android_device_samsung_msm8.../gps/utils/loc_cfg.cpp
2019-02-11 23:56:38 +03:00

1139 lines
48 KiB
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Executable file

/* Copyright (c) 2011-2015, 2018 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.
*
*/
#define LOG_NDEBUG 0
#define LOG_TAG "LocSvc_utils_cfg"
#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <string.h>
#include <ctype.h>
#include <unistd.h>
#include <time.h>
#include <pwd.h>
#include <errno.h>
#include <loc_cfg.h>
#include <loc_pla.h>
#include <loc_target.h>
#include <loc_misc_utils.h>
#ifdef USE_GLIB
#include <glib.h>
#endif
#include "log_util.h"
/*=============================================================================
*
* GLOBAL DATA DECLARATION
*
*============================================================================*/
/* Parameter data */
static uint32_t DEBUG_LEVEL = 0xff;
static uint32_t TIMESTAMP = 0;
static uint32_t LOC_MODEM_EMULATOR = 0;
/* Parameter spec table */
static const loc_param_s_type loc_param_table[] =
{
{"DEBUG_LEVEL", &DEBUG_LEVEL, NULL, 'n'},
{"TIMESTAMP", &TIMESTAMP, NULL, 'n'},
{"LOC_MODEM_EMULATOR", &LOC_MODEM_EMULATOR, NULL, 'n'},
};
static const int loc_param_num = sizeof(loc_param_table) / sizeof(loc_param_s_type);
typedef struct loc_param_v_type
{
char* param_name;
char* param_str_value;
int param_int_value;
double param_double_value;
}loc_param_v_type;
// Reference below arrays wherever needed to avoid duplicating
// same conf path string over and again in location code.
const char LOC_PATH_GPS_CONF[] = LOC_PATH_GPS_CONF_STR;
const char LOC_PATH_IZAT_CONF[] = LOC_PATH_IZAT_CONF_STR;
const char LOC_PATH_FLP_CONF[] = LOC_PATH_FLP_CONF_STR;
const char LOC_PATH_LOWI_CONF[] = LOC_PATH_LOWI_CONF_STR;
const char LOC_PATH_SAP_CONF[] = LOC_PATH_SAP_CONF_STR;
const char LOC_PATH_APDR_CONF[] = LOC_PATH_APDR_CONF_STR;
const char LOC_PATH_XTWIFI_CONF[] = LOC_PATH_XTWIFI_CONF_STR;
const char LOC_PATH_QUIPC_CONF[] = LOC_PATH_QUIPC_CONF_STR;
/*===========================================================================
FUNCTION loc_modem_emulator_enabled
DESCRIPTION
Provides access to Modem Emulator config item.
===========================================================================*/
uint32_t loc_modem_emulator_enabled()
{
return LOC_MODEM_EMULATOR;
}
/*===========================================================================
FUNCTION loc_set_config_entry
DESCRIPTION
Potentially sets a given configuration table entry based on the passed in
configuration value. This is done by using a string comparison of the
parameter names and those found in the configuration file.
PARAMETERS:
config_entry: configuration entry in the table to possibly set
config_value: value to store in the entry if the parameter names match
DEPENDENCIES
N/A
RETURN VALUE
None
SIDE EFFECTS
N/A
===========================================================================*/
int loc_set_config_entry(const loc_param_s_type* config_entry, loc_param_v_type* config_value)
{
int ret=-1;
if(NULL == config_entry || NULL == config_value)
{
LOC_LOGE("%s: INVALID config entry or parameter", __FUNCTION__);
return ret;
}
if (strcmp(config_entry->param_name, config_value->param_name) == 0 &&
config_entry->param_ptr)
{
switch (config_entry->param_type)
{
case 's':
if (strcmp(config_value->param_str_value, "NULL") == 0)
{
*((char*)config_entry->param_ptr) = '\0';
}
else {
strlcpy((char*) config_entry->param_ptr,
config_value->param_str_value,
LOC_MAX_PARAM_STRING + 1);
}
/* Log INI values */
LOC_LOGD("%s: PARAM %s = %s", __FUNCTION__,
config_entry->param_name, (char*)config_entry->param_ptr);
if(NULL != config_entry->param_set)
{
*(config_entry->param_set) = 1;
}
ret = 0;
break;
case 'n':
*((int *)config_entry->param_ptr) = config_value->param_int_value;
/* Log INI values */
LOC_LOGD("%s: PARAM %s = %d", __FUNCTION__,
config_entry->param_name, config_value->param_int_value);
if(NULL != config_entry->param_set)
{
*(config_entry->param_set) = 1;
}
ret = 0;
break;
case 'f':
*((double *)config_entry->param_ptr) = config_value->param_double_value;
/* Log INI values */
LOC_LOGD("%s: PARAM %s = %f", __FUNCTION__,
config_entry->param_name, config_value->param_double_value);
if(NULL != config_entry->param_set)
{
*(config_entry->param_set) = 1;
}
ret = 0;
break;
default:
LOC_LOGE("%s: PARAM %s parameter type must be n, f, or s",
__FUNCTION__, config_entry->param_name);
}
}
return ret;
}
/*===========================================================================
FUNCTION loc_fill_conf_item
DESCRIPTION
Takes a line of configuration item and sets defined values based on
the passed in configuration table. This table maps strings to values to
set along with the type of each of these values.
PARAMETERS:
input_buf : buffer contanis config item
config_table: table definition of strings to places to store information
table_length: length of the configuration table
DEPENDENCIES
N/A
RETURN VALUE
0: Number of records in the config_table filled with input_buf
SIDE EFFECTS
N/A
===========================================================================*/
int loc_fill_conf_item(char* input_buf,
const loc_param_s_type* config_table, uint32_t table_length)
{
int ret = 0;
if (input_buf && config_table) {
char *lasts;
loc_param_v_type config_value;
memset(&config_value, 0, sizeof(config_value));
/* Separate variable and value */
config_value.param_name = strtok_r(input_buf, "=", &lasts);
/* skip lines that do not contain "=" */
if (config_value.param_name) {
config_value.param_str_value = strtok_r(NULL, "=", &lasts);
/* skip lines that do not contain two operands */
if (config_value.param_str_value) {
/* Trim leading and trailing spaces */
loc_util_trim_space(config_value.param_name);
loc_util_trim_space(config_value.param_str_value);
/* Parse numerical value */
if ((strlen(config_value.param_str_value) >=3) &&
(config_value.param_str_value[0] == '0') &&
(tolower(config_value.param_str_value[1]) == 'x'))
{
/* hex */
config_value.param_int_value = (int) strtol(&config_value.param_str_value[2],
(char**) NULL, 16);
}
else {
config_value.param_double_value = (double) atof(config_value.param_str_value); /* float */
config_value.param_int_value = atoi(config_value.param_str_value); /* dec */
}
for(uint32_t i = 0; NULL != config_table && i < table_length; i++)
{
if(!loc_set_config_entry(&config_table[i], &config_value)) {
ret += 1;
}
}
}
}
}
return ret;
}
/*===========================================================================
FUNCTION loc_read_conf_r (repetitive)
DESCRIPTION
Reads the specified configuration file and sets defined values based on
the passed in configuration table. This table maps strings to values to
set along with the type of each of these values.
The difference between this and loc_read_conf is that this function returns
the file pointer position at the end of filling a config table. Also, it
reads a fixed number of parameters at a time which is equal to the length
of the configuration table. This functionality enables the caller to
repeatedly call the function to read data from the same file.
PARAMETERS:
conf_fp : file pointer
config_table: table definition of strings to places to store information
table_length: length of the configuration table
DEPENDENCIES
N/A
RETURN VALUE
0: Table filled successfully
1: No more parameters to read
-1: Error filling table
SIDE EFFECTS
N/A
===========================================================================*/
int loc_read_conf_r(FILE *conf_fp, const loc_param_s_type* config_table, uint32_t table_length)
{
int ret=0;
unsigned int num_params=table_length;
if(conf_fp == NULL) {
LOC_LOGE("%s:%d]: ERROR: File pointer is NULL\n", __func__, __LINE__);
ret = -1;
goto err;
}
/* Clear all validity bits */
for(uint32_t i = 0; NULL != config_table && i < table_length; i++)
{
if(NULL != config_table[i].param_set)
{
*(config_table[i].param_set) = 0;
}
}
char input_buf[LOC_MAX_PARAM_LINE]; /* declare a char array */
LOC_LOGD("%s:%d]: num_params: %d\n", __func__, __LINE__, num_params);
while(num_params)
{
if(!fgets(input_buf, LOC_MAX_PARAM_LINE, conf_fp)) {
LOC_LOGD("%s:%d]: fgets returned NULL\n", __func__, __LINE__);
break;
}
num_params -= loc_fill_conf_item(input_buf, config_table, table_length);
}
err:
return ret;
}
/*===========================================================================
FUNCTION loc_udpate_conf
DESCRIPTION
Parses the passed in buffer for configuration items, and update the table
that is also passed in.
Reads the specified configuration file and sets defined values based on
the passed in configuration table. This table maps strings to values to
set along with the type of each of these values.
PARAMETERS:
conf_data: configuration items in bufferas a string
length: strlen(conf_data)
config_table: table definition of strings to places to store information
table_length: length of the configuration table
DEPENDENCIES
N/A
RETURN VALUE
number of the records in the table that is updated at time of return.
SIDE EFFECTS
N/A
===========================================================================*/
int loc_update_conf(const char* conf_data, int32_t length,
const loc_param_s_type* config_table, uint32_t table_length)
{
int ret = -1;
if (conf_data && length && config_table && table_length) {
// make a copy, so we do not tokenize the original data
char* conf_copy = (char*)malloc(length+1);
if (conf_copy != NULL)
{
memcpy(conf_copy, conf_data, length);
// we hard NULL the end of string to be safe
conf_copy[length] = 0;
// start with one record off
uint32_t num_params = table_length - 1;
char* saveptr = NULL;
char* input_buf = strtok_r(conf_copy, "\n", &saveptr);
ret = 0;
LOC_LOGD("%s:%d]: num_params: %d\n", __func__, __LINE__, num_params);
while(num_params && input_buf) {
ret++;
num_params -= loc_fill_conf_item(input_buf, config_table, table_length);
input_buf = strtok_r(NULL, "\n", &saveptr);
}
free(conf_copy);
}
}
return ret;
}
/*===========================================================================
FUNCTION loc_read_conf
DESCRIPTION
Reads the specified configuration file and sets defined values based on
the passed in configuration table. This table maps strings to values to
set along with the type of each of these values.
PARAMETERS:
conf_file_name: configuration file to read
config_table: table definition of strings to places to store information
table_length: length of the configuration table
DEPENDENCIES
N/A
RETURN VALUE
None
SIDE EFFECTS
N/A
===========================================================================*/
void loc_read_conf(const char* conf_file_name, const loc_param_s_type* config_table,
uint32_t table_length)
{
FILE *conf_fp = NULL;
if((conf_fp = fopen(conf_file_name, "r")) != NULL)
{
LOC_LOGD("%s: using %s", __FUNCTION__, conf_file_name);
if(table_length && config_table) {
loc_read_conf_r(conf_fp, config_table, table_length);
rewind(conf_fp);
}
loc_read_conf_r(conf_fp, loc_param_table, loc_param_num);
fclose(conf_fp);
}
/* Initialize logging mechanism with parsed data */
loc_logger_init(DEBUG_LEVEL, TIMESTAMP);
}
/*=============================================================================
*
* Define and Structures for Parsing Location Process Configuration File
*
*============================================================================*/
#define MAX_NUM_STRINGS 20
//We can have 8 masks for now
#define CONFIG_MASK_TARGET_ALL 0X01
#define CONFIG_MASK_TARGET_FOUND 0X02
#define CONFIG_MASK_TARGET_CHECK 0X03
#define CONFIG_MASK_BASEBAND_ALL 0X04
#define CONFIG_MASK_BASEBAND_FOUND 0X08
#define CONFIG_MASK_BASEBAND_CHECK 0x0c
#define CONFIG_MASK_AUTOPLATFORM_ALL 0x10
#define CONFIG_MASK_AUTOPLATFORM_FOUND 0x20
#define CONFIG_MASK_AUTOPLATFORM_CHECK 0x30
#define LOC_FEATURE_MASK_GTP_WIFI_BASIC 0x01
#define LOC_FEATURE_MASK_GTP_WIFI_PREMIUM 0X02
#define LOC_FEATURE_MASK_GTP_CELL_BASIC 0X04
#define LOC_FEATURE_MASK_GTP_CELL_PREMIUM 0X08
#define LOC_FEATURE_MASK_GTP_AP_CELL_BASIC LOC_FEATURE_MASK_GTP_CELL_BASIC
#define LOC_FEATURE_MASK_GTP_AP_CELL_PREMIUM LOC_FEATURE_MASK_GTP_CELL_PREMIUM
#define LOC_FEATURE_MASK_SAP_BASIC 0x40
#define LOC_FEATURE_MASK_SAP_PREMIUM 0X80
#define LOC_FEATURE_MASK_GTP_WAA_BASIC 0X100
#define LOC_FEATURE_MASK_GTP_WAA_PREMIUM 0x200
#define LOC_FEATURE_MASK_GTP_MODEM_CELL_BASIC 0X400
#define LOC_FEATURE_MASK_GTP_MODEM_CELL_PREMIUM 0X800
#define LOC_FEATURE_MASK_ODCPI 0x1000
#define LOC_FEATURE_MASK_FREE_WIFI_SCAN_INJECT 0x2000
#define LOC_FEATURE_MASK_SUPL_WIFI 0x4000
#define LOC_FEATURE_MASK_WIFI_SUPPLICANT_INFO 0x8000
typedef struct {
char proc_name[LOC_MAX_PARAM_STRING];
char proc_argument[LOC_MAX_PARAM_STRING];
char proc_status[LOC_MAX_PARAM_STRING];
char group_list[LOC_MAX_PARAM_STRING];
unsigned int premium_feature;
unsigned int loc_feature_mask;
char platform_list[LOC_MAX_PARAM_STRING];
char baseband[LOC_MAX_PARAM_STRING];
unsigned int sglte_target;
char feature_gtp_cell_proc[LOC_MAX_PARAM_STRING];
char feature_gtp_waa[LOC_MAX_PARAM_STRING];
char feature_gtp_cell[LOC_MAX_PARAM_STRING];
char feature_gtp_wifi[LOC_MAX_PARAM_STRING];
char feature_sap[LOC_MAX_PARAM_STRING];
char feature_odcpi[LOC_MAX_PARAM_STRING];
char feature_free_wifi_scan_inject[LOC_MAX_PARAM_STRING];
char feature_supl_wifi[LOC_MAX_PARAM_STRING];
char feature_wifi_supplicant_info[LOC_MAX_PARAM_STRING];
char auto_platform[LOC_MAX_PARAM_STRING];
} loc_launcher_conf;
/* process configuration parameters */
static loc_launcher_conf conf;
/* gps.conf Parameter spec table */
static const loc_param_s_type gps_conf_parameter_table[] = {
{"SGLTE_TARGET", &conf.sglte_target, NULL, 'n'},
};
/* location feature conf, e.g.: izat.conf feature mode table*/
static const loc_param_s_type loc_feature_conf_table[] = {
{"GTP_CELL_PROC", &conf.feature_gtp_cell_proc, NULL, 's'},
{"GTP_CELL", &conf.feature_gtp_cell, NULL, 's'},
{"GTP_WIFI", &conf.feature_gtp_wifi, NULL, 's'},
{"GTP_WAA", &conf.feature_gtp_waa, NULL, 's'},
{"SAP", &conf.feature_sap, NULL, 's'},
{"ODCPI", &conf.feature_odcpi, NULL, 's'},
{"FREE_WIFI_SCAN_INJECT", &conf.feature_free_wifi_scan_inject, NULL, 's'},
{"SUPL_WIFI", &conf.feature_supl_wifi, NULL, 's'},
{"WIFI_SUPPLICANT_INFO", &conf.feature_wifi_supplicant_info, NULL, 's'},
};
/* location process conf, e.g.: izat.conf Parameter spec table */
static const loc_param_s_type loc_process_conf_parameter_table[] = {
{"PROCESS_NAME", &conf.proc_name, NULL, 's'},
{"PROCESS_ARGUMENT", &conf.proc_argument, NULL, 's'},
{"PROCESS_STATE", &conf.proc_status, NULL, 's'},
{"PROCESS_GROUPS", &conf.group_list, NULL, 's'},
{"PREMIUM_FEATURE", &conf.premium_feature, NULL, 'n'},
{"IZAT_FEATURE_MASK", &conf.loc_feature_mask, NULL, 'n'},
{"PLATFORMS", &conf.platform_list, NULL, 's'},
{"BASEBAND", &conf.baseband, NULL, 's'},
{"HARDWARE_TYPE", &conf.auto_platform, NULL, 's'},
};
/*===========================================================================
FUNCTION loc_read_process_conf
DESCRIPTION
Parse the specified conf file and return info for the processes defined.
The format of the file should conform with izat.conf.
PARAMETERS:
conf_file_name: configuration file to read
process_count_ptr: pointer to store number of processes defined in the conf file.
process_info_table_ptr: pointer to store the process info table.
DEPENDENCIES
The file must be in izat.conf format.
RETURN VALUE
0: success
none-zero: failure
SIDE EFFECTS
N/A
NOTES:
On success, memory pointed by (*process_info_table_ptr) must be freed.
===========================================================================*/
int loc_read_process_conf(const char* conf_file_name, uint32_t * process_count_ptr,
loc_process_info_s_type** process_info_table_ptr) {
loc_process_info_s_type *child_proc = nullptr;
volatile int i=0;
unsigned int j=0;
gid_t gid_list[LOC_PROCESS_MAX_NUM_GROUPS];
char *split_strings[MAX_NUM_STRINGS];
int name_length=0, group_list_length=0, platform_length=0, baseband_length=0, ngroups=0, ret=0;
int auto_platform_length = 0;
int group_index=0, nstrings=0, status_length=0;
FILE* conf_fp = nullptr;
char platform_name[PROPERTY_VALUE_MAX], baseband_name[PROPERTY_VALUE_MAX];
char autoplatform_name[PROPERTY_VALUE_MAX];
unsigned int loc_service_mask=0;
char config_mask = 0;
unsigned char proc_list_length=0;
int gtp_cell_ap_enabled = 0;
char arg_gtp_waa[LOC_PROCESS_MAX_ARG_STR_LENGTH] = "--";
char arg_gtp_ap_cell[LOC_PROCESS_MAX_ARG_STR_LENGTH] = "--";
char arg_gtp_modem_cell[LOC_PROCESS_MAX_ARG_STR_LENGTH] = "--";
char arg_gtp_wifi[LOC_PROCESS_MAX_ARG_STR_LENGTH] = "--";
char arg_sap[LOC_PROCESS_MAX_ARG_STR_LENGTH] = "--";
char arg_disabled[LOC_PROCESS_MAX_ARG_STR_LENGTH] = LOC_FEATURE_MODE_DISABLED;
char arg_basic[LOC_PROCESS_MAX_ARG_STR_LENGTH] = LOC_FEATURE_MODE_BASIC;
char arg_premium[LOC_PROCESS_MAX_ARG_STR_LENGTH] = LOC_FEATURE_MODE_PREMIUM;
if (process_count_ptr == NULL || process_info_table_ptr == NULL) {
return -1;
}
//Read gps.conf and fill parameter table
UTIL_READ_CONF(LOC_PATH_GPS_CONF, gps_conf_parameter_table);
//Form argument strings
strlcat(arg_gtp_waa, LOC_FEATURE_GTP_WAA, LOC_PROCESS_MAX_ARG_STR_LENGTH-3);
strlcat(arg_gtp_ap_cell, LOC_FEATURE_GTP_AP_CELL, LOC_PROCESS_MAX_ARG_STR_LENGTH-3);
strlcat(arg_gtp_modem_cell, LOC_FEATURE_GTP_MODEM_CELL, LOC_PROCESS_MAX_ARG_STR_LENGTH-3);
strlcat(arg_gtp_wifi, LOC_FEATURE_GTP_WIFI, LOC_PROCESS_MAX_ARG_STR_LENGTH-3);
strlcat(arg_sap, LOC_FEATURE_SAP, LOC_PROCESS_MAX_ARG_STR_LENGTH-3);
//Get platform name from ro.board.platform property
loc_get_platform_name(platform_name, sizeof(platform_name));
//Get baseband name from ro.baseband property
loc_get_target_baseband(baseband_name, sizeof(baseband_name));
//Identify if this is an automotive platform
loc_get_auto_platform_name(autoplatform_name,sizeof(autoplatform_name));
UTIL_READ_CONF(conf_file_name, loc_feature_conf_table);
//Set service mask for GTP_WIFI
if(strcmp(conf.feature_gtp_wifi, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: GTP WIFI DISABLED", __func__, __LINE__);
}
else if(strcmp(conf.feature_gtp_wifi, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting GTP WIFI to mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_GTP_WIFI_BASIC;
}
//conf file has a garbage value
else {
LOC_LOGE("%s:%d]: Unrecognized value for GTP WIFI Mode."\
" Setting GTP WIFI to default mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_GTP_WIFI_BASIC;
}
//Set service mask for GTP_CELL
//Using a temp variable here to indicate wheter GTP cell is
//enabled on the AP or modem. This variable will be used in
//further checks below. An alternative was to compare the
//string again in each place which would've been more expensive
if(strcmp(conf.feature_gtp_cell_proc, "AP") == 0) {
gtp_cell_ap_enabled = 1;
}
if(strcmp(conf.feature_gtp_cell, "PREMIUM") == 0) {
LOC_LOGE("%s:%d]: Error: location feature GTP CELL does not support PREMIUM mode" \
" available modes are BASIC and DISABLED. Starting feature in BASIC mode",
__func__, __LINE__);
if(gtp_cell_ap_enabled) {
loc_service_mask |= LOC_FEATURE_MASK_GTP_AP_CELL_BASIC;
}
else {
loc_service_mask |= LOC_FEATURE_MASK_GTP_MODEM_CELL_BASIC;
}
}
else if(strcmp(conf.feature_gtp_cell, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting GTP CELL to mode: BASIC", __func__, __LINE__);
if(gtp_cell_ap_enabled) {
loc_service_mask |= LOC_FEATURE_MASK_GTP_AP_CELL_BASIC;
}
else {
loc_service_mask |= LOC_FEATURE_MASK_GTP_MODEM_CELL_BASIC;
}
}
else if(strcmp(conf.feature_gtp_cell, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: GTP CELL DISABLED", __func__, __LINE__);
}
//conf file has a garbage value
else {
LOC_LOGE("%s:%d]: Unrecognized value for GTP CELL Mode." \
" Setting GTP CELL to default mode: BASIC", __func__, __LINE__);
if(gtp_cell_ap_enabled) {
loc_service_mask |= LOC_FEATURE_MASK_GTP_AP_CELL_BASIC;
}
else {
loc_service_mask |= LOC_FEATURE_MASK_GTP_MODEM_CELL_BASIC;
}
}
//Set service mask for GTP_WAA
if(strcmp(conf.feature_gtp_waa, "PREMIUM") == 0) {
LOC_LOGE("%s:%d]: Error: location feature GTP WAA does not support PREMIUM mode" \
" available modes are BASIC and DISABLED. Starting feature in BASIC mode",
__func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_GTP_WAA_BASIC;
}
else if(strcmp(conf.feature_gtp_waa, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting GTP WAA to mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_GTP_WAA_BASIC;
}
else if(strcmp(conf.feature_gtp_waa, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: GTP WAA DISABLED", __func__, __LINE__);
}
//conf file has a garbage value
else {
LOC_LOGE("%s:%d]: Unrecognized value for GTP WAA Mode."\
" Setting GTP WAA to default mode: DISABLED", __func__, __LINE__);
}
//Set service mask for SAP
if(strcmp(conf.feature_sap, "PREMIUM") == 0) {
LOC_LOGD("%s:%d]: Setting SAP to mode: PREMIUM", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_SAP_PREMIUM;
}
else if(strcmp(conf.feature_sap, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting SAP to mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_SAP_BASIC;
}
else if(strcmp(conf.feature_sap, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: Setting SAP to mode: DISABLED", __func__, __LINE__);
}
else {
LOC_LOGE("%s:%d]: Unrecognized value for SAP Mode."\
" Setting SAP to default mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_SAP_BASIC;
}
// Set service mask for ODCPI
if(strcmp(conf.feature_odcpi, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting ODCPI to mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_ODCPI;
}
else if(strcmp(conf.feature_odcpi, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: Setting ODCPI to mode: DISABLED", __func__, __LINE__);
}
else if(strcmp(conf.feature_odcpi, "PREMIUM") == 0) {
LOC_LOGD("%s:%d]: Unrecognized value for ODCPI mode."\
"Setting ODCPI to default mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_ODCPI;
}
// Set service mask for FREE_WIFI_SCAN_INJECT
if(strcmp(conf.feature_free_wifi_scan_inject, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting FREE_WIFI_SCAN_INJECT to mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_FREE_WIFI_SCAN_INJECT;
}
else if(strcmp(conf.feature_free_wifi_scan_inject, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: Setting FREE_WIFI_SCAN_INJECT to mode: DISABLED", __func__, __LINE__);
}
else if(strcmp(conf.feature_free_wifi_scan_inject, "PREMIUM") == 0) {
LOC_LOGD("%s:%d]: Unrecognized value for FREE_WIFI_SCAN_INJECT mode."\
"Setting FREE_WIFI_SCAN_INJECT to default mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_FREE_WIFI_SCAN_INJECT;
}
// Set service mask for SUPL_WIFI
if(strcmp(conf.feature_supl_wifi, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting SUPL_WIFI to mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_SUPL_WIFI;
}
else if(strcmp(conf.feature_supl_wifi, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: Setting SUPL_WIFI to mode: DISABLED", __func__, __LINE__);
}
else if(strcmp(conf.feature_supl_wifi, "PREMIUM") == 0) {
LOC_LOGD("%s:%d]: Unrecognized value for SUPL_WIFI mode."\
"Setting SUPL_WIFI to default mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_SUPL_WIFI;
}
// Set service mask for WIFI_SUPPLICANT_INFO
if(strcmp(conf.feature_wifi_supplicant_info, "BASIC") == 0) {
LOC_LOGD("%s:%d]: Setting WIFI_SUPPLICANT_INFO to mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_WIFI_SUPPLICANT_INFO;
}
else if(strcmp(conf.feature_wifi_supplicant_info, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: Setting WIFI_SUPPLICANT_INFO to mode: DISABLED", __func__, __LINE__);
}
else if(strcmp(conf.feature_wifi_supplicant_info, "PREMIUM") == 0) {
LOC_LOGD("%s:%d]: Unrecognized value for WIFI_SUPPLICANT_INFO mode."\
"Setting LOC_FEATURE_MASK_WIFI_SUPPLICANT_INFO to default mode: BASIC", __func__, __LINE__);
loc_service_mask |= LOC_FEATURE_MASK_WIFI_SUPPLICANT_INFO;
}
LOC_LOGD("%s:%d]: loc_service_mask: %x\n", __func__, __LINE__, loc_service_mask);
if((conf_fp = fopen(conf_file_name, "r")) == NULL) {
LOC_LOGE("%s:%d]: Error opening %s %s\n", __func__,
__LINE__, conf_file_name, strerror(errno));
ret = -1;
goto err;
}
//Parse through the file to find out how many processes are to be launched
proc_list_length = 0;
do {
conf.proc_name[0] = 0;
//Here note that the 3rd parameter is passed as 1.
//This is so that only the first parameter in the table which is "PROCESS_NAME"
//is read. We do not want to read the entire block of parameters at this time
//since we are only counting the number of processes to launch.
//Therefore, only counting the occurrences of PROCESS_NAME parameter
//should suffice
if(loc_read_conf_r(conf_fp, loc_process_conf_parameter_table, 1)) {
LOC_LOGE("%s:%d]: Unable to read conf file. Failing\n", __func__, __LINE__);
ret = -1;
goto err;
}
name_length=(int)strlen(conf.proc_name);
if(name_length) {
proc_list_length++;
LOC_LOGD("Process name:%s", conf.proc_name);
}
} while(name_length);
LOC_LOGD("Process cnt = %d", proc_list_length);
child_proc = (loc_process_info_s_type *)calloc(proc_list_length, sizeof(loc_process_info_s_type));
if(child_proc == NULL) {
LOC_LOGE("%s:%d]: ERROR: Malloc returned NULL\n", __func__, __LINE__);
ret = -1;
goto err;
}
//Move file descriptor to the beginning of the file
//so that the parameters can be read
rewind(conf_fp);
for(j=0; j<proc_list_length; j++) {
//Set defaults for all the child process structs
child_proc[j].proc_status = DISABLED;
memset(child_proc[j].group_list, 0, sizeof(child_proc[j].group_list));
config_mask=0;
if(loc_read_conf_r(conf_fp, loc_process_conf_parameter_table,
sizeof(loc_process_conf_parameter_table)/sizeof(loc_process_conf_parameter_table[0]))) {
LOC_LOGE("%s:%d]: Unable to read conf file. Failing\n", __func__, __LINE__);
ret = -1;
goto err;
}
name_length=(int)strlen(conf.proc_name);
group_list_length=(int)strlen(conf.group_list);
platform_length = (int)strlen(conf.platform_list);
baseband_length = (int)strlen(conf.baseband);
status_length = (int)strlen(conf.proc_status);
auto_platform_length = (int)strlen(conf.auto_platform);
if(!name_length || !group_list_length || !platform_length ||
!baseband_length || !status_length || !auto_platform_length) {
LOC_LOGE("%s:%d]: Error: i: %d; One of the parameters not specified in conf file",
__func__, __LINE__, i);
continue;
}
if(strcmp(conf.proc_status, "DISABLED") == 0) {
LOC_LOGD("%s:%d]: Process %s is disabled in conf file",
__func__, __LINE__, conf.proc_name);
child_proc[j].proc_status = DISABLED_FROM_CONF;
continue;
}
else if(strcmp(conf.proc_status, "ENABLED") == 0) {
LOC_LOGD("%s:%d]: Process %s is enabled in conf file",
__func__, __LINE__, conf.proc_name);
}
//Since strlcpy copies length-1 characters, we add 1 to name_length
if((name_length+1) > LOC_MAX_PARAM_STRING) {
LOC_LOGE("%s:%d]: i: %d; Length of name parameter too long. Max length: %d",
__func__, __LINE__, i, LOC_MAX_PARAM_STRING);
continue;
}
strlcpy(child_proc[j].name[0], conf.proc_name, sizeof (child_proc[j].name[0]));
child_proc[j].num_groups = 0;
ngroups = loc_util_split_string(conf.group_list, split_strings, MAX_NUM_STRINGS, ' ');
#ifdef __ANDROID__
for(i=0; i<ngroups; i++) {
struct passwd* pwd = getpwnam(split_strings[i]);
if (pwd) {
child_proc[j].group_list[i] = pwd->pw_gid;
child_proc[j].num_groups++;
LOC_LOGD("%s:%d]:Group %s = %d matches child_group: %d\n",
__func__, __LINE__, split_strings[i],
pwd->pw_gid,child_proc[j].group_list[i]);
}
}
#endif
nstrings = loc_util_split_string(conf.platform_list, split_strings, MAX_NUM_STRINGS, ' ');
if(strcmp("all", split_strings[0]) == 0) {
if (nstrings == 1 || (nstrings == 2 && (strcmp("exclude", split_strings[1]) == 0))) {
LOC_LOGD("%s:%d]: Enabled for all targets\n", __func__, __LINE__);
config_mask |= CONFIG_MASK_TARGET_ALL;
}
else if (nstrings > 2 && (strcmp("exclude", split_strings[1]) == 0)) {
config_mask |= CONFIG_MASK_TARGET_FOUND;
for (i=2; i<nstrings; i++) {
if(strcmp(platform_name, split_strings[i]) == 0) {
LOC_LOGD("%s:%d]: Disabled platform %s\n", __func__, __LINE__, platform_name);
config_mask &= ~CONFIG_MASK_TARGET_FOUND;
break;
}
}
}
}
else {
for(i=0; i<nstrings; i++) {
if(strcmp(platform_name, split_strings[i]) == 0) {
LOC_LOGD("%s:%d]: Matched platform: %s\n",
__func__, __LINE__, split_strings[i]);
config_mask |= CONFIG_MASK_TARGET_FOUND;
break;
}
}
}
nstrings = loc_util_split_string(conf.baseband, split_strings, MAX_NUM_STRINGS, ' ');
if(strcmp("all", split_strings[0]) == 0) {
if (nstrings == 1 || (nstrings == 2 && (strcmp("exclude", split_strings[1]) == 0))) {
LOC_LOGD("%s:%d]: Enabled for all basebands\n", __func__, __LINE__);
config_mask |= CONFIG_MASK_BASEBAND_ALL;
}
else if (nstrings > 2 && (strcmp("exclude", split_strings[1]) == 0)) {
config_mask |= CONFIG_MASK_BASEBAND_FOUND;
for (i=2; i<nstrings; i++) {
if(strcmp(baseband_name, split_strings[i]) == 0) {
LOC_LOGD("%s:%d]: Disabled band %s\n", __func__, __LINE__, baseband_name);
config_mask &= ~CONFIG_MASK_BASEBAND_FOUND;
break;
}
}
}
}
else {
for(i=0; i<nstrings; i++) {
if(strcmp(baseband_name, split_strings[i]) == 0) {
LOC_LOGD("%s:%d]: Matched baseband: %s\n",
__func__, __LINE__, split_strings[i]);
config_mask |= CONFIG_MASK_BASEBAND_FOUND;
break;
}
//Since ro.baseband is not a reliable source for detecting sglte
//the alternative is to read the SGLTE_TARGET parameter from gps.conf
//this parameter is read into conf_sglte_target
else if((strcmp("sglte", split_strings[i]) == 0 ) && conf.sglte_target) {
LOC_LOGD("%s:%d]: Matched baseband SGLTE\n", __func__, __LINE__);
config_mask |= CONFIG_MASK_BASEBAND_FOUND;
break;
}
}
}
nstrings = loc_util_split_string(conf.auto_platform, split_strings, MAX_NUM_STRINGS, ' ');
if(strcmp("all", split_strings[0]) == 0) {
LOC_LOGD("%s:%d]: Enabled for all auto platforms\n", __func__, __LINE__);
config_mask |= CONFIG_MASK_AUTOPLATFORM_ALL;
}
else {
for(i=0; i<nstrings; i++) {
if(strcmp(autoplatform_name, split_strings[i]) == 0) {
LOC_LOGD("%s:%d]: Matched auto platform: %s\n",
__func__, __LINE__, split_strings[i]);
config_mask |= CONFIG_MASK_AUTOPLATFORM_FOUND;
break;
}
}
}
if((config_mask & CONFIG_MASK_TARGET_CHECK) &&
(config_mask & CONFIG_MASK_BASEBAND_CHECK) &&
(config_mask & CONFIG_MASK_AUTOPLATFORM_CHECK) &&
(child_proc[j].proc_status != DISABLED_FROM_CONF)) {
//Set args
//The first argument passed through argv is usually the name of the
//binary when started from commandline.
//getopt() seems to ignore this first argument and hence we assign it
//to the process name for consistency with command line args
i = 0;
char* temp_arg = ('/' == child_proc[j].name[0][0]) ?
(strrchr(child_proc[j].name[0], '/') + 1) : child_proc[j].name[0];
strlcpy (child_proc[j].args[i++], temp_arg, sizeof (child_proc[j].args[i++]));
if(conf.premium_feature) {
if(conf.loc_feature_mask & loc_service_mask) {
LOC_LOGD("%s:%d]: Enabled. %s has service mask: %x\n",
__func__, __LINE__, child_proc[j].name[0], conf.loc_feature_mask);
child_proc[j].proc_status = ENABLED;
if(conf.loc_feature_mask &
(LOC_FEATURE_MASK_GTP_WIFI_BASIC | LOC_FEATURE_MASK_GTP_WIFI_PREMIUM)) {
if(loc_service_mask & LOC_FEATURE_MASK_GTP_WIFI_BASIC) {
strlcpy(child_proc[j].args[i++], arg_gtp_wifi,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_basic,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else if(loc_service_mask & LOC_FEATURE_MASK_GTP_WIFI_PREMIUM) {
strlcpy(child_proc[j].args[i++], arg_gtp_wifi,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_premium,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else
{
strlcpy(child_proc[j].args[i++], arg_gtp_wifi,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
}
if(conf.loc_feature_mask &
(LOC_FEATURE_MASK_GTP_CELL_BASIC | LOC_FEATURE_MASK_GTP_CELL_PREMIUM )) {
if(loc_service_mask & LOC_FEATURE_MASK_GTP_AP_CELL_BASIC){
strlcpy(child_proc[j].args[i++], arg_gtp_ap_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_basic,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_gtp_modem_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else if(loc_service_mask & LOC_FEATURE_MASK_GTP_AP_CELL_PREMIUM){
strlcpy(child_proc[j].args[i++], arg_gtp_ap_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_premium,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_gtp_modem_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else if(loc_service_mask & LOC_FEATURE_MASK_GTP_MODEM_CELL_BASIC) {
strlcpy(child_proc[j].args[i++], arg_gtp_modem_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_basic,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_gtp_ap_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else if(loc_service_mask & LOC_FEATURE_MASK_GTP_MODEM_CELL_PREMIUM) {
strlcpy(child_proc[j].args[i++], arg_gtp_modem_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_premium,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_gtp_ap_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else {
strlcpy(child_proc[j].args[i++], arg_gtp_ap_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_gtp_modem_cell,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
}
if(conf.loc_feature_mask &
(LOC_FEATURE_MASK_GTP_WAA_BASIC | LOC_FEATURE_MASK_GTP_WAA_PREMIUM)) {
if(loc_service_mask & LOC_FEATURE_MASK_GTP_WAA_BASIC) {
strlcpy(child_proc[j].args[i++], arg_gtp_waa,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_basic,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else if(loc_service_mask & LOC_FEATURE_MASK_GTP_WAA_PREMIUM) {
strlcpy(child_proc[j].args[i++], arg_gtp_waa,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_premium,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else
{
strlcpy(child_proc[j].args[i++], arg_gtp_waa,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
}
if(conf.loc_feature_mask &
(LOC_FEATURE_MASK_SAP_BASIC | LOC_FEATURE_MASK_SAP_PREMIUM)) {
if(loc_service_mask & LOC_FEATURE_MASK_SAP_BASIC) {
strlcpy(child_proc[j].args[i++], arg_sap,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_basic,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else if(loc_service_mask & LOC_FEATURE_MASK_SAP_PREMIUM) {
strlcpy(child_proc[j].args[i++], arg_sap,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_premium,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
else
{
strlcpy(child_proc[j].args[i++], arg_sap,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
strlcpy(child_proc[j].args[i++], arg_disabled,
LOC_PROCESS_MAX_ARG_STR_LENGTH);
}
}
IF_LOC_LOGD {
LOC_LOGD("%s:%d]: %s args\n", __func__, __LINE__, child_proc[j].name[0]);
for(unsigned int k=0; k<LOC_PROCESS_MAX_NUM_ARGS; k++) {
if(child_proc[j].args[k][0] != '\0') {
LOC_LOGD("%s:%d]: k: %d, %s\n", __func__, __LINE__, k,
child_proc[j].args[k]);
}
}
LOC_LOGD("%s:%d]: \n", __func__, __LINE__);
}
}
else {
LOC_LOGD("%s:%d]: Disabled. %s has service mask: %x \n",
__func__, __LINE__, child_proc[j].name[0], conf.loc_feature_mask);
}
}
else {
LOC_LOGD("%s:%d]: %s not a premium feature. Enabled\n",
__func__, __LINE__, child_proc[j].name[0]);
child_proc[j].proc_status = ENABLED;
}
/*Fill up the remaining arguments from configuration file*/
LOC_LOGD("%s] Parsing Process_Arguments from Configuration: %s \n",
__func__, conf.proc_argument);
if(0 != conf.proc_argument[0])
{
/**************************************
** conf_proc_argument is shared by all the programs getting launched,
** hence copy to process specific argument string and parse the same.
***************************************/
strlcpy(child_proc[j].argumentString, conf.proc_argument,
sizeof(child_proc[j].argumentString));
char *temp_args[LOC_PROCESS_MAX_NUM_ARGS];
memset (temp_args, 0, sizeof (temp_args));
loc_util_split_string(child_proc[j].argumentString, &temp_args[i],
(LOC_PROCESS_MAX_NUM_ARGS - i), ' ');
// copy argument from the pointer to the memory
for (unsigned int index = i; index < LOC_PROCESS_MAX_NUM_ARGS; index++) {
if (temp_args[index] == NULL) {
break;
}
strlcpy (child_proc[j].args[index], temp_args[index],
sizeof (child_proc[j].args[index]));
}
}
}
else {
LOC_LOGD("%s:%d]: Process %s is disabled\n",
__func__, __LINE__, child_proc[j].name[0]);
}
}
err:
if (conf_fp) {
fclose(conf_fp);
}
if (ret != 0) {
LOC_LOGE("%s:%d]: ret: %d", __func__, __LINE__, ret);
if (child_proc) {
free (child_proc);
child_proc = nullptr;
}
*process_count_ptr = 0;
*process_info_table_ptr = nullptr;
}
else {
*process_count_ptr = proc_list_length;
*process_info_table_ptr = child_proc;
}
return ret;
}