KDE Utils/kwallet/Benchmark
Summary
One of the main concerns users had with the wallet was that new entries weren't saved immediately (Bug #105752). Before actually getting to work and coding a workaround (appending new passwords to the file without reencrypting all of it or creating a second file where new passwords are appended) I benchmarked the existing encryption to check the actual overhead that would be incurred by saving to the kwl file as soon as passwords were entered.
Code
I used the following code for benchmarking. Please keep in mind:
- keys and passwords generated using random data are probably longer than the entries you actually have in your wallet.
- only syncing the wallet is benchmarked
- due to hd caching (and a rather modest filesize), most of the time reported should be used encrypting the data.
- include <kaboutdata.h>
- include <kcomponentdata.h>
- include <kcmdlineargs.h>
- include <kdebug.h>
- include <kwallet.h>
- include <QApplication>
- include <QTime>
- include <QFile>
- include "../backend/kwalletentry.h"
- include "../backend/kwalletbackend.h"
using namespace KWallet;
static int getRandomBlock(QByteArray& randBlock) {
QFile devrand("/dev/urandom");
if (devrand.open(QIODevice::ReadOnly)) {
int rc = devrand.read(randBlock.data(), randBlock.size());
if (rc != randBlock.size()) {
return -3; // not enough data read
}
return 0;
}
return -1;
}
int main(int argc, char **argv) {
KAboutData aboutData("kwalletbench", 0, ki18n("kwalletbench"), "version");
KComponentData componentData(&aboutData);
QApplication app( argc, argv );
Backend back("/tmp/benchmark.kwl", true);
back.open("benchmark");
back.createFolder("benchmark");
back.setFolder("benchmark");
for (int i = 0; i <= 100000; i+=100) {
for (int j = 0; j < 100; ++j) {
Entry entry;
QByteArray key, value;
key.resize(20);
if (getRandomBlock(key) != 0) {
kDebug(0) << "Error";
}
value.resize(50);
if (getRandomBlock(value) != 0) {
kDebug(0) << "Error";
}
entry.setType(Wallet::Password);
entry.setKey(key);
entry.setValue(value);
back.writeEntry(&entry);
}
QTime _start = QTime::currentTime();
back.sync("benchmark");
QTime _end = QTime::currentTime();
kDebug(0) << i << ";" << _start.msecsTo(_end);
}
back.close();
return 0;
}
Results
I benchmarked on a Q6600. As the encrypting code is single-threaded, only one core (2.4GHz) is being used. Please bear in mind that I didn't bother to run the test several times as the results are pretty clear - unfortunately this makes some of the numbers seem a little weird.
- DebugFull
- 1 password: 16ms
- 100 passwords: 15ms
- 1000 passwords: 32ms
- 5000 passwords: 107ms
- 10000 passwords: 192ms
- Release
- 1 password: 8ms
- 100 passwords: 5ms
- 1000 passwords: 15ms
- 5000 passwords: 25ms
- 10000 passwords: 56ms
Discussion
I assume that your usual wallet will contain less than 1000 entries. Due to the fact that any workaround would have to encrypt at least 1 entry (~ 8ms) this workaround would save around 15ms - 8ms = 7ms. This is clearly insignificant. Big overhead for syncing the wallet seems to be a myth.