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gerrit.twrp.me / android_bootable_recovery / b58e6d253a90648293147b2f30596d8821f11abd / . / data.cpp
blob: c611e78fa2aaf186ac4500907cba2869b75d95c4 [file] [log] [blame]
/*
Copyright 2012 bigbiff/Dees_Troy TeamWin
This file is part of TWRP/TeamWin Recovery Project.
TWRP is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
TWRP is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with TWRP. If not, see <http://www.gnu.org/licenses/>.
*/
#include <linux/input.h>
#include <pthread.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <sys/ioctl.h>
#include <time.h>
#include <unistd.h>
#include <stdlib.h>
#include <string>
#include <utility>
#include <map>
#include <fstream>
#include <sstream>
#include "variables.h"
#include "data.hpp"
#include "partitions.hpp"
#include "twrp-functions.hpp"
#ifndef TW_NO_SCREEN_TIMEOUT
#include "gui/blanktimer.hpp"
#endif
#ifdef TW_USE_MODEL_HARDWARE_ID_FOR_DEVICE_ID
#include "cutils/properties.h"
#endif
extern "C"
{
#include "twcommon.h"
#include "data.h"
#include "gui/pages.h"
void gui_notifyVarChange(const char *name, const char* value);
}
#define FILE_VERSION 0x00010001
using namespace std;
map<string, DataManager::TStrIntPair> DataManager::mValues;
map<string, string> DataManager::mConstValues;
string DataManager::mBackingFile;
int DataManager::mInitialized = 0;
#ifndef TW_NO_SCREEN_TIMEOUT
extern blanktimer blankTimer;
#endif
// Device ID functions
void DataManager::sanitize_device_id(char* device_id) {
const char* whitelist ="abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890-._";
char str[50];
char* c = str;
strcpy(str, device_id);
memset(device_id, 0, sizeof(device_id));
while (*c) {
if (strchr(whitelist, *c))
strncat(device_id, c, 1);
c++;
}
return;
}
#define CMDLINE_SERIALNO "androidboot.serialno="
#define CMDLINE_SERIALNO_LEN (strlen(CMDLINE_SERIALNO))
#define CPUINFO_SERIALNO "Serial"
#define CPUINFO_SERIALNO_LEN (strlen(CPUINFO_SERIALNO))
#define CPUINFO_HARDWARE "Hardware"
#define CPUINFO_HARDWARE_LEN (strlen(CPUINFO_HARDWARE))
void DataManager::get_device_id(void) {
FILE *fp;
char line[2048];
char hardware_id[32], device_id[64];
char* token;
// Assign a blank device_id to start with
device_id[0] = 0;
#ifdef TW_USE_MODEL_HARDWARE_ID_FOR_DEVICE_ID
// Now we'll use product_model_hardwareid as device id
char model_id[PROPERTY_VALUE_MAX];
property_get("ro.product.model", model_id, "error");
if (strcmp(model_id,"error") != 0) {
LOGINFO("=> product model: '%s'\n", model_id);
// Replace spaces with underscores
for(int i = 0; i < strlen(model_id); i++) {
if(model_id[i] == ' ')
model_id[i] = '_';
}
strcpy(device_id, model_id);
if (hardware_id[0] != 0) {
strcat(device_id, "_");
strcat(device_id, hardware_id);
}
sanitize_device_id((char *)device_id);
mConstValues.insert(make_pair("device_id", device_id));
LOGINFO("=> using device id: '%s'\n", device_id);
return;
}
#endif
#ifndef TW_FORCE_CPUINFO_FOR_DEVICE_ID
// First, try the cmdline to see if the serial number was supplied
fp = fopen("/proc/cmdline", "rt");
if (fp != NULL)
{
// First step, read the line. For cmdline, it's one long line
fgets(line, sizeof(line), fp);
fclose(fp);
// Now, let's tokenize the string
token = strtok(line, " ");
// Let's walk through the line, looking for the CMDLINE_SERIALNO token
while (token)
{
// We don't need to verify the length of token, because if it's too short, it will mismatch CMDLINE_SERIALNO at the NULL
if (memcmp(token, CMDLINE_SERIALNO, CMDLINE_SERIALNO_LEN) == 0)
{
// We found the serial number!
strcpy(device_id, token + CMDLINE_SERIALNO_LEN);
sanitize_device_id((char *)device_id);
mConstValues.insert(make_pair("device_id", device_id));
return;
}
token = strtok(NULL, " ");
}
}
#endif
// Now we'll try cpuinfo for a serial number
fp = fopen("/proc/cpuinfo", "rt");
if (fp != NULL)
{
while (fgets(line, sizeof(line), fp) != NULL) { // First step, read the line.
if (memcmp(line, CPUINFO_SERIALNO, CPUINFO_SERIALNO_LEN) == 0) // check the beginning of the line for "Serial"
{
// We found the serial number!
token = line + CPUINFO_SERIALNO_LEN; // skip past "Serial"
while ((*token > 0 && *token <= 32 ) || *token == ':') token++; // skip over all spaces and the colon
if (*token != 0) {
token[30] = 0;
if (token[strlen(token)-1] == 10) { // checking for endline chars and dropping them from the end of the string if needed
memset(device_id, 0, sizeof(device_id));
strncpy(device_id, token, strlen(token) - 1);
} else {
strcpy(device_id, token);
}
LOGINFO("=> serial from cpuinfo: '%s'\n", device_id);
fclose(fp);
sanitize_device_id((char *)device_id);
mConstValues.insert(make_pair("device_id", device_id));
return;
}
} else if (memcmp(line, CPUINFO_HARDWARE, CPUINFO_HARDWARE_LEN) == 0) {// We're also going to look for the hardware line in cpuinfo and save it for later in case we don't find the device ID
// We found the hardware ID
token = line + CPUINFO_HARDWARE_LEN; // skip past "Hardware"
while ((*token > 0 && *token <= 32 ) || *token == ':') token++; // skip over all spaces and the colon
if (*token != 0) {
token[30] = 0;
if (token[strlen(token)-1] == 10) { // checking for endline chars and dropping them from the end of the string if needed
memset(hardware_id, 0, sizeof(hardware_id));
strncpy(hardware_id, token, strlen(token) - 1);
} else {
strcpy(hardware_id, token);
}
LOGINFO("=> hardware id from cpuinfo: '%s'\n", hardware_id);
}
}
}
fclose(fp);
}
if (hardware_id[0] != 0) {
LOGINFO("\nusing hardware id for device id: '%s'\n", hardware_id);
strcpy(device_id, hardware_id);
sanitize_device_id((char *)device_id);
mConstValues.insert(make_pair("device_id", device_id));
return;
}
strcpy(device_id, "serialno");
LOGERR("=> device id not found, using '%s'.", device_id);
mConstValues.insert(make_pair("device_id", device_id));
return;
}
int DataManager::ResetDefaults()
{
mValues.clear();
mConstValues.clear();
SetDefaultValues();
return 0;
}
int DataManager::LoadValues(const string filename)
{
string str, dev_id;
if (!mInitialized)
SetDefaultValues();
GetValue("device_id", dev_id);
// Save off the backing file for set operations
mBackingFile = filename;
// Read in the file, if possible
FILE* in = fopen(filename.c_str(), "rb");
if (!in) {
LOGINFO("Settings file '%s' not found.\n", filename.c_str());
return 0;
} else {
LOGINFO("Loading settings from '%s'.\n", filename.c_str());
}
int file_version;
if (fread(&file_version, 1, sizeof(int), in) != sizeof(int)) goto error;
if (file_version != FILE_VERSION) goto error;
while (!feof(in))
{
string Name;
string Value;
unsigned short length;
char array[512];
if (fread(&length, 1, sizeof(unsigned short), in) != sizeof(unsigned short)) goto error;
if (length >= 512) goto error;
if (fread(array, 1, length, in) != length) goto error;
Name = array;
if (fread(&length, 1, sizeof(unsigned short), in) != sizeof(unsigned short)) goto error;
if (length >= 512) goto error;
if (fread(array, 1, length, in) != length) goto error;
Value = array;
map<string, TStrIntPair>::iterator pos;
pos = mValues.find(Name);
if (pos != mValues.end())
{
pos->second.first = Value;
pos->second.second = 1;
}
else
mValues.insert(TNameValuePair(Name, TStrIntPair(Value, 1)));
#ifndef TW_NO_SCREEN_TIMEOUT
if (Name == "tw_screen_timeout_secs")
blankTimer.setTime(atoi(Value.c_str()));
#endif
}
error:
fclose(in);
string current = GetCurrentStoragePath();
string settings = GetSettingsStoragePath();
if (current != settings && !PartitionManager.Mount_By_Path(current, false)) {
SetValue("tw_storage_path", settings);
} else {
SetBackupFolder();
}
return 0;
}
int DataManager::Flush()
{
return SaveValues();
}
int DataManager::SaveValues()
{
if (mBackingFile.empty())
return -1;
string mount_path = GetSettingsStoragePath();
PartitionManager.Mount_By_Path(mount_path.c_str(), 1);
FILE* out = fopen(mBackingFile.c_str(), "wb");
if (!out)
return -1;
int file_version = FILE_VERSION;
fwrite(&file_version, 1, sizeof(int), out);
map<string, TStrIntPair>::iterator iter;
for (iter = mValues.begin(); iter != mValues.end(); ++iter)
{
// Save only the persisted data
if (iter->second.second != 0)
{
unsigned short length = (unsigned short) iter->first.length() + 1;
fwrite(&length, 1, sizeof(unsigned short), out);
fwrite(iter->first.c_str(), 1, length, out);
length = (unsigned short) iter->second.first.length() + 1;
fwrite(&length, 1, sizeof(unsigned short), out);
fwrite(iter->second.first.c_str(), 1, length, out);
}
}
fclose(out);
return 0;
}
int DataManager::GetValue(const string varName, string& value)
{
string localStr = varName;
if (!mInitialized)
SetDefaultValues();
// Strip off leading and trailing '%' if provided
if (localStr.length() > 2 && localStr[0] == '%' && localStr[localStr.length()-1] == '%')
{
localStr.erase(0, 1);
localStr.erase(localStr.length() - 1, 1);
}
// Handle magic values
if (GetMagicValue(localStr, value) == 0)
return 0;
map<string, string>::iterator constPos;
constPos = mConstValues.find(localStr);
if (constPos != mConstValues.end())
{
value = constPos->second;
return 0;
}
map<string, TStrIntPair>::iterator pos;
pos = mValues.find(localStr);
if (pos == mValues.end())
return -1;
value = pos->second.first;
return 0;
}
int DataManager::GetValue(const string varName, int& value)
{
string data;
if (GetValue(varName,data) != 0)
return -1;
value = atoi(data.c_str());
return 0;
}
int DataManager::GetValue(const string varName, float& value)
{
string data;
if (GetValue(varName,data) != 0)
return -1;
value = atof(data.c_str());
return 0;
}
unsigned long long DataManager::GetValue(const string varName, unsigned long long& value)
{
string data;
if (GetValue(varName,data) != 0)
return -1;
value = strtoull(data.c_str(), NULL, 10);
return 0;
}
// This is a dangerous function. It will create the value if it doesn't exist so it has a valid c_str
string& DataManager::GetValueRef(const string varName)
{
if (!mInitialized)
SetDefaultValues();
map<string, string>::iterator constPos;
constPos = mConstValues.find(varName);
if (constPos != mConstValues.end())
return constPos->second;
map<string, TStrIntPair>::iterator pos;
pos = mValues.find(varName);
if (pos == mValues.end())
pos = (mValues.insert(TNameValuePair(varName, TStrIntPair("", 0)))).first;
return pos->second.first;
}
// This function will return an empty string if the value doesn't exist
string DataManager::GetStrValue(const string varName)
{
string retVal;
GetValue(varName, retVal);
return retVal;
}
// This function will return 0 if the value doesn't exist
int DataManager::GetIntValue(const string varName)
{
string retVal;
GetValue(varName, retVal);
return atoi(retVal.c_str());
}
int DataManager::SetValue(const string varName, string value, int persist /* = 0 */)
{
if (!mInitialized)
SetDefaultValues();
// Don't allow empty values or numerical starting values
if (varName.empty() || (varName[0] >= '0' && varName[0] <= '9'))
return -1;
map<string, string>::iterator constChk;
constChk = mConstValues.find(varName);
if (constChk != mConstValues.end())
return -1;
map<string, TStrIntPair>::iterator pos;
pos = mValues.find(varName);
if (pos == mValues.end())
pos = (mValues.insert(TNameValuePair(varName, TStrIntPair(value, persist)))).first;
else
pos->second.first = value;
if (pos->second.second != 0)
SaveValues();
#ifndef TW_NO_SCREEN_TIMEOUT
if (varName == "tw_screen_timeout_secs") {
blankTimer.setTime(atoi(value.c_str()));
} else
#endif
if (varName == "tw_storage_path") {
SetBackupFolder();
}
gui_notifyVarChange(varName.c_str(), value.c_str());
return 0;
}
int DataManager::SetValue(const string varName, int value, int persist /* = 0 */)
{
ostringstream valStr;
valStr << value;
if (varName == "tw_use_external_storage") {
string str;
if (GetIntValue(TW_HAS_DUAL_STORAGE) == 1) {
if (value == 0) {
str = GetStrValue(TW_INTERNAL_PATH);
} else {
str = GetStrValue(TW_EXTERNAL_PATH);
}
} else if (GetIntValue(TW_HAS_INTERNAL) == 1)
str = GetStrValue(TW_INTERNAL_PATH);
else
str = GetStrValue(TW_EXTERNAL_PATH);
SetValue("tw_storage_path", str);
}
return SetValue(varName, valStr.str(), persist);
}
int DataManager::SetValue(const string varName, float value, int persist /* = 0 */)
{
ostringstream valStr;
valStr << value;
return SetValue(varName, valStr.str(), persist);;
}
int DataManager::SetValue(const string varName, unsigned long long value, int persist /* = 0 */)
{
ostringstream valStr;
valStr << value;
return SetValue(varName, valStr.str(), persist);
}
int DataManager::SetProgress(float Fraction) {
return SetValue("ui_progress", (float) (Fraction * 100.0));
}
int DataManager::ShowProgress(float Portion, float Seconds)
{
float Starting_Portion;
GetValue("ui_progress_portion", Starting_Portion);
if (SetValue("ui_progress_portion", (float)(Portion * 100.0) + Starting_Portion) != 0)
return -1;
if (SetValue("ui_progress_frames", Seconds * 30) != 0)
return -1;
return 0;
}
void DataManager::DumpValues()
{
map<string, TStrIntPair>::iterator iter;
gui_print("Data Manager dump - Values with leading X are persisted.\n");
for (iter = mValues.begin(); iter != mValues.end(); ++iter)
gui_print("%c %s=%s\n", iter->second.second ? 'X' : ' ', iter->first.c_str(), iter->second.first.c_str());
}
void DataManager::update_tz_environment_variables(void)
{
setenv("TZ", DataManager_GetStrValue(TW_TIME_ZONE_VAR), 1);
tzset();
}
void DataManager::SetBackupFolder()
{
string str = GetCurrentStoragePath();
TWPartition* partition = PartitionManager.Find_Partition_By_Path(str);
str += "/TWRP/BACKUPS/";
string dev_id;
GetValue("device_id", dev_id);
str += dev_id;
LOGINFO("Backup folder set to '%s'\n", str.c_str());
SetValue(TW_BACKUPS_FOLDER_VAR, str, 0);
if (partition != NULL) {
SetValue("tw_storage_display_name", partition->Storage_Name);
char free_space[255];
sprintf(free_space, "%llu", partition->Free / 1024 / 1024);
SetValue("tw_storage_free_size", free_space);
string zip_path, zip_root, storage_path;
GetValue(TW_ZIP_LOCATION_VAR, zip_path);
if (partition->Has_Data_Media)
storage_path = partition->Symlink_Mount_Point;
else
storage_path = partition->Storage_Path;
if (zip_path.size() < storage_path.size()) {
SetValue(TW_ZIP_LOCATION_VAR, storage_path);
} else {
zip_root = TWFunc::Get_Root_Path(zip_path);
if (zip_root != storage_path) {
LOGINFO("DataManager::SetBackupFolder zip path was %s changing to %s, %s\n", zip_path.c_str(), storage_path.c_str(), zip_root.c_str());
SetValue(TW_ZIP_LOCATION_VAR, storage_path);
}
}
} else {
if (PartitionManager.Fstab_Processed() != 0)
LOGERR("Storage partition '%s' not found\n", str.c_str());
}
}
void DataManager::SetDefaultValues()
{
string str, path;
get_device_id();
mInitialized = 1;
mConstValues.insert(make_pair("true", "1"));
mConstValues.insert(make_pair("false", "0"));
mConstValues.insert(make_pair(TW_VERSION_VAR, TW_VERSION_STR));
mValues.insert(make_pair("tw_storage_path", make_pair("/", 1)));
#ifdef TW_FORCE_CPUINFO_FOR_DEVICE_ID
printf("TW_FORCE_CPUINFO_FOR_DEVICE_ID := true\n");
#endif
#ifdef BOARD_HAS_NO_REAL_SDCARD
printf("BOARD_HAS_NO_REAL_SDCARD := true\n");
mConstValues.insert(make_pair(TW_ALLOW_PARTITION_SDCARD, "0"));
#else
mConstValues.insert(make_pair(TW_ALLOW_PARTITION_SDCARD, "1"));
#endif
#ifdef TW_INCLUDE_DUMLOCK
printf("TW_INCLUDE_DUMLOCK := true\n");
mConstValues.insert(make_pair(TW_SHOW_DUMLOCK, "1"));
#else
mConstValues.insert(make_pair(TW_SHOW_DUMLOCK, "0"));
#endif
#ifdef TW_INTERNAL_STORAGE_PATH
LOGINFO("Internal path defined: '%s'\n", EXPAND(TW_INTERNAL_STORAGE_PATH));
mValues.insert(make_pair(TW_USE_EXTERNAL_STORAGE, make_pair("0", 1)));
mConstValues.insert(make_pair(TW_HAS_INTERNAL, "1"));
mValues.insert(make_pair(TW_INTERNAL_PATH, make_pair(EXPAND(TW_INTERNAL_STORAGE_PATH), 0)));
mConstValues.insert(make_pair(TW_INTERNAL_LABEL, EXPAND(TW_INTERNAL_STORAGE_MOUNT_POINT)));
path.clear();
path = "/";
path += EXPAND(TW_INTERNAL_STORAGE_MOUNT_POINT);
mConstValues.insert(make_pair(TW_INTERNAL_MOUNT, path));
#ifdef TW_EXTERNAL_STORAGE_PATH
LOGINFO("External path defined: '%s'\n", EXPAND(TW_EXTERNAL_STORAGE_PATH));
// Device has dual storage
mConstValues.insert(make_pair(TW_HAS_DUAL_STORAGE, "1"));
mConstValues.insert(make_pair(TW_HAS_EXTERNAL, "1"));
mConstValues.insert(make_pair(TW_EXTERNAL_PATH, EXPAND(TW_EXTERNAL_STORAGE_PATH)));
mConstValues.insert(make_pair(TW_EXTERNAL_LABEL, EXPAND(TW_EXTERNAL_STORAGE_MOUNT_POINT)));
mValues.insert(make_pair(TW_ZIP_EXTERNAL_VAR, make_pair(EXPAND(TW_EXTERNAL_STORAGE_PATH), 1)));
path.clear();
path = "/";
path += EXPAND(TW_EXTERNAL_STORAGE_MOUNT_POINT);
mConstValues.insert(make_pair(TW_EXTERNAL_MOUNT, path));
if (strcmp(EXPAND(TW_EXTERNAL_STORAGE_PATH), "/sdcard") == 0) {
mValues.insert(make_pair(TW_ZIP_INTERNAL_VAR, make_pair("/emmc", 1)));
} else {
mValues.insert(make_pair(TW_ZIP_INTERNAL_VAR, make_pair("/sdcard", 1)));
}
#else
LOGINFO("Just has internal storage.\n");
// Just has internal storage
mValues.insert(make_pair(TW_ZIP_INTERNAL_VAR, make_pair("/sdcard", 1)));
mConstValues.insert(make_pair(TW_HAS_DUAL_STORAGE, "0"));
mConstValues.insert(make_pair(TW_HAS_EXTERNAL, "0"));
mConstValues.insert(make_pair(TW_EXTERNAL_PATH, "0"));
mConstValues.insert(make_pair(TW_EXTERNAL_MOUNT, "0"));
mConstValues.insert(make_pair(TW_EXTERNAL_LABEL, "0"));
#endif
#else
#ifdef RECOVERY_SDCARD_ON_DATA
#ifdef TW_EXTERNAL_STORAGE_PATH
LOGINFO("Has /data/media + external storage in '%s'\n", EXPAND(TW_EXTERNAL_STORAGE_PATH));
// Device has /data/media + external storage
mConstValues.insert(make_pair(TW_HAS_DUAL_STORAGE, "1"));
#else
LOGINFO("Single storage only -- data/media.\n");
// Device just has external storage
mConstValues.insert(make_pair(TW_HAS_DUAL_STORAGE, "0"));
mConstValues.insert(make_pair(TW_HAS_EXTERNAL, "0"));
#endif
#else
LOGINFO("Single storage only.\n");
// Device just has external storage
mConstValues.insert(make_pair(TW_HAS_DUAL_STORAGE, "0"));
#endif
#ifdef RECOVERY_SDCARD_ON_DATA
LOGINFO("Device has /data/media defined.\n");
// Device has /data/media
mConstValues.insert(make_pair(TW_USE_EXTERNAL_STORAGE, "0"));
mConstValues.insert(make_pair(TW_HAS_INTERNAL, "1"));
mValues.insert(make_pair(TW_INTERNAL_PATH, make_pair("/data/media", 0)));
mConstValues.insert(make_pair(TW_INTERNAL_MOUNT, "/data"));
mConstValues.insert(make_pair(TW_INTERNAL_LABEL, "data"));
#ifdef TW_EXTERNAL_STORAGE_PATH
if (strcmp(EXPAND(TW_EXTERNAL_STORAGE_PATH), "/sdcard") == 0) {
mValues.insert(make_pair(TW_ZIP_INTERNAL_VAR, make_pair("/emmc", 1)));
} else {
mValues.insert(make_pair(TW_ZIP_INTERNAL_VAR, make_pair("/sdcard", 1)));
}
#else
mValues.insert(make_pair(TW_ZIP_INTERNAL_VAR, make_pair("/sdcard", 1)));
#endif
#else
LOGINFO("No internal storage defined.\n");
// Device has no internal storage
mConstValues.insert(make_pair(TW_USE_EXTERNAL_STORAGE, "1"));
mConstValues.insert(make_pair(TW_HAS_INTERNAL, "0"));
mValues.insert(make_pair(TW_INTERNAL_PATH, make_pair("0", 0)));
mConstValues.insert(make_pair(TW_INTERNAL_MOUNT, "0"));
mConstValues.insert(make_pair(TW_INTERNAL_LABEL, "0"));
#endif
#ifdef TW_EXTERNAL_STORAGE_PATH
LOGINFO("Only external path defined: '%s'\n", EXPAND(TW_EXTERNAL_STORAGE_PATH));
// External has custom definition
mConstValues.insert(make_pair(TW_HAS_EXTERNAL, "1"));
mConstValues.insert(make_pair(TW_EXTERNAL_PATH, EXPAND(TW_EXTERNAL_STORAGE_PATH)));
mConstValues.insert(make_pair(TW_EXTERNAL_LABEL, EXPAND(TW_EXTERNAL_STORAGE_MOUNT_POINT)));
mValues.insert(make_pair(TW_ZIP_EXTERNAL_VAR, make_pair(EXPAND(TW_EXTERNAL_STORAGE_PATH), 1)));
path.clear();
path = "/";
path += EXPAND(TW_EXTERNAL_STORAGE_MOUNT_POINT);
mConstValues.insert(make_pair(TW_EXTERNAL_MOUNT, path));
#else
#ifndef RECOVERY_SDCARD_ON_DATA
LOGINFO("No storage defined, defaulting to /sdcard.\n");
// Standard external definition
mConstValues.insert(make_pair(TW_HAS_EXTERNAL, "1"));
mConstValues.insert(make_pair(TW_EXTERNAL_PATH, "/sdcard"));
mConstValues.insert(make_pair(TW_EXTERNAL_MOUNT, "/sdcard"));
mConstValues.insert(make_pair(TW_EXTERNAL_LABEL, "sdcard"));
mValues.insert(make_pair(TW_ZIP_EXTERNAL_VAR, make_pair("/sdcard", 1)));
#endif
#endif
#endif
#ifdef TW_DEFAULT_EXTERNAL_STORAGE
SetValue(TW_USE_EXTERNAL_STORAGE, 1);
printf("TW_DEFAULT_EXTERNAL_STORAGE := true\n");
#endif
#ifdef RECOVERY_SDCARD_ON_DATA
if (PartitionManager.Mount_By_Path("/data", false) && TWFunc::Path_Exists("/data/media/0"))
SetValue(TW_INTERNAL_PATH, "/data/media/0");
#endif
str = GetCurrentStoragePath();
#ifdef RECOVERY_SDCARD_ON_DATA
#ifndef TW_EXTERNAL_STORAGE_PATH
SetValue(TW_ZIP_LOCATION_VAR, "/sdcard", 1);
#else
if (strcmp(EXPAND(TW_EXTERNAL_STORAGE_PATH), "/sdcard") == 0) {
SetValue(TW_ZIP_LOCATION_VAR, "/emmc", 1);
} else {
SetValue(TW_ZIP_LOCATION_VAR, "/sdcard", 1);
}
#endif
#else
SetValue(TW_ZIP_LOCATION_VAR, str.c_str(), 1);
#endif
str += "/TWRP/BACKUPS/";
string dev_id;
GetValue("device_id", dev_id);
str += dev_id;
SetValue(TW_BACKUPS_FOLDER_VAR, str, 0);
#ifdef SP1_DISPLAY_NAME
printf("SP1_DISPLAY_NAME := %s\n", EXPAND(SP1_DISPLAY_NAME));
if (strlen(EXPAND(SP1_DISPLAY_NAME))) mConstValues.insert(make_pair(TW_SP1_PARTITION_NAME_VAR, EXPAND(SP1_DISPLAY_NAME)));
#else
#ifdef SP1_NAME
printf("SP1_NAME := %s\n", EXPAND(SP1_NAME));
if (strlen(EXPAND(SP1_NAME))) mConstValues.insert(make_pair(TW_SP1_PARTITION_NAME_VAR, EXPAND(SP1_NAME)));
#endif
#endif
#ifdef SP2_DISPLAY_NAME
printf("SP2_DISPLAY_NAME := %s\n", EXPAND(SP2_DISPLAY_NAME));
if (strlen(EXPAND(SP2_DISPLAY_NAME))) mConstValues.insert(make_pair(TW_SP2_PARTITION_NAME_VAR, EXPAND(SP2_DISPLAY_NAME)));
#else
#ifdef SP2_NAME
printf("SP2_NAME := %s\n", EXPAND(SP2_NAME));
if (strlen(EXPAND(SP2_NAME))) mConstValues.insert(make_pair(TW_SP2_PARTITION_NAME_VAR, EXPAND(SP2_NAME)));
#endif
#endif
#ifdef SP3_DISPLAY_NAME
printf("SP3_DISPLAY_NAME := %s\n", EXPAND(SP3_DISPLAY_NAME));
if (strlen(EXPAND(SP3_DISPLAY_NAME))) mConstValues.insert(make_pair(TW_SP3_PARTITION_NAME_VAR, EXPAND(SP3_DISPLAY_NAME)));
#else
#ifdef SP3_NAME
printf("SP3_NAME := %s\n", EXPAND(SP3_NAME));
if (strlen(EXPAND(SP3_NAME))) mConstValues.insert(make_pair(TW_SP3_PARTITION_NAME_VAR, EXPAND(SP3_NAME)));
#endif
#endif
mConstValues.insert(make_pair(TW_REBOOT_SYSTEM, "1"));
#ifdef TW_NO_REBOOT_RECOVERY
printf("TW_NO_REBOOT_RECOVERY := true\n");
mConstValues.insert(make_pair(TW_REBOOT_RECOVERY, "0"));
#else
mConstValues.insert(make_pair(TW_REBOOT_RECOVERY, "1"));
#endif
mConstValues.insert(make_pair(TW_REBOOT_POWEROFF, "1"));
#ifdef TW_NO_REBOOT_BOOTLOADER
printf("TW_NO_REBOOT_BOOTLOADER := true\n");
mConstValues.insert(make_pair(TW_REBOOT_BOOTLOADER, "0"));
#else
mConstValues.insert(make_pair(TW_REBOOT_BOOTLOADER, "1"));
#endif
#ifdef RECOVERY_SDCARD_ON_DATA
printf("RECOVERY_SDCARD_ON_DATA := true\n");
mConstValues.insert(make_pair(TW_HAS_DATA_MEDIA, "1"));
#else
mConstValues.insert(make_pair(TW_HAS_DATA_MEDIA, "0"));
#endif
#ifdef TW_NO_BATT_PERCENT
printf("TW_NO_BATT_PERCENT := true\n");
mConstValues.insert(make_pair(TW_NO_BATTERY_PERCENT, "1"));
#else
mConstValues.insert(make_pair(TW_NO_BATTERY_PERCENT, "0"));
#endif
#ifdef TW_CUSTOM_POWER_BUTTON
printf("TW_POWER_BUTTON := %s\n", EXPAND(TW_CUSTOM_POWER_BUTTON));
mConstValues.insert(make_pair(TW_POWER_BUTTON, EXPAND(TW_CUSTOM_POWER_BUTTON)));
#else
mConstValues.insert(make_pair(TW_POWER_BUTTON, "0"));
#endif
#ifdef TW_ALWAYS_RMRF
printf("TW_ALWAYS_RMRF := true\n");
mConstValues.insert(make_pair(TW_RM_RF_VAR, "1"));
#endif
#ifdef TW_NEVER_UNMOUNT_SYSTEM
printf("TW_NEVER_UNMOUNT_SYSTEM := true\n");
mConstValues.insert(make_pair(TW_DONT_UNMOUNT_SYSTEM, "1"));
#else
mConstValues.insert(make_pair(TW_DONT_UNMOUNT_SYSTEM, "0"));
#endif
#ifdef TW_NO_USB_STORAGE
printf("TW_NO_USB_STORAGE := true\n");
mConstValues.insert(make_pair(TW_HAS_USB_STORAGE, "0"));
#else
char lun_file[255];
string Lun_File_str = CUSTOM_LUN_FILE;
size_t found = Lun_File_str.find("%");
if (found != string::npos) {
sprintf(lun_file, CUSTOM_LUN_FILE, 0);
Lun_File_str = lun_file;
}
if (!TWFunc::Path_Exists(Lun_File_str)) {
LOGINFO("Lun file '%s' does not exist, USB storage mode disabled\n", Lun_File_str.c_str());
mConstValues.insert(make_pair(TW_HAS_USB_STORAGE, "0"));
} else {
LOGINFO("Lun file '%s'\n", Lun_File_str.c_str());
mConstValues.insert(make_pair(TW_HAS_USB_STORAGE, "1"));
}
#endif
#ifdef TW_INCLUDE_INJECTTWRP
printf("TW_INCLUDE_INJECTTWRP := true\n");
mConstValues.insert(make_pair(TW_HAS_INJECTTWRP, "1"));
mValues.insert(make_pair(TW_INJECT_AFTER_ZIP, make_pair("1", 1)));
#else
mConstValues.insert(make_pair(TW_HAS_INJECTTWRP, "0"));
mValues.insert(make_pair(TW_INJECT_AFTER_ZIP, make_pair("0", 1)));
#endif
#ifdef TW_HAS_DOWNLOAD_MODE
printf("TW_HAS_DOWNLOAD_MODE := true\n");
mConstValues.insert(make_pair(TW_DOWNLOAD_MODE, "1"));
#endif
#ifdef TW_INCLUDE_CRYPTO
mConstValues.insert(make_pair(TW_HAS_CRYPTO, "1"));
printf("TW_INCLUDE_CRYPTO := true\n");
#endif
#ifdef TW_SDEXT_NO_EXT4
printf("TW_SDEXT_NO_EXT4 := true\n");
mConstValues.insert(make_pair(TW_SDEXT_DISABLE_EXT4, "1"));
#else
mConstValues.insert(make_pair(TW_SDEXT_DISABLE_EXT4, "0"));
#endif
#ifdef TW_HAS_NO_BOOT_PARTITION
mValues.insert(make_pair("tw_backup_list", make_pair("/system;/data;", 1)));
#else
mValues.insert(make_pair("tw_backup_list", make_pair("/system;/data;/boot;", 1)));
#endif
mConstValues.insert(make_pair(TW_MIN_SYSTEM_VAR, TW_MIN_SYSTEM_SIZE));
mValues.insert(make_pair(TW_BACKUP_NAME, make_pair("(Auto Generate)", 0)));
mValues.insert(make_pair(TW_BACKUP_SYSTEM_VAR, make_pair("1", 1)));
mValues.insert(make_pair(TW_BACKUP_DATA_VAR, make_pair("1", 1)));
mValues.insert(make_pair(TW_BACKUP_BOOT_VAR, make_pair("1", 1)));
mValues.insert(make_pair(TW_BACKUP_RECOVERY_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_BACKUP_CACHE_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_BACKUP_SP1_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_BACKUP_SP2_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_BACKUP_SP3_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_BACKUP_ANDSEC_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_BACKUP_SDEXT_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_BACKUP_SYSTEM_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_DATA_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_BOOT_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_RECOVERY_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_CACHE_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_ANDSEC_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_SDEXT_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_SP1_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_SP2_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_SP3_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_STORAGE_FREE_SIZE, make_pair("0", 0)));
mValues.insert(make_pair(TW_REBOOT_AFTER_FLASH_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_SIGNED_ZIP_VERIFY_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_FORCE_MD5_CHECK_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_COLOR_THEME_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_USE_COMPRESSION_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_SHOW_SPAM_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_TIME_ZONE_VAR, make_pair("CST6CDT", 1)));
mValues.insert(make_pair(TW_SORT_FILES_BY_DATE_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_GUI_SORT_ORDER, make_pair("1", 1)));
mValues.insert(make_pair(TW_RM_RF_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_SKIP_MD5_CHECK_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_SKIP_MD5_GENERATE_VAR, make_pair("0", 1)));
mValues.insert(make_pair(TW_SDEXT_SIZE, make_pair("512", 1)));
mValues.insert(make_pair(TW_SWAP_SIZE, make_pair("32", 1)));
mValues.insert(make_pair(TW_SDPART_FILE_SYSTEM, make_pair("ext3", 1)));
mValues.insert(make_pair(TW_TIME_ZONE_GUISEL, make_pair("CST6;CDT", 1)));
mValues.insert(make_pair(TW_TIME_ZONE_GUIOFFSET, make_pair("0", 1)));
mValues.insert(make_pair(TW_TIME_ZONE_GUIDST, make_pair("1", 1)));
mValues.insert(make_pair(TW_ACTION_BUSY, make_pair("0", 0)));
mValues.insert(make_pair(TW_BACKUP_AVG_IMG_RATE, make_pair("15000000", 1)));
mValues.insert(make_pair(TW_BACKUP_AVG_FILE_RATE, make_pair("3000000", 1)));
mValues.insert(make_pair(TW_BACKUP_AVG_FILE_COMP_RATE, make_pair("2000000", 1)));
mValues.insert(make_pair(TW_RESTORE_AVG_IMG_RATE, make_pair("15000000", 1)));
mValues.insert(make_pair(TW_RESTORE_AVG_FILE_RATE, make_pair("3000000", 1)));
mValues.insert(make_pair(TW_RESTORE_AVG_FILE_COMP_RATE, make_pair("2000000", 1)));
mValues.insert(make_pair("tw_wipe_cache", make_pair("0", 0)));
mValues.insert(make_pair("tw_wipe_dalvik", make_pair("0", 0)));
if (GetIntValue(TW_HAS_INTERNAL) == 1 && GetIntValue(TW_HAS_DATA_MEDIA) == 1 && GetIntValue(TW_HAS_EXTERNAL) == 0)
SetValue(TW_HAS_USB_STORAGE, 0, 0);
else
SetValue(TW_HAS_USB_STORAGE, 1, 0);
mValues.insert(make_pair(TW_ZIP_INDEX, make_pair("0", 0)));
mValues.insert(make_pair(TW_ZIP_QUEUE_COUNT, make_pair("0", 0)));
mValues.insert(make_pair(TW_FILENAME, make_pair("/sdcard", 0)));
mValues.insert(make_pair(TW_SIMULATE_ACTIONS, make_pair("0", 1)));
mValues.insert(make_pair(TW_SIMULATE_FAIL, make_pair("0", 1)));
mValues.insert(make_pair(TW_IS_ENCRYPTED, make_pair("0", 0)));
mValues.insert(make_pair(TW_IS_DECRYPTED, make_pair("0", 0)));
mValues.insert(make_pair(TW_CRYPTO_PASSWORD, make_pair("0", 0)));
mValues.insert(make_pair(TW_DATA_BLK_DEVICE, make_pair("0", 0)));
mValues.insert(make_pair("tw_terminal_state", make_pair("0", 0)));
mValues.insert(make_pair("tw_background_thread_running", make_pair("0", 0)));
mValues.insert(make_pair(TW_RESTORE_FILE_DATE, make_pair("0", 0)));
mValues.insert(make_pair("tw_military_time", make_pair("0", 1)));
#ifdef TW_NO_SCREEN_TIMEOUT
mValues.insert(make_pair("tw_screen_timeout_secs", make_pair("0", 1)));
mValues.insert(make_pair("tw_no_screen_timeout", make_pair("1", 1)));
#else
mValues.insert(make_pair("tw_screen_timeout_secs", make_pair("60", 1)));
mValues.insert(make_pair("tw_no_screen_timeout", make_pair("0", 1)));
#endif
mValues.insert(make_pair("tw_gui_done", make_pair("0", 0)));
mValues.insert(make_pair("tw_encrypt_backup", make_pair("0", 0)));
#ifdef TW_BRIGHTNESS_PATH
#ifndef TW_MAX_BRIGHTNESS
#define TW_MAX_BRIGHTNESS 255
#endif
if (strcmp(EXPAND(TW_BRIGHTNESS_PATH), "/nobrightness") != 0) {
LOGINFO("TW_BRIGHTNESS_PATH := %s\n", EXPAND(TW_BRIGHTNESS_PATH));
mConstValues.insert(make_pair("tw_has_brightnesss_file", "1"));
mConstValues.insert(make_pair("tw_brightness_file", EXPAND(TW_BRIGHTNESS_PATH)));
ostringstream maxVal;
maxVal << TW_MAX_BRIGHTNESS;
mConstValues.insert(make_pair("tw_brightness_max", maxVal.str()));
mValues.insert(make_pair("tw_brightness", make_pair(maxVal.str(), 1)));
mValues.insert(make_pair("tw_brightness_pct", make_pair("100", 1)));
} else {
mConstValues.insert(make_pair("tw_has_brightnesss_file", "0"));
}
#endif
mValues.insert(make_pair(TW_MILITARY_TIME, make_pair("0", 1)));
#ifndef TW_EXCLUDE_ENCRYPTED_BACKUPS
mValues.insert(make_pair("tw_include_encrypted_backup", make_pair("1", 0)));
#else
LOGINFO("TW_EXCLUDE_ENCRYPTED_BACKUPS := true\n");
mValues.insert(make_pair("tw_include_encrypted_backup", make_pair("0", 0)));
#endif
}
// Magic Values
int DataManager::GetMagicValue(const string varName, string& value)
{
// Handle special dynamic cases
if (varName == "tw_time")
{
char tmp[32];
struct tm *current;
time_t now;
int tw_military_time;
now = time(0);
current = localtime(&now);
GetValue(TW_MILITARY_TIME, tw_military_time);
if (current->tm_hour >= 12)
{
if (tw_military_time == 1)
sprintf(tmp, "%d:%02d", current->tm_hour, current->tm_min);
else
sprintf(tmp, "%d:%02d PM", current->tm_hour == 12 ? 12 : current->tm_hour - 12, current->tm_min);
}
else
{
if (tw_military_time == 1)
sprintf(tmp, "%d:%02d", current->tm_hour, current->tm_min);
else
sprintf(tmp, "%d:%02d AM", current->tm_hour == 0 ? 12 : current->tm_hour, current->tm_min);
}
value = tmp;
return 0;
}
else if (varName == "tw_battery")
{
char tmp[16];
static char charging = ' ';
static int lastVal = -1;
static time_t nextSecCheck = 0;
struct timeval curTime;
gettimeofday(&curTime, NULL);
if (curTime.tv_sec > nextSecCheck)
{
char cap_s[4];
#ifdef TW_CUSTOM_BATTERY_PATH
string capacity_file = EXPAND(TW_CUSTOM_BATTERY_PATH);
capacity_file += "/capacity";
FILE * cap = fopen(capacity_file.c_str(),"rt");
#else
FILE * cap = fopen("/sys/class/power_supply/battery/capacity","rt");
#endif
if (cap){
fgets(cap_s, 4, cap);
fclose(cap);
lastVal = atoi(cap_s);
if (lastVal > 100) lastVal = 101;
if (lastVal < 0) lastVal = 0;
}
#ifdef TW_CUSTOM_BATTERY_PATH
string status_file = EXPAND(TW_CUSTOM_BATTERY_PATH);
status_file += "/status";
cap = fopen(status_file.c_str(),"rt");
#else
cap = fopen("/sys/class/power_supply/battery/status","rt");
#endif
if (cap) {
fgets(cap_s, 2, cap);
fclose(cap);
if (cap_s[0] == 'C')
charging = '+';
else
charging = ' ';
}
nextSecCheck = curTime.tv_sec + 60;
}
sprintf(tmp, "%i%%%c", lastVal, charging);
value = tmp;
return 0;
}
return -1;
}
void DataManager::Output_Version(void)
{
string Path;
char version[255];
if (!PartitionManager.Mount_By_Path("/cache", false)) {
LOGINFO("Unable to mount '%s' to write version number.\n", Path.c_str());
return;
}
if (!TWFunc::Path_Exists("/cache/recovery/.")) {
LOGINFO("Recreating /cache/recovery folder.\n");
if (mkdir("/cache/recovery", S_IRWXU | S_IRWXG | S_IWGRP | S_IXGRP) != 0) {
LOGERR("DataManager::Output_Version -- Unable to make /cache/recovery\n");
return;
}
}
Path = "/cache/recovery/.version";
if (TWFunc::Path_Exists(Path)) {
unlink(Path.c_str());
}
FILE *fp = fopen(Path.c_str(), "w");
if (fp == NULL) {
LOGERR("Unable to open '%s'.\n", Path.c_str());
return;
}
strcpy(version, TW_VERSION_STR);
fwrite(version, sizeof(version[0]), strlen(version) / sizeof(version[0]), fp);
fclose(fp);
TWFunc::copy_file("/etc/recovery.fstab", "/cache/recovery/recovery.fstab", 0644);
PartitionManager.Output_Storage_Fstab();
sync();
LOGINFO("Version number saved to '%s'\n", Path.c_str());
}
void DataManager::ReadSettingsFile(void)
{
// Load up the values for TWRP - Sleep to let the card be ready
char mkdir_path[255], settings_file[255];
int is_enc, has_dual, use_ext, has_data_media, has_ext;
GetValue(TW_IS_ENCRYPTED, is_enc);
GetValue(TW_HAS_DATA_MEDIA, has_data_media);
if (is_enc == 1 && has_data_media == 1) {
LOGINFO("Cannot load settings -- encrypted.\n");
return;
}
memset(mkdir_path, 0, sizeof(mkdir_path));
memset(settings_file, 0, sizeof(settings_file));
sprintf(mkdir_path, "%s/TWRP", DataManager_GetSettingsStoragePath());
sprintf(settings_file, "%s/.twrps", mkdir_path);
if (!PartitionManager.Mount_Settings_Storage(false))
{
usleep(500000);
if (!PartitionManager.Mount_Settings_Storage(false))
LOGERR("Unable to mount %s when trying to read settings file.\n", settings_file);
}
mkdir(mkdir_path, 0777);
LOGINFO("Attempt to load settings from settings file...\n");
LoadValues(settings_file);
Output_Version();
GetValue(TW_HAS_DUAL_STORAGE, has_dual);
GetValue(TW_USE_EXTERNAL_STORAGE, use_ext);
GetValue(TW_HAS_EXTERNAL, has_ext);
if (has_dual != 0 && use_ext == 1) {
// Attempt to switch to using external storage
if (!PartitionManager.Mount_Current_Storage(false)) {
LOGERR("Failed to mount external storage, using internal storage.\n");
// Remount failed, default back to internal storage
SetValue(TW_USE_EXTERNAL_STORAGE, 0);
PartitionManager.Mount_Current_Storage(true);
}
} else {
PartitionManager.Mount_Current_Storage(true);
}
if (has_ext) {
string ext_path;
GetValue(TW_EXTERNAL_PATH, ext_path);
PartitionManager.Mount_By_Path(ext_path, 0);
}
update_tz_environment_variables();
#ifdef TW_MAX_BRIGHTNESS
if (strcmp(EXPAND(TW_BRIGHTNESS_PATH), "/nobrightness") != 0) {
string brightness_path = EXPAND(TW_BRIGHTNESS_PATH);
string brightness_value = GetStrValue("tw_brightness");
TWFunc::write_file(brightness_path, brightness_value);
}
#endif
}
string DataManager::GetCurrentStoragePath(void)
{
return GetStrValue("tw_storage_path");
}
string& DataManager::CGetCurrentStoragePath()
{
return GetValueRef("tw_storage_path");
}
string DataManager::GetSettingsStoragePath(void)
{
return GetStrValue("tw_settings_path");
}
string& DataManager::CGetSettingsStoragePath()
{
return GetValueRef("tw_settings_path");
}
extern "C" int DataManager_ResetDefaults(void)
{
return DataManager::ResetDefaults();
}
extern "C" void DataManager_LoadDefaults(void)
{
return DataManager::SetDefaultValues();
}
extern "C" int DataManager_LoadValues(const char* filename)
{
return DataManager::LoadValues(filename);
}
extern "C" int DataManager_Flush(void)
{
return DataManager::Flush();
}
extern "C" int DataManager_GetValue(const char* varName, char* value)
{
int ret;
string str;
ret = DataManager::GetValue(varName, str);
if (ret == 0)
strcpy(value, str.c_str());
return ret;
}
extern "C" const char* DataManager_GetStrValue(const char* varName)
{
string& str = DataManager::GetValueRef(varName);
return str.c_str();
}
extern "C" const char* DataManager_GetCurrentStoragePath(void)
{
string& str = DataManager::CGetCurrentStoragePath();
return str.c_str();
}
extern "C" const char* DataManager_GetSettingsStoragePath(void)
{
string& str = DataManager::CGetSettingsStoragePath();
return str.c_str();
}
extern "C" int DataManager_GetIntValue(const char* varName)
{
return DataManager::GetIntValue(varName);
}
extern "C" int DataManager_SetStrValue(const char* varName, char* value)
{
return DataManager::SetValue(varName, value, 0);
}
extern "C" int DataManager_SetIntValue(const char* varName, int value)
{
return DataManager::SetValue(varName, value, 0);
}
extern "C" int DataManager_SetFloatValue(const char* varName, float value)
{
return DataManager::SetValue(varName, value, 0);
}
extern "C" int DataManager_ToggleIntValue(const char* varName)
{
if (DataManager::GetIntValue(varName))
return DataManager::SetValue(varName, 0);
else
return DataManager::SetValue(varName, 1);
}
extern "C" void DataManager_DumpValues(void)
{
return DataManager::DumpValues();
}
extern "C" void DataManager_ReadSettingsFile(void)
{
return DataManager::ReadSettingsFile();
}