Merge pull request #650 from open-keychain/v/import-log

Parcelable operation result with logging capabilities + import logging
This commit is contained in:
Dominik Schürmann 2014-06-06 23:07:06 +02:00
commit 90f9646f25
5 changed files with 463 additions and 110 deletions

View File

@ -0,0 +1,169 @@
package org.sufficientlysecure.keychain.pgp;
import android.os.Parcel;
import android.os.Parcelable;
import org.sufficientlysecure.keychain.R;
import java.util.ArrayList;
/** Represent the result of an operation.
*
* This class holds a result and the log of an operation. It can be subclassed
* to include typed additional information specific to the operation. To keep
* the class structure (somewhat) simple, this class contains an exhaustive
* list (ie, enum) of all possible log types, which should in all cases be tied
* to string resource ids.
*
*/
public class OperationResultParcel implements Parcelable {
/** Holds the overall result. A value of 0 is considered a success, all
* other values may represent failure or varying degrees of success. */
final int mResult;
/// A list of log entries tied to the operation result.
final ArrayList<LogEntryParcel> mLog;
public OperationResultParcel(int result, ArrayList<LogEntryParcel> log) {
mResult = result;
mLog = log;
}
public OperationResultParcel(Parcel source) {
mResult = source.readInt();
mLog = source.createTypedArrayList(LogEntryParcel.CREATOR);
}
public boolean isSuccessful() {
return mResult == 0;
}
/** One entry in the log. */
public static class LogEntryParcel implements Parcelable {
final LogLevel mLevel;
final LogType mType;
final String[] mParameters;
final int mIndent;
public LogEntryParcel(LogLevel level, LogType type, String[] parameters, int indent) {
mLevel = level;
mType = type;
mParameters = parameters;
mIndent = indent;
}
public LogEntryParcel(LogLevel level, LogType type, String[] parameters) {
this(level, type, parameters, 0);
}
public LogEntryParcel(Parcel source) {
mLevel = LogLevel.values()[source.readInt()];
mType = LogType.values()[source.readInt()];
mParameters = source.createStringArray();
mIndent = source.readInt();
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
dest.writeInt(mLevel.ordinal());
dest.writeInt(mType.ordinal());
dest.writeStringArray(mParameters);
dest.writeInt(mIndent);
}
public static final Creator<LogEntryParcel> CREATOR = new Creator<LogEntryParcel>() {
public LogEntryParcel createFromParcel(final Parcel source) {
return new LogEntryParcel(source);
}
public LogEntryParcel[] newArray(final int size) {
return new LogEntryParcel[size];
}
};
}
public static enum LogType {
MSG_IP_APPLY_BATCH (R.string.msg_ip_apply_batch),
MSG_IP_BAD_TYPE_SECRET (R.string.msg_ip_bad_type_secret),
MSG_IP_DELETE_OLD_FAIL (R.string.msg_ip_delete_old_fail),
MSG_IP_DELETE_OLD_OK (R.string.msg_ip_delete_old_ok),
MSG_IP_ENCODE_FAIL (R.string.msg_ip_encode_fail),
MSG_IP_FAIL_IO_EXC (R.string.msg_ip_fail_io_exc),
MSG_IP_FAIL_OP_EX (R.string.msg_ip_fail_op_ex),
MSG_IP_FAIL_REMOTE_EX (R.string.msg_ip_fail_remote_ex),
MSG_IP_IMPORTING (R.string.msg_ip_importing),
MSG_IP_INSERT_KEYRING (R.string.msg_ip_insert_keyring),
MSG_IP_INSERT_SUBKEY (R.string.msg_ip_insert_subkey),
MSG_IP_INSERT_SUBKEYS (R.string.msg_ip_insert_subkeys),
MSG_IP_PRESERVING_SECRET (R.string.msg_ip_preserving_secret),
MSG_IP_REINSERT_SECRET (R.string.msg_ip_reinsert_secret),
MSG_IP_SUCCESS (R.string.msg_ip_success),
MSG_IP_TRUST_RETRIEVE (R.string.msg_ip_trust_retrieve),
MSG_IP_TRUST_USING (R.string.msg_ip_trust_using),
MSG_IP_TRUST_USING_SEC (R.string.msg_ip_trust_using_sec),
MSG_IP_UID_CERT_BAD (R.string.msg_ip_uid_cert_bad),
MSG_IP_UID_CERT_ERROR (R.string.msg_ip_uid_cert_error),
MSG_IP_UID_CERT_GOOD (R.string.msg_ip_uid_cert_good),
MSG_IP_UID_CERTS_UNKNOWN (R.string.msg_ip_uid_certs_unknown),
MSG_IP_UID_CLASSIFYING (R.string.msg_ip_uid_classifying),
MSG_IP_UID_INSERT (R.string.msg_ip_uid_insert),
MSG_IP_UID_PROCESSING (R.string.msg_ip_uid_processing),
MSG_IP_UID_SELF_BAD (R.string.msg_ip_uid_self_bad),
MSG_IP_UID_SELF_GOOD (R.string.msg_ip_uid_self_good),
MSG_IP_UID_SELF_IGNORING_OLD (R.string.msg_ip_uid_self_ignoring_old),
MSG_IP_UID_SELF_NEWER (R.string.msg_ip_uid_self_newer),
MSG_IS_BAD_TYPE_PUBLIC (R.string.msg_is_bad_type_public),
MSG_IS_IMPORTING (R.string.msg_is_importing),
MSG_IS_IMPORTING_SUBKEYS (R.string.msg_is_importing_subkeys),
MSG_IS_IO_EXCPTION (R.string.msg_is_io_excption),
MSG_IS_SUBKEY_NONEXISTENT (R.string.msg_is_subkey_nonexistent),
MSG_IS_SUBKEY_OK (R.string.msg_is_subkey_ok),
MSG_IS_SUBKEY_STRIPPED (R.string.msg_is_subkey_stripped),
MSG_IS_SUCCESS (R.string.msg_is_success),
;
private final int mMsgId;
LogType(int msgId) {
mMsgId = msgId;
}
public int getMsgId() {
return mMsgId;
}
}
/** Enumeration of possible log levels. */
public static enum LogLevel {
DEBUG,
INFO,
WARN,
/** If any ERROR log entry is included in the result, the overall operation should have failed. */
ERROR,
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
dest.writeInt(mResult);
dest.writeTypedList(mLog);
}
public static final Creator<OperationResultParcel> CREATOR = new Creator<OperationResultParcel>() {
public OperationResultParcel createFromParcel(final Parcel source) {
return new OperationResultParcel(source);
}
public OperationResultParcel[] newArray(final int size) {
return new OperationResultParcel[size];
}
};
}

View File

@ -152,13 +152,14 @@ public class PgpImportExport {
} }
} }
mProviderHelper.savePublicKeyRing(key); mProviderHelper.resetLog();
/*switch(status) { OperationResultParcel result = mProviderHelper.savePublicKeyRing(key);
case RETURN_UPDATED: oldKeys++; break; for(OperationResultParcel.LogEntryParcel loge : result.mLog) {
case RETURN_OK: newKeys++; break; Log.d(Constants.TAG,
case RETURN_BAD: badKeys++; break; loge.mIndent
}*/ + new String(new char[loge.mIndent]).replace("\0", " ")
// TODO proper import feedback + mContext.getString(loge.mType.getMsgId(), (Object[]) loge.mParameters));
}
newKeys += 1; newKeys += 1;
} catch (PgpGeneralException e) { } catch (PgpGeneralException e) {

View File

@ -19,6 +19,7 @@ import java.io.IOException;
import java.io.InputStream; import java.io.InputStream;
import java.io.OutputStream; import java.io.OutputStream;
import java.util.ArrayList; import java.util.ArrayList;
import java.util.HashSet;
import java.util.Iterator; import java.util.Iterator;
import java.util.List; import java.util.List;
import java.util.Vector; import java.util.Vector;
@ -149,13 +150,13 @@ public class UncachedKeyRing {
aos.close(); aos.close();
} }
public ArrayList<Long> getAvailableSubkeys() { public HashSet<Long> getAvailableSubkeys() {
if(!isSecret()) { if(!isSecret()) {
throw new RuntimeException("Tried to find available subkeys from non-secret keys. " + throw new RuntimeException("Tried to find available subkeys from non-secret keys. " +
"This is a programming error and should never happen!"); "This is a programming error and should never happen!");
} }
ArrayList<Long> result = new ArrayList<Long>(); HashSet<Long> result = new HashSet<Long>();
// then, mark exactly the keys we have available // then, mark exactly the keys we have available
for (PGPSecretKey sub : new IterableIterator<PGPSecretKey>( for (PGPSecretKey sub : new IterableIterator<PGPSecretKey>(
((PGPSecretKeyRing) mRing).getSecretKeys())) { ((PGPSecretKeyRing) mRing).getSecretKeys())) {

View File

@ -29,6 +29,9 @@ import android.support.v4.util.LongSparseArray;
import org.sufficientlysecure.keychain.Constants; import org.sufficientlysecure.keychain.Constants;
import org.sufficientlysecure.keychain.pgp.KeyRing; import org.sufficientlysecure.keychain.pgp.KeyRing;
import org.sufficientlysecure.keychain.pgp.OperationResultParcel;
import org.sufficientlysecure.keychain.pgp.OperationResultParcel.LogType;
import org.sufficientlysecure.keychain.pgp.OperationResultParcel.LogLevel;
import org.sufficientlysecure.keychain.pgp.PgpHelper; import org.sufficientlysecure.keychain.pgp.PgpHelper;
import org.sufficientlysecure.keychain.pgp.PgpKeyHelper; import org.sufficientlysecure.keychain.pgp.PgpKeyHelper;
import org.sufficientlysecure.keychain.pgp.UncachedKeyRing; import org.sufficientlysecure.keychain.pgp.UncachedKeyRing;
@ -59,12 +62,28 @@ import java.util.List;
import java.util.Set; import java.util.Set;
public class ProviderHelper { public class ProviderHelper {
private Context mContext; private final Context mContext;
private ContentResolver mContentResolver; private final ContentResolver mContentResolver;
private final ArrayList<OperationResultParcel.LogEntryParcel> mLog;
private int mIndent;
public ProviderHelper(Context context) { public ProviderHelper(Context context) {
this.mContext = context; this(context, new ArrayList<OperationResultParcel.LogEntryParcel>(), 0);
this.mContentResolver = context.getContentResolver(); }
public ProviderHelper(Context context, ArrayList<OperationResultParcel.LogEntryParcel> log,
int indent) {
mContext = context;
mContentResolver = context.getContentResolver();
mLog = log;
mIndent = indent;
}
public void resetLog() {
if(mLog != null) {
mLog.clear();
mIndent = 0;
}
} }
public static class NotFoundException extends Exception { public static class NotFoundException extends Exception {
@ -76,6 +95,17 @@ public class ProviderHelper {
} }
} }
public void log(LogLevel level, LogType type) {
if(mLog != null) {
mLog.add(new OperationResultParcel.LogEntryParcel(level, type, null, mIndent));
}
}
public void log(LogLevel level, LogType type, String[] parameters) {
if(mLog != null) {
mLog.add(new OperationResultParcel.LogEntryParcel(level, type, parameters, mIndent));
}
}
// If we ever switch to api level 11, we can ditch this whole mess! // If we ever switch to api level 11, we can ditch this whole mess!
public static final int FIELD_TYPE_NULL = 1; public static final int FIELD_TYPE_NULL = 1;
// this is called integer to stay coherent with the constants in Cursor (api level 11) // this is called integer to stay coherent with the constants in Cursor (api level 11)
@ -222,64 +252,98 @@ public class ProviderHelper {
* Saves PGPPublicKeyRing with its keys and userIds in DB * Saves PGPPublicKeyRing with its keys and userIds in DB
*/ */
@SuppressWarnings("unchecked") @SuppressWarnings("unchecked")
public void savePublicKeyRing(UncachedKeyRing keyRing) throws IOException { public OperationResultParcel savePublicKeyRing(UncachedKeyRing keyRing) {
if (keyRing.isSecret()) { if (keyRing.isSecret()) {
throw new RuntimeException("Tried to save secret keyring as public! " + log(LogLevel.ERROR, LogType.MSG_IP_BAD_TYPE_SECRET);
"This is a bug, please file a bug report."); return new OperationResultParcel(1, mLog);
} }
UncachedPublicKey masterKey = keyRing.getPublicKey(); UncachedPublicKey masterKey = keyRing.getPublicKey();
long masterKeyId = masterKey.getKeyId(); long masterKeyId = masterKey.getKeyId();
log(LogLevel.INFO, LogType.MSG_IP_IMPORTING,
new String[]{Long.toString(masterKeyId)});
mIndent += 1;
// IF there is a secret key, preserve it! // IF there is a secret key, preserve it!
UncachedKeyRing secretRing = null; UncachedKeyRing secretRing;
try { try {
secretRing = getWrappedSecretKeyRing(masterKeyId).getUncached(); secretRing = getWrappedSecretKeyRing(masterKeyId).getUncached();
log(LogLevel.DEBUG, LogType.MSG_IP_PRESERVING_SECRET);
} catch (NotFoundException e) { } catch (NotFoundException e) {
Log.e(Constants.TAG, "key not found!"); secretRing = null;
} }
// delete old version of this keyRing, which also deletes all keys and userIds on cascade // delete old version of this keyRing, which also deletes all keys and userIds on cascade
try { try {
mContentResolver.delete(KeyRingData.buildPublicKeyRingUri(Long.toString(masterKeyId)), null, null); mContentResolver.delete(KeyRingData.buildPublicKeyRingUri(Long.toString(masterKeyId)), null, null);
log(LogLevel.DEBUG, LogType.MSG_IP_DELETE_OLD_OK);
} catch (UnsupportedOperationException e) { } catch (UnsupportedOperationException e) {
Log.e(Constants.TAG, "Key could not be deleted! Maybe we are creating a new one!", e); Log.e(Constants.TAG, "Key could not be deleted! Maybe we are creating a new one!", e);
log(LogLevel.DEBUG, LogType.MSG_IP_DELETE_OLD_FAIL);
} }
// insert new version of this keyRing // insert new version of this keyRing
ContentValues values = new ContentValues(); ContentValues values = new ContentValues();
values.put(KeyRingData.MASTER_KEY_ID, masterKeyId); values.put(KeyRingData.MASTER_KEY_ID, masterKeyId);
try {
values.put(KeyRingData.KEY_RING_DATA, keyRing.getEncoded()); values.put(KeyRingData.KEY_RING_DATA, keyRing.getEncoded());
Uri uri = KeyRingData.buildPublicKeyRingUri(Long.toString(masterKeyId)); } catch (IOException e) {
mContentResolver.insert(uri, values); log(LogLevel.ERROR, LogType.MSG_IP_ENCODE_FAIL);
return new OperationResultParcel(1, mLog);
}
// save all keys and userIds included in keyRing object in database // save all keys and userIds included in keyRing object in database
ArrayList<ContentProviderOperation> operations = new ArrayList<ContentProviderOperation>(); ArrayList<ContentProviderOperation> operations = new ArrayList<ContentProviderOperation>();
try {
log(LogLevel.INFO, LogType.MSG_IP_INSERT_KEYRING);
Uri uri = KeyRingData.buildPublicKeyRingUri(Long.toString(masterKeyId));
operations.add(ContentProviderOperation.newInsert(uri).withValues(values).build());
log(LogLevel.INFO, LogType.MSG_IP_INSERT_SUBKEYS);
mIndent += 1;
int rank = 0; int rank = 0;
for (UncachedPublicKey key : new IterableIterator<UncachedPublicKey>(keyRing.getPublicKeys())) { for (UncachedPublicKey key : new IterableIterator<UncachedPublicKey>(keyRing.getPublicKeys())) {
log(LogLevel.DEBUG, LogType.MSG_IP_INSERT_SUBKEY, new String[] {
PgpKeyHelper.convertKeyIdToHex(key.getKeyId())
});
operations.add(buildPublicKeyOperations(masterKeyId, key, rank)); operations.add(buildPublicKeyOperations(masterKeyId, key, rank));
++rank; ++rank;
} }
mIndent -= 1;
log(LogLevel.DEBUG, LogType.MSG_IP_TRUST_RETRIEVE);
// get a list of owned secret keys, for verification filtering // get a list of owned secret keys, for verification filtering
LongSparseArray<UncachedPublicKey> allKeyRings = LongSparseArray<UncachedPublicKey> trustedKeys =
getUncachedMasterKeys(KeyRingData.buildSecretKeyRingUri()); getUncachedMasterKeys(KeyRingData.buildSecretKeyRingUri());
// special case: available secret keys verify themselves! // special case: available secret keys verify themselves!
if (secretRing != null) { if (secretRing != null) {
allKeyRings.put(secretRing.getMasterKeyId(), secretRing.getPublicKey()); trustedKeys.put(secretRing.getMasterKeyId(), secretRing.getPublicKey());
log(LogLevel.INFO, LogType.MSG_IP_TRUST_USING_SEC, new String[]{
Integer.toString(trustedKeys.size())
});
} else {
log(LogLevel.INFO, LogType.MSG_IP_TRUST_USING, new String[] {
Integer.toString(trustedKeys.size())
});
} }
// classify and order user ids. primary are moved to the front, revoked to the back, // classify and order user ids. primary are moved to the front, revoked to the back,
// otherwise the order in the keyfile is preserved. // otherwise the order in the keyfile is preserved.
log(LogLevel.DEBUG, LogType.MSG_IP_UID_CLASSIFYING);
mIndent += 1;
List<UserIdItem> uids = new ArrayList<UserIdItem>(); List<UserIdItem> uids = new ArrayList<UserIdItem>();
for (String userId : new IterableIterator<String>( for (String userId : new IterableIterator<String>(
masterKey.getUnorderedUserIds().iterator())) { masterKey.getUnorderedUserIds().iterator())) {
UserIdItem item = new UserIdItem(); UserIdItem item = new UserIdItem();
uids.add(item); uids.add(item);
item.userId = userId; item.userId = userId;
int unknownCerts = 0;
log(LogLevel.INFO, LogType.MSG_IP_UID_PROCESSING, new String[] { userId });
mIndent += 1;
// look through signatures for this specific key // look through signatures for this specific key
for (WrappedSignature cert : new IterableIterator<WrappedSignature>( for (WrappedSignature cert : new IterableIterator<WrappedSignature>(
masterKey.getSignaturesForId(userId))) { masterKey.getSignaturesForId(userId))) {
@ -289,34 +353,65 @@ public class ProviderHelper {
if (certId == masterKeyId) { if (certId == masterKeyId) {
cert.init(masterKey); cert.init(masterKey);
if (!cert.verifySignature(masterKey, userId)) { if (!cert.verifySignature(masterKey, userId)) {
// not verified?! dang! TODO notify user? this is kinda serious... // Bad self certification? That's kinda bad...
Log.e(Constants.TAG, "Could not verify self signature for " + userId + "!"); log(LogLevel.ERROR, LogType.MSG_IP_UID_SELF_BAD);
return new OperationResultParcel(1, mLog);
}
// if we already have a cert..
if (item.selfCert != null) {
// ..is this perchance a more recent one?
if (item.selfCert.getCreationTime().before(cert.getCreationTime())) {
log(LogLevel.DEBUG, LogType.MSG_IP_UID_SELF_NEWER);
} else {
log(LogLevel.DEBUG, LogType.MSG_IP_UID_SELF_IGNORING_OLD);
continue; continue;
} }
// is this the first, or a more recent certificate? } else {
if (item.selfCert == null || log(LogLevel.DEBUG, LogType.MSG_IP_UID_SELF_GOOD);
item.selfCert.getCreationTime().before(cert.getCreationTime())) { }
// save certificate as primary self-cert
item.selfCert = cert; item.selfCert = cert;
item.isPrimary = cert.isPrimaryUserId(); item.isPrimary = cert.isPrimaryUserId();
item.isRevoked = cert.isRevocation(); item.isRevoked = cert.isRevocation();
} }
}
// verify signatures from known private keys // verify signatures from known private keys
if (allKeyRings.indexOfKey(certId) >= 0) { if (trustedKeys.indexOfKey(certId) >= 0) {
cert.init(allKeyRings.get(certId)); UncachedPublicKey trustedKey = trustedKeys.get(certId);
cert.init(trustedKey);
if (cert.verifySignature(masterKey, userId)) { if (cert.verifySignature(masterKey, userId)) {
item.trustedCerts.add(cert); item.trustedCerts.add(cert);
} log(LogLevel.INFO, LogType.MSG_IP_UID_CERT_GOOD, new String[] {
} PgpKeyHelper.convertKeyIdToHex(trustedKey.getKeyId())
} catch (PgpGeneralException e) { });
Log.e(Constants.TAG, "Signature verification failed! " } else {
+ PgpKeyHelper.convertKeyIdToHex(masterKey.getKeyId()) log(LogLevel.WARN, LogType.MSG_IP_UID_CERT_BAD);
+ " from "
+ PgpKeyHelper.convertKeyIdToHex(cert.getKeyId()), e);
}
} }
} }
unknownCerts += 1;
} catch (PgpGeneralException e) {
log(LogLevel.WARN, LogType.MSG_IP_UID_CERT_ERROR, new String[]{
PgpKeyHelper.convertKeyIdToHex(cert.getKeyId())
});
}
}
mIndent -= 1;
if (unknownCerts > 0) {
log(LogLevel.DEBUG, LogType.MSG_IP_UID_CERTS_UNKNOWN, new String[] {
Integer.toString(unknownCerts)
});
}
}
mIndent -= 1;
log(LogLevel.INFO, LogType.MSG_IP_UID_INSERT);
// primary before regular before revoked (see UserIdItem.compareTo) // primary before regular before revoked (see UserIdItem.compareTo)
// this is a stable sort, so the order of keys is otherwise preserved. // this is a stable sort, so the order of keys is otherwise preserved.
Collections.sort(uids); Collections.sort(uids);
@ -339,19 +434,37 @@ public class ProviderHelper {
} }
} }
try { log(LogLevel.DEBUG, LogType.MSG_IP_APPLY_BATCH);
mContentResolver.applyBatch(KeychainContract.CONTENT_AUTHORITY, operations); mContentResolver.applyBatch(KeychainContract.CONTENT_AUTHORITY, operations);
} catch (IOException e) {
log(LogLevel.ERROR, LogType.MSG_IP_FAIL_IO_EXC);
Log.e(Constants.TAG, "IOException during import", e);
mIndent -= 1;
return new OperationResultParcel(1, mLog);
} catch (RemoteException e) { } catch (RemoteException e) {
Log.e(Constants.TAG, "applyBatch failed!", e); log(LogLevel.ERROR, LogType.MSG_IP_FAIL_REMOTE_EX);
Log.e(Constants.TAG, "RemoteException during import", e);
mIndent -= 1;
return new OperationResultParcel(1, mLog);
} catch (OperationApplicationException e) { } catch (OperationApplicationException e) {
Log.e(Constants.TAG, "applyBatch failed!", e); log(LogLevel.ERROR, LogType.MSG_IP_FAIL_OP_EX);
Log.e(Constants.TAG, "OperationApplicationException during import", e);
mIndent -= 1;
return new OperationResultParcel(1, mLog);
} }
// Save the saved keyring (if any) // Save the saved keyring (if any)
if (secretRing != null) { if (secretRing != null) {
log(LogLevel.DEBUG, LogType.MSG_IP_REINSERT_SECRET);
mIndent += 1;
saveSecretKeyRing(secretRing); saveSecretKeyRing(secretRing);
mIndent -= 1;
} }
log(LogLevel.INFO, LogType.MSG_IP_SUCCESS);
mIndent -= 1;
return new OperationResultParcel(0, mLog);
} }
private static class UserIdItem implements Comparable<UserIdItem> { private static class UserIdItem implements Comparable<UserIdItem> {
@ -379,13 +492,29 @@ public class ProviderHelper {
* Saves a PGPSecretKeyRing in the DB. This will only work if a corresponding public keyring * Saves a PGPSecretKeyRing in the DB. This will only work if a corresponding public keyring
* is already in the database! * is already in the database!
*/ */
public void saveSecretKeyRing(UncachedKeyRing keyRing) throws IOException { public OperationResultParcel saveSecretKeyRing(UncachedKeyRing keyRing) {
if (!keyRing.isSecret()) { if (!keyRing.isSecret()) {
throw new RuntimeException("Tried to save publkc keyring as secret! " + log(LogLevel.ERROR, LogType.MSG_IS_BAD_TYPE_PUBLIC);
"This is a bug, please file a bug report."); return new OperationResultParcel(1, mLog);
} }
long masterKeyId = keyRing.getMasterKeyId(); long masterKeyId = keyRing.getMasterKeyId();
log(LogLevel.INFO, LogType.MSG_IS_IMPORTING,
new String[]{ Long.toString(masterKeyId) });
// save secret keyring
try {
ContentValues values = new ContentValues();
values.put(KeyRingData.MASTER_KEY_ID, masterKeyId);
values.put(KeyRingData.KEY_RING_DATA, keyRing.getEncoded());
// insert new version of this keyRing
Uri uri = KeyRingData.buildSecretKeyRingUri(Long.toString(masterKeyId));
mContentResolver.insert(uri, values);
} catch (IOException e) {
Log.e(Constants.TAG, "Failed to encode key!", e);
log(LogLevel.ERROR, LogType.MSG_IS_IO_EXCPTION);
return new OperationResultParcel(1, mLog);
}
{ {
Uri uri = Keys.buildKeysUri(Long.toString(masterKeyId)); Uri uri = Keys.buildKeysUri(Long.toString(masterKeyId));
@ -397,24 +526,38 @@ public class ProviderHelper {
values.put(Keys.HAS_SECRET, 1); values.put(Keys.HAS_SECRET, 1);
// then, mark exactly the keys we have available // then, mark exactly the keys we have available
for (Long sub : new IterableIterator<Long>(keyRing.getAvailableSubkeys().iterator())) { log(LogLevel.INFO, LogType.MSG_IS_IMPORTING_SUBKEYS);
mContentResolver.update(uri, values, Keys.KEY_ID + " = ?", new String[] { mIndent += 1;
Long.toString(sub) Set<Long> available = keyRing.getAvailableSubkeys();
for (UncachedPublicKey sub :
new IterableIterator<UncachedPublicKey>(keyRing.getPublicKeys())) {
long id = sub.getKeyId();
if(available.contains(id)) {
int upd = mContentResolver.update(uri, values, Keys.KEY_ID + " = ?",
new String[] { Long.toString(id) });
if (upd == 1) {
log(LogLevel.DEBUG, LogType.MSG_IS_SUBKEY_OK, new String[]{
PgpKeyHelper.convertKeyIdToHex(id)
});
} else {
log(LogLevel.WARN, LogType.MSG_IS_SUBKEY_NONEXISTENT, new String[]{
PgpKeyHelper.convertKeyIdToHex(id)
}); });
} }
} else {
log(LogLevel.INFO, LogType.MSG_IS_SUBKEY_STRIPPED, new String[]{
PgpKeyHelper.convertKeyIdToHex(id)
});
}
}
mIndent -= 1;
// this implicitly leaves all keys which were not in the secret key ring // this implicitly leaves all keys which were not in the secret key ring
// with has_secret = 0 // with has_secret = 0
} }
// save secret keyring log(LogLevel.INFO, LogType.MSG_IS_SUCCESS);
{ return new OperationResultParcel(0, mLog);
ContentValues values = new ContentValues();
values.put(KeyRingData.MASTER_KEY_ID, masterKeyId);
values.put(KeyRingData.KEY_RING_DATA, keyRing.getEncoded());
// insert new version of this keyRing
Uri uri = KeyRingData.buildSecretKeyRingUri(Long.toString(masterKeyId));
mContentResolver.insert(uri, values);
}
} }

View File

@ -523,4 +523,43 @@
<string name="info_no_manual_account_creation">Do not create OpenKeychain-Accounts manually.\nFor more information, see Help.</string> <string name="info_no_manual_account_creation">Do not create OpenKeychain-Accounts manually.\nFor more information, see Help.</string>
<string name="contact_show_key">Show key (%s)</string> <string name="contact_show_key">Show key (%s)</string>
<!-- Import log entries -->
<string name="msg_ip_apply_batch">Applying insert batch operation.</string>
<string name="msg_ip_bad_type_secret">Tried to import secret keyring as public. This is a bug, please file a report!</string>
<string name="msg_ip_delete_old_fail">No old key deleted (creating a new one?)</string>
<string name="msg_ip_delete_old_ok">Deleted old key from database</string>
<string name="msg_ip_encode_fail">Operation failed due to encoding error</string>
<string name="msg_ip_fail_io_exc">Operation failed due to i/o error</string>
<string name="msg_ip_fail_op_ex">Operation failed due to database error</string>
<string name="msg_ip_fail_remote_ex">Operation failed due to internal error</string>
<string name="msg_ip_importing">Importing public keyring</string>
<string name="msg_ip_insert_keyring">Inserting keyring data</string>
<string name="msg_ip_insert_subkey">Inserting subkey %s</string>
<string name="msg_ip_insert_subkeys">Inserting subkeys</string>
<string name="msg_ip_preserving_secret">Preserving available secret key</string>
<string name="msg_ip_reinsert_secret">Re-inserting secret key</string>
<string name="msg_ip_success">Successfully inserted public keyring</string>
<string name="msg_ip_trust_retrieve">Retrieving trusted keys</string>
<string name="msg_ip_trust_using">Using %s trusted keys</string>
<string name="msg_ip_trust_using_sec">Secret key available, self certificates are trusted</string>
<string name="msg_ip_uid_cert_bad">Encountered bad certificate!</string>
<string name="msg_ip_uid_cert_error">Error processing certificate!</string>
<string name="msg_ip_uid_cert_good">Found good certificate from %s</string>
<string name="msg_ip_uid_certs_unknown">Ignored %s certificates from unknown pubkeys</string>
<string name="msg_ip_uid_classifying">Classifying user ids</string>
<string name="msg_ip_uid_insert">Inserting user ids</string>
<string name="msg_ip_uid_processing">Processing user id %s</string>
<string name="msg_ip_uid_self_bad">Bad self certificate encountered!</string>
<string name="msg_ip_uid_self_good">Found good self certificate</string>
<string name="msg_ip_uid_self_ignoring_old">Ignoring older self certificate</string>
<string name="msg_ip_uid_self_newer">Using more recent good self certificate</string>
<string name="msg_is_bad_type_public">Tried to import public keyring as secret. This is a bug, please file a report!</string>
<string name="msg_is_importing">Importing secret key %s</string>
<string name="msg_is_importing_subkeys">Processing secret subkeys</string>
<string name="msg_is_io_excption">Error encoding keyring</string>
<string name="msg_is_subkey_nonexistent">Subkey %s unavailable in public key</string>
<string name="msg_is_subkey_ok">Marked %s as available</string>
<string name="msg_is_subkey_stripped">Marked %s as stripped</string>
<string name="msg_is_success">Successfully inserted secret keyring</string>
</resources> </resources>