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gerrit-public.fairphone.software / kernel / lk / 639951a89c6c62aa98c054ad40487feb865c0606 / . / platform / msm_shared / dme.c
blob: 670d344d5932ea5d240d5b5e1e4cd76314814555 [file] [log] [blame]
/* Copyright (c) 2013, 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 <debug.h>
#include <string.h>
#include <reg.h>
#include <arch/defines.h>
#include <sys/types.h>
#include <stdlib.h>
#include <endian.h>
#include <ufs.h>
#include <dme.h>
#include <uic.h>
#include <utp.h>
int dme_send_linkstartup_req(struct ufs_dev *dev)
{
struct uic_cmd cmd;
cmd.uiccmd = UICCMDR_DME_LINKSTARTUP;
cmd.num_args = UICCMD_NO_ARGS;
cmd.timeout_msecs = DME_LINK_START_TIMEOUT;
if (uic_send_cmd(dev, &cmd) || cmd.gen_err_code == UICCMD_FAILURE)
goto dme_send_linkstartup_req_err;
return UFS_SUCCESS;
dme_send_linkstartup_req_err:
dprintf(CRITICAL, "DME_LINKSTARTUP command failed.\n");
return -UFS_FAILURE;
}
int dme_get_req(struct ufs_dev *dev, struct dme_get_req_type *req)
{
struct uic_cmd cmd;
cmd.uiccmd = UICCMDR_DME_GET;
cmd.num_args = UICCMD_ONE_ARGS;
cmd.uiccmdarg1 = req->attribute << 16 | req->index;
cmd.timeout_msecs = INFINITE_TIME;
if (uic_send_cmd(dev, &cmd) || cmd.gen_err_code == UICCMD_FAILURE)
goto dme_get_req_err;
/* Return the result. */
*(req->mibval) = cmd.uiccmdarg3;
return UFS_SUCCESS;
dme_get_req_err:
dprintf(CRITICAL, "DME_GET command failed.\n");
return -UFS_FAILURE;
}
static int dme_get_query_resp(struct ufs_dev *dev,
struct upiu_req_build_type *req_upiu,
addr_t buffer,
size_t buf_len)
{
struct upiu_trans_mgmt_query_hdr *resp_upiu;
resp_upiu = (struct upiu_trans_mgmt_query_hdr *) req_upiu->resp_ptr;
if (resp_upiu->opcode != req_upiu->opcode)
return -UFS_FAILURE;
if (resp_upiu->basic_hdr.response != UPIU_QUERY_RESP_SUCCESS)
return -UFS_FAILURE;
switch (resp_upiu->opcode)
{
case UPIU_QUERY_OP_READ_FLAG:
case UPIU_QUERY_OP_SET_FLAG:
if (buf_len < sizeof(uint32_t))
{
dprintf(CRITICAL, "Insufficient buffer space.\n");
return -UFS_FAILURE;
}
*((uint32_t *) buffer) = resp_upiu->flag_value;
break;
case UPIU_QUERY_OP_TOGGLE_FLAG:
case UPIU_QUERY_OP_CLEAR_FLAG:
case UPIU_QUERY_OP_READ_DESCRIPTOR:
break;
default: dprintf(CRITICAL, "UPIU query opcode not supported.\n");
return -UFS_FAILURE;
}
return UFS_SUCCESS;
}
static int dme_send_query_upiu(struct ufs_dev *dev, struct utp_query_req_upiu_type *query)
{
struct upiu_trans_mgmt_query_hdr resp_upiu;
struct upiu_req_build_type req_upiu;
int ret;
memset(&req_upiu, 0, sizeof(req_upiu));
req_upiu.opcode = query->opcode;
req_upiu.selector = query->selector;
req_upiu.index = query->index;
req_upiu.idn = query->idn;
req_upiu.trans_type = UPIU_TYPE_QUERY_REQ;
req_upiu.dd = UTRD_NO_DATA_TRANSFER;
req_upiu.resp_ptr = (struct upiu_basic_hdr *) &resp_upiu;
req_upiu.resp_len = sizeof(resp_upiu);
req_upiu.resp_data_ptr = query->buf;
req_upiu.timeout_msecs = UTP_GENERIC_CMD_TIMEOUT;
if (query->opcode == UPIU_QUERY_OP_READ_DESCRIPTOR)
{
req_upiu.resp_data_len = query->buf_len;
}
ret = utp_enqueue_upiu(dev, &req_upiu);
if (ret)
goto utp_send_query_upiu_err;
ret = dme_get_query_resp(dev, &req_upiu, query->buf, query->buf_len);
if (ret)
goto utp_send_query_upiu_err;
utp_send_query_upiu_err:
return ret;
}
int dme_set_fdeviceinit(struct ufs_dev *dev)
{
STACKBUF_DMA_ALIGN(result, sizeof(uint32_t));
uint32_t try_again = DME_FDEVICEINIT_RETRIES;
struct utp_query_req_upiu_type read_query = {UPIU_QUERY_OP_READ_FLAG,
UFS_IDX_fDeviceInit,
0,
0,
(addr_t) result,
sizeof(uint32_t)};
struct utp_query_req_upiu_type set_query = {UPIU_QUERY_OP_SET_FLAG,
UFS_IDX_fDeviceInit,
0,
0,
(addr_t) result,
sizeof(uint32_t)};
if (dme_send_query_upiu(dev, &read_query))
return -UFS_FAILURE;
arch_invalidate_cache_range((addr_t) result, sizeof(uint32_t));
if (*result == 1)
goto utp_set_fdeviceinit_done;
do
{
try_again--;
if (dme_send_query_upiu(dev, &set_query))
return -UFS_FAILURE;
if (dme_send_query_upiu(dev, &read_query))
return -UFS_FAILURE;
if (*result == 1)
break;
} while (try_again);
utp_set_fdeviceinit_done:
return UFS_SUCCESS;
}
int dme_read_string_desc(struct ufs_dev *dev, uint8_t index, struct ufs_string_desc *desc)
{
struct utp_query_req_upiu_type query = {UPIU_QUERY_OP_READ_DESCRIPTOR,
UFS_DESC_IDN_STRING,
index,
0,
(addr_t) desc,
sizeof(struct ufs_string_desc)};
if (dme_send_query_upiu(dev, &query))
return -UFS_FAILURE;
if (desc->desc_len != 0)
return UFS_SUCCESS;
return -UFS_FAILURE;
}
static uint32_t dme_parse_serial_no(struct ufs_string_desc *desc)
{
uint32_t serial_no=0;
uint16_t *ptr;
int index=0,len=0;
if(desc->desc_len <= 0)
return -UFS_FAILURE;
ptr = desc->serial_num;
len = (desc->desc_len-2)/2;
for(index=0; index<len; index++)
{
serial_no += *ptr;
ptr++;
}
return serial_no;
}
int dme_read_device_desc(struct ufs_dev *dev)
{
STACKBUF_DMA_ALIGN(dev_desc, sizeof(struct ufs_dev_desc));
STACKBUF_DMA_ALIGN(desc, sizeof(struct ufs_string_desc));
struct ufs_dev_desc *device_desc = dev_desc;
struct ufs_string_desc *str_desc = desc;
struct utp_query_req_upiu_type query = {UPIU_QUERY_OP_READ_DESCRIPTOR,
UFS_DESC_IDN_DEVICE,
0,
0,
(addr_t) dev_desc,
sizeof(struct ufs_dev_desc)};
if (dme_send_query_upiu(dev, &query))
return -UFS_FAILURE;
/* Flush buffer. */
arch_invalidate_cache_range((addr_t) device_desc, sizeof(struct ufs_dev_desc));
/* Store all relevant data */
dev->num_lus = device_desc->num_lu;
/* Get serial number for the device based on the string index. */
if (dme_read_string_desc(dev, device_desc->serial_num, desc))
return -UFS_FAILURE;
/* Flush buffer. */
arch_invalidate_cache_range((addr_t) str_desc, sizeof(struct ufs_string_desc));
dev->serial_num = dme_parse_serial_no(str_desc);
return UFS_SUCCESS;
}
int dme_read_unit_desc(struct ufs_dev *dev, uint8_t index)
{
STACKBUF_DMA_ALIGN(unit_desc, sizeof(struct ufs_unit_desc));
struct ufs_unit_desc *desc = unit_desc;
struct utp_query_req_upiu_type query = {UPIU_QUERY_OP_READ_DESCRIPTOR,
UFS_DESC_IDN_UNIT,
index,
0,
(addr_t) unit_desc,
sizeof(struct ufs_unit_desc)};
if (dme_send_query_upiu(dev, &query))
return -UFS_FAILURE;
/* Flush buffer. */
arch_invalidate_cache_range((addr_t) desc, sizeof(struct ufs_unit_desc));
dev->lun_cfg[index].logical_blk_cnt = BE64(desc->logical_blk_cnt);
dev->lun_cfg[index].erase_blk_size = BE32(desc->erase_blk_size);
return UFS_SUCCESS;
}
int dme_read_config_desc(struct ufs_dev *dev)
{
STACKBUF_DMA_ALIGN(desc, sizeof(struct ufs_config_desc));
struct ufs_config_desc *config_desc = desc;
struct utp_query_req_upiu_type query = {UPIU_QUERY_OP_READ_DESCRIPTOR,
UFS_DESC_IDN_CONFIGURATION,
0,
0,
(addr_t) config_desc,
sizeof(struct ufs_config_desc)};
if (dme_send_query_upiu(dev, &query))
return -UFS_FAILURE;
/* Flush buffer. */
arch_invalidate_cache_range((addr_t) config_desc, sizeof(struct ufs_config_desc));
return UFS_SUCCESS;
}
int dme_send_nop_query(struct ufs_dev *dev)
{
struct upiu_req_build_type req_upiu;
struct upiu_basic_hdr resp_upiu;
int ret;
unsigned try_again;
ret = UFS_SUCCESS;
try_again = DME_NOP_NUM_RETRIES;
memset(&req_upiu, 0 , sizeof(struct upiu_req_build_type));
req_upiu.trans_type = UPIU_TYPE_NOP_OUT;
req_upiu.flags = 0;
req_upiu.query_mgmt_func = 0;
req_upiu.cmd_type = UTRD_DEV_MGMT_FUNC;
req_upiu.dd = UTRD_NO_DATA_TRANSFER;
req_upiu.resp_ptr = &resp_upiu;
req_upiu.resp_len = sizeof(struct upiu_basic_hdr);
req_upiu.timeout_msecs = DME_NOP_QUERY_TIMEOUT;
while (try_again)
{
try_again--;
ret = utp_enqueue_upiu(dev, &req_upiu);
if (ret == -UFS_RETRY)
{
continue;
}
else if (ret == -UFS_FAILURE)
{
dprintf(CRITICAL, "sending nop out failed.\n");
goto upiu_send_nop_out_err;
}
/* Check response UPIU */
if (resp_upiu.trans_type != UPIU_TYPE_NOP_IN)
{
dprintf(CRITICAL, "Command failed. command = %x. Invalid response.\n", req_upiu.trans_type);
ret = -UFS_FAILURE;
goto upiu_send_nop_out_err;
}
else
break;
}
upiu_send_nop_out_err:
return ret;
}
int utp_build_query_req_upiu(struct upiu_trans_mgmt_query_hdr *req_upiu,
struct upiu_req_build_type *upiu_data)
{
req_upiu->opcode = upiu_data->opcode;
req_upiu->idn = upiu_data->idn;
req_upiu->index = upiu_data->index;
req_upiu->selector = upiu_data->selector;
req_upiu->resp_len = BE16(upiu_data->resp_data_len);
switch (upiu_data->opcode)
{
case UPIU_QUERY_OP_READ_FLAG:
case UPIU_QUERY_OP_READ_DESCRIPTOR:
req_upiu->basic_hdr.query_task_mgmt_func = UPIU_QUERY_FUNC_STD_READ_REQ;
break;
case UPIU_QUERY_OP_TOGGLE_FLAG:
case UPIU_QUERY_OP_CLEAR_FLAG:
case UPIU_QUERY_OP_SET_FLAG:
req_upiu->basic_hdr.query_task_mgmt_func = UPIU_QUERY_FUNC_STD_WRITE_REQ;
break;
default: dprintf(CRITICAL, "UPIU query opcode not supported.\n");
return -UFS_FAILURE;
}
return UFS_SUCCESS;
}