/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #define TRUSTY_DEVICE_NAME "/dev/trusty-ipc-dev0" #define ARRAY_SIZE(x) (sizeof(x)/sizeof((x)[0])) static inline bool is_32bit_aligned(size_t sz) { return ((sz & 0x3) == 0); } static inline bool is_valid_size(size_t sz) { return (sz > 0) && is_32bit_aligned(sz); } static bool is_valid_offset(storage_off_t off) { return (off & 0x3) == 0ULL; } static void fill_pattern32(uint32_t *buf, size_t len, storage_off_t off) { size_t cnt = len / sizeof(uint32_t); uint32_t pattern = (uint32_t)(off / sizeof(uint32_t)); while (cnt--) { *buf++ = pattern++; } } static bool check_pattern32(const uint32_t *buf, size_t len, storage_off_t off) { size_t cnt = len / sizeof(uint32_t); uint32_t pattern = (uint32_t)(off / sizeof(uint32_t)); while (cnt--) { if (*buf != pattern) return false; buf++; pattern++; } return true; } static bool check_value32(const uint32_t *buf, size_t len, uint32_t val) { size_t cnt = len / sizeof(uint32_t); while (cnt--) { if (*buf != val) return false; buf++; } return true; } using testing::TestWithParam; class StorageServiceTest : public virtual TestWithParam { public: StorageServiceTest() {} virtual ~StorageServiceTest() {} virtual void SetUp() { port_ = GetParam(); test_buf_ = NULL; aux_session_ = STORAGE_INVALID_SESSION; int rc = storage_open_session(TRUSTY_DEVICE_NAME, &session_, port_); ASSERT_EQ(0, rc); } virtual void TearDown() { if (test_buf_) { delete[] test_buf_; test_buf_ = NULL; } storage_close_session(session_); if (aux_session_ != STORAGE_INVALID_SESSION) { storage_close_session(aux_session_); aux_session_ = STORAGE_INVALID_SESSION; } } void WriteReadAtOffsetHelper(file_handle_t handle, size_t blk, size_t cnt, bool complete); void WriteZeroChunk(file_handle_t handle, storage_off_t off, size_t chunk_len, bool complete ); void WritePatternChunk(file_handle_t handle, storage_off_t off, size_t chunk_len, bool complete); void WritePattern(file_handle_t handle, storage_off_t off, size_t data_len, size_t chunk_len, bool complete); void ReadChunk(file_handle_t handle, storage_off_t off, size_t chunk_len, size_t head_len, size_t pattern_len, size_t tail_len); void ReadPattern(file_handle_t handle, storage_off_t off, size_t data_len, size_t chunk_len); void ReadPatternEOF(file_handle_t handle, storage_off_t off, size_t chunk_len, size_t exp_len); protected: const char *port_; uint32_t *test_buf_; storage_session_t session_; storage_session_t aux_session_; }; INSTANTIATE_TEST_CASE_P(SS_TD_Tests, StorageServiceTest, ::testing::Values(STORAGE_CLIENT_TD_PORT)); INSTANTIATE_TEST_CASE_P(SS_TDEA_Tests, StorageServiceTest, ::testing::Values(STORAGE_CLIENT_TDEA_PORT)); INSTANTIATE_TEST_CASE_P(SS_TP_Tests, StorageServiceTest, ::testing::Values(STORAGE_CLIENT_TP_PORT)); void StorageServiceTest::WriteZeroChunk(file_handle_t handle, storage_off_t off, size_t chunk_len, bool complete) { int rc; uint32_t data_buf[chunk_len/sizeof(uint32_t)]; ASSERT_PRED1(is_valid_size, chunk_len); ASSERT_PRED1(is_valid_offset, off); memset(data_buf, 0, chunk_len); rc = storage_write(handle, off, data_buf, sizeof(data_buf), complete ? STORAGE_OP_COMPLETE : 0); ASSERT_EQ((int)chunk_len, rc); } void StorageServiceTest::WritePatternChunk(file_handle_t handle, storage_off_t off, size_t chunk_len, bool complete) { int rc; uint32_t data_buf[chunk_len/sizeof(uint32_t)]; ASSERT_PRED1(is_valid_size, chunk_len); ASSERT_PRED1(is_valid_offset, off); fill_pattern32(data_buf, chunk_len, off); rc = storage_write(handle, off, data_buf, sizeof(data_buf), complete ? STORAGE_OP_COMPLETE : 0); ASSERT_EQ((int)chunk_len, rc); } void StorageServiceTest::WritePattern(file_handle_t handle, storage_off_t off, size_t data_len, size_t chunk_len, bool complete) { ASSERT_PRED1(is_valid_size, data_len); ASSERT_PRED1(is_valid_size, chunk_len); while (data_len) { if (data_len < chunk_len) chunk_len = data_len; WritePatternChunk(handle, off, chunk_len, (chunk_len == data_len) && complete); ASSERT_FALSE(HasFatalFailure()); off += chunk_len; data_len -= chunk_len; } } void StorageServiceTest::ReadChunk(file_handle_t handle, storage_off_t off, size_t chunk_len, size_t head_len, size_t pattern_len, size_t tail_len) { int rc; uint32_t data_buf[chunk_len/sizeof(uint32_t)]; uint8_t *data_ptr = (uint8_t *)data_buf; ASSERT_PRED1(is_valid_size, chunk_len); ASSERT_PRED1(is_valid_offset, off); ASSERT_EQ(head_len + pattern_len + tail_len, chunk_len); rc = storage_read(handle, off, data_buf, chunk_len); ASSERT_EQ((int)chunk_len, rc); if (head_len) { ASSERT_TRUE(check_value32((const uint32_t *)data_ptr, head_len, 0)); data_ptr += head_len; off += head_len; } if (pattern_len) { ASSERT_TRUE(check_pattern32((const uint32_t *)data_ptr, pattern_len, off)); data_ptr += pattern_len; } if (tail_len) { ASSERT_TRUE(check_value32((const uint32_t *)data_ptr, tail_len, 0)); } } void StorageServiceTest::ReadPattern(file_handle_t handle, storage_off_t off, size_t data_len, size_t chunk_len) { int rc; uint32_t data_buf[chunk_len/sizeof(uint32_t)]; ASSERT_PRED1(is_valid_size, chunk_len); ASSERT_PRED1(is_valid_size, data_len); ASSERT_PRED1(is_valid_offset, off); while (data_len) { if (chunk_len > data_len) chunk_len = data_len; rc = storage_read(handle, off, data_buf, sizeof(data_buf)); ASSERT_EQ((int)chunk_len, rc); ASSERT_TRUE(check_pattern32(data_buf, chunk_len, off)); off += chunk_len; data_len -= chunk_len; } } void StorageServiceTest::ReadPatternEOF(file_handle_t handle, storage_off_t off, size_t chunk_len, size_t exp_len) { int rc; size_t bytes_read = 0; uint32_t data_buf[chunk_len/sizeof(uint32_t)]; ASSERT_PRED1(is_valid_size, chunk_len); ASSERT_PRED1(is_32bit_aligned, exp_len); while (true) { rc = storage_read(handle, off, data_buf, sizeof(data_buf)); ASSERT_GE(rc, 0); if (rc == 0) break; // end of file reached ASSERT_PRED1(is_valid_size, (size_t)rc); ASSERT_TRUE(check_pattern32(data_buf, rc, off)); off += rc; bytes_read += rc; } ASSERT_EQ(bytes_read, exp_len); } TEST_P(StorageServiceTest, CreateDelete) { int rc; file_handle_t handle; const char *fname = "test_create_delete_file"; // make sure test file does not exist (expect success or -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); // one more time (expect -ENOENT only) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(-ENOENT, rc); // create file (expect 0) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // try to create it again while it is still opened (expect -EEXIST) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, STORAGE_OP_COMPLETE); ASSERT_EQ(-EEXIST, rc); // close it storage_close_file(handle); // try to create it again while it is closed (expect -EEXIST) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, STORAGE_OP_COMPLETE); ASSERT_EQ(-EEXIST, rc); // delete file (expect 0) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // one more time (expect -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(-ENOENT, rc); } TEST_P(StorageServiceTest, DeleteOpened) { int rc; file_handle_t handle; const char *fname = "delete_opened_test_file"; // make sure test file does not exist (expect success or -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); // one more time (expect -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(-ENOENT, rc); // open/create file (expect 0) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // delete opened file (expect 0) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // one more time (expect -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(-ENOENT, rc); // close file storage_close_file(handle); // one more time (expect -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(-ENOENT, rc); } TEST_P(StorageServiceTest, OpenNoCreate) { int rc; file_handle_t handle; const char *fname = "test_open_no_create_file"; // make sure test file does not exist (expect success or -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); // open non-existing file (expect -ENOENT) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // create file (expect 0) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); storage_close_file(handle); // open existing file (expect 0) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // close it storage_close_file(handle); // delete file (expect 0) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); } TEST_P(StorageServiceTest, OpenOrCreate) { int rc; file_handle_t handle; const char *fname = "test_open_create_file"; // make sure test file does not exist (expect success or -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); // open/create a non-existing file (expect 0) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); storage_close_file(handle); // open/create an existing file (expect 0) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); storage_close_file(handle); // delete file (expect 0) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); } TEST_P(StorageServiceTest, OpenCreateDeleteCharset) { int rc; file_handle_t handle; const char *fname = "ABCDEFGHIJKLMNOPQRSTUVWXYZ-abcdefghijklmnopqrstuvwxyz_01234.56789"; // open/create file (expect 0) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); storage_close_file(handle); // open/create an existing file (expect 0) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); storage_close_file(handle); // delete file (expect 0) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open again rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); } TEST_P(StorageServiceTest, WriteReadSequential) { int rc; size_t blk = 2048; file_handle_t handle; const char *fname = "test_write_read_sequential"; // make sure test file does not exist (expect success or -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); // create file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write a bunch of blocks (sequentially) WritePattern(handle, 0, 32 * blk, blk, true); ASSERT_FALSE(HasFatalFailure()); ReadPattern(handle, 0, 32 * blk, blk); ASSERT_FALSE(HasFatalFailure()); // close file storage_close_file(handle); // open the same file again rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // read data back (sequentially) and check pattern again ReadPattern(handle, 0, 32 * blk, blk); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, OpenTruncate) { int rc; uint32_t val; size_t blk = 2048; file_handle_t handle; const char *fname = "test_open_truncate"; // make sure test file does not exist (expect success or -ENOENT) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); // create file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write some data and read it back WritePatternChunk(handle, 0, blk, true); ASSERT_FALSE(HasFatalFailure()); ReadPattern(handle, 0, blk, blk); ASSERT_FALSE(HasFatalFailure()); // close file storage_close_file(handle); // reopen with truncate rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); /* try to read data back (expect no data) */ rc = storage_read(handle, 0LL, &val, sizeof(val)); ASSERT_EQ(0, rc); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, OpenSame) { int rc; file_handle_t handle1; file_handle_t handle2; file_handle_t handle3; const char *fname = "test_open_same_file"; // open/create file (expect 0) rc = storage_open_file(session_, &handle1, fname, STORAGE_FILE_OPEN_CREATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); storage_close_file(handle1); // open an existing file first time (expect 0) rc = storage_open_file(session_, &handle1, fname, 0, 0); ASSERT_EQ(0, rc); // open the same file second time (expect error) rc = storage_open_file(session_, &handle2, fname, 0, 0); ASSERT_NE(0, rc); storage_close_file(handle1); // delete file (expect 0) rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open deleted file (expect -ENOENT) rc = storage_open_file(session_, &handle3, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); } TEST_P(StorageServiceTest, OpenMany) { int rc; file_handle_t handles[10]; char filename[10]; const char *fname_fmt = "mf%d"; // open or create a bunch of files (expect 0) for (uint i = 0; i < ARRAY_SIZE(handles); ++i) { snprintf(filename, sizeof(filename), fname_fmt, i); rc = storage_open_file(session_, &handles[i], filename, STORAGE_FILE_OPEN_CREATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); } // check that all handles are different for (uint i = 0; i < ARRAY_SIZE(handles)-1; i++) { for (uint j = i+1; j < ARRAY_SIZE(handles); j++) { ASSERT_NE(handles[i], handles[j]); } } // close them all for (uint i = 0; i < ARRAY_SIZE(handles); ++i) { storage_close_file(handles[i]); } // open all files without CREATE flags (expect 0) for (uint i = 0; i < ARRAY_SIZE(handles); ++i) { snprintf(filename, sizeof(filename), fname_fmt, i); rc = storage_open_file(session_, &handles[i], filename, 0, 0); ASSERT_EQ(0, rc); } // check that all handles are different for (uint i = 0; i < ARRAY_SIZE(handles)-1; i++) { for (uint j = i+1; j < ARRAY_SIZE(handles); j++) { ASSERT_NE(handles[i], handles[j]); } } // close and remove all test files for (uint i = 0; i < ARRAY_SIZE(handles); ++i) { storage_close_file(handles[i]); snprintf(filename, sizeof(filename), fname_fmt, i); rc = storage_delete_file(session_, filename, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); } } TEST_P(StorageServiceTest, ReadAtEOF) { int rc; uint32_t val; size_t blk = 2048; file_handle_t handle; const char *fname = "test_read_eof"; // open/create/truncate file rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write block at offset 0 WritePatternChunk(handle, 0, blk, true); ASSERT_FALSE(HasFatalFailure()); // close file storage_close_file(handle); // open same file again rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // read the whole block back and check pattern again ReadPattern(handle, 0, blk, blk); ASSERT_FALSE(HasFatalFailure()); // read at end of file (expected 0 bytes) rc = storage_read(handle, blk, &val, sizeof(val)); ASSERT_EQ(0, rc); // partial read at end of the file (expected partial data) ReadPatternEOF(handle, blk/2, blk, blk/2); ASSERT_FALSE(HasFatalFailure()); // read past end of file rc = storage_read(handle, blk + 2, &val, sizeof(val)); ASSERT_EQ(-EINVAL, rc); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, GetFileSize) { int rc; size_t blk = 2048; storage_off_t size; file_handle_t handle; const char *fname = "test_get_file_size"; // open/create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // check file size (expect success and size == 0) size = 1; rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, size); // write block WritePatternChunk(handle, 0, blk, true); ASSERT_FALSE(HasFatalFailure()); // check size rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ(blk, size); // write another block WritePatternChunk(handle, blk, blk, true); ASSERT_FALSE(HasFatalFailure()); // check size again rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ(blk*2, size); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, SetFileSize) { int rc; size_t blk = 2048; storage_off_t size; file_handle_t handle; const char *fname = "test_set_file_size"; // open/create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // check file size (expect success and size == 0) size = 1; rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, size); // write block WritePatternChunk(handle, 0, blk, true); ASSERT_FALSE(HasFatalFailure()); // check size rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ(blk, size); storage_close_file(handle); // reopen normally rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // check size again rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ(blk, size); // set file size to half rc = storage_set_file_size(handle, blk/2, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // check size again (should be half of original size) rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ(blk/2, size); // read data back ReadPatternEOF(handle, 0, blk, blk/2); ASSERT_FALSE(HasFatalFailure()); // set file size to 0 rc = storage_set_file_size(handle, 0, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // check size again (should be 0) rc = storage_get_file_size(handle, &size); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0LL, size); // try to read again ReadPatternEOF(handle, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } void StorageServiceTest::WriteReadAtOffsetHelper(file_handle_t handle, size_t blk, size_t cnt, bool complete) { storage_off_t off1 = blk; storage_off_t off2 = blk * (cnt-1); // write known pattern data at non-zero offset1 WritePatternChunk(handle, off1, blk, complete); ASSERT_FALSE(HasFatalFailure()); // write known pattern data at non-zero offset2 WritePatternChunk(handle, off2, blk, complete); ASSERT_FALSE(HasFatalFailure()); // read data back at offset1 ReadPattern(handle, off1, blk, blk); ASSERT_FALSE(HasFatalFailure()); // read data back at offset2 ReadPattern(handle, off2, blk, blk); ASSERT_FALSE(HasFatalFailure()); // read partially written data at end of file(expect to get data only, no padding) ReadPatternEOF(handle, off2 + blk/2, blk, blk/2); ASSERT_FALSE(HasFatalFailure()); // read data at offset 0 (expect success and zero data) ReadChunk(handle, 0, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); // read data from gap (expect success and zero data) ReadChunk(handle, off1 + blk, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); // read partially written data (start pointing within written data) // (expect to get written data back and zeroes at the end) ReadChunk(handle, off1 + blk/2, blk, 0, blk/2, blk/2); ASSERT_FALSE(HasFatalFailure()); // read partially written data (start pointing withing unwritten data) // expect to get zeroes at the beginning and proper data at the end ReadChunk(handle, off1 - blk/2, blk, blk/2, blk/2, 0); ASSERT_FALSE(HasFatalFailure()); } TEST_P(StorageServiceTest, WriteReadAtOffset) { int rc; file_handle_t handle; size_t blk = 2048; size_t blk_cnt = 32; const char *fname = "test_write_at_offset"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write a bunch of blocks filled with zeroes for (uint i = 0; i < blk_cnt; i++) { WriteZeroChunk(handle, i * blk, blk, true); ASSERT_FALSE(HasFatalFailure()); } WriteReadAtOffsetHelper(handle, blk, blk_cnt, true); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, WriteSparse) { int rc; file_handle_t handle; const char *fname = "test_write_sparse"; // open/create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write value past en of file uint32_t val = 0xDEADBEEF; rc = storage_write(handle, 1, &val, sizeof(val), STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } // Persistent 32k TEST_P(StorageServiceTest, CreatePersistent32K) { int rc; file_handle_t handle; size_t blk = 2048; size_t file_size = 32768; const char *fname = "test_persistent_32K_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write a bunch of blocks filled with pattern WritePattern(handle, 0, file_size, blk, true); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, ReadPersistent32k) { int rc; file_handle_t handle; size_t exp_len = 32 * 1024; const char *fname = "test_persistent_32K_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); ReadPatternEOF(handle, 0, 2048, exp_len); ASSERT_FALSE(HasFatalFailure()); ReadPatternEOF(handle, 0, 1024, exp_len); ASSERT_FALSE(HasFatalFailure()); ReadPatternEOF(handle, 0, 332, exp_len); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, CleanUpPersistent32K) { int rc; const char *fname = "test_persistent_32K_file"; rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); } // Persistent 1M TEST_P(StorageServiceTest, CreatePersistent1M_4040) { int rc; file_handle_t handle; size_t file_size = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write a bunch of blocks filled with pattern WritePattern(handle, 0, file_size, 4040, true); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, CreatePersistent1M_2032) { int rc; file_handle_t handle; size_t file_size = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write a bunch of blocks filled with pattern WritePattern(handle, 0, file_size, 2032, true); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, CreatePersistent1M_496) { int rc; file_handle_t handle; size_t file_size = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write a bunch of blocks filled with pattern WritePattern(handle, 0, file_size, 496, true); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, CreatePersistent1M_240) { int rc; file_handle_t handle; size_t file_size = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write a bunch of blocks filled with pattern WritePattern(handle, 0, file_size, 240, true); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, ReadPersistent1M_4040) { int rc; file_handle_t handle; size_t exp_len = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); ReadPatternEOF(handle, 0, 4040, exp_len); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, ReadPersistent1M_2032) { int rc; file_handle_t handle; size_t exp_len = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); ReadPatternEOF(handle, 0, 2032, exp_len); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, ReadPersistent1M_496) { int rc; file_handle_t handle; size_t exp_len = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); ReadPatternEOF(handle, 0, 496, exp_len); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, ReadPersistent1M_240) { int rc; file_handle_t handle; size_t exp_len = 1024 * 1024; const char *fname = "test_persistent_1M_file"; // create/truncate file. rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); ReadPatternEOF(handle, 0, 240, exp_len); ASSERT_FALSE(HasFatalFailure()); // close but do not delete file storage_close_file(handle); } TEST_P(StorageServiceTest, CleanUpPersistent1M) { int rc; const char *fname = "test_persistent_1M_file"; rc = storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); rc = (rc == -ENOENT) ? 0 : rc; ASSERT_EQ(0, rc); } TEST_P(StorageServiceTest, WriteReadLong) { int rc; file_handle_t handle; size_t wc = 10000; const char *fname = "test_write_read_long"; rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); test_buf_ = new uint32_t[wc]; fill_pattern32(test_buf_, wc * sizeof(uint32_t), 0); rc = storage_write(handle, 0, test_buf_, wc * sizeof(uint32_t), STORAGE_OP_COMPLETE); ASSERT_EQ((int)(wc * sizeof(uint32_t)), rc); rc = storage_read(handle, 0, test_buf_, wc * sizeof(uint32_t)); ASSERT_EQ((int)(wc * sizeof(uint32_t)), rc); ASSERT_TRUE(check_pattern32(test_buf_, wc * sizeof(uint32_t), 0)); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } // Negative tests TEST_P(StorageServiceTest, OpenInvalidFileName) { int rc; file_handle_t handle; const char *fname1 = ""; const char *fname2 = "ffff$ffff"; const char *fname3 = "ffff\\ffff"; char max_name[STORAGE_MAX_NAME_LENGTH_BYTES+1]; rc = storage_open_file(session_, &handle, fname1, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); rc = storage_open_file(session_, &handle, fname2, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); rc = storage_open_file(session_, &handle, fname3, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); /* max name */ memset(max_name, 'a', sizeof(max_name)); max_name[sizeof(max_name)-1] = 0; rc = storage_open_file(session_, &handle, max_name, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); max_name[sizeof(max_name)-2] = 0; rc = storage_open_file(session_, &handle, max_name, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); storage_close_file(handle); storage_delete_file(session_, max_name, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, BadFileHnadle) { int rc; file_handle_t handle; file_handle_t handle1; const char *fname = "test_invalid_file_handle"; rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); handle1 = handle + 1; // write to invalid file handle uint32_t val = 0xDEDBEEF; rc = storage_write(handle1, 0, &val, sizeof(val), STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); // read from invalid handle rc = storage_read(handle1, 0, &val, sizeof(val)); ASSERT_EQ(-EINVAL, rc); // set size rc = storage_set_file_size(handle1, 0, STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); // get size storage_off_t fsize = (storage_off_t)(-1); rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(-EINVAL, rc); // close (there is no way to check errors here) storage_close_file(handle1); storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, ClosedFileHnadle) { int rc; file_handle_t handle1; file_handle_t handle2; const char *fname1 = "test_invalid_file_handle1"; const char *fname2 = "test_invalid_file_handle2"; rc = storage_open_file(session_, &handle1, fname1, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); rc = storage_open_file(session_, &handle2, fname2, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // close first file handle storage_close_file(handle1); // write to invalid file handle uint32_t val = 0xDEDBEEF; rc = storage_write(handle1, 0, &val, sizeof(val), STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); // read from invalid handle rc = storage_read(handle1, 0, &val, sizeof(val)); ASSERT_EQ(-EINVAL, rc); // set size rc = storage_set_file_size(handle1, 0, STORAGE_OP_COMPLETE); ASSERT_EQ(-EINVAL, rc); // get size storage_off_t fsize = (storage_off_t)(-1); rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(-EINVAL, rc); // close (there is no way to check errors here) storage_close_file(handle1); // clean up storage_close_file(handle2); storage_delete_file(session_, fname1, STORAGE_OP_COMPLETE); storage_delete_file(session_, fname2, STORAGE_OP_COMPLETE); } // Transactions TEST_P(StorageServiceTest, TransactDiscardInactive) { int rc; // discard current transaction (there should not be any) rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // try it again rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); } TEST_P(StorageServiceTest, TransactCommitInactive) { int rc; // try to commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // try it again rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); } TEST_P(StorageServiceTest, TransactDiscardWrite) { int rc; file_handle_t handle; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_discard_write"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // write (without commit) WritePattern(handle, 0, exp_len, blk, false); ASSERT_FALSE(HasFatalFailure()); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // abort current transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // cleanup storage_close_file( handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardWriteAppend) { int rc; file_handle_t handle; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_write_append"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data with commit WritePattern(handle, 0, exp_len/2, blk, true); ASSERT_FALSE(HasFatalFailure()); // write data without commit WritePattern(handle, exp_len/2, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // check file size (should be exp_len) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // discard transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // check file size, it should be exp_len/2 rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/2, fsize); // check file data ReadPatternEOF(handle, 0, blk, exp_len/2); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardWriteRead) { int rc; file_handle_t handle; size_t blk = 2048; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_discard_write_read"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // Fill with zeroes (with commit) for (uint i = 0; i < 32; i++) { WriteZeroChunk(handle, i * blk, blk, true); ASSERT_FALSE(HasFatalFailure()); } // check that test chunk is filled with zeroes ReadChunk(handle, blk, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); // write test pattern (without commit) WritePattern(handle, blk, blk, blk, false); ASSERT_FALSE(HasFatalFailure()); // read it back an check pattern ReadChunk(handle, blk, blk, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // abort current transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // read same chunk back (should be filled with zeros) ReadChunk(handle, blk, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardWriteMany) { int rc; file_handle_t handle1; file_handle_t handle2; size_t blk = 2048; size_t exp_len1 = 32 * 1024; size_t exp_len2 = 31 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname1 = "test_transact_discard_write_file1"; const char *fname2 = "test_transact_discard_write_file2"; // open create truncate (with commit) rc = storage_open_file(session_, &handle1, fname1, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open create truncate (with commit) rc = storage_open_file(session_, &handle2, fname2, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // file1: fill file with pattern (without commit) WritePattern(handle1, 0, exp_len1, blk, false); ASSERT_FALSE(HasFatalFailure()); // file2: fill file with pattern (without commit) WritePattern(handle2, 0, exp_len2, blk, false); ASSERT_FALSE(HasFatalFailure()); // check file size, it should be exp_len1 rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len1, fsize); // check file size, it should be exp_len2 rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len2, fsize); // commit transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // check file size, it should be exp_len1 rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // check file size, it should be exp_len2 rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // check data ReadPatternEOF(handle1, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); ReadPatternEOF(handle2, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_delete_file(session_, fname1, STORAGE_OP_COMPLETE); storage_close_file(handle2); storage_delete_file(session_, fname2, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardTruncate) { int rc; file_handle_t handle; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_discard_truncate"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // close file storage_close_file(handle); // open truncate file (without commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_TRUNCATE, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // abort current transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // check file size (should be an oruginal size) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardSetSize) { int rc; file_handle_t handle; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_discard_set_size"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // set file size to half of original (no commit) rc = storage_set_file_size(handle, (storage_off_t)exp_len/2, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/2, fsize); // set file size to 1/3 of original (no commit) rc = storage_set_file_size(handle, (storage_off_t)exp_len/3, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/3, fsize); // abort current transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // check file size (should be an original size) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardDelete) { int rc; file_handle_t handle; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_discard_delete"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // close it storage_close_file(handle); // delete file (without commit) rc = storage_delete_file(session_, fname, 0); ASSERT_EQ(0, rc); // try to open it (should fail) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // abort current transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // try to open it rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // check file size (should be an original size) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardDelete2) { int rc; file_handle_t handle; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_discard_delete"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // delete file (without commit) rc = storage_delete_file(session_, fname, 0); ASSERT_EQ(0, rc); storage_close_file(handle); // try to open it (should fail) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // abort current transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // try to open it rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // check file size (should be an original size) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactDiscardCreate) { int rc; file_handle_t handle; const char *fname = "test_transact_discard_create_excl"; // delete test file just in case storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); // create file (without commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, 0); ASSERT_EQ(0, rc); // abort current transaction rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitWrites) { int rc; file_handle_t handle; file_handle_t handle_aux; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_commit_writes"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open the same file in aux session rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); // check file size, it should be 0 rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // write data in primary session (without commit) WritePattern(handle, 0, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // write more data in primary session (without commit) WritePattern(handle, exp_len/2, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // check file size in aux session, it should still be 0 rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // check file size of aux session, should fail rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(-EBUSY, rc); // abort transaction in aux session to recover rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // check file size in aux session, it should be exp_len rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // check file size in primary session, it should be exp_len rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // check data in primary session ReadPatternEOF(handle, 0, blk, exp_len); ASSERT_FALSE(HasFatalFailure()); // check data in aux session ReadPatternEOF(handle_aux, 0, blk, exp_len); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_close_file(handle_aux); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitWrites2) { int rc; file_handle_t handle; file_handle_t handle_aux; size_t blk = 2048; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_commit_writes2"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open the same file in separate session rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // discard transaction in aux_session rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // Fill with zeroes (with commit) for (uint i = 0; i < 8; i++) { WriteZeroChunk(handle, i * blk, blk, true); ASSERT_FALSE(HasFatalFailure()); } // check that test chunks are filled with zeroes ReadChunk(handle, blk, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); ReadChunk(handle, 2 * blk, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); // write test pattern (without commit) WritePattern(handle, blk, blk, blk, false); ASSERT_FALSE(HasFatalFailure()); // write test pattern (without commit) WritePattern(handle, 2 * blk, blk, blk, false); ASSERT_FALSE(HasFatalFailure()); // read it back and check pattern ReadChunk(handle, blk, blk, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); ReadChunk(handle, 2 * blk, blk, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // In aux session it still should be empty ReadChunk(handle_aux, blk, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); ReadChunk(handle_aux, 2 * blk, blk, blk, 0, 0); ASSERT_FALSE(HasFatalFailure()); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // read same chunks back in primary session ReadChunk(handle, blk, blk, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); ReadChunk(handle, 2 * blk, blk, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // read same chunks back in aux session (should fail) uint32_t val; rc = storage_read(handle_aux, blk, &val, sizeof(val)); ASSERT_EQ(-EBUSY, rc); rc = storage_read(handle_aux, 2 * blk, &val, sizeof(val)); ASSERT_EQ(-EBUSY, rc); // abort transaction in aux session rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // read same chunk again in aux session ReadChunk(handle_aux, blk, blk, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); ReadChunk(handle_aux, 2 * blk, blk, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_close_file(handle_aux); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitSetSize) { int rc; file_handle_t handle; file_handle_t handle_aux; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_commit_set_size"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open the same file in separate session rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // same in aux session rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // set file size to half of original (no commit) rc = storage_set_file_size(handle, (storage_off_t)exp_len/2, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/2, fsize); rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // set file size to 1/3 of original (no commit) rc = storage_set_file_size(handle, (storage_off_t)exp_len/3, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/3, fsize); rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // check file size (should be 1/3 of an original size) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/3, fsize); // check file size from aux session rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(-EBUSY, rc); // abort transaction in aux_session rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // check again rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/3, fsize); // cleanup storage_close_file(handle); storage_close_file(handle_aux); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitDelete) { int rc; file_handle_t handle; file_handle_t handle_aux; size_t blk = 2048; size_t exp_len = 32 * 1024; const char *fname = "test_transact_commit_delete"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // close it storage_close_file(handle); // open the same file in separate session rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); storage_close_file(handle_aux); // delete file (without commit) rc = storage_delete_file(session_, fname, 0); ASSERT_EQ(0, rc); // try to open it (should fail) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // open the same file in separate session (should be fine) rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); storage_close_file(handle_aux); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // try to open it in primary session (still fails) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // open the same file in aux session (should also fail) rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); } TEST_P(StorageServiceTest, TransactCommitTruncate) { int rc; file_handle_t handle; file_handle_t handle_aux; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_commit_truncate"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // close file storage_close_file(handle); // check from different session rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // open truncate file (without commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_TRUNCATE, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // check file size (should be 0) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // check file size in aux session (should be -EBUSY) rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(-EBUSY, rc); // abort transaction in aux session rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // check again rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // cleanup storage_close_file(handle); storage_close_file(handle_aux); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitCreate) { int rc; file_handle_t handle; file_handle_t handle_aux; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_commit_create"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // delete test file just in case storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); // check from aux session rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // create file (without commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, 0); ASSERT_EQ(0, rc); // check file size rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // close file storage_close_file(handle); // check from aux session (should fail) rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // check open from normal session rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // check open from aux session (should succeed) rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); // cleanup storage_close_file(handle); storage_close_file(handle_aux); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitCreateMany) { int rc; file_handle_t handle1; file_handle_t handle2; file_handle_t handle1_aux; file_handle_t handle2_aux; storage_off_t fsize = (storage_off_t)(-1); const char *fname1 = "test_transact_commit_create1"; const char *fname2 = "test_transact_commit_create2"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // delete test file just in case storage_delete_file(session_, fname1, STORAGE_OP_COMPLETE); storage_delete_file(session_, fname2, STORAGE_OP_COMPLETE); // create file (without commit) rc = storage_open_file(session_, &handle1, fname1, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, 0); ASSERT_EQ(0, rc); // create file (without commit) rc = storage_open_file(session_, &handle2, fname2, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, 0); ASSERT_EQ(0, rc); // check file sizes rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // close files storage_close_file(handle1); storage_close_file(handle2); // open files from aux session rc = storage_open_file(aux_session_, &handle1_aux, fname1, 0, 0); ASSERT_EQ(-ENOENT, rc); rc = storage_open_file(aux_session_, &handle2_aux, fname2, 0, 0); ASSERT_EQ(-ENOENT, rc); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // open from primary session rc = storage_open_file(session_, &handle1, fname1, 0, 0); ASSERT_EQ(0, rc); rc = storage_open_file(session_, &handle2, fname2, 0, 0); ASSERT_EQ(0, rc); // open from aux session rc = storage_open_file(aux_session_, &handle1_aux, fname1, 0, 0); ASSERT_EQ(0, rc); rc = storage_open_file(aux_session_, &handle2_aux, fname2, 0, 0); ASSERT_EQ(0, rc); // cleanup storage_close_file(handle1); storage_close_file(handle1_aux); storage_delete_file(session_, fname1, STORAGE_OP_COMPLETE); storage_close_file(handle2); storage_close_file(handle2_aux); storage_delete_file(session_, fname2, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitWriteMany) { int rc; file_handle_t handle1; file_handle_t handle2; file_handle_t handle1_aux; file_handle_t handle2_aux; size_t blk = 2048; size_t exp_len1 = 32 * 1024; size_t exp_len2 = 31 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname1 = "test_transact_commit_write_file1"; const char *fname2 = "test_transact_commit_write_file2"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // open create truncate (with commit) rc = storage_open_file(session_, &handle1, fname1, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open create truncate (with commit) rc = storage_open_file(session_, &handle2, fname2, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // open same files from aux session rc = storage_open_file(aux_session_, &handle1_aux, fname1, 0, 0); ASSERT_EQ(0, rc); rc = storage_open_file(aux_session_, &handle2_aux, fname2, 0, 0); ASSERT_EQ(0, rc); // file1: fill file with pattern (without commit) WritePattern(handle1, 0, exp_len1, blk, false); ASSERT_FALSE(HasFatalFailure()); // file2: fill file with pattern (without commit) WritePattern(handle2, 0, exp_len2, blk, false); ASSERT_FALSE(HasFatalFailure()); // check file size, it should be exp_len1 rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len1, fsize); // check file size, it should be exp_len2 rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len2, fsize); // check file sizes from aux session (should be 0) rc = storage_get_file_size(handle1_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); rc = storage_get_file_size(handle2_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // commit transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // check file size, it should be exp_len1 rc = storage_get_file_size(handle1, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len1, fsize); // check file size, it should be exp_len2 rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len2, fsize); // check from aux session (should be -EBUSY) rc = storage_get_file_size(handle1_aux, &fsize); ASSERT_EQ(-EBUSY, rc); // abort transaction in aux session rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // and check again rc = storage_get_file_size(handle1_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len1, fsize); rc = storage_get_file_size(handle2_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len2, fsize); // check data ReadPatternEOF(handle1, 0, blk, exp_len1); ASSERT_FALSE(HasFatalFailure()); ReadPatternEOF(handle2, 0, blk, exp_len2); ASSERT_FALSE(HasFatalFailure()); ReadPatternEOF(handle1_aux, 0, blk, exp_len1); ASSERT_FALSE(HasFatalFailure()); ReadPatternEOF(handle2_aux, 0, blk, exp_len2); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_close_file(handle1_aux); storage_delete_file(session_, fname1, STORAGE_OP_COMPLETE); storage_close_file(handle2); storage_close_file(handle2_aux); storage_delete_file(session_, fname2, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactCommitDeleteCreate) { int rc; file_handle_t handle; file_handle_t handle_aux; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_delete_create"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, exp_len, blk, true); ASSERT_FALSE(HasFatalFailure()); // close it storage_close_file(handle); // delete file (without commit) rc = storage_delete_file(session_, fname, 0); ASSERT_EQ(0, rc); // try to open it (should fail) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(-ENOENT, rc); // try to open it in aux session (should succeed) rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); // create file with the same name (no commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_CREATE_EXCLUSIVE, 0); ASSERT_EQ(0, rc); // write half of data (with commit) WritePattern(handle, 0, exp_len/2, blk, true); ASSERT_FALSE(HasFatalFailure()); // check file size (should be half) rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/2, fsize); // commit transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // check data from primary session ReadPatternEOF(handle, 0, blk, exp_len/2); ASSERT_FALSE(HasFatalFailure()); // check from aux session (should fail) rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(-EINVAL, rc); // abort trunsaction in aux session rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // and try again (should still fail) rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(-EINVAL, rc); // close file and reopen it again storage_close_file(handle_aux); rc = storage_open_file(aux_session_, &handle_aux, fname, 0, 0); ASSERT_EQ(0, rc); // try it again (should succeed) rc = storage_get_file_size(handle_aux, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/2, fsize); // check data ReadPatternEOF(handle_aux, 0, blk, exp_len/2); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_close_file(handle_aux); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactRewriteExistingTruncate) { int rc; file_handle_t handle; size_t blk = 2048; const char *fname = "test_transact_rewrite_existing_truncate"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // close it storage_close_file(handle); // up for (uint i = 1; i < 32; i++) { // open truncate (no commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_TRUNCATE, 0); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, i * blk, blk, true); ASSERT_FALSE(HasFatalFailure()); // close storage_close_file(handle); } // down for (uint i = 1; i < 32; i++) { // open truncate (no commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_TRUNCATE, 0); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, (32 - i) * blk, blk, true); ASSERT_FALSE(HasFatalFailure()); // close storage_close_file(handle); } // cleanup storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactRewriteExistingSetSize) { int rc; file_handle_t handle; size_t blk = 2048; const char *fname = "test_transact_rewrite_existing_set_size"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // close it storage_close_file(handle); // up for (uint i = 1; i < 32; i++) { // open truncate (no commit) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, i * blk, blk, false); ASSERT_FALSE(HasFatalFailure()); // update size (with commit) rc = storage_set_file_size(handle, i * blk, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // close storage_close_file(handle); } // down for (uint i = 1; i < 32; i++) { // open trancate (no commit) rc = storage_open_file(session_, &handle, fname, 0, 0); ASSERT_EQ(0, rc); // write data (with commit) WritePattern(handle, 0, (32 - i) * blk, blk, false); ASSERT_FALSE(HasFatalFailure()); // update size (with commit) rc = storage_set_file_size(handle, (32 - i) * blk, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // close storage_close_file(handle); } // cleanup storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, TransactResumeAfterNonFatalError) { int rc; file_handle_t handle; file_handle_t handle1; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_resume_writes"; // open create truncate file (with commit) rc = storage_open_file(session_, &handle, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // write (without commit) WritePattern(handle, 0, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // issue some commands that should fail with non-fatal errors // write past end of file uint32_t val = 0xDEDBEEF; rc = storage_write(handle, exp_len/2 + 1, &val, sizeof(val), 0); ASSERT_EQ(-EINVAL, rc); // read past end of file rc = storage_read(handle, exp_len/2 + 1, &val, sizeof(val)); ASSERT_EQ(-EINVAL, rc); // try to extend file past end of file rc = storage_set_file_size(handle, exp_len/2 + 1, 0); ASSERT_EQ(-EINVAL, rc); // open non existing file rc = storage_open_file(session_, &handle1, "foo", STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(-ENOENT, rc); // delete non-existing file rc = storage_delete_file(session_, "foo", STORAGE_OP_COMPLETE); ASSERT_EQ(-ENOENT, rc); // then resume writinga (without commit) WritePattern(handle, exp_len/2, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // commit current transaction rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // check file size, it should be exp_len rc = storage_get_file_size(handle, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // check data ReadPatternEOF(handle, 0, blk, exp_len); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } // Transaction Collisions TEST_P(StorageServiceTest, Transact2_WriteNC) { int rc; file_handle_t handle1; file_handle_t handle2; size_t blk = 2048; const char *fname1 = "test_transact_f1"; const char *fname2 = "test_transact_f2"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); rc = storage_open_file(session_, &handle1, fname1, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); rc = storage_open_file(aux_session_, &handle2, fname2, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // session 1 WritePattern(handle1, 0, blk, blk, true); ASSERT_FALSE(HasFatalFailure()); // read it back ReadPatternEOF(handle1, 0, blk, blk); ASSERT_FALSE(HasFatalFailure()); // session 2 WritePattern(handle2, 0, blk, blk, true); ASSERT_FALSE(HasFatalFailure()); // read it back ReadPatternEOF(handle2, 0, blk, blk); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_close_file(handle2); storage_delete_file(session_, fname1, STORAGE_OP_COMPLETE); storage_delete_file(aux_session_, fname2, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, Transact2_DeleteNC) { int rc; file_handle_t handle1; file_handle_t handle2; size_t blk = 2048; const char *fname1 = "test_transact_delete_f1"; const char *fname2 = "test_transact_delete_f2"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); rc = storage_open_file(session_, &handle1, fname1, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); rc = storage_open_file(aux_session_, &handle2, fname2, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // session 1 WritePattern(handle1, 0, blk, blk, true); ASSERT_FALSE(HasFatalFailure()); // read it back ReadPatternEOF(handle1, 0, blk, blk); ASSERT_FALSE(HasFatalFailure()); // session 2 WritePattern(handle2, 0, blk, blk, true); ASSERT_FALSE(HasFatalFailure()); // read it back ReadPatternEOF(handle2, 0, blk, blk); ASSERT_FALSE(HasFatalFailure()); // close files and delete them storage_close_file(handle1); storage_delete_file(session_, fname1, 0); storage_close_file(handle2); storage_delete_file(aux_session_, fname2, 0); // commit rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); rc = storage_end_transaction(aux_session_, true); ASSERT_EQ(0, rc); } TEST_P(StorageServiceTest, Transact2_Write_Read) { int rc; file_handle_t handle1; file_handle_t handle2; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_writeRead"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // S1: open create truncate file rc = storage_open_file(session_, &handle1, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S2: open the same file rc = storage_open_file(aux_session_, &handle2, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S1: write (no commit) WritePattern(handle1, 0, exp_len, blk, false); ASSERT_FALSE(HasFatalFailure()); // S1: read it back ReadPatternEOF(handle1, 0, blk, exp_len); ASSERT_FALSE(HasFatalFailure()); // S2: check file size, it should be 0 rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // S2: read it back (should no data) ReadPatternEOF(handle2, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // S1: commit rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // S2: check file size, it should fail rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(-EBUSY, rc); // S2: abort transaction rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // S2: check file size again, it should be exp_len rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // S2: read it again (should be exp_len) ReadPatternEOF(handle2, 0, blk, exp_len); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_close_file(handle2); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, Transact2_Write_Write_Commit_Commit) { int rc; file_handle_t handle1; file_handle_t handle2; file_handle_t handle3; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_write_write_commit_commit"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // S1: open create truncate file rc = storage_open_file(session_, &handle1, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S2: open the same file rc = storage_open_file(aux_session_, &handle2, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S1: write (no commit) WritePattern(handle1, 0, exp_len, blk, false); ASSERT_FALSE(HasFatalFailure()); // S2: write (no commit) WritePattern(handle2, 0, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // S1: commit rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // S2: read/write/get/set size/delete (all should fail) uint32_t val = 0; rc = storage_read(handle2, 0, &val, sizeof(val)); ASSERT_EQ(-EBUSY, rc); rc = storage_write(handle2, 0, &val, sizeof(val), 0); ASSERT_EQ(-EBUSY, rc); rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(-EBUSY, rc); rc = storage_set_file_size(handle2, fsize, 0); ASSERT_EQ(-EBUSY, rc); rc = storage_delete_file(aux_session_, fname, 0); ASSERT_EQ(-EBUSY, rc); rc = storage_open_file(aux_session_, &handle3, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, 0); ASSERT_EQ(-EBUSY, rc); // S2: commit (should fail, and failed state should be cleared) rc = storage_end_transaction(aux_session_, true); ASSERT_EQ(-EBUSY, rc); // S2: check file size, it should be exp_len rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // S2: read it again (should be exp_len) ReadPatternEOF(handle2, 0, blk, exp_len); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_close_file(handle2); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, Transact2_Write_Write_Commit_Discard) { int rc; file_handle_t handle1; file_handle_t handle2; file_handle_t handle3; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_write_write_commit_discard"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // S1: open create truncate file rc = storage_open_file(session_, &handle1, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S2: open the same file rc = storage_open_file(aux_session_, &handle2, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S1: write (no commit) WritePattern(handle1, 0, exp_len, blk, false); ASSERT_FALSE(HasFatalFailure()); // S2: write (no commit) WritePattern(handle2, 0, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // S1: commit rc = storage_end_transaction(session_, true); ASSERT_EQ(0, rc); // S2: read/write/get/set size/delete (all should fail) uint32_t val = 0; rc = storage_read(handle2, 0, &val, sizeof(val)); ASSERT_EQ(-EBUSY, rc); rc = storage_write(handle2, 0, &val, sizeof(val), 0); ASSERT_EQ(-EBUSY, rc); rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(-EBUSY, rc); rc = storage_set_file_size(handle2, fsize, 0); ASSERT_EQ(-EBUSY, rc); rc = storage_delete_file(aux_session_, fname, 0); ASSERT_EQ(-EBUSY, rc); rc = storage_open_file(aux_session_, &handle3, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, 0); ASSERT_EQ(-EBUSY, rc); // S2: discard (should fail, and failed state should be cleared) rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // S2: check file size, it should be exp_len rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len, fsize); // S2: read it again (should be exp_len) ReadPatternEOF(handle2, 0, blk, exp_len); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_close_file(handle2); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, Transact2_Write_Write_Discard_Commit) { int rc; file_handle_t handle1; file_handle_t handle2; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_write_write_discard_commit"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // S1: open create truncate file rc = storage_open_file(session_, &handle1, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S2: open the same file rc = storage_open_file(aux_session_, &handle2, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S1: write (no commit) WritePattern(handle1, 0, exp_len, blk, false); ASSERT_FALSE(HasFatalFailure()); // S2: write (no commit) WritePattern(handle2, 0, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // S1: discard rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // S2: commit (should succeed) rc = storage_end_transaction(aux_session_, true); ASSERT_EQ(0, rc); // S2: check file size, it should be exp_len rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)exp_len/2, fsize); // S2: read it again (should be exp_len) ReadPatternEOF(handle2, 0, blk, exp_len/2); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_close_file(handle2); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); } TEST_P(StorageServiceTest, Transact2_Write_Write_Discard_Discard) { int rc; file_handle_t handle1; file_handle_t handle2; size_t blk = 2048; size_t exp_len = 32 * 1024; storage_off_t fsize = (storage_off_t)(-1); const char *fname = "test_transact_write_write_discard_Discard"; // open second session rc = storage_open_session(TRUSTY_DEVICE_NAME, &aux_session_, port_); ASSERT_EQ(0, rc); // S1: open create truncate file rc = storage_open_file(session_, &handle1, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S2: open the same file rc = storage_open_file(aux_session_, &handle2, fname, STORAGE_FILE_OPEN_CREATE | STORAGE_FILE_OPEN_TRUNCATE, STORAGE_OP_COMPLETE); ASSERT_EQ(0, rc); // S1: write (no commit) WritePattern(handle1, 0, exp_len, blk, false); ASSERT_FALSE(HasFatalFailure()); // S2: write (no commit) WritePattern(handle2, 0, exp_len/2, blk, false); ASSERT_FALSE(HasFatalFailure()); // S1: discard rc = storage_end_transaction(session_, false); ASSERT_EQ(0, rc); // S2: discard rc = storage_end_transaction(aux_session_, false); ASSERT_EQ(0, rc); // S2: check file size, it should be 0 rc = storage_get_file_size(handle2, &fsize); ASSERT_EQ(0, rc); ASSERT_EQ((storage_off_t)0, fsize); // S2: read it again (should be 0) ReadPatternEOF(handle2, 0, blk, 0); ASSERT_FALSE(HasFatalFailure()); // cleanup storage_close_file(handle1); storage_close_file(handle2); storage_delete_file(session_, fname, STORAGE_OP_COMPLETE); }