diff --git a/test/py/libvfio_user.py b/test/py/libvfio_user.py index e93bc4fb..e3177d43 100644 --- a/test/py/libvfio_user.py +++ b/test/py/libvfio_user.py @@ -1287,4 +1287,20 @@ def get_bitmap_size(size: int, pgsize: int) -> int: return ((nr_pages + 63) & ~63) // 8 +get_errno_loc = libc.__errno_location +get_errno_loc.restype = c.POINTER(c.c_int) + + +def set_real_errno(errno: int): + """ + ctypes's errno is an internal value that only updates the real value when + the foreign function call returns. In callbacks, however, this doesn't + happen, so `c.set_errno` doesn't propagate in time. In this case we need to + manually set the real errno. + """ + + c.set_errno(errno) # set internal errno so `c.get_errno` gives right value + get_errno_loc()[0] = errno # set real errno + + # ex: set tabstop=4 shiftwidth=4 softtabstop=4 expandtab: # diff --git a/test/py/test_dirty_pages.py b/test/py/test_dirty_pages.py index 8dfb45b9..c85bcce0 100644 --- a/test/py/test_dirty_pages.py +++ b/test/py/test_dirty_pages.py @@ -157,8 +157,8 @@ def get_dirty_page_bitmap(addr=0x10 << PAGE_SHIFT, length=0x10 << PAGE_SHIFT, page_size=PAGE_SIZE, expect=0): """ Get the dirty page bitmap from the server for the given region and page - size as a 64-bit integer. This only works for bitmaps that fit within a - 64-bit integer. + size as a 64-bit integer. This function only works for bitmaps that fit + within a 64-bit integer because that's what it returns. """ bitmap_size = get_bitmap_size(length, page_size) diff --git a/test/py/test_migration.py b/test/py/test_migration.py index 674945c2..92c32925 100644 --- a/test/py/test_migration.py +++ b/test/py/test_migration.py @@ -35,12 +35,13 @@ ctx = None sock = None -current_state = None -path = [] + +current_state = None # the current migration state on the server +path = [] # the server transition path (each transition appends the new state) + read_data = None write_data = None -fail_callbacks = False -fail_callbacks_errno = None +callbacks_errno = 0 STATES = { @@ -68,12 +69,16 @@ } +# Set a very small maximum transfer size for later tests. +MAX_DATA_XFER_SIZE = 4 + + @transition_cb_t def migr_trans_cb(_ctx, state): global current_state, path - if fail_callbacks: - c.set_errno(fail_callbacks_errno) + if callbacks_errno != 0: + set_real_errno(callbacks_errno) return -1 if state in VFU_TO_VFIO_MIGR_STATE: @@ -92,7 +97,8 @@ def migr_trans_cb(_ctx, state): def migr_read_data_cb(_ctx, buf, count): global read_data - if fail_callbacks: + if callbacks_errno != 0: + set_real_errno(callbacks_errno) return -1 length = min(count, len(read_data)) @@ -106,7 +112,8 @@ def migr_read_data_cb(_ctx, buf, count): def migr_write_data_cb(_ctx, buf, count): global write_data - if fail_callbacks: + if callbacks_errno != 0: + set_real_errno(callbacks_errno) return -1 write_data = bytes(count) @@ -115,19 +122,33 @@ def migr_write_data_cb(_ctx, buf, count): return count -def setup_fail_callbacks(errno=errno.EINVAL): - global fail_callbacks, fail_callbacks_errno - fail_callbacks = True - fail_callbacks_errno = errno +def setup_fail_callbacks(errno): + global callbacks_errno + callbacks_errno = errno def teardown_fail_callbacks(): - global fail_callbacks, fail_callbacks_errno - fail_callbacks = False - fail_callbacks_errno = None + global callbacks_errno + callbacks_errno = 0 c.set_errno(0) +def teardown_function(function): + teardown_fail_callbacks() + + +def transition_to_migr_state(state, expect=0, rsp=True, busy=False): + return transition_to_state(ctx, sock, state, expect, rsp, busy) + + +def mig_data_payload(data): + argsz = len(vfio_user_mig_data()) + len(data) + return vfio_user_mig_data( + argsz=argsz, + size=len(data) + ) + + def test_migration_setup(): global ctx, sock @@ -152,11 +173,10 @@ def test_migration_setup(): ret = vfu_realize_ctx(ctx) assert ret == 0 - max_data_xfer_size = 4 # for later tests - sock = connect_client(ctx, max_data_xfer_size) + sock = connect_client(ctx, MAX_DATA_XFER_SIZE) -def get_server_shortest_path(a, b, expectA=0, expectB=0): +def server_transition_track_path(a, b, expectA=0, expectB=0): """ Carry out the state transition from a to b on the server, keeping track of and returning the transition path taken. @@ -168,16 +188,16 @@ def get_server_shortest_path(a, b, expectA=0, expectB=0): a == VFIO_USER_DEVICE_STATE_PRE_COPY: # The transition STOP_COPY -> PRE_COPY is explicitly blocked so we # advance one state to get around this in order to set up the test. - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_STOP) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_STOP) - transition_to_state(ctx, sock, a, expect=expectA) + transition_to_migr_state(a, expect=expectA) if expectA != 0: return None path = [] - transition_to_state(ctx, sock, b, expect=expectB) + transition_to_migr_state(b, expect=expectB) return path.copy() @@ -228,6 +248,8 @@ def test_migration_shortest_state_transition_paths(): # Consider each vertex in turn to be the start state, that is, the state # we are transitioning from. for source in V: + # The previous node in the shortest path for each node, e.g. for + # shortest path `source -> node -> target`, `back[node] == source`. back = {v: None for v in V} queue = deque([(source, None)]) @@ -259,7 +281,7 @@ def test_migration_shortest_state_transition_paths(): seq.appendleft(curr) curr = back[curr] - server_seq = get_server_shortest_path(source, target) + server_seq = server_transition_track_path(source, target) assert len(seq) == len(server_seq) assert all(seq[i] == server_seq[i] for i in range(len(seq))) @@ -274,30 +296,29 @@ def test_migration_shortest_state_transition_paths(): # No matter what, we expect transitioning to the target state # to fail. - get_server_shortest_path(source, target, expectA=expectA, - expectB=errno.EINVAL) + server_transition_track_path(source, target, expectA=expectA, + expectB=errno.EINVAL) def test_migration_stop_copy_to_pre_copy_rejected(): - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_STOP_COPY) - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_PRE_COPY, - expect=errno.EINVAL) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_STOP_COPY) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_PRE_COPY, + expect=errno.EINVAL) def test_migration_nonexistent_state(): - transition_to_state(ctx, sock, 0xabcd, expect=errno.EINVAL) + transition_to_migr_state(0xabcd, expect=errno.EINVAL) def test_migration_failed_callback(): - setup_fail_callbacks() - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RUNNING, - expect=errno.EINVAL) - assert c.get_errno() == errno.EINVAL + setup_fail_callbacks(0xbeef) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RUNNING, expect=0xbeef) + assert c.get_errno() == 0xbeef teardown_fail_callbacks() def test_migration_get_state(): - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RUNNING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RUNNING) feature = vfio_user_device_feature( argsz=len(vfio_user_device_feature()) + @@ -314,107 +335,80 @@ def test_migration_get_state(): def test_handle_mig_data_read(): global read_data - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RUNNING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RUNNING) data = bytes([0, 1, 2, 3]) - argsz = len(vfio_user_mig_data()) + len(data) - payload = vfio_user_mig_data( - argsz=argsz, - size=len(data) - ) + payload = mig_data_payload(data) VALID_STATES = {VFIO_USER_DEVICE_STATE_PRE_COPY, VFIO_USER_DEVICE_STATE_STOP_COPY} for state in STATES: - transition_to_state(ctx, sock, state) + transition_to_migr_state(state) read_data = data expect = 0 if state in VALID_STATES else errno.EINVAL result = msg(ctx, sock, VFIO_USER_MIG_DATA_READ, payload, expect=expect) if state in VALID_STATES: - assert len(result) == argsz + assert len(result) == len(payload) + len(data) assert result[len(vfio_user_mig_data()):] == data def test_handle_mig_data_read_too_long(): """ When we set up the tests at the top of this file we specify that the max - data transfer size is 4 bytes. Here we test to check that a transfer of 8 - bytes fails. + data transfer size is 4 bytes. Here we test to check that a transfer of too + many bytes fails. """ global read_data - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RUNNING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RUNNING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_PRE_COPY) - read_data = bytes([1, 2, 3, 4, 5, 6, 7, 8]) + # Create a payload reading with length 1 byte longer than the max. + read_data = bytes([i for i in range(MAX_DATA_XFER_SIZE + 1)]) + payload = mig_data_payload(read_data) - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(read_data), - size=len(read_data) - ) - - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_PRE_COPY) msg(ctx, sock, VFIO_USER_MIG_DATA_READ, payload, expect=errno.EINVAL) def test_handle_mig_data_read_failed_callback(): - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_PRE_COPY) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_PRE_COPY) read_data = bytes([1, 2, 3, 4]) + payload = mig_data_payload(read_data) - setup_fail_callbacks() - - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(read_data), - size=len(read_data) - ) - - msg(ctx, sock, VFIO_USER_MIG_DATA_READ, payload, expect=errno.EINVAL) - assert c.get_errno() == errno.EINVAL + setup_fail_callbacks(0xbeef) - teardown_fail_callbacks() + msg(ctx, sock, VFIO_USER_MIG_DATA_READ, payload, expect=0xbeef) + assert c.get_errno() == 0xbeef def test_handle_mig_data_read_short_write(): data = bytes([1, 2, 3, 4]) - - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(data), - size=len(data) - ) - - payload = bytes(payload) - assert len(payload) == 8 + payload = bytes(mig_data_payload(data)) # don't send the last byte - msg(ctx, sock, VFIO_USER_MIG_DATA_READ, payload[0:7], expect=errno.EINVAL) + msg(ctx, sock, VFIO_USER_MIG_DATA_READ, payload[0:len(payload) - 1], + expect=errno.EINVAL) def test_handle_mig_data_write(): data = bytes([1, 2, 3, 4]) + payload = mig_data_payload(data) - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(data), - size=len(data) - ) - - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RESUMING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RESUMING) msg(ctx, sock, VFIO_USER_MIG_DATA_WRITE, bytes(payload) + data) assert write_data == data def test_handle_mig_data_write_invalid_state(): data = bytes([1, 2, 3, 4]) + payload = mig_data_payload(data) - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(data), - size=len(data) - ) - - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RUNNING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RUNNING) msg(ctx, sock, VFIO_USER_MIG_DATA_WRITE, bytes(payload) + data, expect=errno.EINVAL) @@ -422,48 +416,35 @@ def test_handle_mig_data_write_invalid_state(): def test_handle_mig_data_write_too_long(): """ When we set up the tests at the top of this file we specify that the max - data transfer size is 4 bytes. Here we test to check that a transfer of 8 - bytes fails. + data transfer size is 4 bytes. Here we test to check that a transfer of too + many bytes fails. """ - data = bytes([1, 2, 3, 4, 5, 6, 7, 8]) + # Create a payload writing with length 1 byte longer than the max. + data = bytes([i for i in range(MAX_DATA_XFER_SIZE + 1)]) + payload = mig_data_payload(data) - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(data), - size=len(data) - ) - - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RESUMING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RESUMING) msg(ctx, sock, VFIO_USER_MIG_DATA_WRITE, bytes(payload) + data, expect=errno.EINVAL) def test_handle_mig_data_write_failed_callback(): - transition_to_state(ctx, sock, VFIO_USER_DEVICE_STATE_RESUMING) + transition_to_migr_state(VFIO_USER_DEVICE_STATE_RESUMING) data = bytes([1, 2, 3, 4]) + payload = mig_data_payload(data) - setup_fail_callbacks() - - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(data), - size=len(data) - ) + setup_fail_callbacks(0xbeef) msg(ctx, sock, VFIO_USER_MIG_DATA_WRITE, bytes(payload) + data, - expect=errno.EINVAL) - assert c.get_errno() == errno.EINVAL - - teardown_fail_callbacks() + expect=0xbeef) + assert c.get_errno() == 0xbeef def test_handle_mig_data_write_short_write(): data = bytes([1, 2, 3, 4]) - - payload = vfio_user_mig_data( - argsz=len(vfio_user_mig_data()) + len(data), - size=len(data) - ) + payload = mig_data_payload(data) msg(ctx, sock, VFIO_USER_MIG_DATA_WRITE, payload, expect=errno.EINVAL) @@ -491,10 +472,10 @@ def test_device_feature_short_write(): ) payload = bytes(payload) - assert len(payload) == 8 # don't send the last byte - msg(ctx, sock, VFIO_USER_DEVICE_FEATURE, payload[0:7], expect=errno.EINVAL) + msg(ctx, sock, VFIO_USER_DEVICE_FEATURE, payload[0:len(payload) - 1], + expect=errno.EINVAL) def test_device_feature_unsupported_operation(): diff --git a/test/py/test_quiesce.py b/test/py/test_quiesce.py index baa54cdd..50c537e5 100644 --- a/test/py/test_quiesce.py +++ b/test/py/test_quiesce.py @@ -197,7 +197,7 @@ def test_allowed_funcs_in_quiesced_dma_unregister_busy(mock_quiesce, @patch('libvfio_user.migr_trans_cb', side_effect=_side_effect) @patch('libvfio_user.quiesce_cb') -def test_allowed_funcs_in_quiesed_migration(mock_quiesce, +def test_allowed_funcs_in_quiesced_migration(mock_quiesce, mock_trans): global ctx, sock @@ -208,7 +208,7 @@ def test_allowed_funcs_in_quiesed_migration(mock_quiesce, @patch('libvfio_user.migr_trans_cb', side_effect=_side_effect) @patch('libvfio_user.quiesce_cb') -def test_allowed_funcs_in_quiesed_migration_busy(mock_quiesce, +def test_allowed_funcs_in_quiesced_migration_busy(mock_quiesce, mock_trans): global ctx, sock