#include #include typedef struct iovectest { struct vmm_aspace* aspace; user_addr_t buffer_addr; user_addr_t iovec_addr; } iovectest_t; static const char test_pattern[] = "abcdefghijklmnopqrstuvwxyz!"; TEST_F_SETUP(iovectest) { _state->aspace = NULL; /* Setup a user address space. */ struct vmm_aspace* aspace = NULL; ASSERT_EQ(0, vmm_create_aspace(&aspace, "iovectest", 0)); _state->aspace = aspace; _state->buffer_addr = 8 * PAGE_SIZE; _state->iovec_addr = _state->buffer_addr + 256; /* Allocate a page of memory. */ void* user_ptr = (void*)(uintptr_t)_state->buffer_addr; ASSERT_EQ(0, vmm_alloc(aspace, "iovectest", PAGE_SIZE, &user_ptr, 0, VMM_FLAG_VALLOC_SPECIFIC, ARCH_MMU_FLAG_PERM_USER | ARCH_MMU_FLAG_PERM_NO_EXECUTE)); vmm_set_active_aspace(aspace); /* Write the test pattern into memory. */ ASSERT_EQ(0, copy_to_user(_state->buffer_addr, test_pattern, sizeof(test_pattern))); test_abort:; } TEST_F_TEARDOWN(iovectest) { vmm_set_active_aspace(NULL); if (_state->aspace) { vmm_free_aspace(_state->aspace); _state->aspace = NULL; } } /* Check the test fixture is OK. */ TEST_F(iovectest, fixture) { ASSERT_LT(0, sizeof(test_pattern)); /* Non-zero clear because last character of the pattern is null. */ char buf[sizeof(test_pattern)]; memset(buf, 0xff, sizeof(test_pattern)); /* Read back the test pattern. */ int ret = copy_from_user(buf, _state->buffer_addr, sizeof(test_pattern)); ASSERT_EQ(0, ret); /* Make sure it's what we expect. */ ASSERT_EQ(0, memcmp(test_pattern, buf, sizeof(test_pattern))); test_abort:; } /* Write an iovec with evenly spaced chunks to userspace. */ static int write_chunked_iovec(iovectest_t* _state, int size) { struct iovec_user uiov[sizeof(test_pattern)]; unsigned int index = 0; for (unsigned int i = 0; i < sizeof(test_pattern); i += size, index += 1) { uiov[index].iov_base = _state->buffer_addr + i; int len = sizeof(test_pattern) - i; if (size < len) { len = size; } uiov[index].iov_len = len; } /* Copy into user space. */ ASSERT_EQ(0, copy_to_user(_state->iovec_addr, uiov, sizeof(struct iovec_user) * index), "chunk %d", size); return index; test_abort: return 0; } /* A format string to help understand the exact case the assertion failed. */ #define LOCATION_MESSAGE "chunk size %zu / iov_cnt %d", buffer_chunk, iov_cnt /* Copy all the data from userspace using a buffer of limited size. */ static void iovectest_readback(iovectest_t* _state, size_t buffer_chunk, int iov_cnt, const void* expected, size_t expected_len) { uint8_t buf[sizeof(test_pattern) * 2]; memset(buf, 0xff, sizeof(buf)); uint8_t tmp[sizeof(test_pattern) * 2]; memset(tmp, 0xff, sizeof(tmp)); /* Check chunk sizes. */ ASSERT_LE(expected_len, sizeof(buf), LOCATION_MESSAGE); ASSERT_LE(0, buffer_chunk, LOCATION_MESSAGE); ASSERT_LE(buffer_chunk, sizeof(tmp), LOCATION_MESSAGE); /* Read the data a buffer at a time. */ struct iovec_iter iter = iovec_iter_create(iov_cnt); size_t total_bytes = 0; while (iovec_iter_has_next(&iter)) { int ret = user_iovec_to_membuf_iter(tmp, buffer_chunk, _state->iovec_addr, &iter); /* Check the return value. */ ASSERT_LE(0, ret, LOCATION_MESSAGE); ASSERT_LE(ret, buffer_chunk, LOCATION_MESSAGE); /* If there is more data, the buffer should be filled. */ if (iter.iov_index < iter.iov_cnt) { ASSERT_EQ(ret, buffer_chunk, LOCATION_MESSAGE); } /* Accumulate the result. */ memcpy(buf + total_bytes, tmp, ret); total_bytes += ret; } /* Did we get the data we expect? */ ASSERT_EQ(expected_len, total_bytes, LOCATION_MESSAGE); ASSERT_EQ(0, memcmp(expected, buf, expected_len), LOCATION_MESSAGE); test_abort:; } /* Test various combinations of iovec size and read buffer size. */ TEST_F(iovectest, varied_chunk_sizes) { /* Note the chunk sizes can exceed the size of the payload. */ for (size_t iovec_chunk = 1; iovec_chunk <= sizeof(test_pattern) + 2; iovec_chunk++) { for (size_t buffer_chunk = 1; buffer_chunk <= sizeof(test_pattern) + 2; buffer_chunk++) { int iov_cnt = write_chunked_iovec(_state, iovec_chunk); iovectest_readback(_state, buffer_chunk, iov_cnt, test_pattern, sizeof(test_pattern)); } } } /* Make sure that zero-length iovecs have no effect. */ TEST_F(iovectest, zerolength) { struct iovec_user uiov[] = { { .iov_base = _state->buffer_addr + 0, .iov_len = 0, }, { .iov_base = 0, .iov_len = 0, }, { .iov_base = _state->buffer_addr + 0, .iov_len = 3, }, { .iov_base = _state->buffer_addr + 3, .iov_len = 0, }, { .iov_base = 0, .iov_len = 0, }, { .iov_base = _state->buffer_addr + 3, .iov_len = 0, }, { .iov_base = _state->buffer_addr + 3, .iov_len = 25, }, { .iov_base = _state->buffer_addr + 28, .iov_len = 0, }, { .iov_base = 0, .iov_len = 0, }, }; ASSERT_EQ(0, copy_to_user(_state->iovec_addr, uiov, sizeof(uiov))); iovectest_readback(_state, 10, countof(uiov), test_pattern, sizeof(test_pattern)); test_abort:; } /* Make sure we can read something other than the exact test pattern. */ TEST_F(iovectest, swap_data) { struct iovec_user uiov[] = { { .iov_base = _state->buffer_addr + 14, .iov_len = 14, }, { .iov_base = _state->buffer_addr + 0, .iov_len = 14, }, }; ASSERT_EQ(0, copy_to_user(_state->iovec_addr, uiov, sizeof(uiov))); const char expected[] = "opqrstuvwxyz!\0abcdefghijklmn"; iovectest_readback(_state, 11, countof(uiov), expected, 28); test_abort:; } PORT_TEST(iovectest, "com.android.kernel.iovectest");