/* Copyright (c) 2013-2015 The Linux Foundation. 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 The Linux Foundation 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 "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT * 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 #include #include #include #include #include int ucs_do_scsi_cmd(struct ufs_dev *dev, struct scsi_req_build_type *req) { struct upiu_req_build_type req_upiu; struct upiu_basic_resp_hdr resp_upiu; memset(&req_upiu, 0 , sizeof(struct upiu_req_build_type)); req_upiu.cmd_set_type = UPIU_SCSI_CMD_SET; req_upiu.trans_type = UPIU_TYPE_COMMAND; req_upiu.data_buffer_addr = req->data_buffer_addr; req_upiu.expected_data_len = req->data_len; req_upiu.data_seg_len = 0; req_upiu.ehs_len = 0; req_upiu.flags = req->flags; req_upiu.lun = req->lun; req_upiu.query_mgmt_func = 0; req_upiu.cdb = req->cdb; req_upiu.cmd_type = UTRD_SCSCI_CMD; req_upiu.dd = req->dd; req_upiu.resp_ptr = &resp_upiu; req_upiu.resp_len = sizeof(resp_upiu); req_upiu.timeout_msecs = UTP_GENERIC_CMD_TIMEOUT; if (utp_enqueue_upiu(dev, &req_upiu)) { dprintf(CRITICAL, "ucs_do_scsi_cmd: enqueue failed\n"); return -UFS_FAILURE; } if (resp_upiu.status != SCSI_STATUS_GOOD) { if (resp_upiu.status == SCSI_STATUS_CHK_COND && (*((uint8_t *)(req->cdb)) != SCSI_CMD_SENSE_REQ)) { dprintf(CRITICAL, "Data segment length: %x\n", BE16(resp_upiu.data_seg_len)); if (BE16(resp_upiu.data_seg_len)) { dprintf(CRITICAL, "SCSI Request failed and we have sense data\n"); dprintf(CRITICAL, "Sense Data Length/Response Code: 0x%x/0x%x\n", BE16(resp_upiu.sense_length), BE16(resp_upiu.sense_response_code)); parse_sense_key(resp_upiu.sense_data[0]); dprintf(CRITICAL, "Sense Buffer (HEX): 0x%x 0x%x 0x%x 0x%x\n", BE32(resp_upiu.sense_data[0]), BE32(resp_upiu.sense_data[1]), BE32(resp_upiu.sense_data[2]), BE32(resp_upiu.sense_data[3])); } } dprintf(CRITICAL, "ucs_do_scsi_cmd failed status = %x\n", resp_upiu.status); return -UFS_FAILURE; } return UFS_SUCCESS; } int parse_sense_key(uint32_t sense_data) { uint32_t key = BE32(sense_data) >> 24; dprintf(CRITICAL, "Sense Key: 0x%x\n", key); switch(key) { case 0x0: dprintf(INFO, "NO SENSE: No information available to be reported\n"); break; case 0x1: dprintf(INFO, "RECOVERED ERROR: Additional sense buffer bytes indicate further details\n"); break; case 0x2: dprintf(INFO, "NOT READY: Logical Unit Not Ready and cannot be accessed at this time\n"); break; case 0x3: dprintf(INFO, "MEDIUM ERROR: Last command unsuccessful due to non-recoverable error condition\n"); break; case 0x4: dprintf(INFO, "HARDWARE ERROR: Target detected a non-recoverable hardware error\n"); break; case 0x5: dprintf(INFO, "ILLEGAL REQUEST: Illegal parameter in the command descriptor block in the command sent\n"); break; case 0x6: dprintf(INFO, "UNIT ATTENTION: Unit has been reset/unexpectedly power on/removable media has changed\n"); break; case 0x7: dprintf(INFO, "DATA PROTECT: Read/Write operation attempted on a block that is protected from this operation\n"); break; case 0x8: dprintf(INFO, "BLANK CHECK: Target encountered blank or unformatted media while reading or writing\n"); break; case 0x9: dprintf(INFO, "VENDOR SPECIFIC: Vendor specific error or exceptional conditions\n"); break; case 0xB: dprintf(INFO, "ABORTED COMMAND: Target aborted the execution of the command\n"); break; case 0xD: dprintf(INFO, "VOLUME OVERFLOW: Buffered peripheral device has reached the end of partition\n"); break; case 0xE: dprintf(INFO, "MISCOMPARE: Source data did not match the data read from the media\n"); break; default: dprintf(INFO, "INVALID sense key\n"); } return key; } int ucs_do_scsi_rpmb_read(struct ufs_dev *dev, uint32_t *req_buf, uint32_t blk_cnt, uint32_t *resp_buf, uint32_t *resp_len) { // validate input parameters ASSERT(req_buf); ASSERT(resp_buf); ASSERT(resp_len); STACKBUF_DMA_ALIGN(cdb, sizeof(struct scsi_sec_protocol_cdb)); struct scsi_req_build_type req_upiu; struct scsi_sec_protocol_cdb *cdb_out_param, *cdb_in_param; uint32_t blks_remaining; uint32_t blks_to_transfer; uint64_t bytes_to_transfer; uint64_t max_size; blks_remaining = blk_cnt; blks_to_transfer = blks_remaining; bytes_to_transfer = blks_to_transfer * RPMB_FRAME_SIZE; // check if total bytes to transfer exceed max supported size max_size = dev->rpmb_rw_size * RPMB_FRAME_SIZE * blk_cnt; if (bytes_to_transfer > max_size) { dprintf(CRITICAL, "RPMB request transfer size %llu greater than max transfer size %llu\n", bytes_to_transfer, max_size); return -UFS_FAILURE; } #ifdef DEBUG_UFS dprintf(INFO, "rpmb_read: req_buf: 0x%x blk_count: 0x%x\n", *req_buf, blk_cnt); dprintf(INFO, "rpmb_read: bytes_to_transfer: 0x%x blks_to_transfer: 0x%x\n", bytes_to_transfer, blks_to_transfer); #endif // send the request cdb_out_param = (struct scsi_sec_protocol_cdb*) cdb; memset(cdb_out_param, 0, sizeof(struct scsi_sec_protocol_cdb)); cdb_out_param->opcode = SCSI_CMD_SECPROT_OUT; cdb_out_param->cdb1 = SCSI_SEC_PROT; cdb_out_param->sec_protocol_specific = BE16(SCSI_SEC_UFS_PROT_ID); cdb_out_param->alloc_tlen = BE32(bytes_to_transfer); // Flush CDB to memory dsb(); arch_clean_invalidate_cache_range((addr_t) cdb_out_param, sizeof(struct scsi_sec_protocol_cdb)); memset(&req_upiu, 0, sizeof(struct scsi_req_build_type)); req_upiu.cdb = (addr_t) cdb_out_param; req_upiu.data_buffer_addr = (addr_t) req_buf; req_upiu.data_len = bytes_to_transfer; req_upiu.flags = UPIU_FLAGS_WRITE; req_upiu.lun = UFS_WLUN_RPMB; req_upiu.dd = UTRD_TARGET_TO_SYSTEM; #ifdef DEBUG_UFS dprintf(INFO, "Sending RPMB Read request\n"); #endif if (ucs_do_scsi_cmd(dev, &req_upiu)) { dprintf(CRITICAL, "%s:%d ucs_do_scsi_rpmb_read: failed\n", __func__, __LINE__); return -UFS_FAILURE; } #ifdef DEBUG_UFS dprintf(INFO, "Sending RPMB Read request complete\n"); #endif // read the response cdb_in_param = (struct scsi_sec_protocol_cdb*) cdb; memset(cdb_in_param, 0, sizeof(struct scsi_sec_protocol_cdb)); cdb_in_param->opcode = SCSI_CMD_SECPROT_IN; cdb_in_param->cdb1 = SCSI_SEC_PROT; cdb_in_param->sec_protocol_specific = BE16(SCSI_SEC_UFS_PROT_ID); cdb_in_param->alloc_tlen = BE32(bytes_to_transfer); // Flush CDB to memory dsb(); arch_clean_invalidate_cache_range((addr_t) cdb_in_param, sizeof(struct scsi_sec_protocol_cdb)); memset(&req_upiu, 0, sizeof(struct scsi_req_build_type)); req_upiu.cdb = (addr_t) cdb_in_param; req_upiu.data_buffer_addr = (addr_t) resp_buf; req_upiu.data_len = bytes_to_transfer; req_upiu.flags = UPIU_FLAGS_READ; req_upiu.lun = UFS_WLUN_RPMB; req_upiu.dd = UTRD_SYSTEM_TO_TARGET; #ifdef DEBUG_UFS dprintf(INFO, "Sending RPMB Read response\n"); #endif if (ucs_do_scsi_cmd(dev, &req_upiu)) { dprintf(CRITICAL, "%s:%d ucs_do_scsi_rpmb_read: failed\n", __func__, __LINE__); return -UFS_FAILURE; } #ifdef DEBUG_UFS dprintf(SPEW, "Sending RPMB Read response complete\n"); #endif *resp_len = bytes_to_transfer; return UFS_SUCCESS; } int ucs_do_scsi_read(struct ufs_dev *dev, struct scsi_rdwr_req *req) { STACKBUF_DMA_ALIGN(cdb, sizeof(struct scsi_rdwr_cdb)); struct scsi_req_build_type req_upiu; struct scsi_rdwr_cdb *cdb_param; uint32_t blks_remaining; uint16_t blks_to_transfer; uint64_t bytes_to_transfer; uint32_t start_blk; uint32_t buf; blks_remaining = req->num_blocks; buf = req->data_buffer_base; start_blk = req->start_lba; cdb_param = (struct scsi_rdwr_cdb*) cdb; while (blks_remaining) { if (blks_remaining <= SCSI_MAX_DATA_TRANS_BLK_LEN) { blks_to_transfer = blks_remaining; blks_remaining = 0; } else { blks_to_transfer = SCSI_MAX_DATA_TRANS_BLK_LEN; blks_remaining -= SCSI_MAX_DATA_TRANS_BLK_LEN; } bytes_to_transfer = blks_to_transfer * UFS_DEFAULT_SECTORE_SIZE; memset(cdb_param, 0, sizeof(struct scsi_rdwr_cdb)); cdb_param->opcode = SCSI_CMD_READ10; cdb_param->cdb1 = SCSI_READ_WRITE_10_CDB1(0, 0, 1, 0); cdb_param->lba = BE32(start_blk); cdb_param->trans_len = BE16(blks_to_transfer); dsb(); arch_clean_invalidate_cache_range((addr_t) cdb_param, sizeof(struct scsi_rdwr_cdb)); memset(&req_upiu, 0 , sizeof(struct scsi_req_build_type)); req_upiu.cdb = (addr_t) cdb_param; req_upiu.data_buffer_addr = buf; req_upiu.data_len = bytes_to_transfer; req_upiu.flags = UPIU_FLAGS_READ; req_upiu.lun = req->lun; req_upiu.dd = UTRD_TARGET_TO_SYSTEM; if (ucs_do_scsi_cmd(dev, &req_upiu)) { dprintf(CRITICAL, "ucs_do_scsi_read: failed\n"); return -UFS_FAILURE; } buf += bytes_to_transfer; start_blk += SCSI_MAX_DATA_TRANS_BLK_LEN; } return UFS_SUCCESS; } int ucs_do_scsi_write(struct ufs_dev *dev, struct scsi_rdwr_req *req) { struct scsi_req_build_type req_upiu; STACKBUF_DMA_ALIGN(cdb, sizeof(struct scsi_rdwr_cdb)); struct scsi_rdwr_cdb *cdb_param; uint32_t blks_remaining; uint16_t blks_to_transfer; uint64_t bytes_to_transfer; uint32_t start_blk; uint32_t buf; blks_remaining = req->num_blocks; buf = req->data_buffer_base; start_blk = req->start_lba; cdb_param = (struct scsi_rdwr_cdb*) cdb; while (blks_remaining) { if (blks_remaining <= SCSI_MAX_DATA_TRANS_BLK_LEN) { blks_to_transfer = blks_remaining; blks_remaining = 0; } else { blks_to_transfer = SCSI_MAX_DATA_TRANS_BLK_LEN; blks_remaining -= SCSI_MAX_DATA_TRANS_BLK_LEN; } bytes_to_transfer = blks_to_transfer * UFS_DEFAULT_SECTORE_SIZE; memset(cdb_param, 0, sizeof(struct scsi_rdwr_cdb)); cdb_param->opcode = SCSI_CMD_WRITE10; cdb_param->cdb1 = SCSI_READ_WRITE_10_CDB1(0, 0, 1, 0); cdb_param->lba = BE32(start_blk); cdb_param->trans_len = BE16(blks_to_transfer); /* Flush cdb to memory. */ dsb(); arch_clean_invalidate_cache_range((addr_t) cdb_param, sizeof(struct scsi_rdwr_cdb)); memset(&req_upiu, 0 , sizeof(struct scsi_req_build_type)); req_upiu.cdb = (addr_t) cdb_param; req_upiu.data_buffer_addr = buf; req_upiu.data_len = bytes_to_transfer; req_upiu.flags = UPIU_FLAGS_WRITE; req_upiu.lun = req->lun; req_upiu.dd = UTRD_SYSTEM_TO_TARGET; if (ucs_do_scsi_cmd(dev, &req_upiu)) { dprintf(CRITICAL, "ucs_do_scsi_write: failed\n"); return -UFS_FAILURE; } buf += bytes_to_transfer; start_blk += SCSI_MAX_DATA_TRANS_BLK_LEN; } return UFS_SUCCESS; } int ucs_do_scsi_unmap(struct ufs_dev *dev, struct scsi_unmap_req *req) { STACKBUF_DMA_ALIGN(cdb_param, SCSI_CDB_PARAM_LEN); STACKBUF_DMA_ALIGN(param, sizeof(struct unmap_param_list)); struct scsi_req_build_type req_upiu; struct unmap_param_list *param_list; struct unmap_blk_desc *blk_desc; param_list = (struct unmap_param_list *)param; // data length = size of unmap block descriptor struct (n-1) - size of data length field. param_list->data_len = ((sizeof(struct unmap_param_list) - 1) - 1) << 0x8; param_list->blk_desc_data_len = sizeof(struct unmap_blk_desc) << 0x8; blk_desc = &(param_list->blk_desc); blk_desc->lba = BE64(req->start_lba); blk_desc->num_blks = BE32(req->num_blocks); memset((void*)cdb_param, 0, SCSI_CDB_PARAM_LEN); cdb_param[0] = SCSI_CMD_UNMAP; cdb_param[1] = 0; /*ANCHOR = 0 for UFS*/ cdb_param[6] = 0; /*Group No = 0*/ cdb_param[7] = 0; /* Param list length is 1, we erase 1 contiguous blk*/ cdb_param[8] = sizeof(struct unmap_param_list); cdb_param[9] = 0; /* Flush cdb to memory. */ dsb(); arch_invalidate_cache_range((addr_t) cdb_param, SCSI_CDB_PARAM_LEN); arch_invalidate_cache_range((addr_t) param, sizeof(struct unmap_param_list)); memset((void*)&req_upiu, 0 , sizeof(struct scsi_req_build_type)); req_upiu.cdb = (addr_t) cdb_param; req_upiu.data_buffer_addr = (addr_t) param; req_upiu.data_len = sizeof(struct unmap_param_list); req_upiu.flags = UPIU_FLAGS_WRITE; req_upiu.lun = req->lun; req_upiu.dd = UTRD_SYSTEM_TO_TARGET; if (ucs_do_scsi_cmd(dev, &req_upiu)) { dprintf(CRITICAL, "Failed to send SCSI unmap command \n"); return -UFS_FAILURE; } /* Flush buffer. */ arch_invalidate_cache_range((addr_t) param, SCSI_INQUIRY_LEN); return UFS_SUCCESS; } int ucs_scsi_send_inquiry(struct ufs_dev *dev) { STACKBUF_DMA_ALIGN(cdb_param, SCSI_CDB_PARAM_LEN); STACKBUF_DMA_ALIGN(param, SCSI_INQUIRY_LEN); struct scsi_req_build_type req_upiu; memset(cdb_param, 0, SCSI_CDB_PARAM_LEN); cdb_param[0] = SCSI_CMD_INQUIRY; cdb_param[3] = sizeof(param)>> 8; cdb_param[4] = sizeof(param); /* Flush cdb to memory. */ dsb(); arch_clean_invalidate_cache_range((addr_t) cdb_param, SCSI_CDB_PARAM_LEN); memset(&req_upiu, 0 , sizeof(struct scsi_req_build_type)); req_upiu.cdb = (addr_t) cdb_param; req_upiu.data_buffer_addr = (addr_t) param; req_upiu.data_len = SCSI_INQUIRY_LEN; req_upiu.flags = UPIU_FLAGS_READ; req_upiu.lun = 0; req_upiu.dd = UTRD_TARGET_TO_SYSTEM; if (ucs_do_scsi_cmd(dev, &req_upiu)) { dprintf(CRITICAL, "Failed to send SCSI inquiry\n"); return -UFS_FAILURE; } return UFS_SUCCESS; } void dump_sense_buffer(uint8_t *buf, int buf_len) { int index=0; dprintf(CRITICAL,"----Sense buffer----\n"); for(index=0; index < buf_len; index++) dprintf(CRITICAL,"buf[%d] = %x\n",index, buf[index]); dprintf(CRITICAL,"----end of buffer---\n"); } int ucs_do_request_sense(struct ufs_dev *dev, uint8_t lun) { STACKBUF_DMA_ALIGN(cdb, sizeof(struct scsi_sense_cdb)); struct scsi_req_build_type req_upiu; struct scsi_sense_cdb *cdb_param; STACKBUF_DMA_ALIGN(buf, SCSI_SENSE_BUF_LEN); cdb_param = (struct scsi_sense_cdb *) cdb; memset(cdb, 0, sizeof(struct scsi_sense_cdb)); cdb_param->opcode = SCSI_CMD_SENSE_REQ; cdb_param->alloc_len = SCSI_SENSE_BUF_LEN; /* Flush cdb to memory. */ dsb(); arch_clean_invalidate_cache_range((addr_t) cdb_param, SCSI_CDB_PARAM_LEN); memset(&req_upiu, 0 , sizeof(struct scsi_req_build_type)); req_upiu.cdb = (addr_t) cdb_param; req_upiu.data_buffer_addr = (addr_t) buf; req_upiu.data_len = SCSI_SENSE_BUF_LEN; req_upiu.flags = UPIU_FLAGS_READ; req_upiu.lun = lun; req_upiu.dd = UTRD_TARGET_TO_SYSTEM; if (ucs_do_scsi_cmd(dev, &req_upiu)) { dprintf(CRITICAL, "ucs_do_request_sense: failed\n"); return -UFS_FAILURE; } /* Flush buffer. */ arch_invalidate_cache_range((addr_t) buf, SCSI_INQUIRY_LEN); #if DEBUG_UFS dump_sense_buffer(buf, SCSI_SENSE_BUF_LEN); #endif return UFS_SUCCESS; }