github.com/cryptohub-digital/blockbook-fork@v0.0.0-20230713133354-673c927af7f1/docs/testing.md (about) 1 # Testing 2 3 There are two kinds of tests in Blockbook – unit tests and integration tests. Because integration tests require running 4 back-end daemon so they can't be executed at every build. Blockbook's build system uses conditional compilation to 5 distinguish which tests should be executed. 6 7 There are several ways to run tests: 8 9 * `make test` – run unit tests only (note that `make deb*` and `make all*` commands always run also *test* target) 10 * `make test-integration` – run integration tests only 11 * `make test-all` – run all tests above 12 13 You can use Go's flag *-run* to filter which tests should be executed. Use *ARGS* variable, e.g. 14 `make test-all ARGS="-run TestBitcoin"`. 15 16 17 ## Unit tests 18 19 Unit test file must start with constraint `// +build unittest` followed by blank line (constraints are described 20 [here](https://golang.org/pkg/go/build/#hdr-Build_Constraints)). 21 22 Every coin implementation must have unit tests. At least for parser. Usual test suite define real transaction data 23 and try pack and unpack them. Specialities of particular coin are tested too. See examples in 24 [bcashparser_test.go](/bchain/coins/bch/bcashparser_test.go), 25 [bitcoinparser_test.go](/bchain/coins/btc/bitcoinparser_test.go) and 26 [ethparser_test.go](/bchain/coins/eth/ethparser_test.go). 27 28 29 ## Integration tests 30 31 Integration tests test interface between either Blockbook's components or back-end services. Integration tests are 32 located in *tests* directory and every test suite has its own package. Because RPC and synchronization are crucial 33 components of Blockbook, it is mandatory that coin implementations have these integration tests defined. They are 34 implemented in packages `blockbook/tests/rpc` and `blockbook/tests/sync` and both of them are declarative. For each coin 35 there are test definition that enables particular tests of test suite and *testdata* file that contains test fixtures. 36 37 Not every coin implementation support full set of back-end API so it is necessary define which tests of test suite 38 are able to run. That is done in test definition file *blockbook/tests/tests.json*. Configuration is hierarchical and 39 test implementations call each level as separate subtest. Go's *test* command allows filter tests to run by `-run` flag. 40 It perfectly fits with layered test definitions. For example, you can: 41 42 * run tests for single coin – `make test-integration ARGS="-run=TestIntegration/bitcoin/"` 43 * run single test suite – `make test-integration ARGS="-run=TestIntegration//sync/"` 44 * run single test – `make test-integration ARGS="-run=TestIntegration//sync/HandleFork"` 45 * run tests for set of coins – `make test-integration ARGS="-run='TestIntegration/(bcash|bgold|bitcoin|dash|dogecoin|litecoin|snowgem|vertcoin|zcash|zelcash)/'"` 46 47 Test fixtures are defined in *testdata* directory in package of particular test suite. They are separate JSON files named 48 by coin. File schemes are very similar with verbose results of CLI tools and are described below. Integration tests 49 follow the same concept, use live component or service and verify their results with fixtures. 50 51 For simplicity, URLs and credentials of back-end services, where are tests going to connect, are loaded 52 from *blockbook/configs/coins*, the same place from where are production configuration files generated. There are general 53 URLs that link to *localhost*. If you need run tests against remote servers, there are few options how to do it: 54 55 * temporarily change config 56 * SSH tunneling – `ssh -nNT -L 8030:localhost:8030 remote-server` 57 * HTTP proxy 58 59 ### Synchronization integration tests 60 61 Synchronization is crucial part of Blockbook and these tests test whether it is doing well. They sync few blocks from 62 blockchain and verify them against fixtures. Ranges of blocks to sync are defined in fixtures. 63 64 * `ConnectBlocks` – Calls *db.SyncWorker.connectBlocks*, a single-thread method that is called when a new block is detected. 65 Sync blocks and checks whether blocks and transactions from fixtures are indexed. 66 * `ConnectBlocksParallel` – Calls *db.SyncWorker.ConnectBlocksParallel*, a multi-thread method that is used during initial 67 synchronization. Uses the same fixtures as ConnectBlocks. 68 * `HandleFork` – Calls *db.SyncWorker.HandleFork* method that rolls back blockchain if a fork is detected. Test uses two 69 sets of blocks with the same heights in fixtures. First set – with fake blocks – is synced initially, than *HandleFork* 70 method is called and finally it is checked that index contain only blocks from second set – the real blocks. *Make 71 sure that fake blocks have hashes of real blocks out of a sync range. It is important because Blockbook attempts to 72 load these blocks and if it is unsuccessful the test fails. A good practice is use blocks with a height about 20 lower 73 than `syncRanges.lower` and decreasing.* 74 75 ### Back-end RPC integration tests 76 77 This kind of tests test *bchain.BlockChain* implementation and its capability to communicate with back-end RPC. 78 79 Tests listed below just call back-end RPC methods with parameters from fixture file and check results against same 80 fixture file. So data in fixture file must be related together. 81 82 * `GetBlockHash` – Calls *BlockChain.GetBlockHash* with height and checks returned hash. 83 * `GetBlockHeader` – Calls *BlockChain.GetBlockHeader* with hash and check returned header. Note that only fields 84 that are significant are *Hash* and *Height*, they are checked against fixtures. Scheme of transaction data in fixtures 85 is very similar to verbose result of *getrawtransaction* command of CLI tools and can be copy-pasted with few 86 modifications. 87 * `GetBlock` – Calls *BlockChain.GetBlock* with hash and checks returned block (actually number of transactions and 88 their txids). 89 * `GetTransaction` – Calls *BlockChain.GetTransaction* with txid and checks result against transaction object, where 90 *txid* is key and *transaction object* is value of *txDetails* object in fixture file. 91 * `GetTransactionForMempool` – Calls *BlockChain.GetTransactionForMempool* that should be version of 92 *BlockChain.GetTransaction* optimized for mempool. Implementation of test is similar. 93 * `GetMempoolEntry` – Calls *BlockChain.GetMempoolEntry* and checks result. Because mempool is living structure it 94 tries to load entry for random transaction in mempool repeatedly. 95 * `EstimateSmartFee` – Calls *BlockChain.EstimateSmartFee* for few numbers of blocks and checks if returned fee is 96 non-negative. 97 * `EstimateFee` – Calls *BlockChain.EstimateFee*; implementation is same as *EstimateSmartFee*. 98 * `GetBestBlockHash` – Calls *BlockChain.GetBestBlockHash* and verifies that returned hash matches the really last 99 block. 100 * `GetBestBlockHeight` – Calls *BlockChain.GetBestBlockHeight* and verifies that returned height matches the really 101 last block. 102 * `MempoolSync` – Synchronize *BlockChain*'s mempool and verify if sync was successful.