blob: d734e298c44c079b3abbe0bcee74a4aa5e4e3e43 [file] [log] [blame]
/* Copyright (c) 2008-2017, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 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.
*/
#include <linux/slab.h>
#include <linux/delay.h>
#include <linux/diagchar.h>
#include <linux/kmemleak.h>
#include <linux/workqueue.h>
#include <linux/uaccess.h>
#include "diagchar.h"
#include "diagfwd_cntl.h"
#include "diag_masks.h"
#include "diagfwd_peripheral.h"
#include "diag_ipc_logging.h"
#define ALL_EQUIP_ID 100
#define ALL_SSID -1
#define DIAG_SET_FEATURE_MASK(x) (feature_bytes[(x)/8] |= (1 << (x & 0x7)))
#define diag_check_update(x) \
(!info || (info && (info->peripheral_mask & MD_PERIPHERAL_MASK(x))) \
|| (info && (info->peripheral_mask & MD_PERIPHERAL_PD_MASK(x)))) \
struct diag_mask_info msg_mask;
struct diag_mask_info msg_bt_mask;
struct diag_mask_info log_mask;
struct diag_mask_info event_mask;
static const struct diag_ssid_range_t msg_mask_tbl[] = {
{ .ssid_first = MSG_SSID_0, .ssid_last = MSG_SSID_0_LAST },
{ .ssid_first = MSG_SSID_1, .ssid_last = MSG_SSID_1_LAST },
{ .ssid_first = MSG_SSID_2, .ssid_last = MSG_SSID_2_LAST },
{ .ssid_first = MSG_SSID_3, .ssid_last = MSG_SSID_3_LAST },
{ .ssid_first = MSG_SSID_4, .ssid_last = MSG_SSID_4_LAST },
{ .ssid_first = MSG_SSID_5, .ssid_last = MSG_SSID_5_LAST },
{ .ssid_first = MSG_SSID_6, .ssid_last = MSG_SSID_6_LAST },
{ .ssid_first = MSG_SSID_7, .ssid_last = MSG_SSID_7_LAST },
{ .ssid_first = MSG_SSID_8, .ssid_last = MSG_SSID_8_LAST },
{ .ssid_first = MSG_SSID_9, .ssid_last = MSG_SSID_9_LAST },
{ .ssid_first = MSG_SSID_10, .ssid_last = MSG_SSID_10_LAST },
{ .ssid_first = MSG_SSID_11, .ssid_last = MSG_SSID_11_LAST },
{ .ssid_first = MSG_SSID_12, .ssid_last = MSG_SSID_12_LAST },
{ .ssid_first = MSG_SSID_13, .ssid_last = MSG_SSID_13_LAST },
{ .ssid_first = MSG_SSID_14, .ssid_last = MSG_SSID_14_LAST },
{ .ssid_first = MSG_SSID_15, .ssid_last = MSG_SSID_15_LAST },
{ .ssid_first = MSG_SSID_16, .ssid_last = MSG_SSID_16_LAST },
{ .ssid_first = MSG_SSID_17, .ssid_last = MSG_SSID_17_LAST },
{ .ssid_first = MSG_SSID_18, .ssid_last = MSG_SSID_18_LAST },
{ .ssid_first = MSG_SSID_19, .ssid_last = MSG_SSID_19_LAST },
{ .ssid_first = MSG_SSID_20, .ssid_last = MSG_SSID_20_LAST },
{ .ssid_first = MSG_SSID_21, .ssid_last = MSG_SSID_21_LAST },
{ .ssid_first = MSG_SSID_22, .ssid_last = MSG_SSID_22_LAST },
{ .ssid_first = MSG_SSID_23, .ssid_last = MSG_SSID_23_LAST },
{ .ssid_first = MSG_SSID_24, .ssid_last = MSG_SSID_24_LAST },
{ .ssid_first = MSG_SSID_25, .ssid_last = MSG_SSID_25_LAST }
};
static int diag_apps_responds(void)
{
/*
* Apps processor should respond to mask commands only if the
* Modem channel is up, the feature mask is received from Modem
* and if Modem supports Mask Centralization.
*/
if (!chk_apps_only())
return 0;
if (driver->diagfwd_cntl[PERIPHERAL_MODEM] &&
driver->diagfwd_cntl[PERIPHERAL_MODEM]->ch_open &&
driver->feature[PERIPHERAL_MODEM].rcvd_feature_mask) {
if (driver->feature[PERIPHERAL_MODEM].mask_centralization)
return 1;
return 0;
}
return 1;
}
static void diag_send_log_mask_update(uint8_t peripheral, int equip_id)
{
int i;
int err = 0;
int send_once = 0;
int header_len = sizeof(struct diag_ctrl_log_mask);
uint8_t *buf = NULL, *temp = NULL;
uint8_t upd = 0;
uint32_t mask_size = 0;
struct diag_ctrl_log_mask ctrl_pkt;
struct diag_mask_info *mask_info = NULL;
struct diag_log_mask_t *mask = NULL;
if (peripheral >= NUM_PERIPHERALS)
return;
if (!driver->diagfwd_cntl[peripheral] ||
!driver->diagfwd_cntl[peripheral]->ch_open) {
pr_debug("diag: In %s, control channel is not open, p: %d\n",
__func__, peripheral);
return;
}
if (driver->md_session_mask != 0) {
if (driver->md_session_mask & MD_PERIPHERAL_MASK(peripheral)) {
if (driver->md_session_map[peripheral])
mask_info =
driver->md_session_map[peripheral]->log_mask;
} else if (driver->md_session_mask &
MD_PERIPHERAL_PD_MASK(peripheral)) {
upd = diag_mask_to_pd_value(driver->md_session_mask);
if (upd && driver->md_session_map[upd])
mask_info =
driver->md_session_map[upd]->log_mask;
} else {
DIAG_LOG(DIAG_DEBUG_MASKS,
"asking for mask update with unknown session mask\n");
return;
}
} else {
mask_info = &log_mask;
}
if (!mask_info || !mask_info->ptr || !mask_info->update_buf)
return;
mask = (struct diag_log_mask_t *)mask_info->ptr;
if (!mask->ptr)
return;
buf = mask_info->update_buf;
switch (mask_info->status) {
case DIAG_CTRL_MASK_ALL_DISABLED:
ctrl_pkt.equip_id = 0;
ctrl_pkt.num_items = 0;
ctrl_pkt.log_mask_size = 0;
send_once = 1;
break;
case DIAG_CTRL_MASK_ALL_ENABLED:
ctrl_pkt.equip_id = 0;
ctrl_pkt.num_items = 0;
ctrl_pkt.log_mask_size = 0;
send_once = 1;
break;
case DIAG_CTRL_MASK_VALID:
send_once = 0;
break;
default:
pr_debug("diag: In %s, invalid log_mask status\n", __func__);
return;
}
mutex_lock(&mask_info->lock);
for (i = 0; i < MAX_EQUIP_ID; i++, mask++) {
if (equip_id != i && equip_id != ALL_EQUIP_ID)
continue;
mutex_lock(&mask->lock);
ctrl_pkt.cmd_type = DIAG_CTRL_MSG_LOG_MASK;
ctrl_pkt.stream_id = 1;
ctrl_pkt.status = mask_info->status;
if (mask_info->status == DIAG_CTRL_MASK_VALID) {
mask_size = LOG_ITEMS_TO_SIZE(mask->num_items_tools);
ctrl_pkt.equip_id = i;
ctrl_pkt.num_items = mask->num_items_tools;
ctrl_pkt.log_mask_size = mask_size;
}
ctrl_pkt.data_len = LOG_MASK_CTRL_HEADER_LEN + mask_size;
if (header_len + mask_size > mask_info->update_buf_len) {
temp = krealloc(buf, header_len + mask_size,
GFP_KERNEL);
if (!temp) {
pr_err_ratelimited("diag: Unable to realloc log update buffer, new size: %d, equip_id: %d\n",
header_len + mask_size, equip_id);
mutex_unlock(&mask->lock);
break;
}
mask_info->update_buf = temp;
mask_info->update_buf_len = header_len + mask_size;
}
memcpy(buf, &ctrl_pkt, header_len);
if (mask_size > 0)
memcpy(buf + header_len, mask->ptr, mask_size);
mutex_unlock(&mask->lock);
DIAG_LOG(DIAG_DEBUG_MASKS,
"sending ctrl pkt to %d, e %d num_items %d size %d\n",
peripheral, i, ctrl_pkt.num_items,
ctrl_pkt.log_mask_size);
err = diagfwd_write(peripheral, TYPE_CNTL,
buf, header_len + mask_size);
if (err && err != -ENODEV)
pr_err_ratelimited("diag: Unable to send log masks to peripheral %d, equip_id: %d, err: %d\n",
peripheral, i, err);
if (send_once || equip_id != ALL_EQUIP_ID)
break;
}
mutex_unlock(&mask_info->lock);
}
static void diag_send_event_mask_update(uint8_t peripheral)
{
uint8_t *buf = NULL, *temp = NULL;
uint8_t upd = 0;
struct diag_ctrl_event_mask header;
struct diag_mask_info *mask_info = NULL;
int num_bytes = EVENT_COUNT_TO_BYTES(driver->last_event_id);
int write_len = 0;
int err = 0;
int temp_len = 0;
if (num_bytes <= 0 || num_bytes > driver->event_mask_size) {
pr_debug("diag: In %s, invalid event mask length %d\n",
__func__, num_bytes);
return;
}
if (peripheral >= NUM_PERIPHERALS)
return;
if (!driver->diagfwd_cntl[peripheral] ||
!driver->diagfwd_cntl[peripheral]->ch_open) {
pr_debug("diag: In %s, control channel is not open, p: %d\n",
__func__, peripheral);
return;
}
if (driver->md_session_mask != 0) {
if (driver->md_session_mask & MD_PERIPHERAL_MASK(peripheral)) {
if (driver->md_session_map[peripheral])
mask_info =
driver->md_session_map[peripheral]->event_mask;
} else if (driver->md_session_mask &
MD_PERIPHERAL_PD_MASK(peripheral)) {
upd = diag_mask_to_pd_value(driver->md_session_mask);
if (upd && driver->md_session_map[upd])
mask_info =
driver->md_session_map[upd]->event_mask;
} else {
DIAG_LOG(DIAG_DEBUG_MASKS,
"asking for mask update with unknown session mask\n");
return;
}
} else {
mask_info = &event_mask;
}
if (!mask_info || !mask_info->ptr || !mask_info->update_buf)
return;
buf = mask_info->update_buf;
mutex_lock(&mask_info->lock);
header.cmd_type = DIAG_CTRL_MSG_EVENT_MASK;
header.stream_id = 1;
header.status = mask_info->status;
switch (mask_info->status) {
case DIAG_CTRL_MASK_ALL_DISABLED:
header.event_config = 0;
header.event_mask_size = 0;
break;
case DIAG_CTRL_MASK_ALL_ENABLED:
header.event_config = 1;
header.event_mask_size = 0;
break;
case DIAG_CTRL_MASK_VALID:
header.event_config = 1;
header.event_mask_size = num_bytes;
if (num_bytes + sizeof(header) > mask_info->update_buf_len) {
temp_len = num_bytes + sizeof(header);
temp = krealloc(buf, temp_len, GFP_KERNEL);
if (!temp) {
pr_err("diag: Unable to realloc event mask update buffer\n");
goto err;
} else {
mask_info->update_buf = temp;
mask_info->update_buf_len = temp_len;
}
}
memcpy(buf + sizeof(header), mask_info->ptr, num_bytes);
write_len += num_bytes;
break;
default:
pr_debug("diag: In %s, invalid status %d\n", __func__,
mask_info->status);
goto err;
}
header.data_len = EVENT_MASK_CTRL_HEADER_LEN + header.event_mask_size;
memcpy(buf, &header, sizeof(header));
write_len += sizeof(header);
err = diagfwd_write(peripheral, TYPE_CNTL, buf, write_len);
if (err && err != -ENODEV)
pr_err_ratelimited("diag: Unable to send event masks to peripheral %d\n",
peripheral);
err:
mutex_unlock(&mask_info->lock);
}
static void diag_send_msg_mask_update(uint8_t peripheral, int first, int last)
{
int i;
int err = 0;
int header_len = sizeof(struct diag_ctrl_msg_mask);
int temp_len = 0;
uint8_t *buf = NULL, *temp = NULL;
uint8_t upd = 0;
uint32_t mask_size = 0;
struct diag_mask_info *mask_info = NULL;
struct diag_msg_mask_t *mask = NULL;
struct diag_ctrl_msg_mask header;
uint8_t msg_mask_tbl_count_local;
if (peripheral >= NUM_PERIPHERALS)
return;
if (!driver->diagfwd_cntl[peripheral] ||
!driver->diagfwd_cntl[peripheral]->ch_open) {
pr_debug("diag: In %s, control channel is not open, p: %d\n",
__func__, peripheral);
return;
}
if (driver->md_session_mask != 0) {
if (driver->md_session_mask & MD_PERIPHERAL_MASK(peripheral)) {
if (driver->md_session_map[peripheral])
mask_info =
driver->md_session_map[peripheral]->msg_mask;
} else if (driver->md_session_mask &
MD_PERIPHERAL_PD_MASK(peripheral)) {
upd = diag_mask_to_pd_value(driver->md_session_mask);
if (upd && driver->md_session_map[upd])
mask_info =
driver->md_session_map[upd]->msg_mask;
} else {
DIAG_LOG(DIAG_DEBUG_MASKS,
"asking for mask update with unknown session mask\n");
return;
}
} else {
mask_info = &msg_mask;
}
if (!mask_info || !mask_info->ptr || !mask_info->update_buf)
return;
mutex_lock(&driver->msg_mask_lock);
mask = (struct diag_msg_mask_t *)mask_info->ptr;
if (!mask->ptr) {
mutex_unlock(&driver->msg_mask_lock);
return;
}
buf = mask_info->update_buf;
msg_mask_tbl_count_local = driver->msg_mask_tbl_count;
mutex_unlock(&driver->msg_mask_lock);
mutex_lock(&mask_info->lock);
switch (mask_info->status) {
case DIAG_CTRL_MASK_ALL_DISABLED:
mask_size = 0;
break;
case DIAG_CTRL_MASK_ALL_ENABLED:
mask_size = 1;
break;
case DIAG_CTRL_MASK_VALID:
break;
default:
pr_debug("diag: In %s, invalid status: %d\n", __func__,
mask_info->status);
goto err;
}
for (i = 0; i < msg_mask_tbl_count_local; i++, mask++) {
mutex_lock(&driver->msg_mask_lock);
if (((mask->ssid_first > first) ||
(mask->ssid_last_tools < last)) && first != ALL_SSID) {
mutex_unlock(&driver->msg_mask_lock);
continue;
}
mutex_lock(&mask->lock);
if (mask_info->status == DIAG_CTRL_MASK_VALID) {
mask_size =
mask->ssid_last_tools - mask->ssid_first + 1;
temp_len = mask_size * sizeof(uint32_t);
if (temp_len + header_len <= mask_info->update_buf_len)
goto proceed;
temp = krealloc(mask_info->update_buf, temp_len,
GFP_KERNEL);
if (!temp) {
pr_err("diag: In %s, unable to realloc msg_mask update buffer\n",
__func__);
mask_size = (mask_info->update_buf_len -
header_len) / sizeof(uint32_t);
} else {
mask_info->update_buf = temp;
mask_info->update_buf_len = temp_len;
pr_debug("diag: In %s, successfully reallocated msg_mask update buffer to len: %d\n",
__func__, mask_info->update_buf_len);
}
} else if (mask_info->status == DIAG_CTRL_MASK_ALL_ENABLED) {
mask_size = 1;
}
proceed:
header.cmd_type = DIAG_CTRL_MSG_F3_MASK;
header.status = mask_info->status;
header.stream_id = 1;
header.msg_mode = 0;
header.ssid_first = mask->ssid_first;
header.ssid_last = mask->ssid_last_tools;
header.msg_mask_size = mask_size;
mask_size *= sizeof(uint32_t);
header.data_len = MSG_MASK_CTRL_HEADER_LEN + mask_size;
memcpy(buf, &header, header_len);
if (mask_size > 0)
memcpy(buf + header_len, mask->ptr, mask_size);
mutex_unlock(&mask->lock);
mutex_unlock(&driver->msg_mask_lock);
err = diagfwd_write(peripheral, TYPE_CNTL, buf,
header_len + mask_size);
if (err && err != -ENODEV)
pr_err_ratelimited("diag: Unable to send msg masks to peripheral %d, error = %d\n",
peripheral, err);
if (first != ALL_SSID)
break;
}
err:
mutex_unlock(&mask_info->lock);
}
static void diag_send_time_sync_update(uint8_t peripheral)
{
struct diag_ctrl_msg_time_sync time_sync_msg;
int msg_size = sizeof(struct diag_ctrl_msg_time_sync);
int err = 0;
if (peripheral >= NUM_PERIPHERALS) {
pr_err("diag: In %s, Invalid peripheral, %d\n",
__func__, peripheral);
return;
}
if (!driver->diagfwd_cntl[peripheral] ||
!driver->diagfwd_cntl[peripheral]->ch_open) {
pr_err("diag: In %s, control channel is not open, p: %d, %pK\n",
__func__, peripheral, driver->diagfwd_cntl[peripheral]);
return;
}
mutex_lock(&driver->diag_cntl_mutex);
time_sync_msg.ctrl_pkt_id = DIAG_CTRL_MSG_TIME_SYNC_PKT;
time_sync_msg.ctrl_pkt_data_len = 5;
time_sync_msg.version = 1;
time_sync_msg.time_api = driver->uses_time_api;
err = diagfwd_write(peripheral, TYPE_CNTL, &time_sync_msg, msg_size);
if (err)
pr_err("diag: In %s, unable to write to peripheral: %d, type: %d, len: %d, err: %d\n",
__func__, peripheral, TYPE_CNTL,
msg_size, err);
mutex_unlock(&driver->diag_cntl_mutex);
}
static void diag_send_feature_mask_update(uint8_t peripheral)
{
void *buf = driver->buf_feature_mask_update;
int header_size = sizeof(struct diag_ctrl_feature_mask);
uint8_t feature_bytes[FEATURE_MASK_LEN] = {0, 0};
struct diag_ctrl_feature_mask feature_mask;
int total_len = 0;
int err = 0;
if (peripheral >= NUM_PERIPHERALS) {
pr_err("diag: In %s, Invalid peripheral, %d\n",
__func__, peripheral);
return;
}
if (!driver->diagfwd_cntl[peripheral] ||
!driver->diagfwd_cntl[peripheral]->ch_open) {
pr_err("diag: In %s, control channel is not open, p: %d, %pK\n",
__func__, peripheral, driver->diagfwd_cntl[peripheral]);
return;
}
mutex_lock(&driver->diag_cntl_mutex);
/* send feature mask update */
feature_mask.ctrl_pkt_id = DIAG_CTRL_MSG_FEATURE;
feature_mask.ctrl_pkt_data_len = sizeof(uint32_t) + FEATURE_MASK_LEN;
feature_mask.feature_mask_len = FEATURE_MASK_LEN;
memcpy(buf, &feature_mask, header_size);
DIAG_SET_FEATURE_MASK(F_DIAG_FEATURE_MASK_SUPPORT);
DIAG_SET_FEATURE_MASK(F_DIAG_LOG_ON_DEMAND_APPS);
DIAG_SET_FEATURE_MASK(F_DIAG_STM);
DIAG_SET_FEATURE_MASK(F_DIAG_DCI_EXTENDED_HEADER_SUPPORT);
DIAG_SET_FEATURE_MASK(F_DIAG_DIAGID_SUPPORT);
if (driver->supports_separate_cmdrsp)
DIAG_SET_FEATURE_MASK(F_DIAG_REQ_RSP_SUPPORT);
if (driver->supports_apps_hdlc_encoding)
DIAG_SET_FEATURE_MASK(F_DIAG_APPS_HDLC_ENCODE);
if (driver->supports_apps_header_untagging) {
if (peripheral == PERIPHERAL_MODEM) {
DIAG_SET_FEATURE_MASK(F_DIAG_PKT_HEADER_UNTAG);
driver->peripheral_untag[peripheral] =
ENABLE_PKT_HEADER_UNTAGGING;
}
}
DIAG_SET_FEATURE_MASK(F_DIAG_MASK_CENTRALIZATION);
if (driver->supports_sockets)
DIAG_SET_FEATURE_MASK(F_DIAG_SOCKETS_ENABLED);
memcpy(buf + header_size, &feature_bytes, FEATURE_MASK_LEN);
total_len = header_size + FEATURE_MASK_LEN;
err = diagfwd_write(peripheral, TYPE_CNTL, buf, total_len);
if (err) {
pr_err_ratelimited("diag: In %s, unable to write feature mask to peripheral: %d, type: %d, len: %d, err: %d\n",
__func__, peripheral, TYPE_CNTL,
total_len, err);
mutex_unlock(&driver->diag_cntl_mutex);
return;
}
driver->feature[peripheral].sent_feature_mask = 1;
mutex_unlock(&driver->diag_cntl_mutex);
}
static int diag_cmd_get_ssid_range(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
struct diag_msg_mask_t *mask_ptr = NULL;
struct diag_msg_ssid_query_t rsp;
struct diag_ssid_range_t ssid_range;
struct diag_mask_info *mask_info = NULL;
mask_info = (!info) ? &msg_mask : info->msg_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
if (!diag_apps_responds())
return 0;
mutex_lock(&driver->msg_mask_lock);
rsp.cmd_code = DIAG_CMD_MSG_CONFIG;
rsp.sub_cmd = DIAG_CMD_OP_GET_SSID_RANGE;
rsp.status = MSG_STATUS_SUCCESS;
rsp.padding = 0;
rsp.count = driver->msg_mask_tbl_count;
memcpy(dest_buf, &rsp, sizeof(rsp));
write_len += sizeof(rsp);
mask_ptr = (struct diag_msg_mask_t *)mask_info->ptr;
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask_ptr++) {
if (write_len + sizeof(ssid_range) > dest_len) {
pr_err("diag: In %s, Truncating response due to size limitations of rsp buffer\n",
__func__);
break;
}
ssid_range.ssid_first = mask_ptr->ssid_first;
ssid_range.ssid_last = mask_ptr->ssid_last_tools;
memcpy(dest_buf + write_len, &ssid_range, sizeof(ssid_range));
write_len += sizeof(ssid_range);
}
mutex_unlock(&driver->msg_mask_lock);
return write_len;
}
static int diag_cmd_get_build_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i = 0;
int write_len = 0;
int num_entries = 0;
int copy_len = 0;
struct diag_msg_mask_t *build_mask = NULL;
struct diag_build_mask_req_t *req = NULL;
struct diag_msg_build_mask_t rsp;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d\n",
__func__, src_buf, src_len, dest_buf, dest_len);
return -EINVAL;
}
if (!diag_apps_responds())
return 0;
mutex_lock(&driver->msg_mask_lock);
req = (struct diag_build_mask_req_t *)src_buf;
rsp.cmd_code = DIAG_CMD_MSG_CONFIG;
rsp.sub_cmd = DIAG_CMD_OP_GET_BUILD_MASK;
rsp.ssid_first = req->ssid_first;
rsp.ssid_last = req->ssid_last;
rsp.status = MSG_STATUS_FAIL;
rsp.padding = 0;
build_mask = (struct diag_msg_mask_t *)msg_bt_mask.ptr;
for (i = 0; i < driver->bt_msg_mask_tbl_count; i++, build_mask++) {
if (build_mask->ssid_first != req->ssid_first)
continue;
num_entries = req->ssid_last - req->ssid_first + 1;
if (num_entries > build_mask->range) {
pr_warn("diag: In %s, truncating ssid range for ssid_first: %d ssid_last %d\n",
__func__, req->ssid_first, req->ssid_last);
num_entries = build_mask->range;
req->ssid_last = req->ssid_first + build_mask->range;
}
copy_len = num_entries * sizeof(uint32_t);
if (copy_len + sizeof(rsp) > dest_len)
copy_len = dest_len - sizeof(rsp);
memcpy(dest_buf + sizeof(rsp), build_mask->ptr, copy_len);
write_len += copy_len;
rsp.ssid_last = build_mask->ssid_last;
rsp.status = MSG_STATUS_SUCCESS;
break;
}
memcpy(dest_buf, &rsp, sizeof(rsp));
write_len += sizeof(rsp);
mutex_unlock(&driver->msg_mask_lock);
return write_len;
}
static int diag_cmd_get_msg_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
uint32_t mask_size = 0;
struct diag_msg_mask_t *mask = NULL;
struct diag_build_mask_req_t *req = NULL;
struct diag_msg_build_mask_t rsp;
struct diag_mask_info *mask_info = NULL;
mask_info = (!info) ? &msg_mask : info->msg_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
if (!diag_apps_responds())
return 0;
mutex_lock(&driver->msg_mask_lock);
req = (struct diag_build_mask_req_t *)src_buf;
rsp.cmd_code = DIAG_CMD_MSG_CONFIG;
rsp.sub_cmd = DIAG_CMD_OP_GET_MSG_MASK;
rsp.ssid_first = req->ssid_first;
rsp.ssid_last = req->ssid_last;
rsp.status = MSG_STATUS_FAIL;
rsp.padding = 0;
mask = (struct diag_msg_mask_t *)mask_info->ptr;
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask++) {
if ((req->ssid_first < mask->ssid_first) ||
(req->ssid_first > mask->ssid_last_tools)) {
continue;
}
mask_size = mask->range * sizeof(uint32_t);
/* Copy msg mask only till the end of the rsp buffer */
if (mask_size + sizeof(rsp) > dest_len)
mask_size = dest_len - sizeof(rsp);
memcpy(dest_buf + sizeof(rsp), mask->ptr, mask_size);
write_len += mask_size;
rsp.status = MSG_STATUS_SUCCESS;
break;
}
memcpy(dest_buf, &rsp, sizeof(rsp));
write_len += sizeof(rsp);
mutex_unlock(&driver->msg_mask_lock);
return write_len;
}
static int diag_cmd_set_msg_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
int header_len = sizeof(struct diag_msg_build_mask_t);
int found = 0;
uint32_t mask_size = 0;
uint32_t offset = 0;
struct diag_msg_mask_t *mask = NULL;
struct diag_msg_build_mask_t *req = NULL;
struct diag_msg_build_mask_t rsp;
struct diag_mask_info *mask_info = NULL;
struct diag_msg_mask_t *mask_next = NULL;
uint32_t *temp = NULL;
mask_info = (!info) ? &msg_mask : info->msg_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
req = (struct diag_msg_build_mask_t *)src_buf;
mutex_lock(&mask_info->lock);
mutex_lock(&driver->msg_mask_lock);
mask = (struct diag_msg_mask_t *)mask_info->ptr;
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask++) {
if (i < (driver->msg_mask_tbl_count - 1)) {
mask_next = mask;
mask_next++;
} else
mask_next = NULL;
if ((req->ssid_first < mask->ssid_first) ||
(req->ssid_first > mask->ssid_first + MAX_SSID_PER_RANGE) ||
(mask_next && (req->ssid_first >= mask_next->ssid_first))) {
continue;
}
mask_next = NULL;
found = 1;
mutex_lock(&mask->lock);
mask_size = req->ssid_last - req->ssid_first + 1;
if (mask_size > MAX_SSID_PER_RANGE) {
pr_warn("diag: In %s, truncating ssid range, %d-%d to max allowed: %d\n",
__func__, mask->ssid_first, mask->ssid_last,
MAX_SSID_PER_RANGE);
mask_size = MAX_SSID_PER_RANGE;
mask->range_tools = MAX_SSID_PER_RANGE;
mask->ssid_last_tools =
mask->ssid_first + mask->range_tools;
}
if (req->ssid_last > mask->ssid_last_tools) {
pr_debug("diag: Msg SSID range mismatch\n");
if (mask_size != MAX_SSID_PER_RANGE)
mask->ssid_last_tools = req->ssid_last;
mask->range_tools =
mask->ssid_last_tools - mask->ssid_first + 1;
temp = krealloc(mask->ptr,
mask->range_tools * sizeof(uint32_t),
GFP_KERNEL);
if (!temp) {
pr_err_ratelimited("diag: In %s, unable to allocate memory for msg mask ptr, mask_size: %d\n",
__func__, mask_size);
mutex_unlock(&mask->lock);
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&mask_info->lock);
return -ENOMEM;
}
mask->ptr = temp;
}
offset = req->ssid_first - mask->ssid_first;
if (offset + mask_size > mask->range_tools) {
pr_err("diag: In %s, Not in msg mask range, mask_size: %d, offset: %d\n",
__func__, mask_size, offset);
mutex_unlock(&mask->lock);
break;
}
mask_size = mask_size * sizeof(uint32_t);
memcpy(mask->ptr + offset, src_buf + header_len, mask_size);
mutex_unlock(&mask->lock);
mask_info->status = DIAG_CTRL_MASK_VALID;
break;
}
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&mask_info->lock);
if (diag_check_update(APPS_DATA))
diag_update_userspace_clients(MSG_MASKS_TYPE);
/*
* Apps processor must send the response to this command. Frame the
* response.
*/
rsp.cmd_code = DIAG_CMD_MSG_CONFIG;
rsp.sub_cmd = DIAG_CMD_OP_SET_MSG_MASK;
rsp.ssid_first = req->ssid_first;
rsp.ssid_last = req->ssid_last;
rsp.status = found;
rsp.padding = 0;
memcpy(dest_buf, &rsp, header_len);
write_len += header_len;
if (!found)
goto end;
if (mask_size + write_len > dest_len)
mask_size = dest_len - write_len;
memcpy(dest_buf + write_len, src_buf + header_len, mask_size);
write_len += mask_size;
for (i = 0; i < NUM_PERIPHERALS; i++) {
if (!diag_check_update(i))
continue;
mutex_lock(&driver->md_session_lock);
diag_send_msg_mask_update(i, req->ssid_first, req->ssid_last);
mutex_unlock(&driver->md_session_lock);
}
end:
return write_len;
}
static int diag_cmd_set_all_msg_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
int header_len = sizeof(struct diag_msg_config_rsp_t);
struct diag_msg_config_rsp_t rsp;
struct diag_msg_config_rsp_t *req = NULL;
struct diag_msg_mask_t *mask = NULL;
struct diag_mask_info *mask_info = NULL;
mask_info = (!info) ? &msg_mask : info->msg_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
req = (struct diag_msg_config_rsp_t *)src_buf;
mutex_lock(&mask_info->lock);
mutex_lock(&driver->msg_mask_lock);
mask = (struct diag_msg_mask_t *)mask_info->ptr;
mask_info->status = (req->rt_mask) ? DIAG_CTRL_MASK_ALL_ENABLED :
DIAG_CTRL_MASK_ALL_DISABLED;
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask++) {
mutex_lock(&mask->lock);
memset(mask->ptr, req->rt_mask,
mask->range * sizeof(uint32_t));
mutex_unlock(&mask->lock);
}
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&mask_info->lock);
if (diag_check_update(APPS_DATA))
diag_update_userspace_clients(MSG_MASKS_TYPE);
/*
* Apps processor must send the response to this command. Frame the
* response.
*/
rsp.cmd_code = DIAG_CMD_MSG_CONFIG;
rsp.sub_cmd = DIAG_CMD_OP_SET_ALL_MSG_MASK;
rsp.status = MSG_STATUS_SUCCESS;
rsp.padding = 0;
rsp.rt_mask = req->rt_mask;
memcpy(dest_buf, &rsp, header_len);
write_len += header_len;
for (i = 0; i < NUM_PERIPHERALS; i++) {
if (!diag_check_update(i))
continue;
mutex_lock(&driver->md_session_lock);
diag_send_msg_mask_update(i, ALL_SSID, ALL_SSID);
mutex_unlock(&driver->md_session_lock);
}
return write_len;
}
static int diag_cmd_get_event_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int write_len = 0;
uint32_t mask_size;
struct diag_event_mask_config_t rsp;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d\n",
__func__, src_buf, src_len, dest_buf, dest_len);
return -EINVAL;
}
if (!diag_apps_responds())
return 0;
mask_size = EVENT_COUNT_TO_BYTES(driver->last_event_id);
if (mask_size + sizeof(rsp) > dest_len) {
pr_err("diag: In %s, invalid mask size: %d\n", __func__,
mask_size);
return -ENOMEM;
}
rsp.cmd_code = DIAG_CMD_GET_EVENT_MASK;
rsp.status = EVENT_STATUS_SUCCESS;
rsp.padding = 0;
rsp.num_bits = driver->last_event_id + 1;
memcpy(dest_buf, &rsp, sizeof(rsp));
write_len += sizeof(rsp);
memcpy(dest_buf + write_len, event_mask.ptr, mask_size);
write_len += mask_size;
return write_len;
}
static int diag_cmd_update_event_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
int mask_len = 0;
int header_len = sizeof(struct diag_event_mask_config_t);
struct diag_event_mask_config_t rsp;
struct diag_event_mask_config_t *req;
struct diag_mask_info *mask_info = NULL;
mask_info = (!info) ? &event_mask : info->event_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
req = (struct diag_event_mask_config_t *)src_buf;
mask_len = EVENT_COUNT_TO_BYTES(req->num_bits);
if (mask_len <= 0 || mask_len > event_mask.mask_len) {
pr_err("diag: In %s, invalid event mask len: %d\n", __func__,
mask_len);
return -EIO;
}
mutex_lock(&mask_info->lock);
memcpy(mask_info->ptr, src_buf + header_len, mask_len);
mask_info->status = DIAG_CTRL_MASK_VALID;
mutex_unlock(&mask_info->lock);
if (diag_check_update(APPS_DATA))
diag_update_userspace_clients(EVENT_MASKS_TYPE);
/*
* Apps processor must send the response to this command. Frame the
* response.
*/
rsp.cmd_code = DIAG_CMD_SET_EVENT_MASK;
rsp.status = EVENT_STATUS_SUCCESS;
rsp.padding = 0;
rsp.num_bits = driver->last_event_id + 1;
memcpy(dest_buf, &rsp, header_len);
write_len += header_len;
memcpy(dest_buf + write_len, mask_info->ptr, mask_len);
write_len += mask_len;
for (i = 0; i < NUM_PERIPHERALS; i++) {
if (!diag_check_update(i))
continue;
mutex_lock(&driver->md_session_lock);
diag_send_event_mask_update(i);
mutex_unlock(&driver->md_session_lock);
}
return write_len;
}
static int diag_cmd_toggle_events(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
uint8_t toggle = 0;
struct diag_event_report_t header;
struct diag_mask_info *mask_info = NULL;
mask_info = (!info) ? &event_mask : info->event_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
toggle = *(src_buf + 1);
mutex_lock(&mask_info->lock);
if (toggle) {
mask_info->status = DIAG_CTRL_MASK_ALL_ENABLED;
memset(mask_info->ptr, 0xFF, mask_info->mask_len);
} else {
mask_info->status = DIAG_CTRL_MASK_ALL_DISABLED;
memset(mask_info->ptr, 0, mask_info->mask_len);
}
mutex_unlock(&mask_info->lock);
if (diag_check_update(APPS_DATA))
diag_update_userspace_clients(EVENT_MASKS_TYPE);
/*
* Apps processor must send the response to this command. Frame the
* response.
*/
header.cmd_code = DIAG_CMD_EVENT_TOGGLE;
header.padding = 0;
for (i = 0; i < NUM_PERIPHERALS; i++) {
if (!diag_check_update(i))
continue;
mutex_lock(&driver->md_session_lock);
diag_send_event_mask_update(i);
mutex_unlock(&driver->md_session_lock);
}
memcpy(dest_buf, &header, sizeof(header));
write_len += sizeof(header);
return write_len;
}
static int diag_cmd_get_log_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int status = LOG_STATUS_INVALID;
int write_len = 0;
int read_len = 0;
int req_header_len = sizeof(struct diag_log_config_req_t);
int rsp_header_len = sizeof(struct diag_log_config_rsp_t);
uint32_t mask_size = 0;
struct diag_log_mask_t *log_item = NULL;
struct diag_log_config_req_t *req;
struct diag_log_config_rsp_t rsp;
struct diag_mask_info *mask_info = NULL;
mask_info = (!info) ? &log_mask : info->log_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
if (!diag_apps_responds())
return 0;
req = (struct diag_log_config_req_t *)src_buf;
read_len += req_header_len;
rsp.cmd_code = DIAG_CMD_LOG_CONFIG;
rsp.padding[0] = 0;
rsp.padding[1] = 0;
rsp.padding[2] = 0;
rsp.sub_cmd = DIAG_CMD_OP_GET_LOG_MASK;
/*
* Don't copy the response header now. Copy at the end after
* calculating the status field value
*/
write_len += rsp_header_len;
log_item = (struct diag_log_mask_t *)mask_info->ptr;
for (i = 0; i < MAX_EQUIP_ID; i++, log_item++) {
if (log_item->equip_id != req->equip_id)
continue;
mutex_lock(&log_item->lock);
mask_size = LOG_ITEMS_TO_SIZE(log_item->num_items_tools);
/*
* Make sure we have space to fill the response in the buffer.
* Destination buffer should atleast be able to hold equip_id
* (uint32_t), num_items(uint32_t), mask (mask_size) and the
* response header.
*/
if ((mask_size + (2 * sizeof(uint32_t)) + rsp_header_len) >
dest_len) {
pr_err("diag: In %s, invalid length: %d, max rsp_len: %d\n",
__func__, mask_size, dest_len);
status = LOG_STATUS_FAIL;
mutex_unlock(&log_item->lock);
break;
}
*(uint32_t *)(dest_buf + write_len) = log_item->equip_id;
write_len += sizeof(uint32_t);
*(uint32_t *)(dest_buf + write_len) = log_item->num_items_tools;
write_len += sizeof(uint32_t);
if (mask_size > 0) {
memcpy(dest_buf + write_len, log_item->ptr, mask_size);
write_len += mask_size;
}
DIAG_LOG(DIAG_DEBUG_MASKS,
"sending log e %d num_items %d size %d\n",
log_item->equip_id, log_item->num_items_tools,
log_item->range_tools);
mutex_unlock(&log_item->lock);
status = LOG_STATUS_SUCCESS;
break;
}
rsp.status = status;
memcpy(dest_buf, &rsp, rsp_header_len);
return write_len;
}
static int diag_cmd_get_log_range(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
struct diag_log_config_rsp_t rsp;
struct diag_mask_info *mask_info = NULL;
struct diag_log_mask_t *mask = (struct diag_log_mask_t *)log_mask.ptr;
if (!diag_apps_responds())
return 0;
mask_info = (!info) ? &log_mask : info->log_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
rsp.cmd_code = DIAG_CMD_LOG_CONFIG;
rsp.padding[0] = 0;
rsp.padding[1] = 0;
rsp.padding[2] = 0;
rsp.sub_cmd = DIAG_CMD_OP_GET_LOG_RANGE;
rsp.status = LOG_STATUS_SUCCESS;
memcpy(dest_buf, &rsp, sizeof(rsp));
write_len += sizeof(rsp);
for (i = 0; i < MAX_EQUIP_ID && write_len < dest_len; i++, mask++) {
*(uint32_t *)(dest_buf + write_len) = mask->num_items_tools;
write_len += sizeof(uint32_t);
}
return write_len;
}
static int diag_cmd_set_log_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
int i;
int write_len = 0;
int status = LOG_STATUS_SUCCESS;
int read_len = 0;
int payload_len = 0;
int req_header_len = sizeof(struct diag_log_config_req_t);
int rsp_header_len = sizeof(struct diag_log_config_set_rsp_t);
uint32_t mask_size = 0;
struct diag_log_config_req_t *req;
struct diag_log_config_set_rsp_t rsp;
struct diag_log_mask_t *mask = NULL;
unsigned char *temp_buf = NULL;
struct diag_mask_info *mask_info = NULL;
mask_info = (!info) ? &log_mask : info->log_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
req = (struct diag_log_config_req_t *)src_buf;
read_len += req_header_len;
mask = (struct diag_log_mask_t *)mask_info->ptr;
if (req->equip_id >= MAX_EQUIP_ID) {
pr_err("diag: In %s, Invalid logging mask request, equip_id: %d\n",
__func__, req->equip_id);
status = LOG_STATUS_INVALID;
}
if (req->num_items == 0) {
pr_err("diag: In %s, Invalid number of items in log mask request, equip_id: %d\n",
__func__, req->equip_id);
status = LOG_STATUS_INVALID;
}
mutex_lock(&mask_info->lock);
for (i = 0; i < MAX_EQUIP_ID && !status; i++, mask++) {
if (mask->equip_id != req->equip_id)
continue;
mutex_lock(&mask->lock);
DIAG_LOG(DIAG_DEBUG_MASKS, "e: %d current: %d %d new: %d %d",
mask->equip_id, mask->num_items_tools,
mask->range_tools, req->num_items,
LOG_ITEMS_TO_SIZE(req->num_items));
/*
* If the size of the log mask cannot fit into our
* buffer, trim till we have space left in the buffer.
* num_items should then reflect the items that we have
* in our buffer.
*/
mask->num_items_tools = (req->num_items > MAX_ITEMS_ALLOWED) ?
MAX_ITEMS_ALLOWED : req->num_items;
mask_size = LOG_ITEMS_TO_SIZE(mask->num_items_tools);
memset(mask->ptr, 0, mask->range_tools);
if (mask_size > mask->range_tools) {
DIAG_LOG(DIAG_DEBUG_MASKS,
"log range mismatch, e: %d old: %d new: %d\n",
req->equip_id, mask->range_tools,
LOG_ITEMS_TO_SIZE(mask->num_items_tools));
/* Change in the mask reported by tools */
temp_buf = krealloc(mask->ptr, mask_size, GFP_KERNEL);
if (!temp_buf) {
mask_info->status = DIAG_CTRL_MASK_INVALID;
mutex_unlock(&mask->lock);
break;
}
mask->ptr = temp_buf;
memset(mask->ptr, 0, mask_size);
mask->range_tools = mask_size;
}
req->num_items = mask->num_items_tools;
if (mask_size > 0)
memcpy(mask->ptr, src_buf + read_len, mask_size);
DIAG_LOG(DIAG_DEBUG_MASKS,
"copying log mask, e %d num %d range %d size %d\n",
req->equip_id, mask->num_items_tools,
mask->range_tools, mask_size);
mutex_unlock(&mask->lock);
mask_info->status = DIAG_CTRL_MASK_VALID;
break;
}
mutex_unlock(&mask_info->lock);
if (diag_check_update(APPS_DATA))
diag_update_userspace_clients(LOG_MASKS_TYPE);
/*
* Apps processor must send the response to this command. Frame the
* response.
*/
payload_len = LOG_ITEMS_TO_SIZE(req->num_items);
if ((payload_len + rsp_header_len > dest_len) || (payload_len == 0)) {
pr_err("diag: In %s, invalid length, payload_len: %d, header_len: %d, dest_len: %d\n",
__func__, payload_len, rsp_header_len, dest_len);
status = LOG_STATUS_FAIL;
}
rsp.cmd_code = DIAG_CMD_LOG_CONFIG;
rsp.padding[0] = 0;
rsp.padding[1] = 0;
rsp.padding[2] = 0;
rsp.sub_cmd = DIAG_CMD_OP_SET_LOG_MASK;
rsp.status = status;
rsp.equip_id = req->equip_id;
rsp.num_items = req->num_items;
memcpy(dest_buf, &rsp, rsp_header_len);
write_len += rsp_header_len;
if (status != LOG_STATUS_SUCCESS)
goto end;
memcpy(dest_buf + write_len, src_buf + read_len, payload_len);
write_len += payload_len;
for (i = 0; i < NUM_PERIPHERALS; i++) {
if (!diag_check_update(i))
continue;
mutex_lock(&driver->md_session_lock);
diag_send_log_mask_update(i, req->equip_id);
mutex_unlock(&driver->md_session_lock);
}
end:
return write_len;
}
static int diag_cmd_disable_log_mask(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info)
{
struct diag_mask_info *mask_info = NULL;
struct diag_log_mask_t *mask = NULL;
struct diag_log_config_rsp_t header;
int write_len = 0;
int i;
mask_info = (!info) ? &log_mask : info->log_mask;
if (!src_buf || !dest_buf || src_len <= 0 || dest_len <= 0 ||
!mask_info) {
pr_err("diag: Invalid input in %s, src_buf: %pK, src_len: %d, dest_buf: %pK, dest_len: %d, mask_info: %pK\n",
__func__, src_buf, src_len, dest_buf, dest_len,
mask_info);
return -EINVAL;
}
mask = (struct diag_log_mask_t *)mask_info->ptr;
for (i = 0; i < MAX_EQUIP_ID; i++, mask++) {
mutex_lock(&mask->lock);
memset(mask->ptr, 0, mask->range);
mutex_unlock(&mask->lock);
}
mask_info->status = DIAG_CTRL_MASK_ALL_DISABLED;
if (diag_check_update(APPS_DATA))
diag_update_userspace_clients(LOG_MASKS_TYPE);
/*
* Apps processor must send the response to this command. Frame the
* response.
*/
header.cmd_code = DIAG_CMD_LOG_CONFIG;
header.padding[0] = 0;
header.padding[1] = 0;
header.padding[2] = 0;
header.sub_cmd = DIAG_CMD_OP_LOG_DISABLE;
header.status = LOG_STATUS_SUCCESS;
memcpy(dest_buf, &header, sizeof(struct diag_log_config_rsp_t));
write_len += sizeof(struct diag_log_config_rsp_t);
for (i = 0; i < NUM_PERIPHERALS; i++) {
if (!diag_check_update(i))
continue;
mutex_lock(&driver->md_session_lock);
diag_send_log_mask_update(i, ALL_EQUIP_ID);
mutex_unlock(&driver->md_session_lock);
}
return write_len;
}
int diag_create_msg_mask_table_entry(struct diag_msg_mask_t *msg_mask,
struct diag_ssid_range_t *range)
{
if (!msg_mask || !range)
return -EIO;
if (range->ssid_last < range->ssid_first)
return -EINVAL;
msg_mask->ssid_first = range->ssid_first;
msg_mask->ssid_last = range->ssid_last;
msg_mask->ssid_last_tools = range->ssid_last;
msg_mask->range = msg_mask->ssid_last - msg_mask->ssid_first + 1;
if (msg_mask->range < MAX_SSID_PER_RANGE)
msg_mask->range = MAX_SSID_PER_RANGE;
msg_mask->range_tools = msg_mask->range;
mutex_init(&msg_mask->lock);
if (msg_mask->range > 0) {
msg_mask->ptr = kcalloc(msg_mask->range, sizeof(uint32_t),
GFP_KERNEL);
if (!msg_mask->ptr)
return -ENOMEM;
kmemleak_not_leak(msg_mask->ptr);
}
return 0;
}
static int diag_create_msg_mask_table(void)
{
int i;
int err = 0;
struct diag_msg_mask_t *mask = (struct diag_msg_mask_t *)msg_mask.ptr;
struct diag_ssid_range_t range;
mutex_lock(&msg_mask.lock);
mutex_lock(&driver->msg_mask_lock);
driver->msg_mask_tbl_count = MSG_MASK_TBL_CNT;
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask++) {
range.ssid_first = msg_mask_tbl[i].ssid_first;
range.ssid_last = msg_mask_tbl[i].ssid_last;
err = diag_create_msg_mask_table_entry(mask, &range);
if (err)
break;
}
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&msg_mask.lock);
return err;
}
static int diag_create_build_time_mask(void)
{
int i;
int err = 0;
const uint32_t *tbl = NULL;
uint32_t tbl_size = 0;
struct diag_msg_mask_t *build_mask = NULL;
struct diag_ssid_range_t range;
mutex_lock(&msg_bt_mask.lock);
mutex_lock(&driver->msg_mask_lock);
driver->bt_msg_mask_tbl_count = MSG_MASK_TBL_CNT;
build_mask = (struct diag_msg_mask_t *)msg_bt_mask.ptr;
for (i = 0; i < driver->bt_msg_mask_tbl_count; i++, build_mask++) {
range.ssid_first = msg_mask_tbl[i].ssid_first;
range.ssid_last = msg_mask_tbl[i].ssid_last;
err = diag_create_msg_mask_table_entry(build_mask, &range);
if (err)
break;
switch (build_mask->ssid_first) {
case MSG_SSID_0:
tbl = msg_bld_masks_0;
tbl_size = sizeof(msg_bld_masks_0);
break;
case MSG_SSID_1:
tbl = msg_bld_masks_1;
tbl_size = sizeof(msg_bld_masks_1);
break;
case MSG_SSID_2:
tbl = msg_bld_masks_2;
tbl_size = sizeof(msg_bld_masks_2);
break;
case MSG_SSID_3:
tbl = msg_bld_masks_3;
tbl_size = sizeof(msg_bld_masks_3);
break;
case MSG_SSID_4:
tbl = msg_bld_masks_4;
tbl_size = sizeof(msg_bld_masks_4);
break;
case MSG_SSID_5:
tbl = msg_bld_masks_5;
tbl_size = sizeof(msg_bld_masks_5);
break;
case MSG_SSID_6:
tbl = msg_bld_masks_6;
tbl_size = sizeof(msg_bld_masks_6);
break;
case MSG_SSID_7:
tbl = msg_bld_masks_7;
tbl_size = sizeof(msg_bld_masks_7);
break;
case MSG_SSID_8:
tbl = msg_bld_masks_8;
tbl_size = sizeof(msg_bld_masks_8);
break;
case MSG_SSID_9:
tbl = msg_bld_masks_9;
tbl_size = sizeof(msg_bld_masks_9);
break;
case MSG_SSID_10:
tbl = msg_bld_masks_10;
tbl_size = sizeof(msg_bld_masks_10);
break;
case MSG_SSID_11:
tbl = msg_bld_masks_11;
tbl_size = sizeof(msg_bld_masks_11);
break;
case MSG_SSID_12:
tbl = msg_bld_masks_12;
tbl_size = sizeof(msg_bld_masks_12);
break;
case MSG_SSID_13:
tbl = msg_bld_masks_13;
tbl_size = sizeof(msg_bld_masks_13);
break;
case MSG_SSID_14:
tbl = msg_bld_masks_14;
tbl_size = sizeof(msg_bld_masks_14);
break;
case MSG_SSID_15:
tbl = msg_bld_masks_15;
tbl_size = sizeof(msg_bld_masks_15);
break;
case MSG_SSID_16:
tbl = msg_bld_masks_16;
tbl_size = sizeof(msg_bld_masks_16);
break;
case MSG_SSID_17:
tbl = msg_bld_masks_17;
tbl_size = sizeof(msg_bld_masks_17);
break;
case MSG_SSID_18:
tbl = msg_bld_masks_18;
tbl_size = sizeof(msg_bld_masks_18);
break;
case MSG_SSID_19:
tbl = msg_bld_masks_19;
tbl_size = sizeof(msg_bld_masks_19);
break;
case MSG_SSID_20:
tbl = msg_bld_masks_20;
tbl_size = sizeof(msg_bld_masks_20);
break;
case MSG_SSID_21:
tbl = msg_bld_masks_21;
tbl_size = sizeof(msg_bld_masks_21);
break;
case MSG_SSID_22:
tbl = msg_bld_masks_22;
tbl_size = sizeof(msg_bld_masks_22);
break;
}
if (!tbl)
continue;
if (tbl_size > build_mask->range * sizeof(uint32_t)) {
pr_warn("diag: In %s, table %d has more ssid than max, ssid_first: %d, ssid_last: %d\n",
__func__, i, build_mask->ssid_first,
build_mask->ssid_last);
tbl_size = build_mask->range * sizeof(uint32_t);
}
memcpy(build_mask->ptr, tbl, tbl_size);
}
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&msg_bt_mask.lock);
return err;
}
static int diag_create_log_mask_table(void)
{
struct diag_log_mask_t *mask = NULL;
uint8_t i;
int err = 0;
mutex_lock(&log_mask.lock);
mask = (struct diag_log_mask_t *)(log_mask.ptr);
for (i = 0; i < MAX_EQUIP_ID; i++, mask++) {
mask->equip_id = i;
mask->num_items = LOG_GET_ITEM_NUM(log_code_last_tbl[i]);
mask->num_items_tools = mask->num_items;
mutex_init(&mask->lock);
if (LOG_ITEMS_TO_SIZE(mask->num_items) > MAX_ITEMS_PER_EQUIP_ID)
mask->range = LOG_ITEMS_TO_SIZE(mask->num_items);
else
mask->range = MAX_ITEMS_PER_EQUIP_ID;
mask->range_tools = mask->range;
mask->ptr = kzalloc(mask->range, GFP_KERNEL);
if (!mask->ptr) {
err = -ENOMEM;
break;
}
kmemleak_not_leak(mask->ptr);
}
mutex_unlock(&log_mask.lock);
return err;
}
static int __diag_mask_init(struct diag_mask_info *mask_info, int mask_len,
int update_buf_len)
{
if (!mask_info || mask_len < 0 || update_buf_len < 0)
return -EINVAL;
mask_info->status = DIAG_CTRL_MASK_INVALID;
mask_info->mask_len = mask_len;
mask_info->update_buf_len = update_buf_len;
if (mask_len > 0) {
mask_info->ptr = kzalloc(mask_len, GFP_KERNEL);
if (!mask_info->ptr)
return -ENOMEM;
kmemleak_not_leak(mask_info->ptr);
}
if (update_buf_len > 0) {
mask_info->update_buf = kzalloc(update_buf_len, GFP_KERNEL);
if (!mask_info->update_buf) {
kfree(mask_info->ptr);
return -ENOMEM;
}
kmemleak_not_leak(mask_info->update_buf);
}
mutex_init(&mask_info->lock);
return 0;
}
static void __diag_mask_exit(struct diag_mask_info *mask_info)
{
if (!mask_info)
return;
mutex_lock(&mask_info->lock);
kfree(mask_info->ptr);
mask_info->ptr = NULL;
kfree(mask_info->update_buf);
mask_info->update_buf = NULL;
mutex_unlock(&mask_info->lock);
}
int diag_log_mask_copy(struct diag_mask_info *dest, struct diag_mask_info *src)
{
int i;
int err = 0;
struct diag_log_mask_t *src_mask = NULL;
struct diag_log_mask_t *dest_mask = NULL;
if (!src)
return -EINVAL;
err = __diag_mask_init(dest, LOG_MASK_SIZE, APPS_BUF_SIZE);
if (err)
return err;
mutex_lock(&dest->lock);
src_mask = (struct diag_log_mask_t *)(src->ptr);
dest_mask = (struct diag_log_mask_t *)(dest->ptr);
dest->mask_len = src->mask_len;
dest->status = src->status;
for (i = 0; i < MAX_EQUIP_ID; i++, src_mask++, dest_mask++) {
dest_mask->equip_id = src_mask->equip_id;
dest_mask->num_items = src_mask->num_items;
dest_mask->num_items_tools = src_mask->num_items_tools;
mutex_init(&dest_mask->lock);
dest_mask->range = src_mask->range;
dest_mask->range_tools = src_mask->range_tools;
dest_mask->ptr = kzalloc(dest_mask->range_tools, GFP_KERNEL);
if (!dest_mask->ptr) {
err = -ENOMEM;
break;
}
kmemleak_not_leak(dest_mask->ptr);
memcpy(dest_mask->ptr, src_mask->ptr, dest_mask->range_tools);
}
mutex_unlock(&dest->lock);
return err;
}
void diag_log_mask_free(struct diag_mask_info *mask_info)
{
int i;
struct diag_log_mask_t *mask = NULL;
if (!mask_info)
return;
mutex_lock(&mask_info->lock);
mask = (struct diag_log_mask_t *)mask_info->ptr;
for (i = 0; i < MAX_EQUIP_ID; i++, mask++) {
kfree(mask->ptr);
mask->ptr = NULL;
}
mutex_unlock(&mask_info->lock);
__diag_mask_exit(mask_info);
}
static int diag_msg_mask_init(void)
{
int err = 0;
int i;
err = __diag_mask_init(&msg_mask, MSG_MASK_SIZE, APPS_BUF_SIZE);
if (err)
return err;
err = diag_create_msg_mask_table();
if (err) {
pr_err("diag: Unable to create msg masks, err: %d\n", err);
return err;
}
mutex_lock(&driver->msg_mask_lock);
driver->msg_mask = &msg_mask;
for (i = 0; i < NUM_PERIPHERALS; i++)
driver->max_ssid_count[i] = 0;
mutex_unlock(&driver->msg_mask_lock);
return 0;
}
int diag_msg_mask_copy(struct diag_mask_info *dest, struct diag_mask_info *src)
{
int i;
int err = 0;
struct diag_msg_mask_t *src_mask = NULL;
struct diag_msg_mask_t *dest_mask = NULL;
struct diag_ssid_range_t range;
if (!src || !dest)
return -EINVAL;
err = __diag_mask_init(dest, MSG_MASK_SIZE, APPS_BUF_SIZE);
if (err)
return err;
mutex_lock(&dest->lock);
mutex_lock(&driver->msg_mask_lock);
src_mask = (struct diag_msg_mask_t *)src->ptr;
dest_mask = (struct diag_msg_mask_t *)dest->ptr;
dest->mask_len = src->mask_len;
dest->status = src->status;
for (i = 0; i < driver->msg_mask_tbl_count; i++) {
range.ssid_first = src_mask->ssid_first;
range.ssid_last = src_mask->ssid_last;
err = diag_create_msg_mask_table_entry(dest_mask, &range);
if (err)
break;
memcpy(dest_mask->ptr, src_mask->ptr,
dest_mask->range * sizeof(uint32_t));
src_mask++;
dest_mask++;
}
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&dest->lock);
return err;
}
void diag_msg_mask_free(struct diag_mask_info *mask_info)
{
int i;
struct diag_msg_mask_t *mask = NULL;
if (!mask_info)
return;
mutex_lock(&mask_info->lock);
mutex_lock(&driver->msg_mask_lock);
mask = (struct diag_msg_mask_t *)mask_info->ptr;
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask++) {
kfree(mask->ptr);
mask->ptr = NULL;
}
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&mask_info->lock);
__diag_mask_exit(mask_info);
}
static void diag_msg_mask_exit(void)
{
int i;
struct diag_msg_mask_t *mask = NULL;
mutex_lock(&driver->msg_mask_lock);
mask = (struct diag_msg_mask_t *)(msg_mask.ptr);
if (mask) {
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask++)
kfree(mask->ptr);
kfree(msg_mask.ptr);
msg_mask.ptr = NULL;
}
kfree(msg_mask.update_buf);
msg_mask.update_buf = NULL;
mutex_unlock(&driver->msg_mask_lock);
}
static int diag_build_time_mask_init(void)
{
int err = 0;
/* There is no need for update buffer for Build Time masks */
err = __diag_mask_init(&msg_bt_mask, MSG_MASK_SIZE, 0);
if (err)
return err;
err = diag_create_build_time_mask();
if (err) {
pr_err("diag: Unable to create msg build time masks, err: %d\n",
err);
return err;
}
driver->build_time_mask = &msg_bt_mask;
return 0;
}
static void diag_build_time_mask_exit(void)
{
int i;
struct diag_msg_mask_t *mask = NULL;
mutex_lock(&driver->msg_mask_lock);
mask = (struct diag_msg_mask_t *)(msg_bt_mask.ptr);
if (mask) {
for (i = 0; i < driver->bt_msg_mask_tbl_count; i++, mask++)
kfree(mask->ptr);
kfree(msg_bt_mask.ptr);
msg_bt_mask.ptr = NULL;
}
mutex_unlock(&driver->msg_mask_lock);
}
static int diag_log_mask_init(void)
{
int err = 0;
int i;
err = __diag_mask_init(&log_mask, LOG_MASK_SIZE, APPS_BUF_SIZE);
if (err)
return err;
err = diag_create_log_mask_table();
if (err)
return err;
driver->log_mask = &log_mask;
for (i = 0; i < NUM_PERIPHERALS; i++)
driver->num_equip_id[i] = 0;
return 0;
}
static void diag_log_mask_exit(void)
{
int i;
struct diag_log_mask_t *mask = NULL;
mask = (struct diag_log_mask_t *)(log_mask.ptr);
if (mask) {
for (i = 0; i < MAX_EQUIP_ID; i++, mask++)
kfree(mask->ptr);
kfree(log_mask.ptr);
}
kfree(log_mask.update_buf);
}
static int diag_event_mask_init(void)
{
int err = 0;
int i;
err = __diag_mask_init(&event_mask, EVENT_MASK_SIZE, APPS_BUF_SIZE);
if (err)
return err;
driver->event_mask_size = EVENT_MASK_SIZE;
driver->last_event_id = APPS_EVENT_LAST_ID;
driver->event_mask = &event_mask;
for (i = 0; i < NUM_PERIPHERALS; i++)
driver->num_event_id[i] = 0;
return 0;
}
int diag_event_mask_copy(struct diag_mask_info *dest,
struct diag_mask_info *src)
{
int err = 0;
if (!src || !dest)
return -EINVAL;
err = __diag_mask_init(dest, EVENT_MASK_SIZE, APPS_BUF_SIZE);
if (err)
return err;
mutex_lock(&dest->lock);
dest->mask_len = src->mask_len;
dest->status = src->status;
memcpy(dest->ptr, src->ptr, dest->mask_len);
mutex_unlock(&dest->lock);
return err;
}
void diag_event_mask_free(struct diag_mask_info *mask_info)
{
if (!mask_info)
return;
__diag_mask_exit(mask_info);
}
static void diag_event_mask_exit(void)
{
kfree(event_mask.ptr);
kfree(event_mask.update_buf);
}
int diag_copy_to_user_msg_mask(char __user *buf, size_t count,
struct diag_md_session_t *info)
{
int i;
int err = 0;
int len = 0;
int copy_len = 0;
int total_len = 0;
struct diag_msg_mask_userspace_t header;
struct diag_mask_info *mask_info = NULL;
struct diag_msg_mask_t *mask = NULL;
unsigned char *ptr = NULL;
if (!buf || count == 0)
return -EINVAL;
mask_info = (!info) ? &msg_mask : info->msg_mask;
if (!mask_info)
return -EIO;
mutex_lock(&driver->diag_maskclear_mutex);
if (driver->mask_clear) {
DIAG_LOG(DIAG_DEBUG_PERIPHERALS,
"diag:%s: count = %zu\n", __func__, count);
mutex_unlock(&driver->diag_maskclear_mutex);
return -EIO;
}
mutex_unlock(&driver->diag_maskclear_mutex);
mutex_lock(&mask_info->lock);
mutex_lock(&driver->msg_mask_lock);
mask = (struct diag_msg_mask_t *)(mask_info->ptr);
for (i = 0; i < driver->msg_mask_tbl_count; i++, mask++) {
ptr = mask_info->update_buf;
len = 0;
mutex_lock(&mask->lock);
header.ssid_first = mask->ssid_first;
header.ssid_last = mask->ssid_last_tools;
header.range = mask->range_tools;
memcpy(ptr, &header, sizeof(header));
len += sizeof(header);
copy_len = (sizeof(uint32_t) * mask->range_tools);
if ((len + copy_len) > mask_info->update_buf_len) {
pr_err("diag: In %s, no space to update msg mask, first: %d, last: %d\n",
__func__, mask->ssid_first,
mask->ssid_last_tools);
mutex_unlock(&mask->lock);
continue;
}
memcpy(ptr + len, mask->ptr, copy_len);
len += copy_len;
mutex_unlock(&mask->lock);
/* + sizeof(int) to account for data_type already in buf */
if (total_len + sizeof(int) + len > count) {
pr_err("diag: In %s, unable to send msg masks to user space, total_len: %d, count: %zu\n",
__func__, total_len, count);
err = -ENOMEM;
break;
}
err = copy_to_user(buf + total_len, (void *)ptr, len);
if (err) {
pr_err("diag: In %s Unable to send msg masks to user space clients, err: %d\n",
__func__, err);
break;
}
total_len += len;
}
mutex_unlock(&driver->msg_mask_lock);
mutex_unlock(&mask_info->lock);
return err ? err : total_len;
}
int diag_copy_to_user_log_mask(char __user *buf, size_t count,
struct diag_md_session_t *info)
{
int i;
int err = 0;
int len = 0;
int copy_len = 0;
int total_len = 0;
struct diag_log_mask_userspace_t header;
struct diag_log_mask_t *mask = NULL;
struct diag_mask_info *mask_info = NULL;
unsigned char *ptr = NULL;
if (!buf || count == 0)
return -EINVAL;
mask_info = (!info) ? &log_mask : info->log_mask;
if (!mask_info)
return -EIO;
mutex_lock(&mask_info->lock);
mask = (struct diag_log_mask_t *)(mask_info->ptr);
for (i = 0; i < MAX_EQUIP_ID; i++, mask++) {
ptr = mask_info->update_buf;
len = 0;
mutex_lock(&mask->lock);
header.equip_id = mask->equip_id;
header.num_items = mask->num_items_tools;
memcpy(ptr, &header, sizeof(header));
len += sizeof(header);
copy_len = LOG_ITEMS_TO_SIZE(header.num_items);
if ((len + copy_len) > mask_info->update_buf_len) {
pr_err("diag: In %s, no space to update log mask, equip_id: %d\n",
__func__, mask->equip_id);
mutex_unlock(&mask->lock);
continue;
}
memcpy(ptr + len, mask->ptr, copy_len);
len += copy_len;
mutex_unlock(&mask->lock);
/* + sizeof(int) to account for data_type already in buf */
if (total_len + sizeof(int) + len > count) {
pr_err("diag: In %s, unable to send log masks to user space, total_len: %d, count: %zu\n",
__func__, total_len, count);
err = -ENOMEM;
break;
}
err = copy_to_user(buf + total_len, (void *)ptr, len);
if (err) {
pr_err("diag: In %s Unable to send log masks to user space clients, err: %d\n",
__func__, err);
break;
}
total_len += len;
}
mutex_unlock(&mask_info->lock);
return err ? err : total_len;
}
void diag_send_updates_peripheral(uint8_t peripheral)
{
diag_send_feature_mask_update(peripheral);
/*
* Masks (F3, logs and events) will be sent to
* peripheral immediately following feature mask update only
* if diag_id support is not present or
* diag_id support is present and diag_id has been sent to
* peripheral.
*/
if (!driver->feature[peripheral].diag_id_support ||
driver->diag_id_sent[peripheral]) {
if (driver->time_sync_enabled)
diag_send_time_sync_update(peripheral);
mutex_lock(&driver->md_session_lock);
diag_send_msg_mask_update(peripheral, ALL_SSID, ALL_SSID);
diag_send_log_mask_update(peripheral, ALL_EQUIP_ID);
diag_send_event_mask_update(peripheral);
mutex_unlock(&driver->md_session_lock);
diag_send_real_time_update(peripheral,
driver->real_time_mode[DIAG_LOCAL_PROC]);
diag_send_peripheral_buffering_mode(
&driver->buffering_mode[peripheral]);
}
}
int diag_process_apps_masks(unsigned char *buf, int len,
struct diag_md_session_t *info)
{
int size = 0;
int sub_cmd = 0;
int (*hdlr)(unsigned char *src_buf, int src_len,
unsigned char *dest_buf, int dest_len,
struct diag_md_session_t *info) = NULL;
if (!buf || len <= 0)
return -EINVAL;
if (*buf == DIAG_CMD_LOG_CONFIG) {
sub_cmd = *(int *)(buf + sizeof(int));
switch (sub_cmd) {
case DIAG_CMD_OP_LOG_DISABLE:
hdlr = diag_cmd_disable_log_mask;
break;
case DIAG_CMD_OP_GET_LOG_RANGE:
hdlr = diag_cmd_get_log_range;
break;
case DIAG_CMD_OP_SET_LOG_MASK:
hdlr = diag_cmd_set_log_mask;
break;
case DIAG_CMD_OP_GET_LOG_MASK:
hdlr = diag_cmd_get_log_mask;
break;
}
} else if (*buf == DIAG_CMD_MSG_CONFIG) {
sub_cmd = *(uint8_t *)(buf + sizeof(uint8_t));
switch (sub_cmd) {
case DIAG_CMD_OP_GET_SSID_RANGE:
hdlr = diag_cmd_get_ssid_range;
break;
case DIAG_CMD_OP_GET_BUILD_MASK:
hdlr = diag_cmd_get_build_mask;
break;
case DIAG_CMD_OP_GET_MSG_MASK:
hdlr = diag_cmd_get_msg_mask;
break;
case DIAG_CMD_OP_SET_MSG_MASK:
hdlr = diag_cmd_set_msg_mask;
break;
case DIAG_CMD_OP_SET_ALL_MSG_MASK:
hdlr = diag_cmd_set_all_msg_mask;
break;
}
} else if (*buf == DIAG_CMD_GET_EVENT_MASK) {
hdlr = diag_cmd_get_event_mask;
} else if (*buf == DIAG_CMD_SET_EVENT_MASK) {
hdlr = diag_cmd_update_event_mask;
} else if (*buf == DIAG_CMD_EVENT_TOGGLE) {
hdlr = diag_cmd_toggle_events;
}
if (hdlr)
size = hdlr(buf, len, driver->apps_rsp_buf,
DIAG_MAX_RSP_SIZE, info);
return (size > 0) ? size : 0;
}
int diag_masks_init(void)
{
int err = 0;
err = diag_msg_mask_init();
if (err)
goto fail;
err = diag_build_time_mask_init();
if (err)
goto fail;
err = diag_log_mask_init();
if (err)
goto fail;
err = diag_event_mask_init();
if (err)
goto fail;
if (driver->buf_feature_mask_update == NULL) {
driver->buf_feature_mask_update = kzalloc(sizeof(
struct diag_ctrl_feature_mask) +
FEATURE_MASK_LEN, GFP_KERNEL);
if (driver->buf_feature_mask_update == NULL)
goto fail;
kmemleak_not_leak(driver->buf_feature_mask_update);
}
return 0;
fail:
pr_err("diag: Could not initialize diag mask buffers\n");
diag_masks_exit();
return -ENOMEM;
}
void diag_masks_exit(void)
{
diag_msg_mask_exit();
diag_build_time_mask_exit();
diag_log_mask_exit();
diag_event_mask_exit();
kfree(driver->buf_feature_mask_update);
}