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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. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/isci/scil/sati_mode_select.c 231689 2012-02-14 15:58:49Z jimharris $"); /** * @file * @brief This file contains the method implementations required to * translate the SCSI mode select (6 and 10-byte) commands with 5 * supported mode parameter pages (0x01, 0x02, 0x08, 0x0A, 0x1C). */ #if !defined(DISABLE_SATI_MODE_SELECT) #include <dev/isci/scil/sati_mode_select.h> #include <dev/isci/scil/sati_mode_pages.h> #include <dev/isci/scil/sati_callbacks.h> #include <dev/isci/scil/sci_object.h> #include <dev/isci/scil/sati_translator_sequence.h> #include <dev/isci/scil/sati_util.h> //****************************************************************************** //* P R I V A T E M E T H O D S //****************************************************************************** /** * @brief This method will get medium type parameter field per CDB size. * * @param[in] scsi_io This parameter specifies the user's SCSI IO object * for which to calculate the mode page header. * @param[in] cdb_size This parameter specifies the number of bytes * associated with the CDB for which to calculate the header. * * @return This method returns the medium type for the mode page header. */ static U8 sati_mode_select_get_medium_type( U8 * mode_parameters, U32 cdb_size ) { U8 medium_type =0xFF; SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_6_T * mode_parameters_6; SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_10_T * mode_parameters_10; if(cdb_size == 6) { mode_parameters_6 = (SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_6_T *) mode_parameters; medium_type = mode_parameters_6->medium_type; } else if(cdb_size == 10) { mode_parameters_10 = (SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_10_T *) mode_parameters; medium_type = mode_parameters_10->medium_type; } return medium_type; } /** * @brief This method will retrieve Block Descriptor Length. * * @param[in] mode_parameters This parameter contains the address to the mode parameters. * @param[in] cdb_size This parameter specifies the number of bytes * associated with the CDB for which to process the block descriptor. * * @return This method returns the size, in bytes, for the mode parameter block descriptor. */ static U32 sati_mode_select_get_mode_block_descriptor_length( U8 * mode_parameters, U32 cdb_size ) { U32 mode_block_descriptor_length = 0; SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_6_T * mode_parameters_6; SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_10_T * mode_parameters_10; if(cdb_size == 6) { mode_parameters_6 = (SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_6_T *) mode_parameters; mode_block_descriptor_length = mode_parameters_6->block_descriptor_length; } else if(cdb_size == 10) { mode_parameters_10 = (SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_10_T *) mode_parameters; //Long LBA bit is the bit0 of the byte //Spec says another way to get the block descriptor length to multiply the block number // with block length (8 or 16), but we can get it directly. mode_block_descriptor_length =(((U16)mode_parameters_10->block_descriptor_length[0]) << 8) + mode_parameters_10->block_descriptor_length[1]; } return mode_block_descriptor_length; } /** * @brief This method will find the starting byte location for a page. * * @param[in] block_descriptor_length This parameter passes in the length of * block descriptor. * @param[in] cdb_size This parameter specifies the number of bytes * associated with the CDB for which to calculate the header. * * @return This method returns the offset, for the mode page. */ static U32 sati_mode_select_get_mode_page_offset( U32 block_descriptor_length, U32 cdb_size ) { U32 mode_page_offset; if(cdb_size == 6) { mode_page_offset = sizeof(SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_6_T) + block_descriptor_length; } else if(cdb_size == 10) { mode_page_offset = sizeof(SCSI_MODE_SELECT_MODE_PARAMETER_HEADER_10_T) + block_descriptor_length; } else { mode_page_offset = 0; } return mode_page_offset; } /** * @brief This method will set the initial Mode Select processing state. */ static void sati_mode_select_initialize_mode_sel_processing_state( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io, U32 data_transfer_length, U32 mode_page_offset ) { sequence->command_specific_data.process_state.ata_command_sent_for_cmp = 0; sequence->command_specific_data.process_state.mode_page_offset=mode_page_offset; sequence->command_specific_data.process_state.mode_pages_size = data_transfer_length - mode_page_offset; sequence->command_specific_data.process_state.size_of_data_processed = 0; sequence->command_specific_data.process_state.current_mode_page_processed = FALSE; } /** * @brief This method will get mode page size. * * @param[in] page_code This parameter contains page code for the current mode page. * * @return This method returns the size of current mode page. */ static U32 sati_mode_select_get_mode_page_size( U8 page_code ) { U32 page_size=0; switch (page_code) { case SCSI_MODE_PAGE_READ_WRITE_ERROR: page_size=SCSI_MODE_PAGE_01_LENGTH; break; case SCSI_MODE_PAGE_DISCONNECT_RECONNECT: page_size=SCSI_MODE_PAGE_02_LENGTH; break; case SCSI_MODE_PAGE_CACHING: page_size=SCSI_MODE_PAGE_08_LENGTH; break; case SCSI_MODE_PAGE_CONTROL: page_size=SCSI_MODE_PAGE_0A_LENGTH; break; case SCSI_MODE_PAGE_INFORMATIONAL_EXCP_CONTROL: page_size=SCSI_MODE_PAGE_1C_LENGTH; break; case SCSI_MODE_PAGE_POWER_CONDITION: page_size=SCSI_MODE_PAGE_1A_LENGTH; break; default: page_size=0; break; } return page_size; } /** * @brief This method will check the validity of parameter data of Read Write Error Recovery * page and further processing the page data if necessary. * * @param[in] page_size This parameter specifies page size of current mode page. * * @return Indicate if the translation was successful. * @retval SATI_SUCCESS * @retval SATI_COMPLETE * @retval SATI_FAILURE_CHECK_RESPONSE_DATA */ static SATI_STATUS sati_mode_select_process_mode_page_read_write_error_recovery( SATI_TRANSLATOR_SEQUENCE_T* sequence, void * scsi_io, U32 page_size ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; U8 current_mode_page[SCSI_MODE_PAGE_01_LENGTH]={0,0,0,0,0,0,0,0,0,0,0,0}; U32 mode_page_offset; mode_page_offset = sequence->command_specific_data.process_state.mode_page_offset; //Check all the defined bits for this page //SPF(0b); Page length 0x0A;AWRE 1; ARRE 0; Error recovery bits 0; RC 0; //Recovery time limit last two bytes 0 sati_get_data_byte(sequence, scsi_io, mode_page_offset, ¤t_mode_page[0]); sati_get_data_byte(sequence, scsi_io, mode_page_offset+1, ¤t_mode_page[1]); sati_get_data_byte(sequence, scsi_io, mode_page_offset+2, ¤t_mode_page[2]); sati_get_data_byte(sequence, scsi_io, mode_page_offset+10, ¤t_mode_page[10]); sati_get_data_byte(sequence, scsi_io, mode_page_offset+11, ¤t_mode_page[11]); if ( ((current_mode_page[0] & SCSI_MODE_SELECT_MODE_PAGE_SPF_MASK)!= 0) || (current_mode_page[1] != (SCSI_MODE_PAGE_01_LENGTH - 2)) || ((current_mode_page[2] & SCSI_MODE_SELECT_MODE_PAGE_01_AWRE_MASK) == 0) || ((current_mode_page[2] & SCSI_MODE_SELECT_MODE_PAGE_01_ARRE_MASK) != 0) || ((current_mode_page[2] & SCSI_MODE_SELECT_MODE_PAGE_01_RC_ERBITS_MASK) != 0) || (current_mode_page[10] != 0 ) || (current_mode_page[11] != 0 ) ) { status = SATI_FAILURE_CHECK_RESPONSE_DATA; return status; } //no need to send any command { sequence->command_specific_data.process_state.size_of_data_processed += page_size; sequence->command_specific_data.process_state.mode_page_offset += page_size; sequence->command_specific_data.process_state.current_mode_page_processed = TRUE; } status = SATI_COMPLETE; return status; } /** * @brief This method will check the validity of parameter data of Disconnect Reconnect mode * page and further processing the page data if necessary. * * @param[in] page_size This parameter specifies page size of current mode page. * * @return Indicate if the translation was successful. * @retval SATI_SUCCESS * @retval SATI_COMPLETE * @retval SATI_FAILURE_CHECK_RESPONSE_DATA */ static SATI_STATUS sati_mode_select_process_mode_page_disconnect_reconnect( SATI_MODE_SELECT_PROCESSING_STATE_T * mode_select_process_state, U32 page_size ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; // No need to check data for valid or invalid this page (undefined) // No ata command to send { mode_select_process_state->size_of_data_processed += page_size; mode_select_process_state->mode_page_offset += page_size; mode_select_process_state->current_mode_page_processed = TRUE; } // No further interaction with remote devices status = SATI_COMPLETE; return status; } /** * @brief This method will check the validity of parameter data of Caching mode * page and issue multiple ATA set feature commands to complete the translation. * * @param[in] page_size This parameter specifies page size of current mode page. * * @return Indicate if the translation was successful. * @retval SATI_SUCCESS * @retval SATI_COMPLETE * @retval SATI_FAILURE_CHECK_RESPONSE_DATA */ static SATI_STATUS sati_mode_select_process_mode_page_caching( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io, U32 page_size ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; //SCSI_MODE_PAGE_08_LENGTH 0x14= 20 U8 current_mode_page[SCSI_MODE_PAGE_08_LENGTH] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; U32 mode_page_offset; U32 index; mode_page_offset = sequence->command_specific_data.process_state.mode_page_offset; sequence->type = SATI_SEQUENCE_MODE_SELECT_MODE_PAGE_CACHING; for(index = 0; index < SCSI_MODE_PAGE_08_LENGTH; index++) { sati_get_data_byte(sequence, scsi_io, mode_page_offset+index, ¤t_mode_page[index]); } //Check for data validity //SPF(0b); Page length 0x12;Byte2 to Byte15 all 0 with exception DRA and WCE changeable if (((current_mode_page[0] & SCSI_MODE_SELECT_MODE_PAGE_SPF_MASK)!= 0) || (current_mode_page[1] != (SCSI_MODE_PAGE_08_LENGTH-2)) || ((current_mode_page[2] | SCSI_MODE_PAGE_CACHE_PAGE_WCE_BIT)!=SCSI_MODE_PAGE_CACHE_PAGE_WCE_BIT) || (current_mode_page[3] != 0 ) || (current_mode_page[4] != 0 ) || (current_mode_page[5] != 0 ) || (current_mode_page[6] != 0 ) || (current_mode_page[7] != 0 ) || (current_mode_page[8] != 0 ) || (current_mode_page[9] != 0 ) || (current_mode_page[10] != 0 ) || (current_mode_page[11] != 0 ) || ((current_mode_page[12] & SCSI_MODE_SELECT_MODE_PAGE_08_FSW_LBCSS_NVDIS) != 0) || (current_mode_page[13] != 0 ) || (current_mode_page[14] != 0 ) || (current_mode_page[15] != 0 )) { //parameter data passed in containing data that doesn't meet the SAT-2 requirement return SATI_FAILURE_CHECK_RESPONSE_DATA; } if(sequence->command_specific_data.process_state.ata_command_sent_for_cmp == 0) { //byte2 bit2 WCE==0 disable write cache WCE==1 enable write cache //SCSI_MODE_PAGE_CACHE_PAGE_WCE_BIT ==0x4, if ( (current_mode_page[2] & SCSI_MODE_PAGE_CACHE_PAGE_WCE_BIT) == 0) sati_ata_set_features_construct(ata_io, sequence, ATA_SET_FEATURES_SUB_CMD_DISABLE_CACHE); else sati_ata_set_features_construct(ata_io, sequence, ATA_SET_FEATURES_SUB_CMD_ENABLE_CACHE); } else if(sequence->command_specific_data.process_state.ata_command_sent_for_cmp == 1) { // DRA bit is set to 0, enable Read look ahead AAh; // DRA bit is set to 1, disable with set feature command 55h // SCSI_MODE_PAGE_CACHE_PAGE_DRA_BIT== 0x20 if ( (current_mode_page[12] & SCSI_MODE_PAGE_CACHE_PAGE_DRA_BIT) == 0) sati_ata_set_features_construct(ata_io, sequence,ATA_SET_FEATURES_SUB_CMD_ENABLE_READ_AHEAD); else sati_ata_set_features_construct(ata_io, sequence,ATA_SET_FEATURES_SUB_CMD_DISABLE_READ_AHEAD); sequence->command_specific_data.process_state.size_of_data_processed += page_size; sequence->command_specific_data.process_state.mode_page_offset += page_size; sequence->command_specific_data.process_state.current_mode_page_processed = TRUE; } // No more ata commands to send sequence->command_specific_data.process_state.ata_command_sent_for_cmp++; status = SATI_SUCCESS; return status; } /** * @brief This method will check the validity of parameter data of Control mode * page and further processing the page data if necessary. * * @param[in] mode_select_process_state This parameter points to the processing state fields * of current mode page. * @param[in] page_size This parameter specifies page size of current mode page. * * @return Indicate if the translation was successful. * @retval SATI_SUCCESS * @retval SATI_COMPLETE * @retval SATI_FAILURE_CHECK_RESPONSE_DATA */ static SATI_STATUS sati_mode_select_process_mode_page_control( SATI_TRANSLATOR_SEQUENCE_T* sequence, void * scsi_io, void * ata_io, U32 page_size ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; //SCSI_MODE_PAGE_0A_LENGTH 12 U8 current_mode_page[SCSI_MODE_PAGE_0A_LENGTH]={0,0,0,0,0,0,0,0,0,0}; U32 mode_page_offset; U32 index; mode_page_offset = sequence->command_specific_data.process_state.mode_page_offset; for(index = 0; index < SCSI_MODE_PAGE_0A_LENGTH; index++) { sati_get_data_byte(sequence, scsi_io, mode_page_offset+index, ¤t_mode_page[index]); } //bit 1 and 2 of byte3 Qerr full task management model etc. then both bits 0 //byte 8 and 9 busy time out period variable if not ffff setable? //check for page data validity //Byte2: 0000???0b Byte3: Queued Algorithm Modifier should be set to 1 QErr? //Byte4: ??000??? Byte5: ?0???000 if (((current_mode_page[0] & SCSI_MODE_SELECT_MODE_PAGE_SPF_MASK)!= 0) || (current_mode_page[1] != (SCSI_MODE_PAGE_0A_LENGTH - 2)) || ((current_mode_page[2] & SCSI_MODE_SELECT_MODE_PAGE_0A_TST_TMF_RLEC) != 0) || ((current_mode_page[3] & SCSI_MODE_SELECT_MODE_PAGE_0A_MODIFIER) != 0) || ((current_mode_page[4] & SCSI_MODE_SELECT_MODE_PAGE_0A_UA_SWP ) != 0) || ((current_mode_page[5] & SCSI_MODE_SELECT_MODE_PAGE_0A_TAS_AUTO ) != 0 ) ) { return SATI_FAILURE_CHECK_RESPONSE_DATA; } if ((current_mode_page[2] & SCSI_MODE_SELECT_MODE_PAGE_D_SENSE) != 0) sequence->device->descriptor_sense_enable = SCSI_MODE_PAGE_CONTROL_D_SENSE_ENABLE; else sequence->device->descriptor_sense_enable = SCSI_MODE_PAGE_CONTROL_D_SENSE_DISABLE; // no ata command need to be comfirmed { sequence->command_specific_data.process_state.size_of_data_processed += page_size; sequence->command_specific_data.process_state.mode_page_offset += page_size; sequence->command_specific_data.process_state.current_mode_page_processed = TRUE; } status = SATI_COMPLETE; return status; } /** * @brief This method will check the validity of parameter data of Information Exception Control * mode page and further processing the page data if necessary. * * @param[in] page_size This parameter specifies page size of current mode page. * * @return Indicate if the translation was successful. * @retval SATI_SUCCESS * @retval SATI_COMPLETE * @retval SATI_FAILURE_CHECK_RESPONSE_DATA */ static SATI_STATUS sati_mode_select_process_mode_page_informational_exception_control( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io, U32 page_size ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; //SCSI_MODE_PAGE_1C_LENGTH 12 U8 current_mode_page[SCSI_MODE_PAGE_1C_LENGTH]={0,0,0,0,0,0,0,0,0,0,0,0}; U32 mode_page_offset; U32 index; mode_page_offset = sequence->command_specific_data.process_state.mode_page_offset; sequence->type = SATI_SEQUENCE_MODE_SELECT_MODE_INFORMATION_EXCEPT_CONTROL; for(index = 0; index < 4; index++) { sati_get_data_byte(sequence, scsi_io, mode_page_offset+index, ¤t_mode_page[index]); } //Check for data validity //SPF(0b); Page length 0x0A; Byte2 0????0?? Byte3: ????1100 //SCSI_MODE_SELECT_MODE_PAGE_MRIE_BYTE same as REPORT_INFO_EXCEPTION_CONDITION_ON_REQUEST 0x6 //SCSI_MODE_PAGE_DEXCPT_ENABLE if (((current_mode_page[0] & SCSI_MODE_SELECT_MODE_PAGE_SPF_MASK)!= 0) || (current_mode_page[1] != (SCSI_MODE_PAGE_1C_LENGTH - 2)) || ((current_mode_page[2] & SCSI_MODE_SELECT_MODE_PAGE_1C_PERF_TEST)!= 0 ) || ((current_mode_page[3] & SCSI_MODE_SELECT_MODE_PAGE_MRIE_MASK) != SCSI_MODE_SELECT_MODE_PAGE_MRIE_BYTE )) { return SATI_FAILURE_CHECK_RESPONSE_DATA; } // DEXCPT bit is set to 0, enable SMART reporting D8h; // DEXCPT bit is set to 1, disable SMART reporting D9h // SCSI_MODE_PAGE_DEXCPT_ENABLE== 0x08 if ( (current_mode_page[2] & SCSI_MODE_PAGE_DEXCPT_ENABLE) == 0) sati_ata_smart_return_status_construct(ata_io, sequence, ATA_SMART_SUB_CMD_ENABLE); else sati_ata_smart_return_status_construct(ata_io, sequence, ATA_SMART_SUB_CMD_DISABLE); sequence->command_specific_data.process_state.size_of_data_processed += page_size; sequence->command_specific_data.process_state.mode_page_offset += page_size; sequence->command_specific_data.process_state.current_mode_page_processed = TRUE; // No more ata commands to send status = SATI_SUCCESS; return status; } /** * @brief This method will check the validity of parameter data of Power Condition mode * page and issue multiple ATA set feature commands to complete the translation. * * @param[in] mode_select_process_state This parameter points to the processing state fields * of current mode page. * @param[in] page_size This parameter specifies page size of current mode page. * * @return Indicate if the translation was successful. * @retval SATI_SUCCESS * @retval SATI_COMPLETE * @retval SATI_FAILURE_CHECK_RESPONSE_DATA */ static SATI_STATUS sati_mode_select_process_mode_page_power_condition( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io, U32 page_size ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; //SCSI_MODE_PAGE_1A_LENGTH 10 U8 current_mode_page[SCSI_MODE_PAGE_1A_LENGTH] = {0,0,0,0,0,0,0,0,0,0}; U32 mode_page_offset; U32 index; U32 timer = 0; U16 count = 0; mode_page_offset = sequence->command_specific_data.process_state.mode_page_offset; sequence->type = SATI_SEQUENCE_MODE_SELECT_MODE_POWER_CONDITION; for(index = 0; index < SCSI_MODE_PAGE_1A_LENGTH; index++) { sati_get_data_byte(sequence, scsi_io, mode_page_offset+index, ¤t_mode_page[index]); } //Check for data validity //SPF(0b); Page length 0x0A; if (((current_mode_page[0] & SCSI_MODE_SELECT_MODE_PAGE_SPF_MASK)!= 0) || (current_mode_page[1] != (SCSI_MODE_PAGE_1A_LENGTH - 2) ) || ((current_mode_page[3] & SCSI_MODE_PAGE_POWER_CONDITION_IDLE)!= 0) ) { //parameter data passed in containing data that doesn't meet the SAT-2 requirement return SATI_FAILURE_CHECK_RESPONSE_DATA; } // STANDBY bit is set to 0, do nothing since the standby timer can't be set; // STANDBY bit is set to 1, translate the standby timer // SCSI_MODE_PAGE_POWER_CONDITION_STANDBY== 0x01 if (current_mode_page[3] & SCSI_MODE_PAGE_POWER_CONDITION_STANDBY) { timer = (current_mode_page[8]<<24) + (current_mode_page[9]<<16) + (current_mode_page[10]<<8) + current_mode_page[11]; //If the ATA IDENTIFY DEVICE data word 49, bit 13 is set to one, if (sequence->device->capabilities & SATI_DEVICE_CAP_STANDBY_ENABLE) { if (timer == 0) { //TPV=0 send ATA STANDBY_IMMEDIATE sati_ata_standby_immediate_construct(ata_io, sequence); sequence->command_specific_data.translated_command = ATA_STANDBY_IMMED; } else if ((timer > 0) && (timer <= 12000)) { //1 to 12 000 INT((z - 1) / 50) + 1 count = (U16)((timer -1) / 50) + 1; sati_ata_standby_construct(ata_io, sequence, count); } else if ((timer > 12000) && (timer <= 12600)) { //12 001 to 12 600 FCh sati_ata_standby_construct(ata_io, sequence, 0xFC); } else if ((timer > 12600) && (timer <= 12750)) { //12 601 to 12 750 FFh sati_ata_standby_construct(ata_io, sequence, 0xFF); } else if ((timer > 12750) && (timer < 18000)) { //12 751 to 17 999 F1h sati_ata_standby_construct(ata_io, sequence, 0xF1); } else if ((timer >= 18000) && (timer <= 198000)) { //18 000 to 198 000 INT(z / 18 000) + 240 count = (U16)(timer / 18000) + 240; sati_ata_standby_construct(ata_io, sequence, count); } else { //All other values FDh sati_ata_standby_construct(ata_io, sequence, 0xFD); } status = SATI_SUCCESS ; } else { status = SATI_FAILURE_CHECK_RESPONSE_DATA; //If the ATA IDENTIFY DEVICE data word 49, bit 13 is set to 0 } } else { status = SATI_COMPLETE; } sequence->command_specific_data.process_state.size_of_data_processed += page_size; sequence->command_specific_data.process_state.mode_page_offset += page_size; sequence->command_specific_data.process_state.current_mode_page_processed = TRUE; return status; } /** * @brief This method will process the mode page. * * * @return Indicate if the translation was successful. * @retval SATI_SUCCESS * @retval SATI_COMPLETE * @retval SATI_FAILURE_CHECK_RESPONSE_DATA */ static SATI_STATUS sati_mode_select_process_mode_page( SATI_TRANSLATOR_SEQUENCE_T* sequence, void * scsi_io, void * ata_io ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; U8 page_code; U32 page_size = 0; // in bytes U32 size_of_data_to_be_processed; U8 page_code_byte; U32 mode_page_offset; mode_page_offset = sequence->command_specific_data.process_state.mode_page_offset; sati_get_data_byte(sequence, scsi_io, mode_page_offset, &page_code_byte); // No more pages. if(sequence->command_specific_data.process_state.mode_pages_size > sequence->command_specific_data.process_state.size_of_data_processed) { //SCSI_MODE_SENSE_PAGE_CODE_ENABLE==0x3f same for Mode Select page_code = page_code_byte & SCSI_MODE_SENSE_PAGE_CODE_ENABLE; page_size = sati_mode_select_get_mode_page_size(page_code); size_of_data_to_be_processed = sequence->command_specific_data.process_state.mode_pages_size - sequence->command_specific_data.process_state.size_of_data_processed; if( page_size == 0 ) { status = SATI_FAILURE_CHECK_RESPONSE_DATA; } else { // process mode page switch(page_code) { case SCSI_MODE_PAGE_READ_WRITE_ERROR: status = sati_mode_select_process_mode_page_read_write_error_recovery( sequence, scsi_io, page_size ); break; case SCSI_MODE_PAGE_DISCONNECT_RECONNECT: status = sati_mode_select_process_mode_page_disconnect_reconnect( &sequence->command_specific_data.process_state, page_size ); break; case SCSI_MODE_PAGE_CACHING: status = sati_mode_select_process_mode_page_caching( sequence, scsi_io, ata_io, page_size ); break; case SCSI_MODE_PAGE_CONTROL: status = sati_mode_select_process_mode_page_control( sequence, scsi_io, ata_io, page_size ); break; case SCSI_MODE_PAGE_INFORMATIONAL_EXCP_CONTROL: status = sati_mode_select_process_mode_page_informational_exception_control( sequence, scsi_io, ata_io, page_size ); break; case SCSI_MODE_PAGE_POWER_CONDITION: status = sati_mode_select_process_mode_page_power_condition( sequence, scsi_io, ata_io, page_size ); break; default: break; } } } return status; } //****************************************************************************** //* P U B L I C M E T H O D S //****************************************************************************** /** * @brief This method will translate the SCSI Mode Select 6 byte or 10 byte command * into corresponding ATA commands. Depending upon the capabilities * supported by the target different ATA commands can be selected. * Additionally, in some cases more than a single ATA command may * be required. * * @return Indicate if the command translation succeeded. * @retval SCI_SUCCESS This is returned if the command translation was * successful. * @retval SCI_COMPLETE This is returned if the command translation was * successful and no ATA commands need to be set. * @retval SATI_FAILURE_CHECK_RESPONSE_DATA This value is returned if * sense data has been created as a result of something specified * in the parameter data fields. */ static SATI_STATUS sati_mode_select_translate_command( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io, U32 cdb_size ) { SATI_STATUS status = SATI_FAILURE_CHECK_RESPONSE_DATA; U32 mode_page_offset; U32 block_descriptor_length; U32 index; U16 data_transfer_length; U8 current_mode_parameters[8]={0,0,0,0,0,0,0,0}; U8 * cdb = sati_cb_get_cdb_address(scsi_io); // cdb_size must be 6 or 10 if(FALSE == (cdb_size == 6 || cdb_size == 10)) { return status; } if(sequence->state == SATI_SEQUENCE_STATE_INITIAL) { sequence->command_specific_data.process_state.ata_command_sent_for_cmp = 0; sequence->state = SATI_SEQUENCE_STATE_TRANSLATE_DATA; } //First, initializes mode_sel_processing_state if ( sequence->command_specific_data.process_state.ata_command_sent_for_cmp == 0 ) { if (cdb_size == 6) { //CDB byte 4 is the parameter length data_transfer_length = sati_get_cdb_byte(cdb, 4); } else { //CDB byte 7 and 8 for Mode Select 10 data_transfer_length = (sati_get_cdb_byte(cdb, 7) << 8) + sati_get_cdb_byte(cdb, 8); } sequence->allocation_length = data_transfer_length; //Get 8 bytes for headers (4 bytes for Mode Select 6 and 8 bytes for Mode Select 10) for( index = 0; index < 8; index++ ) { sati_get_data_byte(sequence, scsi_io, index, ¤t_mode_parameters[index]); } //medium type should be 0 if ( sati_mode_select_get_medium_type(current_mode_parameters, cdb_size) != 0 ) { sati_scsi_sense_data_construct( sequence, scsi_io, SCSI_STATUS_CHECK_CONDITION, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INVALID_FIELD_IN_PARM_LIST, SCSI_ASCQ_INVALID_FIELD_IN_PARM_LIST ); return status; } block_descriptor_length = sati_mode_select_get_mode_block_descriptor_length( current_mode_parameters, cdb_size ); mode_page_offset = sati_mode_select_get_mode_page_offset( block_descriptor_length, cdb_size ); if(mode_page_offset > data_transfer_length) { sequence->state = SATI_SEQUENCE_STATE_FINAL; status = SATI_FAILURE_CHECK_RESPONSE_DATA; } else { sati_mode_select_initialize_mode_sel_processing_state( sequence, scsi_io, ata_io, data_transfer_length, mode_page_offset ); } } // move to next mode page if(sequence->command_specific_data.process_state.current_mode_page_processed) { sequence->command_specific_data.process_state.ata_command_sent_for_cmp = 0; sequence->command_specific_data.process_state.current_mode_page_processed = FALSE; } status = sati_mode_select_process_mode_page(sequence, scsi_io, ata_io); if(sequence->command_specific_data.process_state.current_mode_page_processed != FALSE) { // Done this page sequence->state = SATI_SEQUENCE_STATE_FINAL; } else { sequence->state = SATI_SEQUENCE_STATE_INCOMPLETE; } if(status == SATI_FAILURE_CHECK_RESPONSE_DATA) { sequence->state = SATI_SEQUENCE_STATE_FINAL; sati_scsi_sense_data_construct( sequence, scsi_io, SCSI_STATUS_CHECK_CONDITION, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INVALID_FIELD_IN_PARM_LIST, SCSI_ASCQ_INVALID_FIELD_IN_PARM_LIST ); } return status; } /** * @brief This method will call Mode Select 6 Translation command * For more information on the parameters passed to this method, * please reference sati_translate_command(). * * @return Indicate if the command translation succeeded. * @retval SCI_SUCCESS This is returned if the command translation was * successful. * @retval SCI_COMPLETE This is returned if the command translation was * successful and no ATA commands need to be set. * @retval SATI_FAILURE_CHECK_RESPONSE_DATA This value is returned if * sense data has been created as a result of something specified * in the parameter data fields. */ SATI_STATUS sati_mode_select_6_translate_command( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io ) { SATI_STATUS status=SATI_FAILURE; U8 * cdb = sati_cb_get_cdb_address(scsi_io); //PF bit needs to be 1 byte1 bit ???1???? if ((sati_get_cdb_byte(cdb, 1) & SCSI_MODE_SELECT_PF_MASK) == !SCSI_MODE_SELECT_PF_BIT) { sati_scsi_sense_data_construct( sequence, scsi_io, SCSI_STATUS_CHECK_CONDITION, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INVALID_FIELD_IN_CDB, SCSI_ASCQ_INVALID_FIELD_IN_CDB ); status = SATI_FAILURE_CHECK_RESPONSE_DATA; return status; } status=sati_mode_select_translate_command( sequence, scsi_io, ata_io, 6 ); if(status == SATI_FAILURE_CHECK_RESPONSE_DATA) { sati_scsi_sense_data_construct( sequence, scsi_io, SCSI_STATUS_CHECK_CONDITION, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INVALID_FIELD_IN_PARM_LIST, SCSI_ASCQ_INVALID_FIELD_IN_PARM_LIST ); } return status; } /** * @brief This method will call Mode Select 10 translation command * For more information on the parameters passed to this method, * please reference sati_translate_command(). * * @return Indicate if the command translation succeeded. * @retval SCI_SUCCESS This is returned if the command translation was * successful. * @retval SCI_COMPLETE This is returned if the command translation was * successful and no ATA commands need to be set. * @retval SATI_FAILURE_CHECK_RESPONSE_DATA This value is returned if * sense data has been created as a result of something specified * in the parameter data fields. */ SATI_STATUS sati_mode_select_10_translate_command( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io ) { SATI_STATUS status=SATI_FAILURE; U8 * cdb = sati_cb_get_cdb_address(scsi_io); //PF bit needs to be 1 byte1 bit ???1???? if ((sati_get_cdb_byte(cdb, 1) & SCSI_MODE_SELECT_PF_MASK) == !SCSI_MODE_SELECT_PF_BIT) { sati_scsi_sense_data_construct( sequence, scsi_io, SCSI_STATUS_CHECK_CONDITION, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INVALID_FIELD_IN_CDB, SCSI_ASCQ_INVALID_FIELD_IN_CDB ); status = SATI_FAILURE_CHECK_RESPONSE_DATA; return status; } status=sati_mode_select_translate_command( sequence, scsi_io, ata_io, 10 ); if(status == SATI_FAILURE_CHECK_RESPONSE_DATA) { sati_scsi_sense_data_construct( sequence, scsi_io, SCSI_STATUS_CHECK_CONDITION, SCSI_SENSE_ILLEGAL_REQUEST, SCSI_ASC_INVALID_FIELD_IN_PARM_LIST, SCSI_ASCQ_INVALID_FIELD_IN_PARM_LIST ); } return status; } /** * @brief This method will conduct error handling for the ATA Set Features command * that is issued during a Mode Select translation for the Caching Mode * page. * * * @return Indicate if the command translation succeeded. * * @retval SCI_COMPLETE This is returned if the command translation was * successful and no additional ATA commands need to be set. * @retval SATI_FAILURE_CHECK_RESPONSE_DATA This value is returned if * sense data has been created as a result of an error returned */ SATI_STATUS sati_mode_select_translate_response( SATI_TRANSLATOR_SEQUENCE_T * sequence, void * scsi_io, void * ata_io ) { U8 * register_fis = sati_cb_get_d2h_register_fis_address(ata_io); SATI_STATUS status = SATI_FAILURE; if(sati_get_ata_status(register_fis) & ATA_STATUS_REG_ERROR_BIT) { sati_scsi_sense_data_construct( sequence, scsi_io, SCSI_STATUS_CHECK_CONDITION, SCSI_SENSE_ABORTED_COMMAND, SCSI_ASC_NO_ADDITIONAL_SENSE, SCSI_ASCQ_NO_ADDITIONAL_SENSE ); status = SATI_FAILURE_CHECK_RESPONSE_DATA; } else { if (sequence->state == SATI_SEQUENCE_STATE_INCOMPLETE) { status = SATI_SEQUENCE_INCOMPLETE; } else { status = SATI_COMPLETE; } } return status; } #endif // !defined(DISABLE_SATI_MODE_SELECT)