# SPDX-License-Identifier: (GPL-2.0 OR Linux-OpenIB) # Copyright (c) 2019 Mellanox Technologies, Inc. All rights reserved. See COPYING file # Copyright (c) 2020 Intel Corporation. All rights reserved. See COPYING file """ Test module for pyverbs' mr module. """ import unittest import random import errno from tests.base import PyverbsAPITestCase, RCResources, RDMATestCase from pyverbs.pyverbs_error import PyverbsRDMAError, PyverbsError from pyverbs.mr import MR, MW, DMMR, DmaBufMR, MWBindInfo, MWBind from pyverbs.mem_alloc import posix_memalign, free from pyverbs.dmabuf import DmaBuf from pyverbs.qp import QPAttr from pyverbs.wr import SendWR import pyverbs.device as d from pyverbs.pd import PD import pyverbs.enums as e import tests.utils as u MAX_IO_LEN = 1048576 DM_INVALID_ALIGNMENT = 3 class MRRes(RCResources): def __init__(self, dev_name, ib_port, gid_index, mr_access=e.IBV_ACCESS_LOCAL_WRITE): """ Initialize MR resources based on RC resources that include RC QP. :param dev_name: Device name to be used :param ib_port: IB port of the device to use :param gid_index: Which GID index to use :param mr_access: The MR access """ self.mr_access = mr_access super().__init__(dev_name=dev_name, ib_port=ib_port, gid_index=gid_index) def create_mr(self): try: self.mr = MR(self.pd, self.msg_size, self.mr_access) except PyverbsRDMAError as ex: if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest(f'Reg MR with access ({self.mr_access}) is not supported') raise ex def create_qp_attr(self): qp_attr = QPAttr(port_num=self.ib_port) qp_access = e.IBV_ACCESS_LOCAL_WRITE | e.IBV_ACCESS_REMOTE_WRITE qp_attr.qp_access_flags = qp_access return qp_attr def rereg_mr(self, flags, pd=None, addr=0, length=0, access=0): try: self.mr.rereg(flags, pd, addr, length, access) except PyverbsRDMAError as ex: if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest(f'Rereg MR is not supported ({str(ex)})') raise ex class MRTest(RDMATestCase): """ Test various functionalities of the MR class. """ def setUp(self): super().setUp() self.iters = 10 self.server = None self.client = None self.server_qp_attr = None self.client_qp_attr = None self.traffic_args = None def restate_qps(self): """ Restate the resources QPs from ERR back to RTS state. """ self.server.qp.modify(QPAttr(qp_state=e.IBV_QPS_RESET), e.IBV_QP_STATE) self.server.qp.to_rts(self.server_qp_attr) self.client.qp.modify(QPAttr(qp_state=e.IBV_QPS_RESET), e.IBV_QP_STATE) self.client.qp.to_rts(self.client_qp_attr) def test_mr_rereg_access(self): self.create_players(MRRes) access = e.IBV_ACCESS_LOCAL_WRITE | e.IBV_ACCESS_REMOTE_WRITE self.server.rereg_mr(flags=e.IBV_REREG_MR_CHANGE_ACCESS, access=access) self.client.rereg_mr(flags=e.IBV_REREG_MR_CHANGE_ACCESS, access=access) u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_mr_rereg_access_bad_flow(self): """ Test that cover rereg MR's access with this flow: Run remote traffic on MR with compatible access, then rereg the MR without remote access and verify that traffic fails with the relevant error. """ remote_access = e.IBV_ACCESS_LOCAL_WRITE |e.IBV_ACCESS_REMOTE_WRITE self.create_players(MRRes, mr_access=remote_access) u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) access = e.IBV_ACCESS_LOCAL_WRITE self.server.rereg_mr(flags=e.IBV_REREG_MR_CHANGE_ACCESS, access=access) with self.assertRaisesRegex(PyverbsRDMAError, 'Remote access error'): u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_mr_rereg_pd(self): """ Test that cover rereg MR's PD with this flow: Use MR with QP that was created with the same PD. Then rereg the MR's PD and use the MR with the same QP, expect the traffic to fail with "remote operation error". Restate the QP from ERR state, rereg the MR back to its previous PD and use it again with the QP, verify that it now succeeds. """ self.create_players(MRRes) self.server_qp_attr, _ = self.server.qp.query(0x1ffffff) self.client_qp_attr, _ = self.client.qp.query(0x1ffffff) u.traffic(**self.traffic_args) server_new_pd = PD(self.server.ctx) self.server.rereg_mr(flags=e.IBV_REREG_MR_CHANGE_PD, pd=server_new_pd) with self.assertRaisesRegex(PyverbsRDMAError, 'Remote operation error'): u.traffic(**self.traffic_args) self.restate_qps() self.server.rereg_mr(flags=e.IBV_REREG_MR_CHANGE_PD, pd=self.server.pd) u.traffic(**self.traffic_args) # Rereg the MR again with the new PD to cover # destroying a PD with a re-registered MR. self.server.rereg_mr(flags=e.IBV_REREG_MR_CHANGE_PD, pd=server_new_pd) def test_mr_rereg_addr(self): self.create_players(MRRes) self.server_qp_attr, _ = self.server.qp.query(0x1ffffff) self.client_qp_attr, _ = self.client.qp.query(0x1ffffff) s_recv_wr = u.get_recv_wr(self.server) self.server.qp.post_recv(s_recv_wr) server_addr = posix_memalign(self.server.msg_size) self.server.rereg_mr(flags=e.IBV_REREG_MR_CHANGE_TRANSLATION, addr=server_addr, length=self.server.msg_size) with self.assertRaisesRegex(PyverbsRDMAError, 'Remote operation error'): # The server QP receive queue has WR with the old MR address, # therefore traffic should fail. u.traffic(**self.traffic_args) self.restate_qps() u.traffic(**self.traffic_args) free(server_addr) def test_reg_mr_bad_flags(self): """ Verify that illegal flags combination fails as expected """ with d.Context(name=self.dev_name) as ctx: with PD(ctx) as pd: with self.assertRaisesRegex(PyverbsRDMAError, 'Failed to register a MR'): MR(pd, u.get_mr_length(), e.IBV_ACCESS_REMOTE_WRITE) with self.assertRaisesRegex(PyverbsRDMAError, 'Failed to register a MR'): MR(pd, u.get_mr_length(), e.IBV_ACCESS_REMOTE_ATOMIC) class MWRC(RCResources): def __init__(self, dev_name, ib_port, gid_index, mw_type): """ Initialize Memory Window resources based on RC resources that include RC QP. :param dev_name: Device name to be used :param ib_port: IB port of the device to use :param gid_index: Which GID index to use :param mw_type: The MW type to use """ super().__init__(dev_name=dev_name, ib_port=ib_port, gid_index=gid_index) self.mw_type = mw_type access = e.IBV_ACCESS_REMOTE_WRITE | e.IBV_ACCESS_LOCAL_WRITE self.mw_bind_info = MWBindInfo(self.mr, self.mr.buf, self.msg_size, access) self.mw_bind = MWBind(self.mw_bind_info, e.IBV_SEND_SIGNALED) try: self.mw = MW(self.pd, self.mw_type) except PyverbsRDMAError as ex: if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest('Create MW is not supported') raise ex def create_mr(self): access = e.IBV_ACCESS_LOCAL_WRITE | e.IBV_ACCESS_MW_BIND try: self.mr = MR(self.pd, self.msg_size, access) except PyverbsRDMAError as ex: if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest('Reg MR with MW access is not supported') raise ex def create_qp_attr(self): qp_attr = QPAttr(port_num=self.ib_port) qp_access = e.IBV_ACCESS_LOCAL_WRITE | e.IBV_ACCESS_REMOTE_WRITE qp_attr.qp_access_flags = qp_access return qp_attr class MWTest(RDMATestCase): """ Test various functionalities of the MW class. """ def setUp(self): super().setUp() self.iters = 10 self.server = None self.client = None def tearDown(self): if self.server: self.server.mw.close() if self.client: self.client.mw.close() return super().tearDown() def bind_mw_type_1(self): self.server.qp.bind_mw(self.server.mw, self.server.mw_bind) self.client.qp.bind_mw(self.client.mw, self.client.mw_bind) # Poll the bind MW action completion. u.poll_cq(self.server.cq) u.poll_cq(self.client.cq) self.server.rkey = self.client.mw.rkey self.server.raddr = self.client.mr.buf self.client.rkey = self.server.mw.rkey self.client.raddr = self.server.mr.buf def bind_mw_type_2(self): client_send_wr = SendWR(opcode=e.IBV_WR_BIND_MW) client_send_wr.set_bind_wr(self.client.mw, self.client.mw_bind_info) server_send_wr = SendWR(opcode=e.IBV_WR_BIND_MW) server_send_wr.set_bind_wr(self.server.mw, self.server.mw_bind_info) self.server.qp.post_send(server_send_wr) self.client.qp.post_send(client_send_wr) # Poll the bind MW WR. u.poll_cq(self.server.cq) u.poll_cq(self.client.cq) self.server.rkey = client_send_wr.rkey self.server.raddr = self.client.mr.buf self.client.rkey = server_send_wr.rkey self.client.raddr = self.server.mr.buf def invalidate_mw_type1(self): """ Invalidate the MWs by rebind this MW with zero length. :return: None """ for player in [self.server, self.client]: mw_bind_info = MWBindInfo(player.mr, player.mr.buf, 0, 0) mw_bind = MWBind(mw_bind_info, e.IBV_SEND_SIGNALED) player.qp.bind_mw(player.mw, mw_bind) # Poll the bound MW action request completion. u.poll_cq(player.cq) def invalidate_mw_type2_local(self): """ Invalidate the MWs by post invalidation send WR from the local QP. :return: None """ inv_send_wr = SendWR(opcode=e.IBV_WR_LOCAL_INV) inv_send_wr.imm_data = self.server.rkey self.client.qp.post_send(inv_send_wr) inv_send_wr = SendWR(opcode=e.IBV_WR_LOCAL_INV) inv_send_wr.imm_data = self.client.rkey self.server.qp.post_send(inv_send_wr) # Poll the invalidate MW WR. u.poll_cq(self.server.cq) u.poll_cq(self.client.cq) def invalidate_mw_type2_remote(self): """ Invalidate the MWs by sending invalidation send WR from the remote QP. :return: None """ server_recv_wr = u.get_recv_wr(self.server) client_recv_wr = u.get_recv_wr(self.client) self.server.qp.post_recv(server_recv_wr) self.client.qp.post_recv(client_recv_wr) inv_send_wr = SendWR(opcode=e.IBV_WR_SEND_WITH_INV) inv_send_wr.imm_data = self.client.rkey self.client.qp.post_send(inv_send_wr) inv_send_wr = SendWR(opcode=e.IBV_WR_SEND_WITH_INV) inv_send_wr.imm_data = self.server.rkey self.server.qp.post_send(inv_send_wr) # Poll the invalidate MW send WR. u.poll_cq(self.server.cq) u.poll_cq(self.client.cq) # Poll the invalidate MW recv WR. u.poll_cq(self.server.cq) u.poll_cq(self.client.cq) def test_mw_type1(self): self.create_players(MWRC, mw_type=e.IBV_MW_TYPE_1) self.bind_mw_type_1() u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_invalidate_mw_type1(self): self.test_mw_type1() self.invalidate_mw_type1() with self.assertRaisesRegex(PyverbsRDMAError, 'Remote access error'): u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_mw_type2(self): self.create_players(MWRC, mw_type=e.IBV_MW_TYPE_2) self.bind_mw_type_2() u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_mw_type2_invalidate_local(self): self.test_mw_type2() self.invalidate_mw_type2_local() with self.assertRaisesRegex(PyverbsRDMAError, 'Remote access error'): u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_mw_type2_invalidate_remote(self): self.test_mw_type2() self.invalidate_mw_type2_remote() with self.assertRaisesRegex(PyverbsRDMAError, 'Remote access error'): u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_mw_type2_invalidate_dealloc(self): self.test_mw_type2() # Dealloc the MW by closing the pyverbs objects. self.server.mw.close() self.client.mw.close() with self.assertRaisesRegex(PyverbsRDMAError, 'Remote access error'): u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_reg_mw_wrong_type(self): """ Verify that trying to create a MW of a wrong type fails """ with d.Context(name=self.dev_name) as ctx: with PD(ctx) as pd: try: mw_type = 3 MW(pd, mw_type) except PyverbsRDMAError as ex: if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest('Create memory window of type {} is not supported'.format(mw_type)) else: raise PyverbsError('Created a MW with type {t}'.\ format(t=mw_type)) class DeviceMemoryAPITest(PyverbsAPITestCase): """ Test various API usages of the DMMR class. """ def setUp(self): super().setUp() if self.attr_ex.max_dm_size == 0: raise unittest.SkipTest('Device memory is not supported') def test_create_dm_mr(self): max_dm_size = self.attr_ex.max_dm_size dm_access = e.IBV_ACCESS_ZERO_BASED | e.IBV_ACCESS_LOCAL_WRITE for dm_size in [4, max_dm_size/4, max_dm_size/2]: dm_size = dm_size - (dm_size % u.DM_ALIGNMENT) for dmmr_factor_size in [0.1, 0.5, 1]: dmmr_size = dm_size * dmmr_factor_size dmmr_size = dmmr_size - (dmmr_size % u.DM_ALIGNMENT) with d.DM(self.ctx, d.AllocDmAttr(length=dm_size)) as dm: DMMR(PD(self.ctx), dmmr_size, dm_access, dm, 0) def test_dm_bad_access(self): """ Test multiple types of bad access to the Device Memory. Device memory access requests a 4B alignment. The test tries to access the DM with bad alignment or outside of the allocated memory. """ dm_size = 100 with d.DM(self.ctx, d.AllocDmAttr(length=dm_size)) as dm: dm_access = e.IBV_ACCESS_ZERO_BASED | e.IBV_ACCESS_LOCAL_WRITE dmmr = DMMR(PD(self.ctx), dm_size, dm_access, dm, 0) access_cases = [(DM_INVALID_ALIGNMENT, 4), # Valid length with unaligned offset (4, DM_INVALID_ALIGNMENT), # Valid offset with unaligned length (dm_size + 4, 4), # Offset out of allocated memory (0, dm_size + 4)] # Length out of allocated memory for case in access_cases: offset, length = case with self.assertRaisesRegex(PyverbsRDMAError, 'Failed to copy from dm'): dmmr.read(offset=offset, length=length) with self.assertRaisesRegex(PyverbsRDMAError, 'Failed to copy to dm'): dmmr.write(data='s'*length, offset=offset, length=length) def test_dm_bad_registration(self): """ Test bad Device Memory registration when trying to register bigger DMMR than the allocated DM. """ dm_size = 100 with d.DM(self.ctx, d.AllocDmAttr(length=dm_size)) as dm: dm_access = e.IBV_ACCESS_ZERO_BASED | e.IBV_ACCESS_LOCAL_WRITE with self.assertRaisesRegex(PyverbsRDMAError, 'Failed to register a device MR'): DMMR(PD(self.ctx), dm_size + 4, dm_access, dm, 0) def check_dmabuf_support(gpu=0): """ Check if dma-buf allocation is supported by the system. Skip the test on failure. """ device_num = 128 + gpu try: DmaBuf(1, gpu=gpu) except PyverbsRDMAError as ex: if ex.error_code == errno.ENOENT: raise unittest.SkipTest(f'Device /dev/dri/renderD{device_num} is not present') if ex.error_code == errno.EACCES: raise unittest.SkipTest(f'Lack of permission to access /dev/dri/renderD{device_num}') if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest(f'Allocating dmabuf is not supported by /dev/dri/renderD{device_num}') def check_dmabuf_mr_support(pd, gpu=0): """ Check if dma-buf MR registration is supported by the driver. Skip the test on failure """ try: DmaBufMR(pd, 1, 0, gpu=gpu) except PyverbsRDMAError as ex: if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest('Reg dma-buf MR is not supported by the RDMA driver') class DmaBufMRTest(PyverbsAPITestCase): """ Test various functionalities of the DmaBufMR class. """ def setUp(self): super().setUp() self.gpu = self.config['gpu'] self.gtt = self.config['gtt'] def test_dmabuf_reg_mr(self): """ Test ibv_reg_dmabuf_mr() """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) flags = u.get_dmabuf_access_flags(self.ctx) for f in flags: len = u.get_mr_length() for off in [0, len//2]: with DmaBufMR(pd, len, f, offset=off, gpu=self.gpu, gtt=self.gtt) as mr: pass def test_dmabuf_dereg_mr(self): """ Test ibv_dereg_mr() with DmaBufMR """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) flags = u.get_dmabuf_access_flags(self.ctx) for f in flags: len = u.get_mr_length() for off in [0, len//2]: with DmaBufMR(pd, len, f, offset=off, gpu=self.gpu, gtt=self.gtt) as mr: mr.close() def test_dmabuf_dereg_mr_twice(self): """ Verify that explicit call to DmaBufMR's close() doesn't fail """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) flags = u.get_dmabuf_access_flags(self.ctx) for f in flags: len = u.get_mr_length() for off in [0, len//2]: with DmaBufMR(pd, len, f, offset=off, gpu=self.gpu, gtt=self.gtt) as mr: # Pyverbs supports multiple destruction of objects, # we are not expecting an exception here. mr.close() mr.close() def test_dmabuf_reg_mr_bad_flags(self): """ Verify that DmaBufMR with illegal flags combination fails as expected """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) for i in range(5): flags = random.sample([e.IBV_ACCESS_REMOTE_WRITE, e.IBV_ACCESS_REMOTE_ATOMIC], random.randint(1, 2)) mr_flags = 0 for i in flags: mr_flags += i.value try: DmaBufMR(pd, u.get_mr_length(), mr_flags, gpu=self.gpu, gtt=self.gtt) except PyverbsRDMAError as err: assert 'Failed to register a dma-buf MR' in err.args[0] else: raise PyverbsRDMAError('Registered a dma-buf MR with illegal falgs') def test_dmabuf_write(self): """ Test writing to DmaBufMR's buffer """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) for i in range(10): mr_len = u.get_mr_length() flags = u.get_dmabuf_access_flags(self.ctx) for f in flags: for mr_off in [0, mr_len//2]: with DmaBufMR(pd, mr_len, f, offset=mr_off, gpu=self.gpu, gtt=self.gtt) as mr: write_len = min(random.randint(1, MAX_IO_LEN), mr_len) mr.write('a' * write_len, write_len) def test_dmabuf_read(self): """ Test reading from DmaBufMR's buffer """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) for i in range(10): mr_len = u.get_mr_length() flags = u.get_dmabuf_access_flags(self.ctx) for f in flags: for mr_off in [0, mr_len//2]: with DmaBufMR(pd, mr_len, f, offset=mr_off, gpu=self.gpu, gtt=self.gtt) as mr: write_len = min(random.randint(1, MAX_IO_LEN), mr_len) write_str = 'a' * write_len mr.write(write_str, write_len) read_len = random.randint(1, write_len) offset = random.randint(0, write_len-read_len) read_str = mr.read(read_len, offset).decode() assert read_str in write_str def test_dmabuf_lkey(self): """ Test reading lkey property """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) length = u.get_mr_length() flags = u.get_dmabuf_access_flags(self.ctx) for f in flags: with DmaBufMR(pd, length, f, gpu=self.gpu, gtt=self.gtt) as mr: mr.lkey def test_dmabuf_rkey(self): """ Test reading rkey property """ check_dmabuf_support(self.gpu) with PD(self.ctx) as pd: check_dmabuf_mr_support(pd, self.gpu) length = u.get_mr_length() flags = u.get_dmabuf_access_flags(self.ctx) for f in flags: with DmaBufMR(pd, length, f, gpu=self.gpu, gtt=self.gtt) as mr: mr.rkey class DmaBufRC(RCResources): def __init__(self, dev_name, ib_port, gid_index, gpu, gtt): """ Initialize an DmaBufRC object. :param dev_name: Device name to be used :param ib_port: IB port of the device to use :param gid_index: Which GID index to use :param gpu: GPU unit to allocate dmabuf from :gtt: Allocate dmabuf from GTT instead og VRAM """ self.gpu = gpu self.gtt = gtt super(DmaBufRC, self).__init__(dev_name=dev_name, ib_port=ib_port, gid_index=gid_index) def create_mr(self): check_dmabuf_support(self.gpu) check_dmabuf_mr_support(self.pd, self.gpu) access = e.IBV_ACCESS_LOCAL_WRITE | e.IBV_ACCESS_REMOTE_WRITE mr = DmaBufMR(self.pd, self.msg_size, access, gpu=self.gpu, gtt=self.gtt) self.mr = mr def create_qp_attr(self): qp_attr = QPAttr(port_num=self.ib_port) qp_access = e.IBV_ACCESS_LOCAL_WRITE | e.IBV_ACCESS_REMOTE_WRITE qp_attr.qp_access_flags = qp_access return qp_attr class DmaBufTestCase(RDMATestCase): def setUp(self): super(DmaBufTestCase, self).setUp() self.iters = 100 self.gpu = self.config['gpu'] self.gtt = self.config['gtt'] def test_dmabuf_rc_traffic(self): """ Test send/recv using dma-buf MR over RC """ self.create_players(DmaBufRC, gpu=self.gpu, gtt=self.gtt) u.traffic(**self.traffic_args) def test_dmabuf_rdma_traffic(self): """ Test rdma write using dma-buf MR """ self.create_players(DmaBufRC, gpu=self.gpu, gtt=self.gtt) u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) class DeviceMemoryRes(RCResources): def __init__(self, dev_name, ib_port, gid_index, remote_access=False, msg_size=1024): """ Initialize DM resources based on RC resources that include RC QP. :param dev_name: Device name to be used. :param ib_port: IB port of the device to use. :param gid_index: Which GID index to use. :param remote_access: If True, enable remote access. :param msg_size: Message size (default: 1024). """ self.remote_access = remote_access super().__init__(dev_name=dev_name, ib_port=ib_port, gid_index=gid_index, msg_size=msg_size) def create_mr(self): try: self.dm = d.DM(self.ctx, d.AllocDmAttr(length=self.msg_size)) access = e.IBV_ACCESS_ZERO_BASED | e.IBV_ACCESS_LOCAL_WRITE if self.remote_access: access |= e.IBV_ACCESS_REMOTE_WRITE | e.IBV_ACCESS_REMOTE_READ | \ e.IBV_ACCESS_REMOTE_ATOMIC self.mr = DMMR(self.pd, self.msg_size, access, self.dm, 0) except PyverbsRDMAError as ex: if ex.error_code == errno.EOPNOTSUPP: raise unittest.SkipTest(f'Reg DMMR with access={access} is not supported') raise ex def create_qp_attr(self): qp_attr = QPAttr(port_num=self.ib_port) qp_attr.qp_access_flags = e.IBV_ACCESS_LOCAL_WRITE if self.remote_access: qp_attr.qp_access_flags |= e.IBV_ACCESS_REMOTE_WRITE | e.IBV_ACCESS_REMOTE_READ | \ e.IBV_ACCESS_REMOTE_ATOMIC return qp_attr class DeviceMemoryTest(RDMATestCase): """ Test various functionalities of the DM class. """ def setUp(self): super().setUp() self.iters = 10 self.server = None self.client = None self.traffic_args = None ctx = d.Context(name=self.dev_name) if ctx.query_device_ex().max_dm_size == 0: raise unittest.SkipTest('Device memory is not supported') # Device memory can not work in scatter to cqe mode in MLX5 devices, # therefore disable it and restore the default value at the end of the # test. self.set_env_variable('MLX5_SCATTER_TO_CQE', '0') def test_dm_traffic(self): self.create_players(DeviceMemoryRes) u.traffic(**self.traffic_args) def test_dm_remote_traffic(self): self.create_players(DeviceMemoryRes, remote_access=True) u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE) def test_dm_remote_write_traffic_imm(self): self.create_players(DeviceMemoryRes, remote_access=True) u.traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_WRITE_WITH_IMM) def test_dm_remote_read_traffic(self): self.create_players(DeviceMemoryRes, remote_access=True) u.rdma_traffic(**self.traffic_args, send_op=e.IBV_WR_RDMA_READ) def test_dm_atomic_fetch_add(self): self.create_players(DeviceMemoryRes, remote_access=True, msg_size=8) u.atomic_traffic(**self.traffic_args, send_op=e.IBV_WR_ATOMIC_FETCH_AND_ADD) def test_dm_atomic_cmp_swp(self): self.create_players(DeviceMemoryRes, remote_access=True, msg_size=8) u.atomic_traffic(**self.traffic_args, send_op=e.IBV_WR_ATOMIC_CMP_AND_SWP)