ddnet/src/engine/client/serverbrowser_ping_cache.cpp

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2021-04-17 14:05:24 +00:00
#include "serverbrowser_ping_cache.h"
#include <engine/console.h>
#include <engine/sqlite.h>
#include <sqlite3.h>
#include <algorithm>
#include <stdio.h>
#include <vector>
class CServerBrowserPingCache : public IServerBrowserPingCache
{
public:
CServerBrowserPingCache(IConsole *pConsole, IStorage *pStorage);
virtual ~CServerBrowserPingCache() {}
void Load();
void CachePing(NETADDR Addr, int Ping);
void GetPingCache(const CEntry **ppEntries, int *pNumEntries);
private:
IConsole *m_pConsole;
CSqlite m_pDisk;
CSqliteStmt m_pLoadStmt;
CSqliteStmt m_pStoreStmt;
std::vector<CEntry> m_aEntries;
std::vector<CEntry> m_aNewEntries;
};
CServerBrowserPingCache::CServerBrowserPingCache(IConsole *pConsole, IStorage *pStorage) :
m_pConsole(pConsole)
{
m_pDisk = SqliteOpen(pConsole, pStorage, "ddnet-cache.sqlite3");
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if(!m_pDisk)
{
pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "serverbrowse_ping_cache", "failed to open ddnet-cache.sqlite3");
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return;
}
sqlite3 *pSqlite = m_pDisk.get();
static const char TABLE[] = "CREATE TABLE IF NOT EXISTS server_pings (ip_address TEXT PRIMARY KEY NOT NULL, ping INTEGER NOT NULL, utc_timestamp TEXT NOT NULL)";
if(SQLITE_HANDLE_ERROR(sqlite3_exec(pSqlite, TABLE, nullptr, nullptr, nullptr)))
{
m_pDisk = nullptr;
pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "serverbrowse_ping_cache", "failed to create server_pings table");
return;
}
m_pLoadStmt = SqlitePrepare(pConsole, pSqlite, "SELECT ip_address, ping FROM server_pings");
m_pStoreStmt = SqlitePrepare(pConsole, pSqlite, "INSERT OR REPLACE INTO server_pings (ip_address, ping, utc_timestamp) VALUES (?, ?, datetime('now'))");
}
void CServerBrowserPingCache::Load()
{
if(m_pDisk)
{
int PrevNewEntriesSize = m_aNewEntries.size();
sqlite3 *pSqlite = m_pDisk.get();
IConsole *pConsole = m_pConsole;
bool Error = false;
bool WarnedForBadAddress = false;
Error = Error || !m_pLoadStmt;
while(!Error)
{
int StepResult = SQLITE_HANDLE_ERROR(sqlite3_step(m_pLoadStmt.get()));
if(StepResult == SQLITE_DONE)
{
break;
}
else if(StepResult == SQLITE_ROW)
{
const char *pIpAddress = (const char *)sqlite3_column_text(m_pLoadStmt.get(), 0);
int Ping = sqlite3_column_int(m_pLoadStmt.get(), 1);
NETADDR Addr;
if(net_addr_from_str(&Addr, pIpAddress))
{
if(!WarnedForBadAddress)
{
char aBuf[64];
str_format(aBuf, sizeof(aBuf), "invalid address: %s", pIpAddress);
pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "serverbrowse_ping_cache", aBuf);
WarnedForBadAddress = true;
}
continue;
}
m_aNewEntries.push_back(CEntry{Addr, Ping});
}
else
{
Error = true;
}
}
if(Error)
{
pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "serverbrowse_ping_cache", "failed to load ping cache");
m_aNewEntries.resize(PrevNewEntriesSize);
}
}
}
void CServerBrowserPingCache::CachePing(NETADDR Addr, int Ping)
{
Addr.port = 0;
m_aNewEntries.push_back(CEntry{Addr, Ping});
if(m_pDisk)
{
sqlite3 *pSqlite = m_pDisk.get();
IConsole *pConsole = m_pConsole;
char aAddr[NETADDR_MAXSTRSIZE];
net_addr_str(&Addr, aAddr, sizeof(aAddr), false);
bool Error = false;
Error = Error || !m_pStoreStmt;
Error = Error || SQLITE_HANDLE_ERROR(sqlite3_reset(m_pStoreStmt.get())) != SQLITE_OK;
Error = Error || SQLITE_HANDLE_ERROR(sqlite3_bind_text(m_pStoreStmt.get(), 1, aAddr, -1, SQLITE_STATIC)) != SQLITE_OK;
Error = Error || SQLITE_HANDLE_ERROR(sqlite3_bind_int(m_pStoreStmt.get(), 2, Ping)) != SQLITE_OK;
Error = Error || SQLITE_HANDLE_ERROR(sqlite3_step(m_pStoreStmt.get())) != SQLITE_DONE;
if(Error)
{
pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "serverbrowse_ping_cache", "failed to store ping");
}
}
}
void CServerBrowserPingCache::GetPingCache(const CEntry **ppEntries, int *pNumEntries)
{
if(!m_aNewEntries.empty())
{
class CAddrComparer
{
public:
bool operator()(const CEntry &a, const CEntry &b)
{
return net_addr_comp(&a.m_Addr, &b.m_Addr) < 0;
}
};
std::vector<CEntry> aOldEntries;
std::swap(m_aEntries, aOldEntries);
// Remove duplicates, keeping newer ones.
std::stable_sort(m_aNewEntries.begin(), m_aNewEntries.end(), CAddrComparer());
{
unsigned To = 0;
for(unsigned int From = 0; From < m_aNewEntries.size(); From++)
{
if(To < From)
{
m_aNewEntries[To] = m_aNewEntries[From];
}
if(From + 1 >= m_aNewEntries.size() ||
net_addr_comp(&m_aNewEntries[From].m_Addr, &m_aNewEntries[From + 1].m_Addr) != 0)
{
To++;
}
}
m_aNewEntries.resize(To);
}
// Only keep the new entries where there are duplicates.
m_aEntries.reserve(m_aNewEntries.size() + aOldEntries.size());
{
unsigned i = 0;
unsigned j = 0;
while(i < aOldEntries.size() && j < m_aNewEntries.size())
{
int Cmp = net_addr_comp(&aOldEntries[i].m_Addr, &m_aNewEntries[j].m_Addr);
if(Cmp != 0)
{
if(Cmp < 0)
{
m_aEntries.push_back(aOldEntries[i]);
i++;
}
else
{
m_aEntries.push_back(m_aNewEntries[j]);
j++;
}
}
else
{
// Ignore the old element if we have both.
i++;
}
}
// Add the remaining elements.
for(; i < aOldEntries.size(); i++)
{
m_aEntries.push_back(aOldEntries[i]);
}
for(; j < m_aNewEntries.size(); j++)
{
m_aEntries.push_back(m_aNewEntries[j]);
}
}
m_aNewEntries.clear();
}
*ppEntries = m_aEntries.data();
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*pNumEntries = m_aEntries.size();
}
IServerBrowserPingCache *CreateServerBrowserPingCache(IConsole *pConsole, IStorage *pStorage)
{
return new CServerBrowserPingCache(pConsole, pStorage);
}