAIT_D2H:
- return atapi_data_tc_completion_handler(ireq, completion_code);
- default:
- dev_warn(&ihost->pdev->dev, "%s: %x in wrong state %s\n",
- __func__, completion_code, req_state_name(state));
- return SCI_FAILURE_INVALID_STATE;
- }
- }
- /**
- * 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\nresponse 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.
- * @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 sas_open_rej_reason open_rej_reason)
- {
- /* Task in the target is done. */
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- *response_ptr = SAS_TASK_UNDELIVERED;
- *status_ptr = SAS_OPEN_REJECT;
- 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.
- *
- * none.
- */
- static void isci_request_handle_controller_specific_errors(
- struct isci_remote_device *idev,
- struct isci_request *request,
- struct sas_task *task,
- enum service_response *response_ptr,
- enum exec_status *status_ptr)
- {
- unsigned int cstatus;
- cstatus = request->scu_status;
- 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 (!idev)
- *status_ptr = SAS_DEVICE_UNKNOWN;
- else
- *status_ptr = SAS_ABORTED_TASK;
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- } else {
- /* Task in the target is not done. */
- *response_ptr = SAS_TASK_UNDELIVERED;
- if (!idev)
- *status_ptr = SAS_DEVICE_UNKNOWN;
- else
- *status_ptr = SAM_STAT_TASK_ABORTED;
- clear_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- }
- 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 (!idev)
- *status_ptr = SAS_DEVICE_UNKNOWN;
- else
- *status_ptr = SAS_ABORTED_TASK;
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- 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,
- 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,
- 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,
- 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,
- 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,
- SAS_OREJ_RESV_AB3);
- break;
- case SCU_TASK_OPEN_REJECT_BAD_DESTINATION:
- isci_request_set_open_reject_status(
- request, task, response_ptr, status_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,
- 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,
- 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,
- 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;
- if (task->task_proto == SAS_PROTOCOL_SMP)
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- else
- clear_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- break;
- }
- }
- static void isci_process_stp_response(struct sas_task *task, struct dev_to_host_fis *fis)
- {
- struct task_status_struct *ts = &task->task_status;
- struct ata_task_resp *resp = (void *)&ts->buf[0];
- resp->frame_len = sizeof(*fis);
- memcpy(resp->ending_fis, fis, sizeof(*fis));
- ts->buf_valid_size = sizeof(*resp);
- /* If an error is flagged let libata decode the fis */
- if (ac_err_mask(fis->status))
- ts->stat = SAS_PROTO_RESPONSE;
- else
- ts->stat = SAM_STAT_GOOD;
- ts->resp = SAS_TASK_COMPLETE;
- }
- static void isci_request_io_request_complete(struct isci_host *ihost,
- 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;
- unsigned long task_flags;
- struct isci_remote_device *idev = request->target_device;
- enum service_response response = SAS_TASK_UNDELIVERED;
- enum exec_status status = SAS_ABORTED_TASK;
- dev_dbg(&ihost->pdev->dev,
- "%s: request = %p, task = %p, "
- "task->data_dir = %d completion_status = 0x%x\n",
- __func__, request, task, task->data_dir, completion_status);
- /* The request is done from an SCU HW perspective. */
- /* This is an active request being completed from the core. */
- switch (completion_status) {
- case SCI_IO_FAILURE_RESPONSE_VALID:
- dev_dbg(&ihost->pdev->dev,
- "%s: SCI_IO_FAILURE_RESPONSE_VALID (%p/%p)\n",
- __func__, request, task);
- if (sas_protocol_ata(task->task_proto)) {
- isci_process_stp_response(task, &request->stp.rsp);
- } else if (SAS_PROTOCOL_SSP == task->task_proto) {
- /* crack the iu response buffer. */
- resp_iu = &request->ssp.rsp;
- isci_request_process_response_iu(task, resp_iu,
- &ihost->pdev->dev);
- } else if (SAS_PROTOCOL_SMP == task->task_proto) {
- dev_err(&ihost->pdev->dev,
- "%s: SCI_IO_FAILURE_RESPONSE_VALID: "
- "SAS_PROTOCOL_SMP protocol\n",
- __func__);
- } else
- dev_err(&ihost->pdev->dev,
- "%s: unknown protocol\n", __func__);
- /* use the task status set in the task struct by the
- * isci_request_process_response_iu call.
- */
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- 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;
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- 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 = sci_req_tx_bytes(request);
- 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(&ihost->pdev->dev,
- "%s: SCI_IO_SUCCESS_IO_DONE_EARLY %d\n",
- __func__, status);
- } else
- dev_dbg(&ihost->pdev->dev, "%s: SCI_IO_SUCCESS\n",
- __func__);
- break;
- case SCI_IO_FAILURE_TERMINATED:
- dev_dbg(&ihost->pdev->dev,
- "%s: SCI_IO_FAILURE_TERMINATED (%p/%p)\n",
- __func__, request, task);
- /* The request was terminated explicitly. */
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- 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 (!idev)
- status = SAS_DEVICE_UNKNOWN;
- else
- status = SAS_ABORTED_TASK;
- break;
- case SCI_FAILURE_CONTROLLER_SPECIFIC_IO_ERR:
- isci_request_handle_controller_specific_errors(idev, request,
- task, &response,
- &status);
- 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;
- clear_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- break;
- case SCI_FAILURE_RETRY_REQUIRED:
- /* Fail the I/O so it can be retried. */
- response = SAS_TASK_UNDELIVERED;
- if (!idev)
- status = SAS_DEVICE_UNKNOWN;
- else
- status = SAS_ABORTED_TASK;
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- break;
- default:
- /* Catch any otherwise unhandled error codes here. */
- dev_dbg(&ihost->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 (!idev)
- status = SAS_DEVICE_UNKNOWN;
- else
- status = SAS_ABORTED_TASK;
- if (SAS_PROTOCOL_SMP == task->task_proto)
- set_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- else
- clear_bit(IREQ_COMPLETE_IN_TARGET, &request->flags);
- break;
- }
- switch (task->task_proto) {
- case SAS_PROTOCOL_SSP:
- if (task->data_dir == DMA_NONE)
- break;
- if (task->num_scatter == 0)
- /* 0 indicates a single dma address */
- dma_unmap_single(&ihost->pdev->dev,
- request->zero_scatter_daddr,
- task->total_xfer_len, task->data_dir);
- else /* unmap the sgl dma addresses */
- dma_unmap_sg(&ihost->pdev->dev, task->scatter,
- request->num_sg_entries, task->data_dir);
- break;
- case SAS_PROTOCOL_SMP: {
- struct scatterlist *sg = &task->smp_task.smp_req;
- struct smp_req *smp_req;
- void *kaddr;
- dma_unmap_sg(&ihost->pdev->dev, sg, 1, DMA_TO_DEVICE);
- /* need to swab it back in case the command buffer is re-used */
- kaddr = kmap_atomic(sg_page(sg));
- smp_req = kaddr + sg->offset;
- sci_swab32_cpy(smp_req, smp_req, sg->length / sizeof(u32));
- kunmap_atomic(kaddr);
- break;
- }
- default:
- break;
- }
- spin_lock_irqsave(&task->task_state_lock, task_flags);
- task->task_status.resp = response;
- task->task_status.stat = status;
- if (test_bit(IREQ_COMPLETE_IN_TARGET, &request->flags)) {
- /* Normal notification (task_done) */
- task->task_state_flags |= SAS_TASK_STATE_DONE;
- task->task_state_flags &= ~(SAS_TASK_AT_INITIATOR |
- SAS_TASK_STATE_PENDING);
- }
- spin_unlock_irqrestore(&task->task_state_lock, task_flags);
- /* complete the io request to the core. */
- sci_controller_complete_io(ihost, request->target_device, request);
- /* set terminated handle so it cannot be completed or
- * terminated again, and to cause any calls into abort
- * task to recognize the already completed case.
- */
- set_bit(IREQ_TERMINATED, &request->flags);
- ireq_done(ihost, request, task);
- }
- static void sci_request_started_state_enter(struct sci_base_state_machine *sm)
- {
- struct isci_request *ireq = container_of(sm, typeof(*ireq), sm);
- struct domain_device *dev = ireq->target_device->domain_dev;
- enum sci_base_request_states state;
- struct sas_task *task;
- /* XXX as hch said always creating an internal sas_task for tmf
- * requests would simplify the driver
- */
- task = (test_bit(IREQ_TMF, &ireq->flags)) ? NULL : isci_request_access_task(ireq);
- /* all unaccelerated request types (non ssp or ncq) handled with
- * substates
- */
- if (!task && dev->dev_type == SAS_END_DEVICE) {
- state = SCI_REQ_TASK_WAIT_TC_COMP;
- } else if (task && task->task_proto == SAS_PROTOCOL_SMP) {
- state = SCI_REQ_SMP_WAIT_RESP;
- } else if (task && sas_protocol_ata(task->task_proto) &&
- !task->ata_task.use_ncq) {
- if (dev->sata_dev.class == ATA_DEV_ATAPI &&
- task->ata_task.fis.command == ATA_CMD_PACKET) {
- state = SCI_REQ_ATAPI_WAIT_H2D;
- } else if (task->data_dir == DMA_NONE) {
- state = SCI_REQ_STP_NON_DATA_WAIT_H2D;
- } else if (task->ata_task.dma_xfer) {
- state = SCI_REQ_STP_UDMA_WAIT_TC_COMP;
- } else /* PIO */ {
- state = SCI_REQ_STP_PIO_WAIT_H2D;
- }
- } else {
- /* SSP or NCQ are fully accelerated, no substates */
- return;
- }
- sci_change_state(sm, state);
- }
- static void sci_request_completed_state_enter(struct sci_base_state_machine *sm)
- {
- struct isci_request *ireq = container_of(sm, typeof(*ireq), sm);
- struct isci_host *ihost = ireq->owning_controller;
- /* Tell the SCI_USER that the IO request is complete */
- if (!test_bit(IREQ_TMF, &ireq->flags))
- isci_request_io_request_complete(ihost, ireq,
- ireq->sci_status);
- else
- isci_task_request_complete(ihost, ireq, ireq->sci_status);
- }
- static void sci_request_aborting_state_enter(struct sci_base_state_machine *sm)
- {
- struct isci_request *ireq = container_of(sm, typeof(*ireq), sm);
- /* Setting the abort bit in the Task Context is required by the silicon. */
- ireq->tc->abort = 1;
- }
- static void sci_stp_request_started_non_data_await_h2d_completion_enter(struct sci_base_state_machine *sm)
- {
- struct isci_request *ireq = container_of(sm, typeof(*ireq), sm);
- ireq->target_device->working_request = ireq;
- }
- static void sci_stp_request_started_pio_await_h2d_completion_enter(struct sci_base_state_machine *sm)
- {
- struct isci_request *ireq = container_of(sm, typeof(*ireq), sm);
- ireq->target_device->working_request = ireq;
- }
- static const struct sci_base_state sci_request_state_table[] = {
- [SCI_REQ_INIT] = { },
- [SCI_REQ_CONSTRUCTED] = { },
- [SCI_REQ_STARTED] = {
- .enter_state = sci_request_started_state_enter,
- },
- [SCI_REQ_STP_NON_DATA_WAIT_H2D] = {
- .enter_state = sci_stp_request_started_non_data_await_h2d_completion_enter,
- },
- [SCI_REQ_STP_NON_DATA_WAIT_D2H] = { },
- [SCI_REQ_STP_PIO_WAIT_H2D] = {
- .enter_state = sci_stp_request_started_pio_await_h2d_completion_enter,
- },
- [SCI_REQ_STP_PIO_WAIT_FRAME] = { },
- [SCI_REQ_STP_PIO_DATA_IN] = { },
- [SCI_REQ_STP_PIO_DATA_OUT] = { },
- [SCI_REQ_STP_UDMA_WAIT_TC_COMP] = { },
- [SCI_REQ_STP_UDMA_WAIT_D2H] = { },
- [SCI_REQ_TASK_WAIT_TC_COMP] = { },
- [SCI_REQ_TASK_WAIT_TC_RESP] = { },
- [SCI_REQ_SMP_WAIT_RESP] = { },
- [SCI_REQ_SMP_WAIT_TC_COMP] = { },
- [SCI_REQ_ATAPI_WAIT_H2D] = { },
- [SCI_REQ_ATAPI_WAIT_PIO_SETUP] = { },
- [SCI_REQ_ATAPI_WAIT_D2H] = { },
- [SCI_REQ_ATAPI_WAIT_TC_COMP] = { },
- [SCI_REQ_COMPLETED] = {
- .enter_state = sci_request_completed_state_enter,
- },
- [SCI_REQ_ABORTING] = {
- .enter_state = sci_request_aborting_state_enter,
- },
- [SCI_REQ_FINAL] = { },
- };
- static void
- sci_general_request_construct(struct isci_host *ihost,
- struct isci_remote_device *idev,
- struct isci_request *ireq)
- {
- sci_init_sm(&ireq->sm, sci_request_state_table, SCI_REQ_INIT);
- ireq->target_device = idev;
- ireq->protocol = SAS_PROTOCOL_NONE;
- ireq->saved_rx_frame_index = SCU_INVALID_FRAME_INDEX;
- ireq->sci_status = SCI_SUCCESS;
- ireq->scu_status = 0;
- ireq->post_context = 0xFFFFFFFF;
- }
- static enum sci_status
- sci_io_request_construct(struct isci_host *ihost,
- struct isci_remote_device *idev,
- struct isci_request *ireq)
- {
- struct domain_device *dev = idev->domain_dev;
- enum sci_status status = SCI_SUCCESS;
- /* Build the common part of the request */
- sci_general_request_construct(ihost, idev, ireq);
- if (idev->rnc.remote_node_index == SCIC_SDS_REMOTE_NODE_CONTEXT_INVALID_INDEX)
- return SCI_FAILURE_INVALID_REMOTE_DEVICE;
- if (dev->dev_type == SAS_END_DEVICE)
- /* pass */;
- else if (dev_is_sata(dev))
- memset(&ireq->stp.cmd, 0, sizeof(ireq->stp.cmd));
- else if (dev_is_expander(dev))
- /* pass */;
- else
- return SCI_FAILURE_UNSUPPORTED_PROTOCOL;
- memset(ireq->tc, 0, offsetof(struct scu_task_context, sgl_pair_ab));
- return status;
- }
- enum sci_status sci_task_request_construct(struct isci_host *ihost,
- struct isci_remote_device *idev,
- u16 io_tag, struct isci_request *ireq)
- {
- struct domain_device *dev = idev->domain_dev;
- enum sci_status status = SCI_SUCCESS;
- /* Build the common part of the request */
- sci_general_request_construct(ihost, idev, ireq);
- if (dev->dev_type == SAS_END_DEVICE || dev_is_sata(dev)) {
- set_bit(IREQ_TMF, &ireq->flags);
- memset(ireq->tc, 0, sizeof(struct scu_task_context));
- /* Set the protocol indicator. */
- if (dev_is_sata(dev))
- ireq->protocol = SAS_PROTOCOL_STP;
- else
- ireq->protocol = SAS_PROTOCOL_SSP;
- } else
- status = SCI_FAILURE_UNSUPPORTED_PROTOCOL;
- return status;
- }
- 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 = sci_io_request_construct_basic_ssp(request);
- return status;
- }
- static enum sci_status isci_request_stp_request_construct(struct isci_request *ireq)
- {
- struct sas_task *task = isci_request_access_task(ireq);
- struct host_to_dev_fis *fis = &ireq->stp.cmd;
- struct ata_queued_cmd *qc = task->uldd_task;
- enum sci_status status;
- dev_dbg(&ireq->isci_host->pdev->dev,
- "%s: ireq = %p\n",
- __func__,
- ireq);
- memcpy(fis, &task->ata_task.fis, sizeof(struct host_to_dev_fis));
- if (!task->ata_task.device_control_reg_update)
- fis->flags |= 0x80;
- fis->flags &= 0xF0;
- status = sci_io_request_construct_basic_sata(ireq);
- if (qc && (qc->tf.command == ATA_CMD_FPDMA_WRITE ||
- qc->tf.command == ATA_CMD_FPDMA_READ ||
- qc->tf.command == ATA_CMD_FPDMA_RECV ||
- qc->tf.command == ATA_CMD_FPDMA_SEND ||
- qc->tf.command == ATA_CMD_NCQ_NON_DATA)) {
- fis->sector_count = qc->tag << 3;
- ireq->tc->type.stp.ncq_tag = qc->tag;
- }
- return status;
- }
- static enum sci_status
- sci_io_request_construct_smp(struct device *dev,
- struct isci_request *ireq,
- struct sas_task *task)
- {
- struct scatterlist *sg = &task->smp_task.smp_req;
- struct isci_remote_device *idev;
- struct scu_task_context *task_context;
- struct isci_port *iport;
- struct smp_req *smp_req;
- void *kaddr;
- u8 req_len;
- u32 cmd;
- kaddr = kmap_atomic(sg_page(sg));
- smp_req = kaddr + sg->offset;
- /*
- * Look at the SMP requests' header fields; for certain SAS 1.x SMP
- * functions under SAS 2.0, a zero request length really indicates
- * a non-zero default length.
- */
- if (smp_req->req_len == 0) {
- switch (smp_req->func) {
- case SMP_DISCOVER:
- case SMP_REPORT_PHY_ERR_LOG:
- case SMP_REPORT_PHY_SATA:
- case SMP_REPORT_ROUTE_INFO:
- smp_req->req_len = 2;
- break;
- case SMP_CONF_ROUTE_INFO:
- case SMP_PHY_CONTROL:
- case SMP_PHY_TEST_FUNCTION:
- smp_req->req_len = 9;
- break;
- /* Default - zero is a valid default for 2.0. */
- }
- }
- req_len = smp_req->req_len;
- sci_swab32_cpy(smp_req, smp_req, sg->length / sizeof(u32));
- cmd = *(u32 *) smp_req;
- kunmap_atomic(kaddr);
- if (!dma_map_sg(dev, sg, 1, DMA_TO_DEVICE))
- return SCI_FAILURE;
- ireq->protocol = SAS_PROTOCOL_SMP;
- /* byte swap the smp request. */
- task_context = ireq->tc;
- idev = ireq->target_device;
- iport = idev->owning_port;
- /*
- * Fill in the TC with the its required data
- * 00h
- */
- task_context->priority = 0;
- task_context->initiator_request = 1;
- task_context->connection_rate = idev->connection_rate;
- task_context->protocol_engine_index = ISCI_PEG;
- task_context->logical_port_index = iport->physical_port_index;
- task_context->protocol_type = SCU_TASK_CONTEXT_PROTOCOL_SMP;
- task_context->abort = 0;
- task_context->valid = SCU_TASK_CONTEXT_VALID;
- task_context->context_type = SCU_TASK_CONTEXT_TYPE;
- /* 04h */
- task_context->remote_node_index = idev->rnc.remote_node_index;
- task_context->command_code = 0;
- task_context->task_type = SCU_TASK_TYPE_SMP_REQUEST;
- /* 08h */
- task_context->link_layer_control = 0;
- task_context->do_not_dma_ssp_good_response = 1;
- task_context->strict_ordering = 0;
- task_context->control_frame = 1;
- task_context->timeout_enable = 0;
- task_context->block_guard_enable = 0;
- /* 0ch */
- task_context->address_modifier = 0;
- /* 10h */
- task_context->ssp_command_iu_length = req_len;
- /* 14h */
- task_context->transfer_length_bytes = 0;
- /*
- * 18h ~ 30h, protocol specific
- * since commandIU has been build by framework at this point, we just
- * copy the frist DWord from command IU to this location. */
- memcpy(&task_context->type.smp, &cmd, sizeof(u32));
- /*
- * 40h
- * "For SMP you could program it to zero. We would prefer that way
- * so that done code will be consistent." - Venki
- */
- task_context->task_phase = 0;
- ireq->post_context = (SCU_CONTEXT_COMMAND_REQUEST_TYPE_POST_TC |
- (ISCI_PEG << SCU_CONTEXT_COMMAND_PROTOCOL_ENGINE_GROUP_SHIFT) |
- (iport->physical_port_index <<
- SCU_CONTEXT_COMMAND_LOGICAL_PORT_SHIFT) |
- ISCI_TAG_TCI(ireq->io_tag));
- /*
- * Copy the physical address for the command buffer to the SCU Task
- * Context command buffer should not contain command header.
- */
- task_context->command_iu_upper = upper_32_bits(sg_dma_address(sg));
- task_context->command_iu_lower = lower_32_bits(sg_dma_address(sg) + sizeof(u32));
- /* SMP response comes as UF, so no need to set response IU address. */
- task_context->response_iu_upper = 0;
- task_context->response_iu_lower = 0;
- sci_change_state(&ireq->sm, SCI_REQ_CONSTRUCTED);
- return SCI_SUCCESS;
- }
- /*
- * isci_smp_request_build() - This function builds the smp request.
- * @ireq: This parameter points to the isci_request allocated in the
- * request construct function.
- *
- * SCI_SUCCESS on successfull completion, or specific failure code.
- */
- static enum sci_status isci_smp_request_build(struct isci_request *ireq)
- {
- struct sas_task *task = isci_request_access_task(ireq);
- struct device *dev = &ireq->isci_host->pdev->dev;
- enum sci_status status = SCI_FAILURE;
- status = sci_io_request_construct_smp(dev, ireq, task);
- if (status != SCI_SUCCESS)
- dev_dbg(&ireq->isci_host->pdev->dev,
- "%s: failed with status = %d\n",
- __func__,
- status);
- return status;
- }
- /**
- * isci_io_request_build() - This function builds the io request object.
- * @ihost: 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 *ihost,
- struct isci_request *request,
- struct isci_remote_device *idev)
- {
- enum sci_status status = SCI_SUCCESS;
- struct sas_task *task = isci_request_access_task(request);
- dev_dbg(&ihost->pdev->dev,
- "%s: idev = 0x%p; request = %p, "
- "num_scatter = %d\n",
- __func__,
- idev,
- 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(
- &ihost->pdev->dev,
- task->scatter,
- task->num_scatter,
- task->data_dir
- );
- if (request->num_sg_entries == 0)
- return SCI_FAILURE_INSUFFICIENT_RESOURCES;
- }
- status = sci_io_request_construct(ihost, idev, request);
- if (status != SCI_SUCCESS) {
- dev_dbg(&ihost->pdev->dev,
- "%s: failed request construct\n",
- __func__);
- return SCI_FAILURE;
- }
- switch (task->task_proto) {
- case SAS_PROTOCOL_SMP:
- status = isci_smp_request_build(request);
- break;
- case SAS_PROTOCOL_SSP:
- status = isci_request_ssp_request_construct(request);
- break;
- case SAS_PROTOCOL_SATA:
- case SAS_PROTOCOL_STP:
- case SAS_PROTOCOL_SATA | SAS_PROTOCOL_STP:
- status = isci_request_stp_request_construct(request);
- break;
- default:
- dev_dbg(&ihost->pdev->dev,
- "%s: unknown protocol\n", __func__);
- return SCI_FAILURE;
- }
- return SCI_SUCCESS;
- }
- static struct isci_request *isci_request_from_tag(struct isci_host *ihost, u16 tag)
- {
- struct isci_request *ireq;
- ireq = ihost->reqs[ISCI_TAG_TCI(tag)];
- ireq->io_tag = tag;
- ireq->io_request_completion = NULL;
- ireq->flags = 0;
- ireq->num_sg_entries = 0;
- return ireq;
- }
- static struct isci_request *isci_io_request_from_tag(struct isci_host *ihost,
- struct sas_task *task,
- u16 tag)
- {
- struct isci_request *ireq;
- ireq = isci_request_from_tag(ihost, tag);
- ireq->ttype_ptr.io_task_ptr = task;
- clear_bit(IREQ_TMF, &ireq->flags);
- task->lldd_task = ireq;
- return ireq;
- }
- struct isci_request *isci_tmf_request_from_tag(struct isci_host *ihost,
- struct isci_tmf *isci_tmf,
- u16 tag)
- {
- struct isci_request *ireq;
- ireq = isci_request_from_tag(ihost, tag);
- ireq->ttype_ptr.tmf_task_ptr = isci_tmf;
- set_bit(IREQ_TMF, &ireq->flags);
- return ireq;
- }
- int isci_request_execute(struct isci_host *ihost, struct isci_remote_device *idev,
- struct sas_task *task, u16 tag)
- {
- enum sci_status status = SCI_FAILURE_UNSUPPORTED_PROTOCOL;
- struct isci_request *ireq;
- unsigned long flags;
- int ret = 0;
- /* do common allocation and init of request object. */
- ireq = isci_io_request_from_tag(ihost, task, tag);
- status = isci_io_request_build(ihost, ireq, idev);
- if (status != SCI_SUCCESS) {
- dev_dbg(&ihost->pdev->dev,
- "%s: request_construct failed - status = 0x%x\n",
- __func__,
- status);
- return status;
- }
- spin_lock_irqsave(&ihost->scic_lock, flags);
- if (test_bit(IDEV_IO_NCQERROR, &idev->flags)) {
- if (isci_task_is_ncq_recovery(task)) {
- /* The device is in an NCQ recovery state. Issue the
- * request on the task side. Note that it will
- * complete on the I/O request side because the
- * request was built that way (ie.
- * ireq->is_task_management_request is false).
- */
- status = sci_controller_start_task(ihost,
- idev,
- ireq);
- } else {
- status = SCI_FAILURE;
- }
- } else {
- /* send the request, let the core assign the IO TAG. */
- status = sci_controller_start_io(ihost, idev,
- ireq);
- }
- if (status != SCI_SUCCESS &&
- status != SCI_FAILURE_REMOTE_DEVICE_RESET_REQUIRED) {
- dev_dbg(&ihost->pdev->dev,
- "%s: failed request start (0x%x)\n",
- __func__, status);
- spin_unlock_irqrestore(&ihost->scic_lock, flags);
- return status;
- }
- /* Either I/O started OK, or the core has signaled that
- * the device needs a target reset.
- */
- if (status != SCI_SUCCESS) {
- /* The request did not really start in the
- * hardware, so clear the request handle
- * here so no terminations will be done.
- */
- set_bit(IREQ_TERMINATED, &ireq->flags);
- }
- spin_unlock_irqrestore(&ihost->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.
- */
- sas_task_abort(task);
- /* Change the status, since we are holding
- * the I/O until it is managed by the SCSI
- * error handler.
- */
- status = SCI_SUCCESS;
- }
- return ret;
- }
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