RetroShare/libretroshare/src/gxs/rsdataservice.cc

1580 lines
52 KiB
C++
Raw Normal View History

/*
* libretroshare/src/gxs: rsdataservice.cc
*
* Data Access, interface for RetroShare.
*
* Copyright 2011-2011 by Evi-Parker Christopher
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to "retroshare@lunamutt.com".
*
*/
/*****
* #define RS_DATA_SERVICE_DEBUG 1
* #define RS_DATA_SERVICE_DEBUG_TIME 1
****/
#include <fstream>
#include <util/rsdir.h>
#include <algorithm>
#ifdef RS_DATA_SERVICE_DEBUG_TIME
#include <util/rsscopetimer.h>
#endif
#include "rsdataservice.h"
#include "util/rsstring.h"
#define MSG_TABLE_NAME std::string("MESSAGES")
#define GRP_TABLE_NAME std::string("GROUPS")
#define DATABASE_RELEASE_TABLE_NAME std::string("DATABASE_RELEASE")
#define GRP_LAST_POST_UPDATE_TRIGGER std::string("LAST_POST_UPDATE")
#define MSG_INDEX_GRPID std::string("INDEX_MESSAGES_GRPID")
// generic
#define KEY_NXS_DATA std::string("nxsData")
#define KEY_NXS_DATA_LEN std::string("nxsDataLen")
#define KEY_NXS_IDENTITY std::string("identity")
#define KEY_GRP_ID std::string("grpId")
#define KEY_ORIG_GRP_ID std::string("origGrpId")
#define KEY_PARENT_GRP_ID std::string("parentGrpId")
#define KEY_SIGN_SET std::string("signSet")
#define KEY_TIME_STAMP std::string("timeStamp")
#define KEY_NXS_FLAGS std::string("flags")
#define KEY_NXS_META std::string("meta")
#define KEY_NXS_SERV_STRING std::string("serv_str")
#define KEY_NXS_HASH std::string("hash")
#define KEY_RECV_TS std::string("recv_time_stamp")
// remove later
#define KEY_NXS_FILE_OLD std::string("nxsFile")
#define KEY_NXS_FILE_OFFSET_OLD std::string("fileOffset")
#define KEY_NXS_FILE_LEN_OLD std::string("nxsFileLen")
// grp table columns
#define KEY_KEY_SET std::string("keySet")
#define KEY_GRP_NAME std::string("grpName")
#define KEY_GRP_SIGN_FLAGS std::string("signFlags")
#define KEY_GRP_CIRCLE_ID std::string("circleId")
#define KEY_GRP_CIRCLE_TYPE std::string("circleType")
#define KEY_GRP_INTERNAL_CIRCLE std::string("internalCircle")
#define KEY_GRP_ORIGINATOR std::string("originator")
#define KEY_GRP_AUTHEN_FLAGS std::string("authenFlags")
// grp local
#define KEY_GRP_SUBCR_FLAG std::string("subscribeFlag")
#define KEY_GRP_POP std::string("popularity")
#define KEY_MSG_COUNT std::string("msgCount")
#define KEY_GRP_STATUS std::string("grpStatus")
#define KEY_GRP_LAST_POST std::string("lastPost")
#define KEY_GRP_REP_CUTOFF std::string("rep_cutoff")
// msg table columns
#define KEY_MSG_ID std::string("msgId")
#define KEY_ORIG_MSG_ID std::string("origMsgId")
#define KEY_MSG_PARENT_ID std::string("parentId")
#define KEY_MSG_THREAD_ID std::string("threadId")
#define KEY_MSG_NAME std::string("msgName")
// msg local
#define KEY_MSG_STATUS std::string("msgStatus")
#define KEY_CHILD_TS std::string("childTs")
// database release columns
#define KEY_DATABASE_RELEASE_ID std::string("id")
#define KEY_DATABASE_RELEASE_ID_VALUE 1
#define KEY_DATABASE_RELEASE std::string("release")
const std::string RsGeneralDataService::GRP_META_SERV_STRING = KEY_NXS_SERV_STRING;
const std::string RsGeneralDataService::GRP_META_STATUS = KEY_GRP_STATUS;
const std::string RsGeneralDataService::GRP_META_SUBSCRIBE_FLAG = KEY_GRP_SUBCR_FLAG;
const std::string RsGeneralDataService::GRP_META_CUTOFF_LEVEL = KEY_GRP_REP_CUTOFF;
const std::string RsGeneralDataService::MSG_META_SERV_STRING = KEY_NXS_SERV_STRING;
const std::string RsGeneralDataService::MSG_META_STATUS = KEY_MSG_STATUS;
const uint32_t RsGeneralDataService::GXS_MAX_ITEM_SIZE = 1572864; // 1.5 Mbytes
static int addColumn(std::list<std::string> &list, const std::string &attribute)
{
list.push_back(attribute);
return list.size() - 1;
}
RsDataService::RsDataService(const std::string &serviceDir, const std::string &dbName, uint16_t serviceType,
RsGxsSearchModule * /* mod */, const std::string& key)
: RsGeneralDataService(), mDbMutex("RsDataService"), mServiceDir(serviceDir), mDbName(dbName), mDbPath(mServiceDir + "/" + dbName), mServType(serviceType), mDb(NULL)
{
bool isNewDatabase = !RsDirUtil::fileExists(mDbPath);
mDb = new RetroDb(mDbPath, RetroDb::OPEN_READWRITE_CREATE, key);
initialise(isNewDatabase);
// for retrieving msg meta
mColMsgMeta_GrpId = addColumn(mMsgMetaColumns, KEY_GRP_ID);
mColMsgMeta_TimeStamp = addColumn(mMsgMetaColumns, KEY_TIME_STAMP);
mColMsgMeta_NxsFlags = addColumn(mMsgMetaColumns, KEY_NXS_FLAGS);
mColMsgMeta_SignSet = addColumn(mMsgMetaColumns, KEY_SIGN_SET);
mColMsgMeta_NxsIdentity = addColumn(mMsgMetaColumns, KEY_NXS_IDENTITY);
mColMsgMeta_NxsHash = addColumn(mMsgMetaColumns, KEY_NXS_HASH);
mColMsgMeta_MsgId = addColumn(mMsgMetaColumns, KEY_MSG_ID);
mColMsgMeta_OrigMsgId = addColumn(mMsgMetaColumns, KEY_ORIG_MSG_ID);
mColMsgMeta_MsgStatus = addColumn(mMsgMetaColumns, KEY_MSG_STATUS);
mColMsgMeta_ChildTs = addColumn(mMsgMetaColumns, KEY_CHILD_TS);
mColMsgMeta_MsgParentId = addColumn(mMsgMetaColumns, KEY_MSG_PARENT_ID);
mColMsgMeta_MsgThreadId = addColumn(mMsgMetaColumns, KEY_MSG_THREAD_ID);
mColMsgMeta_Name = addColumn(mMsgMetaColumns, KEY_MSG_NAME);
mColMsgMeta_NxsServString = addColumn(mMsgMetaColumns, KEY_NXS_SERV_STRING);
mColMsgMeta_RecvTs = addColumn(mMsgMetaColumns, KEY_RECV_TS);
mColMsgMeta_NxsDataLen = addColumn(mMsgMetaColumns, KEY_NXS_DATA_LEN);
// for retrieving actual data
mColMsg_GrpId = addColumn(mMsgColumns, KEY_GRP_ID);
mColMsg_NxsData = addColumn(mMsgColumns, KEY_NXS_DATA);
mColMsg_MetaData = addColumn(mMsgColumns, KEY_NXS_META);
mColMsg_MsgId = addColumn(mMsgColumns, KEY_MSG_ID);
// for retrieving msg data with meta
mMsgColumnsWithMeta = mMsgColumns;
mColMsg_WithMetaOffset = mMsgColumnsWithMeta.size();
mMsgColumnsWithMeta.insert(mMsgColumnsWithMeta.end(), mMsgMetaColumns.begin(), mMsgMetaColumns.end());
// for retrieving grp meta data
mColGrpMeta_GrpId = addColumn(mGrpMetaColumns, KEY_GRP_ID);
mColGrpMeta_TimeStamp = addColumn(mGrpMetaColumns, KEY_TIME_STAMP);
mColGrpMeta_NxsFlags = addColumn(mGrpMetaColumns, KEY_NXS_FLAGS);
// mColGrpMeta_SignSet = addColumn(mGrpMetaColumns, KEY_SIGN_SET);
mColGrpMeta_NxsIdentity = addColumn(mGrpMetaColumns, KEY_NXS_IDENTITY);
mColGrpMeta_NxsHash = addColumn(mGrpMetaColumns, KEY_NXS_HASH);
mColGrpMeta_KeySet = addColumn(mGrpMetaColumns, KEY_KEY_SET);
mColGrpMeta_SubscrFlag = addColumn(mGrpMetaColumns, KEY_GRP_SUBCR_FLAG);
mColGrpMeta_Pop = addColumn(mGrpMetaColumns, KEY_GRP_POP);
mColGrpMeta_MsgCount = addColumn(mGrpMetaColumns, KEY_MSG_COUNT);
mColGrpMeta_Status = addColumn(mGrpMetaColumns, KEY_GRP_STATUS);
mColGrpMeta_Name = addColumn(mGrpMetaColumns, KEY_GRP_NAME);
mColGrpMeta_LastPost = addColumn(mGrpMetaColumns, KEY_GRP_LAST_POST);
mColGrpMeta_OrigGrpId = addColumn(mGrpMetaColumns, KEY_ORIG_GRP_ID);
mColGrpMeta_ServString = addColumn(mGrpMetaColumns, KEY_NXS_SERV_STRING);
mColGrpMeta_SignFlags = addColumn(mGrpMetaColumns, KEY_GRP_SIGN_FLAGS);
mColGrpMeta_CircleId = addColumn(mGrpMetaColumns, KEY_GRP_CIRCLE_ID);
mColGrpMeta_CircleType = addColumn(mGrpMetaColumns, KEY_GRP_CIRCLE_TYPE);
mColGrpMeta_InternCircle = addColumn(mGrpMetaColumns, KEY_GRP_INTERNAL_CIRCLE);
mColGrpMeta_Originator = addColumn(mGrpMetaColumns, KEY_GRP_ORIGINATOR);
mColGrpMeta_AuthenFlags = addColumn(mGrpMetaColumns, KEY_GRP_AUTHEN_FLAGS);
mColGrpMeta_ParentGrpId = addColumn(mGrpMetaColumns, KEY_PARENT_GRP_ID);
mColGrpMeta_RecvTs = addColumn(mGrpMetaColumns, KEY_RECV_TS);
mColGrpMeta_RepCutoff = addColumn(mGrpMetaColumns, KEY_GRP_REP_CUTOFF);
mColGrpMeta_NxsDataLen = addColumn(mGrpMetaColumns, KEY_NXS_DATA_LEN);
// for retrieving actual grp data
mColGrp_GrpId = addColumn(mGrpColumns, KEY_GRP_ID);
mColGrp_NxsData = addColumn(mGrpColumns, KEY_NXS_DATA);
mColGrp_MetaData = addColumn(mGrpColumns, KEY_NXS_META);
// for retrieving grp data with meta
mGrpColumnsWithMeta = mGrpColumns;
mColGrp_WithMetaOffset = mGrpColumnsWithMeta.size();
mGrpColumnsWithMeta.insert(mGrpColumnsWithMeta.end(), mGrpMetaColumns.begin(), mGrpMetaColumns.end());
// Group id columns
mColGrpId_GrpId = addColumn(mGrpIdColumn, KEY_GRP_ID);
// Msg id columns
mColMsgId_MsgId = addColumn(mMsgIdColumn, KEY_MSG_ID);
}
RsDataService::~RsDataService(){
#ifdef RS_DATA_SERVICE_DEBUG
std::cerr << "RsDataService::~RsDataService()";
std::cerr << std::endl;
#endif
mDb->closeDb();
delete mDb;
}
static bool moveDataFromFileToDatabase(RetroDb *db, const std::string serviceDir, const std::string &tableName, const std::string &keyId, std::list<std::string> &files)
{
bool ok = true;
// Move message data
std::list<std::string> columns;
columns.push_back(keyId);
columns.push_back(KEY_NXS_FILE_OLD);
columns.push_back(KEY_NXS_FILE_OFFSET_OLD);
columns.push_back(KEY_NXS_FILE_LEN_OLD);
RetroCursor* c = db->sqlQuery(tableName, columns, "", "");
if (c)
{
bool valid = c->moveToFirst();
while (ok && valid){
std::string dataFile;
c->getString(1, dataFile);
if (!dataFile.empty()) {
bool fileOk = true;
// first try to find the file in the service dir
if (RsDirUtil::fileExists(serviceDir + "/" + dataFile)) {
dataFile.insert(0, serviceDir + "/");
} else if (RsDirUtil::fileExists(dataFile)) {
// use old way for backward compatibility
//TODO: can be removed later
} else {
fileOk = false;
std::cerr << "moveDataFromFileToDatabase() cannot find file " << dataFile;
std::cerr << std::endl;
}
if (fileOk) {
std::string id;
c->getString(0, id);
uint32_t offset = c->getInt32(2);
uint32_t data_len = c->getInt32(3);
char* data = new char[data_len];
std::ifstream istrm(dataFile.c_str(), std::ios::binary);
istrm.seekg(offset, std::ios::beg);
istrm.read(data, data_len);
istrm.close();
ContentValue cv;
// insert new columns
cv.put(KEY_NXS_DATA, data_len, data);
cv.put(KEY_NXS_DATA_LEN, (int32_t) data_len);
// clear old columns
cv.put(KEY_NXS_FILE_OLD, "");
cv.put(KEY_NXS_FILE_OFFSET_OLD, 0);
cv.put(KEY_NXS_FILE_LEN_OLD, 0);
ok = db->sqlUpdate(tableName, keyId + "='" + id + "'", cv);
delete[] data;
if (std::find(files.begin(), files.end(), dataFile) == files.end()) {
files.push_back(dataFile);
}
}
}
valid = c->moveToNext();
}
delete c;
}
return ok;
}
void RsDataService::initialise(bool isNewDatabase)
{
const int databaseRelease = 1;
int currentDatabaseRelease = 0;
bool ok = true;
RsStackMutex stack(mDbMutex);
// initialise database
if (isNewDatabase || !mDb->tableExists(DATABASE_RELEASE_TABLE_NAME)) {
// create table for database release
mDb->execSQL("CREATE TABLE " + DATABASE_RELEASE_TABLE_NAME + "(" +
KEY_DATABASE_RELEASE_ID + " INT PRIMARY KEY," +
KEY_DATABASE_RELEASE + " INT);");
}
if (isNewDatabase) {
// create table for msg data
mDb->execSQL("CREATE TABLE " + MSG_TABLE_NAME + "(" +
KEY_MSG_ID + " TEXT PRIMARY KEY," +
KEY_GRP_ID + " TEXT," +
KEY_NXS_FLAGS + " INT," +
KEY_ORIG_MSG_ID + " TEXT," +
KEY_TIME_STAMP + " INT," +
KEY_NXS_IDENTITY + " TEXT," +
KEY_SIGN_SET + " BLOB," +
KEY_NXS_DATA + " BLOB,"+
KEY_NXS_DATA_LEN + " INT," +
KEY_MSG_STATUS + " INT," +
KEY_CHILD_TS + " INT," +
KEY_NXS_META + " BLOB," +
KEY_MSG_THREAD_ID + " TEXT," +
KEY_MSG_PARENT_ID + " TEXT,"+
KEY_MSG_NAME + " TEXT," +
KEY_NXS_SERV_STRING + " TEXT," +
KEY_NXS_HASH + " TEXT," +
KEY_RECV_TS + " INT);");
// create table for grp data
mDb->execSQL("CREATE TABLE " + GRP_TABLE_NAME + "(" +
KEY_GRP_ID + " TEXT PRIMARY KEY," +
KEY_TIME_STAMP + " INT," +
KEY_NXS_DATA + " BLOB," +
KEY_NXS_DATA_LEN + " INT," +
KEY_KEY_SET + " BLOB," +
KEY_NXS_META + " BLOB," +
KEY_GRP_NAME + " TEXT," +
KEY_GRP_LAST_POST + " INT," +
KEY_GRP_POP + " INT," +
KEY_MSG_COUNT + " INT," +
KEY_GRP_SUBCR_FLAG + " INT," +
KEY_GRP_STATUS + " INT," +
KEY_NXS_IDENTITY + " TEXT," +
KEY_ORIG_GRP_ID + " TEXT," +
KEY_NXS_SERV_STRING + " TEXT," +
KEY_NXS_FLAGS + " INT," +
KEY_GRP_AUTHEN_FLAGS + " INT," +
KEY_GRP_SIGN_FLAGS + " INT," +
KEY_GRP_CIRCLE_ID + " TEXT," +
KEY_GRP_CIRCLE_TYPE + " INT," +
KEY_GRP_INTERNAL_CIRCLE + " TEXT," +
KEY_GRP_ORIGINATOR + " TEXT," +
KEY_NXS_HASH + " TEXT," +
KEY_RECV_TS + " INT," +
KEY_PARENT_GRP_ID + " TEXT," +
KEY_GRP_REP_CUTOFF + " INT," +
KEY_SIGN_SET + " BLOB);");
mDb->execSQL("CREATE TRIGGER " + GRP_LAST_POST_UPDATE_TRIGGER +
" INSERT ON " + MSG_TABLE_NAME +
std::string(" BEGIN ") +
" UPDATE " + GRP_TABLE_NAME + " SET " + KEY_GRP_LAST_POST + "= new."
+ KEY_RECV_TS + " WHERE " + KEY_GRP_ID + "=new." + KEY_GRP_ID + ";"
+ std::string("END;"));
mDb->execSQL("CREATE INDEX " + MSG_INDEX_GRPID + " ON " + MSG_TABLE_NAME + "(" + KEY_GRP_ID + ");");
// Insert release, no need to upgrade
ContentValue cv;
cv.put(KEY_DATABASE_RELEASE_ID, KEY_DATABASE_RELEASE_ID_VALUE);
cv.put(KEY_DATABASE_RELEASE, databaseRelease);
mDb->sqlInsert(DATABASE_RELEASE_TABLE_NAME, "", cv);
currentDatabaseRelease = databaseRelease;
} else {
// check release
{
// try to select the release
std::list<std::string> columns;
columns.push_back(KEY_DATABASE_RELEASE);
std::string where;
rs_sprintf(where, "%s=%d", KEY_DATABASE_RELEASE_ID.c_str(), KEY_DATABASE_RELEASE_ID_VALUE);
RetroCursor* c = mDb->sqlQuery(DATABASE_RELEASE_TABLE_NAME, columns, where, "");
if (c) {
ok = c->moveToFirst();
if (ok) {
currentDatabaseRelease = c->getInt32(0);
}
delete c;
if (!ok) {
// No record found ... insert the record
ContentValue cv;
cv.put(KEY_DATABASE_RELEASE_ID, KEY_DATABASE_RELEASE_ID_VALUE);
cv.put(KEY_DATABASE_RELEASE, currentDatabaseRelease);
ok = mDb->sqlInsert(DATABASE_RELEASE_TABLE_NAME, "", cv);
}
} else {
ok = false;
}
}
// Release 1
int newRelease = 1;
if (ok && currentDatabaseRelease < newRelease) {
// Update database
std::list<std::string> files;
ok = startReleaseUpdate(newRelease);
// Move data in files into database
ok = ok && mDb->execSQL("ALTER TABLE " + GRP_TABLE_NAME + " ADD COLUMN " + KEY_NXS_DATA + " BLOB;");
ok = ok && mDb->execSQL("ALTER TABLE " + GRP_TABLE_NAME + " ADD COLUMN " + KEY_NXS_DATA_LEN + " INT;");
ok = ok && mDb->execSQL("ALTER TABLE " + MSG_TABLE_NAME + " ADD COLUMN " + KEY_NXS_DATA + " BLOB;");
ok = ok && mDb->execSQL("ALTER TABLE " + MSG_TABLE_NAME + " ADD COLUMN " + KEY_NXS_DATA_LEN + " INT;");
ok = ok && moveDataFromFileToDatabase(mDb, mServiceDir, GRP_TABLE_NAME, KEY_GRP_ID, files);
ok = ok && moveDataFromFileToDatabase(mDb, mServiceDir, MSG_TABLE_NAME, KEY_MSG_ID, files);
// SQLite doesn't support DROP COLUMN
// ok = ok && mDb->execSQL("ALTER TABLE " + GRP_TABLE_NAME + " DROP COLUMN " + KEY_NXS_FILE_OLD + ";");
// ok = ok && mDb->execSQL("ALTER TABLE " + GRP_TABLE_NAME + " DROP COLUMN " + KEY_NXS_FILE_OFFSET_OLD + ";");
// ok = ok && mDb->execSQL("ALTER TABLE " + GRP_TABLE_NAME + " DROP COLUMN " + KEY_NXS_FILE_LEN_OLD + ";");
// ok = ok && mDb->execSQL("ALTER TABLE " + MSG_TABLE_NAME + " DROP COLUMN " + KEY_NXS_FILE_OLD + ";");
// ok = ok && mDb->execSQL("ALTER TABLE " + MSG_TABLE_NAME + " DROP COLUMN " + KEY_NXS_FILE_OFFSET_OLD + ";");
// ok = ok && mDb->execSQL("ALTER TABLE " + MSG_TABLE_NAME + " DROP COLUMN " + KEY_NXS_FILE_LEN_OLD + ";");
ok = finishReleaseUpdate(newRelease, ok);
if (ok) {
// Remove transfered files
std::list<std::string>::const_iterator file;
for (file = files.begin(); file != files.end(); ++file) {
remove(file->c_str());
}
currentDatabaseRelease = newRelease;
}
}
}
if (ok) {
std::cerr << "Database " << mDbName << " release " << currentDatabaseRelease << " successfully initialised." << std::endl;
} else {
std::cerr << "Database " << mDbName << " initialisation failed." << std::endl;
}
}
bool RsDataService::startReleaseUpdate(int release)
{
// Update database
std::cerr << "Database " << mDbName << " update to release " << release << "." << std::endl;
return mDb->beginTransaction();
}
bool RsDataService::finishReleaseUpdate(int release, bool result)
{
if (result) {
std::string where;
rs_sprintf(where, "%s=%d", KEY_DATABASE_RELEASE_ID.c_str(), KEY_DATABASE_RELEASE_ID_VALUE);
ContentValue cv;
cv.put(KEY_DATABASE_RELEASE, release);
result = mDb->sqlUpdate(DATABASE_RELEASE_TABLE_NAME, where, cv);
}
if (result) {
result = mDb->commitTransaction();
} else {
result = mDb->rollbackTransaction();
}
if (result) {
std::cerr << "Database " << mDbName << " successfully updated to release " << release << "." << std::endl;
} else {
std::cerr << "Database " << mDbName << " update to release " << release << "failed." << std::endl;
}
return result;
}
RsGxsGrpMetaData* RsDataService::locked_getGrpMeta(RetroCursor &c, int colOffset)
{
#ifdef RS_DATA_SERVICE_DEBUG
std::cerr << "RsDataService::locked_getGrpMeta()";
std::cerr << std::endl;
#endif
RsGxsGrpMetaData* grpMeta = new RsGxsGrpMetaData();
bool ok = true;
// for extracting raw data
uint32_t offset = 0;
char* data = NULL;
uint32_t data_len = 0;
// grpId
std::string tempId;
c.getString(mColGrpMeta_GrpId + colOffset, tempId);
grpMeta->mGroupId = RsGxsGroupId(tempId);
c.getString(mColGrpMeta_NxsIdentity + colOffset, tempId);
grpMeta->mAuthorId = RsGxsId(tempId);
c.getString(mColGrpMeta_Name + colOffset, grpMeta->mGroupName);
c.getString(mColGrpMeta_OrigGrpId + colOffset, tempId);
grpMeta->mOrigGrpId = RsGxsGroupId(tempId);
c.getString(mColGrpMeta_ServString + colOffset, grpMeta->mServiceString);
std::string temp;
c.getString(mColGrpMeta_NxsHash + colOffset, temp);
grpMeta->mHash = RsFileHash(temp);
grpMeta->mReputationCutOff = c.getInt32(mColGrpMeta_RepCutoff + colOffset);
grpMeta->mSignFlags = c.getInt32(mColGrpMeta_SignFlags + colOffset);
grpMeta->mPublishTs = c.getInt32(mColGrpMeta_TimeStamp + colOffset);
grpMeta->mGroupFlags = c.getInt32(mColGrpMeta_NxsFlags + colOffset);
grpMeta->mGrpSize = c.getInt32(mColGrpMeta_NxsDataLen + colOffset);
offset = 0; data = NULL; data_len = 0;
data = (char*)c.getData(mColGrpMeta_KeySet + colOffset, data_len);
if(data)
ok &= grpMeta->keys.GetTlv(data, data_len, &offset);
else
grpMeta->keys.TlvClear() ;
// local meta
grpMeta->mSubscribeFlags = c.getInt32(mColGrpMeta_SubscrFlag + colOffset);
grpMeta->mPop = c.getInt32(mColGrpMeta_Pop + colOffset);
grpMeta->mVisibleMsgCount = c.getInt32(mColGrpMeta_MsgCount + colOffset);
grpMeta->mLastPost = c.getInt32(mColGrpMeta_LastPost + colOffset);
grpMeta->mGroupStatus = c.getInt32(mColGrpMeta_Status + colOffset);
c.getString(mColGrpMeta_CircleId + colOffset, tempId);
grpMeta->mCircleId = RsGxsCircleId(tempId);
grpMeta->mCircleType = c.getInt32(mColGrpMeta_CircleType + colOffset);
c.getString(mColGrpMeta_InternCircle + colOffset, tempId);
grpMeta->mInternalCircle = RsGxsCircleId(tempId);
std::string s ; c.getString(mColGrpMeta_Originator + colOffset, s) ;
grpMeta->mOriginator = RsPeerId(s);
grpMeta->mAuthenFlags = c.getInt32(mColGrpMeta_AuthenFlags + colOffset);
grpMeta->mRecvTS = c.getInt32(mColGrpMeta_RecvTs + colOffset);
c.getString(mColGrpMeta_ParentGrpId, tempId);
grpMeta->mParentGrpId = RsGxsGroupId(tempId);
if(ok)
return grpMeta;
else
delete grpMeta;
return NULL;
}
RsNxsGrp* RsDataService::locked_getGroup(RetroCursor &c)
{
/*!
* grpId, pub admin and pub publish key
* necessary for successful group
*/
RsNxsGrp* grp = new RsNxsGrp(mServType);
bool ok = true;
// for manipulating raw data
uint32_t offset = 0;
char* data = NULL;
uint32_t data_len = 0;
// grpId
c.getStringT<RsGxsGroupId>(mColGrp_GrpId, grp->grpId);
ok &= !grp->grpId.isNull();
offset = 0; data_len = 0;
if(ok){
data = (char*)c.getData(mColGrp_MetaData, data_len);
if(data)
grp->meta.GetTlv(data, data_len, &offset);
}
/* now retrieve grp data */
offset = 0; data_len = 0;
if(ok){
data = (char*)c.getData(mColGrp_NxsData, data_len);
if(data)
ok &= grp->grp.GetTlv(data, data_len, &offset);
}
if(ok)
return grp;
else
delete grp;
return NULL;
}
RsGxsMsgMetaData* RsDataService::locked_getMsgMeta(RetroCursor &c, int colOffset)
{
RsGxsMsgMetaData* msgMeta = new RsGxsMsgMetaData();
bool ok = true;
uint32_t data_len = 0,
offset = 0;
char* data = NULL;
std::string gId;
c.getString(mColMsgMeta_GrpId + colOffset, gId);
msgMeta->mGroupId = RsGxsGroupId(gId);
std::string temp;
c.getString(mColMsgMeta_MsgId + colOffset, temp);
msgMeta->mMsgId = RsGxsMessageId(temp);
// without these, a msg is meaningless
ok &= (!msgMeta->mGroupId.isNull()) && (!msgMeta->mMsgId.isNull());
c.getString(mColMsgMeta_OrigMsgId + colOffset, temp);
msgMeta->mOrigMsgId = RsGxsMessageId(temp);
c.getString(mColMsgMeta_NxsIdentity + colOffset, temp);
msgMeta->mAuthorId = RsGxsId(temp);
c.getString(mColMsgMeta_Name + colOffset, msgMeta->mMsgName);
c.getString(mColMsgMeta_NxsServString + colOffset, msgMeta->mServiceString);
c.getString(mColMsgMeta_NxsHash + colOffset, temp);
msgMeta->mHash = RsFileHash(temp);
msgMeta->recvTS = c.getInt32(mColMsgMeta_RecvTs + colOffset);
offset = 0;
data = (char*)c.getData(mColMsgMeta_SignSet + colOffset, data_len);
msgMeta->signSet.GetTlv(data, data_len, &offset);
msgMeta->mMsgSize = c.getInt32(mColMsgMeta_NxsDataLen + colOffset);
msgMeta->mMsgFlags = c.getInt32(mColMsgMeta_NxsFlags + colOffset);
msgMeta->mPublishTs = c.getInt32(mColMsgMeta_TimeStamp + colOffset);
offset = 0; data_len = 0;
// thread and parent id
c.getString(mColMsgMeta_MsgThreadId + colOffset, temp);
msgMeta->mThreadId = RsGxsMessageId(temp);
c.getString(mColMsgMeta_MsgParentId + colOffset, temp);
msgMeta->mParentId = RsGxsMessageId(temp);
// local meta
msgMeta->mMsgStatus = c.getInt32(mColMsgMeta_MsgStatus + colOffset);
msgMeta->mChildTs = c.getInt32(mColMsgMeta_ChildTs + colOffset);
if(ok)
return msgMeta;
else
delete msgMeta;
return NULL;
}
RsNxsMsg* RsDataService::locked_getMessage(RetroCursor &c)
{
RsNxsMsg* msg = new RsNxsMsg(mServType);
bool ok = true;
uint32_t data_len = 0,
offset = 0;
char* data = NULL;
c.getStringT<RsGxsGroupId>(mColMsg_GrpId, msg->grpId);
std::string temp;
c.getString(mColMsg_MsgId, temp);
msg->msgId = RsGxsMessageId(temp);
ok &= (!msg->grpId.isNull()) && (!msg->msgId.isNull());
offset = 0; data_len = 0;
if(ok){
data = (char*)c.getData(mColMsg_MetaData, data_len);
if(data)
msg->meta.GetTlv(data, data_len, &offset);
}
/* now retrieve msg data */
offset = 0; data_len = 0;
if(ok){
data = (char*)c.getData(mColMsg_NxsData, data_len);
if(data)
ok &= msg->msg.GetTlv(data, data_len, &offset);
}
if(ok)
return msg;
else
delete msg;
return NULL;
}
int RsDataService::storeMessage(std::map<RsNxsMsg *, RsGxsMsgMetaData *> &msg)
{
RsStackMutex stack(mDbMutex);
std::map<RsNxsMsg*, RsGxsMsgMetaData* >::iterator mit = msg.begin();
// start a transaction
mDb->beginTransaction();
for(; mit != msg.end(); ++mit){
RsNxsMsg* msgPtr = mit->first;
RsGxsMsgMetaData* msgMetaPtr = mit->second;
#ifdef RS_DATA_SERVICE_DEBUG
std::cerr << "RsDataService::storeMessage() ";
std::cerr << " GroupId: " << msgMetaPtr->mGroupId.toStdString();
std::cerr << " MessageId: " << msgMetaPtr->mMsgId.toStdString();
std::cerr << std::endl;
#endif
// skip msg item if size if greater than
if(!validSize(msgPtr))
{
std::cerr << "RsDataService::storeMessage() ERROR invalid size";
std::cerr << std::endl;
continue;
}
ContentValue cv;
uint32_t dataLen = msgPtr->msg.TlvSize();
char msgData[dataLen];
uint32_t offset = 0;
msgPtr->msg.SetTlv(msgData, dataLen, &offset);
cv.put(KEY_NXS_DATA, dataLen, msgData);
cv.put(KEY_NXS_DATA_LEN, (int32_t)dataLen);
cv.put(KEY_MSG_ID, msgMetaPtr->mMsgId.toStdString());
cv.put(KEY_GRP_ID, msgMetaPtr->mGroupId.toStdString());
cv.put(KEY_NXS_SERV_STRING, msgMetaPtr->mServiceString);
cv.put(KEY_NXS_HASH, msgMetaPtr->mHash.toStdString());
cv.put(KEY_RECV_TS, (int32_t)msgMetaPtr->recvTS);
char signSetData[msgMetaPtr->signSet.TlvSize()];
offset = 0;
msgMetaPtr->signSet.SetTlv(signSetData, msgMetaPtr->signSet.TlvSize(), &offset);
cv.put(KEY_SIGN_SET, msgMetaPtr->signSet.TlvSize(), signSetData);
cv.put(KEY_NXS_IDENTITY, msgMetaPtr->mAuthorId.toStdString());
cv.put(KEY_NXS_FLAGS, (int32_t) msgMetaPtr->mMsgFlags);
cv.put(KEY_TIME_STAMP, (int32_t) msgMetaPtr->mPublishTs);
offset = 0;
char metaData[msgPtr->meta.TlvSize()];
msgPtr->meta.SetTlv(metaData, msgPtr->meta.TlvSize(), &offset);
cv.put(KEY_NXS_META, msgPtr->meta.TlvSize(), metaData);
cv.put(KEY_MSG_PARENT_ID, msgMetaPtr->mParentId.toStdString());
cv.put(KEY_MSG_THREAD_ID, msgMetaPtr->mThreadId.toStdString());
cv.put(KEY_ORIG_MSG_ID, msgMetaPtr->mOrigMsgId.toStdString());
cv.put(KEY_MSG_NAME, msgMetaPtr->mMsgName);
// now local meta
cv.put(KEY_MSG_STATUS, (int32_t)msgMetaPtr->mMsgStatus);
cv.put(KEY_CHILD_TS, (int32_t)msgMetaPtr->mChildTs);
if (!mDb->sqlInsert(MSG_TABLE_NAME, "", cv))
{
std::cerr << "RsDataService::storeMessage() sqlInsert Failed";
std::cerr << std::endl;
std::cerr << "\t For GroupId: " << msgMetaPtr->mGroupId.toStdString();
std::cerr << std::endl;
std::cerr << "\t & MessageId: " << msgMetaPtr->mMsgId.toStdString();
std::cerr << std::endl;
}
}
// finish transaction
bool ret = mDb->commitTransaction();
for(mit = msg.begin(); mit != msg.end(); ++mit)
{
//TODO: API encourages aliasing, remove this abomination
if(mit->second != mit->first->metaData)
delete mit->second;
delete mit->first;
;
}
return ret;
}
bool RsDataService::validSize(RsNxsMsg* msg) const
{
if((msg->msg.TlvSize() + msg->meta.TlvSize()) <= GXS_MAX_ITEM_SIZE) return true;
return false;
}
int RsDataService::storeGroup(std::map<RsNxsGrp *, RsGxsGrpMetaData *> &grp)
{
RsStackMutex stack(mDbMutex);
std::map<RsNxsGrp*, RsGxsGrpMetaData* >::iterator sit = grp.begin();
// begin transaction
mDb->beginTransaction();
for(; sit != grp.end(); ++sit)
{
RsNxsGrp* grpPtr = sit->first;
RsGxsGrpMetaData* grpMetaPtr = sit->second;
// if data is larger than max item size do not add
if(!validSize(grpPtr)) continue;
#ifdef RS_DATA_SERVICE_DEBUG
std::cerr << "RsDataService::storeGroup() GrpId: " << grpPtr->grpId.toStdString();
std::cerr << " CircleType: " << (uint32_t) grpMetaPtr->mCircleType;
std::cerr << " CircleId: " << grpMetaPtr->mCircleId.toStdString();
std::cerr << std::endl;
#endif
/*!
* STORE data, data len,
* grpId, flags, publish time stamp, identity,
* id signature, admin signatue, key set, last posting ts
* and meta data
**/
ContentValue cv;
uint32_t dataLen = grpPtr->grp.TlvSize();
char grpData[dataLen];
uint32_t offset = 0;
grpPtr->grp.SetTlv(grpData, dataLen, &offset);
cv.put(KEY_NXS_DATA, dataLen, grpData);
cv.put(KEY_NXS_DATA_LEN, (int32_t) dataLen);
cv.put(KEY_GRP_ID, grpPtr->grpId.toStdString());
cv.put(KEY_GRP_NAME, grpMetaPtr->mGroupName);
cv.put(KEY_ORIG_GRP_ID, grpMetaPtr->mOrigGrpId.toStdString());
cv.put(KEY_NXS_SERV_STRING, grpMetaPtr->mServiceString);
cv.put(KEY_NXS_FLAGS, (int32_t)grpMetaPtr->mGroupFlags);
cv.put(KEY_TIME_STAMP, (int32_t)grpMetaPtr->mPublishTs);
cv.put(KEY_GRP_SIGN_FLAGS, (int32_t)grpMetaPtr->mSignFlags);
cv.put(KEY_GRP_CIRCLE_ID, grpMetaPtr->mCircleId.toStdString());
cv.put(KEY_GRP_CIRCLE_TYPE, (int32_t)grpMetaPtr->mCircleType);
cv.put(KEY_GRP_INTERNAL_CIRCLE, grpMetaPtr->mInternalCircle.toStdString());
cv.put(KEY_GRP_ORIGINATOR, grpMetaPtr->mOriginator.toStdString());
cv.put(KEY_GRP_AUTHEN_FLAGS, (int32_t)grpMetaPtr->mAuthenFlags);
cv.put(KEY_PARENT_GRP_ID, grpMetaPtr->mParentGrpId.toStdString());
cv.put(KEY_NXS_HASH, grpMetaPtr->mHash.toStdString());
cv.put(KEY_RECV_TS, (int32_t)grpMetaPtr->mRecvTS);
cv.put(KEY_GRP_REP_CUTOFF, (int32_t)grpMetaPtr->mReputationCutOff);
cv.put(KEY_NXS_IDENTITY, grpMetaPtr->mAuthorId.toStdString());
offset = 0;
char keySetData[grpMetaPtr->keys.TlvSize()];
grpMetaPtr->keys.SetTlv(keySetData, grpMetaPtr->keys.TlvSize(), &offset);
cv.put(KEY_KEY_SET, grpMetaPtr->keys.TlvSize(), keySetData);
offset = 0;
char metaData[grpPtr->meta.TlvSize()];
grpPtr->meta.SetTlv(metaData, grpPtr->meta.TlvSize(), &offset);
cv.put(KEY_NXS_META, grpPtr->meta.TlvSize(), metaData);
// local meta data
cv.put(KEY_GRP_SUBCR_FLAG, (int32_t)grpMetaPtr->mSubscribeFlags);
cv.put(KEY_GRP_POP, (int32_t)grpMetaPtr->mPop);
cv.put(KEY_MSG_COUNT, (int32_t)grpMetaPtr->mVisibleMsgCount);
cv.put(KEY_GRP_STATUS, (int32_t)grpMetaPtr->mGroupStatus);
cv.put(KEY_GRP_LAST_POST, (int32_t)grpMetaPtr->mLastPost);
if (!mDb->sqlInsert(GRP_TABLE_NAME, "", cv))
{
std::cerr << "RsDataService::storeGroup() sqlInsert Failed";
std::cerr << std::endl;
std::cerr << "\t For GroupId: " << grpMetaPtr->mGroupId.toStdString();
std::cerr << std::endl;
}
}
// finish transaction
bool ret = mDb->commitTransaction();
for(sit = grp.begin(); sit != grp.end(); ++sit)
{
//TODO: API encourages aliasing, remove this abomination
if(sit->second != sit->first->metaData)
delete sit->second;
delete sit->first;
}
return ret;
}
int RsDataService::updateGroup(std::map<RsNxsGrp *, RsGxsGrpMetaData *> &grp)
{
RsStackMutex stack(mDbMutex);
std::map<RsNxsGrp*, RsGxsGrpMetaData* >::iterator sit = grp.begin();
// begin transaction
mDb->beginTransaction();
for(; sit != grp.end(); ++sit)
{
RsNxsGrp* grpPtr = sit->first;
RsGxsGrpMetaData* grpMetaPtr = sit->second;
// if data is larger than max item size do not add
if(!validSize(grpPtr)) continue;
/*!
* STORE data, data len,
* grpId, flags, publish time stamp, identity,
* id signature, admin signatue, key set, last posting ts
* and meta data
**/
ContentValue cv;
uint32_t dataLen = grpPtr->grp.TlvSize();
char grpData[dataLen];
uint32_t offset = 0;
grpPtr->grp.SetTlv(grpData, dataLen, &offset);
cv.put(KEY_NXS_DATA, dataLen, grpData);
cv.put(KEY_NXS_DATA_LEN, (int32_t) dataLen);
cv.put(KEY_GRP_ID, grpPtr->grpId.toStdString());
cv.put(KEY_GRP_NAME, grpMetaPtr->mGroupName);
cv.put(KEY_ORIG_GRP_ID, grpMetaPtr->mOrigGrpId.toStdString());
cv.put(KEY_NXS_SERV_STRING, grpMetaPtr->mServiceString);
cv.put(KEY_NXS_FLAGS, (int32_t)grpMetaPtr->mGroupFlags);
cv.put(KEY_TIME_STAMP, (int32_t)grpMetaPtr->mPublishTs);
cv.put(KEY_GRP_SIGN_FLAGS, (int32_t)grpMetaPtr->mSignFlags);
cv.put(KEY_GRP_CIRCLE_ID, grpMetaPtr->mCircleId.toStdString());
cv.put(KEY_GRP_CIRCLE_TYPE, (int32_t)grpMetaPtr->mCircleType);
cv.put(KEY_GRP_INTERNAL_CIRCLE, grpMetaPtr->mInternalCircle.toStdString());
cv.put(KEY_GRP_ORIGINATOR, grpMetaPtr->mOriginator.toStdString());
cv.put(KEY_GRP_AUTHEN_FLAGS, (int32_t)grpMetaPtr->mAuthenFlags);
cv.put(KEY_NXS_HASH, grpMetaPtr->mHash.toStdString());
cv.put(KEY_NXS_IDENTITY, grpMetaPtr->mAuthorId.toStdString());
offset = 0;
char keySetData[grpMetaPtr->keys.TlvSize()];
grpMetaPtr->keys.SetTlv(keySetData, grpMetaPtr->keys.TlvSize(), &offset);
cv.put(KEY_KEY_SET, grpMetaPtr->keys.TlvSize(), keySetData);
offset = 0;
char metaData[grpPtr->meta.TlvSize()];
grpPtr->meta.SetTlv(metaData, grpPtr->meta.TlvSize(), &offset);
cv.put(KEY_NXS_META, grpPtr->meta.TlvSize(), metaData);
// local meta data
cv.put(KEY_GRP_SUBCR_FLAG, (int32_t)grpMetaPtr->mSubscribeFlags);
cv.put(KEY_GRP_POP, (int32_t)grpMetaPtr->mPop);
cv.put(KEY_MSG_COUNT, (int32_t)grpMetaPtr->mVisibleMsgCount);
cv.put(KEY_GRP_STATUS, (int32_t)grpMetaPtr->mGroupStatus);
cv.put(KEY_GRP_LAST_POST, (int32_t)grpMetaPtr->mLastPost);
mDb->sqlUpdate(GRP_TABLE_NAME, "grpId='" + grpPtr->grpId.toStdString() + "'", cv);
}
// finish transaction
bool ret = mDb->commitTransaction();
for(sit = grp.begin(); sit != grp.end(); ++sit)
{
//TODO: API encourages aliasing, remove this abomination
if(sit->second != sit->first->metaData)
delete sit->second;
delete sit->first;
}
return ret;
}
int RsDataService::updateGroupKeys(const RsGxsGroupId& grpId,const RsTlvSecurityKeySet& keys,uint32_t subscribe_flags)
{
RsStackMutex stack(mDbMutex);
// begin transaction
mDb->beginTransaction();
/*!
* STORE key set
**/
ContentValue cv;
//cv.put(KEY_NXS_FLAGS, (int32_t)grpMetaPtr->mGroupFlags); ?
uint32_t offset = 0;
char keySetData[keys.TlvSize()];
keys.SetTlv(keySetData, keys.TlvSize(), &offset);
cv.put(KEY_KEY_SET, keys.TlvSize(), keySetData);
cv.put(KEY_GRP_SUBCR_FLAG, (int32_t)subscribe_flags);
mDb->sqlUpdate(GRP_TABLE_NAME, "grpId='" + grpId.toStdString() + "'", cv);
// finish transaction
return mDb->commitTransaction();
}
bool RsDataService::validSize(RsNxsGrp* grp) const
{
if((grp->grp.TlvSize() + grp->meta.TlvSize()) <= GXS_MAX_ITEM_SIZE) return true;
return false;
}
int RsDataService::retrieveNxsGrps(std::map<RsGxsGroupId, RsNxsGrp *> &grp, bool withMeta, bool /* cache */)
{
#ifdef RS_DATA_SERVICE_DEBUG_TIME
RsScopeTimer timer("");
int resultCount = 0;
int requestedGroups = grp.size();
#endif
if(grp.empty()){
RsStackMutex stack(mDbMutex);
RetroCursor* c = mDb->sqlQuery(GRP_TABLE_NAME, withMeta ? mGrpColumnsWithMeta : mGrpColumns, "", "");
if(c)
{
std::vector<RsNxsGrp*> grps;
locked_retrieveGroups(c, grps, withMeta ? mColGrp_WithMetaOffset : 0);
std::vector<RsNxsGrp*>::iterator vit = grps.begin();
#ifdef RS_DATA_SERVICE_DEBUG_TIME
resultCount = grps.size();
#endif
for(; vit != grps.end(); ++vit)
{
grp[(*vit)->grpId] = *vit;
}
delete c;
}
}else{
RsStackMutex stack(mDbMutex);
std::map<RsGxsGroupId, RsNxsGrp *>::iterator mit = grp.begin();
std::list<RsGxsGroupId> toRemove;
for(; mit != grp.end(); ++mit)
{
const RsGxsGroupId& grpId = mit->first;
RetroCursor* c = mDb->sqlQuery(GRP_TABLE_NAME, withMeta ? mGrpColumnsWithMeta : mGrpColumns, "grpId='" + grpId.toStdString() + "'", "");
if(c)
{
std::vector<RsNxsGrp*> grps;
locked_retrieveGroups(c, grps, withMeta ? mColGrp_WithMetaOffset : 0);
if(!grps.empty())
{
RsNxsGrp* ng = grps.front();
grp[ng->grpId] = ng;
#ifdef RS_DATA_SERVICE_DEBUG_TIME
++resultCount;
#endif
}else{
toRemove.push_back(grpId);
}
delete c;
}
}
std::list<RsGxsGroupId>::iterator grpIdIt;
for (grpIdIt = toRemove.begin(); grpIdIt != toRemove.end(); ++grpIdIt)
{
grp.erase(*grpIdIt);
}
}
#ifdef RS_DATA_SERVICE_DEBUG_TIME
std::cerr << "RsDataService::retrieveNxsGrps() " << mDbName << ", Requests: " << requestedGroups << ", Results: " << resultCount << ", Time: " << timer.duration() << std::endl;
#endif
return 1;
}
void RsDataService::locked_retrieveGroups(RetroCursor* c, std::vector<RsNxsGrp*>& grps, int metaOffset){
if(c){
bool valid = c->moveToFirst();
while(valid){
RsNxsGrp* g = locked_getGroup(*c);
// only add the latest grp info
if(g)
{
if (metaOffset) {
g->metaData = locked_getGrpMeta(*c, metaOffset);
}
grps.push_back(g);
}
valid = c->moveToNext();
}
}
}
int RsDataService::retrieveNxsMsgs(const GxsMsgReq &reqIds, GxsMsgResult &msg, bool /* cache */, bool withMeta)
{
#ifdef RS_DATA_SERVICE_DEBUG_TIME
RsScopeTimer timer("");
int resultCount = 0;
#endif
GxsMsgReq::const_iterator mit = reqIds.begin();
for(; mit != reqIds.end(); ++mit)
{
const RsGxsGroupId& grpId = mit->first;
// if vector empty then request all messages
const std::vector<RsGxsMessageId>& msgIdV = mit->second;
std::vector<RsNxsMsg*> msgSet;
if(msgIdV.empty()){
RsStackMutex stack(mDbMutex);
RetroCursor* c = mDb->sqlQuery(MSG_TABLE_NAME, withMeta ? mMsgColumnsWithMeta : mMsgColumns, KEY_GRP_ID+ "='" + grpId.toStdString() + "'", "");
if(c)
{
locked_retrieveMessages(c, msgSet, withMeta ? mColMsg_WithMetaOffset : 0);
#ifdef RS_DATA_SERVICE_DEBUG_TIME
resultCount += msgSet.size();
#endif
}
delete c;
}else{
// request each grp
std::vector<RsGxsMessageId>::const_iterator sit = msgIdV.begin();
for(; sit!=msgIdV.end();++sit){
const RsGxsMessageId& msgId = *sit;
RsStackMutex stack(mDbMutex);
RetroCursor* c = mDb->sqlQuery(MSG_TABLE_NAME, withMeta ? mMsgColumnsWithMeta : mMsgColumns, KEY_GRP_ID+ "='" + grpId.toStdString()
+ "' AND " + KEY_MSG_ID + "='" + msgId.toStdString() + "'", "");
if(c)
{
locked_retrieveMessages(c, msgSet, withMeta ? mColMsg_WithMetaOffset : 0);
#ifdef RS_DATA_SERVICE_DEBUG_TIME
resultCount += c->getResultCount();
#endif
}
delete c;
}
}
msg[grpId] = msgSet;
msgSet.clear();
}
#ifdef RS_DATA_SERVICE_DEBUG_TIME
2015-08-13 09:34:44 -04:00
std::cerr << "RsDataService::retrieveNxsMsgs() " << mDbName << ", Requests: " << reqIds.size() << ", Results: " << resultCount << ", Time: " << timer.duration() << std::endl;
#endif
return 1;
}
void RsDataService::locked_retrieveMessages(RetroCursor *c, std::vector<RsNxsMsg *> &msgs, int metaOffset)
{
bool valid = c->moveToFirst();
while(valid){
RsNxsMsg* m = locked_getMessage(*c);
if(m){
if (metaOffset) {
m->metaData = locked_getMsgMeta(*c, metaOffset);
}
msgs.push_back(m);
}
valid = c->moveToNext();
}
return;
}
int RsDataService::retrieveGxsMsgMetaData(const GxsMsgReq& reqIds, GxsMsgMetaResult &msgMeta)
{
RsStackMutex stack(mDbMutex);
#ifdef RS_DATA_SERVICE_DEBUG_TIME
RsScopeTimer timer("");
int resultCount = 0;
#endif
GxsMsgReq::const_iterator mit = reqIds.begin();
for(; mit != reqIds.end(); ++mit)
{
const RsGxsGroupId& grpId = mit->first;
// if vector empty then request all messages
const std::vector<RsGxsMessageId>& msgIdV = mit->second;
std::vector<RsGxsMsgMetaData*> metaSet;
if(msgIdV.empty()){
RetroCursor* c = mDb->sqlQuery(MSG_TABLE_NAME, mMsgMetaColumns, KEY_GRP_ID+ "='" + grpId.toStdString() + "'", "");
if (c)
{
locked_retrieveMsgMeta(c, metaSet);
#ifdef RS_DATA_SERVICE_DEBUG_TIME
resultCount += metaSet.size();
#endif
}
}else{
// request each grp
std::vector<RsGxsMessageId>::const_iterator sit = msgIdV.begin();
for(; sit!=msgIdV.end(); ++sit){
const RsGxsMessageId& msgId = *sit;
RetroCursor* c = mDb->sqlQuery(MSG_TABLE_NAME, mMsgMetaColumns, KEY_GRP_ID+ "='" + grpId.toStdString()
+ "' AND " + KEY_MSG_ID + "='" + msgId.toStdString() + "'", "");
if (c)
{
locked_retrieveMsgMeta(c, metaSet);
#ifdef RS_DATA_SERVICE_DEBUG_TIME
resultCount += c->getResultCount();
#endif
}
}
}
msgMeta[grpId] = metaSet;
}
#ifdef RS_DATA_SERVICE_DEBUG_TIME
std::cerr << "RsDataService::retrieveGxsMsgMetaData() " << mDbName << ", Requests: " << reqIds.size() << ", Results: " << resultCount << ", Time: " << timer.duration() << std::endl;
#endif
return 1;
}
void RsDataService::locked_retrieveMsgMeta(RetroCursor *c, std::vector<RsGxsMsgMetaData *> &msgMeta)
{
if(c)
{
bool valid = c->moveToFirst();
while(valid){
RsGxsMsgMetaData* m = locked_getMsgMeta(*c, 0);
if(m != NULL)
msgMeta.push_back(m);
valid = c->moveToNext();
}
delete c;
}
}
int RsDataService::retrieveGxsGrpMetaData(std::map<RsGxsGroupId, RsGxsGrpMetaData *>& grp)
{
#ifdef RS_DATA_SERVICE_DEBUG
std::cerr << "RsDataService::retrieveGxsGrpMetaData()";
std::cerr << std::endl;
#endif
RsStackMutex stack(mDbMutex);
#ifdef RS_DATA_SERVICE_DEBUG_TIME
RsScopeTimer timer("");
int resultCount = 0;
int requestedGroups = grp.size();
#endif
if(grp.empty()){
#ifdef RS_DATA_SERVICE_DEBUG
std::cerr << "RsDataService::retrieveGxsGrpMetaData() retrieving all";
std::cerr << std::endl;
#endif
RetroCursor* c = mDb->sqlQuery(GRP_TABLE_NAME, mGrpMetaColumns, "", "");
if(c)
{
bool valid = c->moveToFirst();
while(valid)
{
RsGxsGrpMetaData* g = locked_getGrpMeta(*c, 0);
if(g)
{
grp[g->mGroupId] = g;
}
valid = c->moveToNext();
#ifdef RS_DATA_SERVICE_DEBUG_TIME
++resultCount;
#endif
}
delete c;
}
}else
{
std::map<RsGxsGroupId, RsGxsGrpMetaData *>::iterator mit = grp.begin();
for(; mit != grp.end(); ++mit)
{
const RsGxsGroupId& grpId = mit->first;
RetroCursor* c = mDb->sqlQuery(GRP_TABLE_NAME, mGrpMetaColumns, "grpId='" + grpId.toStdString() + "'", "");
if(c)
{
bool valid = c->moveToFirst();
while(valid)
{
RsGxsGrpMetaData* g = locked_getGrpMeta(*c, 0);
if(g)
{
grp[g->mGroupId] = g;
}
valid = c->moveToNext();
#ifdef RS_DATA_SERVICE_DEBUG_TIME
++resultCount;
#endif
}
delete c;
}
}
}
#ifdef RS_DATA_SERVICE_DEBUG_TIME
std::cerr << "RsDataService::retrieveGxsGrpMetaData() " << mDbName << ", Requests: " << requestedGroups << ", Results: " << resultCount << ", Time: " << timer.duration() << std::endl;
#endif
return 1;
}
int RsDataService::resetDataStore()
{
#ifdef RS_DATA_SERVICE_DEBUG
std::cerr << "resetDataStore() " << std::endl;
#endif
{
RsStackMutex stack(mDbMutex);
mDb->execSQL("DROP INDEX " + MSG_INDEX_GRPID);
mDb->execSQL("DROP TABLE " + DATABASE_RELEASE_TABLE_NAME);
mDb->execSQL("DROP TABLE " + MSG_TABLE_NAME);
mDb->execSQL("DROP TABLE " + GRP_TABLE_NAME);
mDb->execSQL("DROP TRIGGER " + GRP_LAST_POST_UPDATE_TRIGGER);
}
// recreate database
initialise(true);
return 1;
}
int RsDataService::updateGroupMetaData(GrpLocMetaData &meta)
{
RsStackMutex stack(mDbMutex);
RsGxsGroupId& grpId = meta.grpId;
return mDb->sqlUpdate(GRP_TABLE_NAME, KEY_GRP_ID+ "='" + grpId.toStdString() + "'", meta.val) ? 1 : 0;
}
int RsDataService::updateMessageMetaData(MsgLocMetaData &metaData)
{
RsStackMutex stack(mDbMutex);
RsGxsGroupId& grpId = metaData.msgId.first;
RsGxsMessageId& msgId = metaData.msgId.second;
return mDb->sqlUpdate(MSG_TABLE_NAME, KEY_GRP_ID+ "='" + grpId.toStdString()
+ "' AND " + KEY_MSG_ID + "='" + msgId.toStdString() + "'", metaData.val) ? 1 : 0;
}
int RsDataService::removeMsgs(const GxsMsgReq& msgIds)
{
RsStackMutex stack(mDbMutex);
GxsMsgReq::const_iterator mit = msgIds.begin();
for(; mit != msgIds.end(); ++mit)
{
const std::vector<RsGxsMessageId>& msgIdV = mit->second;
const RsGxsGroupId& grpId = mit->first;
// delete messages
GxsMsgReq msgsToDelete;
msgsToDelete[grpId] = msgIdV;
locked_removeMessageEntries(msgsToDelete);
}
return 1;
}
int RsDataService::removeGroups(const std::vector<RsGxsGroupId> &grpIds)
{
RsStackMutex stack(mDbMutex);
locked_removeGroupEntries(grpIds);
return 1;
}
int RsDataService::retrieveGroupIds(std::vector<RsGxsGroupId> &grpIds)
{
RsStackMutex stack(mDbMutex);
#ifdef RS_DATA_SERVICE_DEBUG_TIME
RsScopeTimer timer("");
int resultCount = 0;
#endif
RetroCursor* c = mDb->sqlQuery(GRP_TABLE_NAME, mGrpIdColumn, "", "");
if(c)
{
bool valid = c->moveToFirst();
while(valid)
{
std::string grpId;
c->getString(mColGrpId_GrpId, grpId);
grpIds.push_back(RsGxsGroupId(grpId));
valid = c->moveToNext();
#ifdef RS_DATA_SERVICE_DEBUG_TIME
++resultCount;
#endif
}
delete c;
}else
{
return 0;
}
#ifdef RS_DATA_SERVICE_DEBUG_TIME
std::cerr << "RsDataService::retrieveGroupIds() " << mDbName << ", Results: " << resultCount << ", Time: " << timer.duration() << std::endl;
#endif
return 1;
}
int RsDataService::retrieveMsgIds(const RsGxsGroupId& grpId, RsGxsMessageId::std_vector& msgIds)
{
#ifdef RS_DATA_SERVICE_DEBUG_TIME
RsScopeTimer timer("");
int resultCount = 0;
#endif
RetroCursor* c = mDb->sqlQuery(MSG_TABLE_NAME, mMsgIdColumn, KEY_GRP_ID+ "='" + grpId.toStdString() + "'", "");
if(c)
{
bool valid = c->moveToFirst();
while(valid)
{
std::string msgId;
c->getString(mColMsgId_MsgId, msgId);
if(c->columnCount() != 1)
std::cerr << "(EE) ********* not retrieving all columns!!" << std::endl;
msgIds.push_back(RsGxsMessageId(msgId));
valid = c->moveToNext();
#ifdef RS_DATA_SERVICE_DEBUG_TIME
++resultCount;
#endif
}
delete c;
}else
{
return 0;
}
#ifdef RS_DATA_SERVICE_DEBUG_TIME
std::cerr << "RsDataService::retrieveNxsGrps() " << mDbName << ", Results: " << resultCount << ", Time: " << timer.duration() << std::endl;
#endif
return 1;
}
bool RsDataService::locked_removeMessageEntries(const GxsMsgReq& msgIds)
{
// start a transaction
bool ret = mDb->beginTransaction();
GxsMsgReq::const_iterator mit = msgIds.begin();
for(; mit != msgIds.end(); ++mit)
{
const RsGxsGroupId& grpId = mit->first;
const std::vector<RsGxsMessageId>& msgsV = mit->second;
std::vector<RsGxsMessageId>::const_iterator vit = msgsV.begin();
for(; vit != msgsV.end(); ++vit)
{
const RsGxsMessageId& msgId = *vit;
mDb->sqlDelete(MSG_TABLE_NAME, KEY_GRP_ID+ "='" + grpId.toStdString()
+ "' AND " + KEY_MSG_ID + "='" + msgId.toStdString() + "'", "");
}
}
ret &= mDb->commitTransaction();
return ret;
}
bool RsDataService::locked_removeGroupEntries(const std::vector<RsGxsGroupId>& grpIds)
{
// start a transaction
bool ret = mDb->beginTransaction();
std::vector<RsGxsGroupId>::const_iterator vit = grpIds.begin();
for(; vit != grpIds.end(); ++vit)
{
const RsGxsGroupId& grpId = *vit;
mDb->sqlDelete(GRP_TABLE_NAME, KEY_GRP_ID+ "='" + grpId.toStdString() + "'", "");
}
ret &= mDb->commitTransaction();
return ret;
}
uint32_t RsDataService::cacheSize() const {
return 0;
}
int RsDataService::setCacheSize(uint32_t /* size */)
{
return 0;
}