Improve `RequestToJoinCommunity` to accept `Addresses` in the request. If `Addresses` is not empty, we then only pass to the owner the selected addresses. The others are ignored.
Does not validate that the addresses in the slice are part of the user's wallet. Those not part of the wallet are just ignored.
Main changes:
- Refactor activity API to propagate token identities.
- Extend service to convert token identities to symbols for filtering
multi-transaction
- Filter transfers, pending_transactions and multi-transactions based
on the provided token identities
- Return involved token identities in activity API
- Test token filtering
Also:
- Fixed calling cancel on a filer activity completed task to release
resources
Notes:
- Found limitations with the token identity which complicates things
by not allowing to filter by token groups (like token-code does)
Updates status-desktop #11025
This API is used to get a permission status of all channels of a given
community.
Clients can use this API to get the provided information for all
community channels with a single RPC call instead of doing one call
for each channel separately.
Similar to `CheckPermissionToJoin()` we now get
a `CheckChannelPermissions()` API.
It will rely on the same `PermissionResponse` types, but gives
information about both `ViewOnlyPermissions` and
`ViewAndPostPermissions`.
This seems to be a bug that was introduced when two features, admin
permissions and "always reveal wallet accounts" where merged.
We need to make sure we **first** check the revealed accounts and only
**then** do we perform permission checks on them. Otherwise we can run
into scenarios where fake addresses are used and users will be accepted
to the community.
found
Turns out that, when we return with an error, instead of
a non-statisfied check permissions response, we can run into cases where
members that should be kicked are not kicked.
The new API returns all known recipients of a wallet, by
sourcing transfers, pending_transactions and multi_transactions tables
The API is synchronous. Future work will be to make it async.
In some corner cases, when watching a famous wallet, it can
be that there are too many recipients to be returned in one go. Offset
and limit can be used to paginate through the results.
Updates status-desktop #10025
Change smart contract with new API.
Update gas amount for deployment.
Add Burn() and EstimateBurn() functions.
Add RemainingSupply() functions.
Issue #10816
It happens that an envelope is sent before it's tracked, resulting in
long delays before the envelope is marked as sent.
This commit changes the behavior of the code so that order is now
irrelevant.
fetch strategy:
Before:
- block fetching commands for different accounts were in the same wait
group, making them dependent on each iteration.
- transfers loading command was checking database for new unloaded
blocks on timeout and was in the same wait group with block fetching, so
it was often blocked until all block fetching commands finish for
iteration.
Now:
- block fetching commands run independently for each account
- transfers fetching command is run once on startup for unloaded blocks
from DB
- fetch history blocks commands are launched once on startup for
accounts with no full history loaded
- transfers are loaded on each iteration of block range check
without waiting for all ranges to be checked
Improve the error management in order to avoid DB corruption in case the process is killed while encrypting the DB.
Changes:
Use sqlcipher_export instead of rekey to change the DB password. The advantage is that sqlcipher_export will operate on a new DB file and we don't need to modify the current account unless the export is successful.
Keeping the rekey requires to create a DB copy before trying to re-encrypt the DB, but the DB copy is risky in case the DB file changes wile the copy is in progress. It could also lead to DB corruption.
* perf(sqlCipher): Increase cipher page size to 8192
Increasing the cipher page size to 8192 requires DB re-encryption. The process is as follows:
//Login to v3 DB
PRAGMA key = 'key';
PRAGMA cipher_page_size = 1024"; // old Page size
PRAGMA cipher_hmac_algorithm = HMAC_SHA1";
PRAGMA cipher_kdf_algorithm = PBKDF2_HMAC_SHA1";
PRAGMA kdf_iter = kdfIterationsNumber";
//Create V4 DB with increased page size
ATTACH DATABASE 'newdb.db' AS newdb KEY 'key';
PRAGMA newdb.cipher_page_size = 8192; // new Page size
PRAGMA newdb.cipher_hmac_algorithm = HMAC_SHA1"; // same as in v3
PRAGMA newdb.cipher_kdf_algorithm = PBKDF2_HMAC_SHA1"; // same as in v3
PRAGMA newdb.kdf_iter = kdfIterationsNumber"; // same as in v3
SELECT sqlcipher_export('newdb');
DETACH DATABASE newdb;
//Login to V4 DB
...
Worth noting:
The DB migration will happen on the first successful login.
The new DB version will have a different name to be able to distinguish between different DB versions.Versions naming mirrors sqlcipher major version (naming conventions used by sqlcipher), meaning that we're migrating from V3 to V4 DB (even if we're not fully aligned with V4 standards). The DB is not migrated to the v4 standard `SHA512` due to performance reasons. Our custom `SHA1` implementation is fully optimised for perfomance.
* perf(sqlCipher): Fixing failing tests
Update the new DB file format in Delete account, Change password and Decrypt database flows
* perf(SQLCipher): Increase page size - send events to notify when the DB re-encryption starts/ends