# SPDX-License-Identifier: (GPL-2.0 OR Linux-OpenIB) # Copyright (c) 2018, Mellanox Technologies. All rights reserved. See COPYING file """ Device module introduces the Context and DeviceAttr class. It allows user to open an IB device (using Context(name=) and query it, which returns a DeviceAttr object. """ import weakref from .pyverbs_error import PyverbsRDMAError, PyverbsError from pyverbs.cq cimport CQEX, CQ, CompChannel from .pyverbs_error import PyverbsUserError from pyverbs.base import PyverbsRDMAErrno cimport pyverbs.libibverbs_enums as e cimport pyverbs.libibverbs as v from pyverbs.cmid cimport CMID from pyverbs.xrcd cimport XRCD from pyverbs.addr cimport GID from pyverbs.mr import DMMR from pyverbs.pd cimport PD from pyverbs.qp cimport QP from libc.errno cimport errno from libc.stdlib cimport free, malloc from libc.string cimport memset from libc.stdint cimport uint64_t cdef extern from 'endian.h': unsigned long be64toh(unsigned long host_64bits); class Device(PyverbsObject): """ Device class represents the C ibv_device. It stores device's properties. It is not a part of objects creation order - there's no need for the user to create it for such purposes. """ def __init__(self, name, guid, node_type, transport_type): self._node_type = node_type self._transport_type = transport_type self._name = name self._guid = guid @property def name(self): return self._name @property def node_type(self): return self._node_type @property def transport_type(self): return self._transport_type @property def guid(self): return self._guid def __str__(self): return 'Device {dev}, node type {ntype}, transport type {ttype},' \ ' guid {guid}'.format(dev=self.name.decode(), ntype=translate_node_type(self.node_type), ttype=translate_transport_type(self.transport_type), guid=guid_to_hex(self.guid)) cdef class Context(PyverbsCM): """ Context class represents the C ibv_context. """ def __cinit__(self, **kwargs): """ Initializes a Context object. The function searches the IB devices list for a device with the name provided by the user. If such a device is found, it is opened (unless provider attributes were given). In case of cmid argument, CMID object already holds an ibv_context initiated pointer, hence all we have to do is assign this pointer to Context's object pointer. :param kwargs: Arguments: * *name* (str) The RDMA device's name * *attr* (object) Device-specific attributes, meaning that the device is to be opened by the provider * *cmid* (CMID) A CMID object (represents rdma_cm_id struct) :return: None """ cdef int count cdef v.ibv_device **dev_list cdef CMID cmid self.pds = weakref.WeakSet() self.dms = weakref.WeakSet() self.ccs = weakref.WeakSet() self.cqs = weakref.WeakSet() self.qps = weakref.WeakSet() self.xrcds = weakref.WeakSet() dev_name = kwargs.get('name') provider_attr = kwargs.get('attr') cmid = kwargs.get('cmid') if cmid is not None: self.context = cmid.id.verbs cmid.ctx = self return elif dev_name is not None: self.name = dev_name else: raise PyverbsUserError('Device name must be provided') dev_list = v.ibv_get_device_list(&count) if dev_list == NULL: raise PyverbsRDMAError('Failed to get devices list') try: for i in range(count): if dev_list[i].name.decode() == self.name: if provider_attr is not None: # A provider opens its own context, we're just # setting its IB device self.device = dev_list[i] return self.context = v.ibv_open_device(dev_list[i]) if self.context == NULL: raise PyverbsRDMAErrno('Failed to open device {dev}'. format(dev=self.name)) self.logger.debug('Context: opened device {dev}'. format(dev=self.name)) break else: raise PyverbsRDMAError('Failed to find device {dev}'. format(dev=self.name)) finally: v.ibv_free_device_list(dev_list) def __dealloc__(self): """ Closes the inner IB device. :return: None """ self.close() cpdef close(self): self.logger.debug('Closing Context') self.close_weakrefs([self.qps, self.ccs, self.cqs, self.dms, self.pds, self.xrcds]) if self.context != NULL: rc = v.ibv_close_device(self.context) if rc != 0: raise PyverbsRDMAErrno('Failed to close device {dev}'. format(dev=self.device.name), errno) self.context = NULL @property def num_comp_vectors(self): return self.context.num_comp_vectors def query_device(self): """ Queries the device's attributes. :return: A DeviceAttr object which holds the device's attributes as reported by the hardware. """ dev_attr = DeviceAttr() rc = v.ibv_query_device(self.context, &dev_attr.dev_attr) if rc != 0: raise PyverbsRDMAErrno('Failed to query device {name}'. format(name=self.name), errno) return dev_attr def query_device_ex(self, QueryDeviceExInput ex_input = None): """ Queries the device's extended attributes. :param ex_input: An extensible input struct for possible future extensions :return: DeviceAttrEx object """ dev_attr_ex = DeviceAttrEx() rc = v.ibv_query_device_ex(self.context, &ex_input.input if ex_input is not None else NULL, &dev_attr_ex.dev_attr) if rc != 0: raise PyverbsRDMAErrno('Failed to query EX device {name}'. format(name=self.name)) return dev_attr_ex def query_gid(self, unsigned int port_num, int index): gid = GID() rc = v.ibv_query_gid(self.context, port_num, index, &gid.gid) if rc != 0: raise PyverbsRDMAError('Failed to query gid {idx} of port {port}'. format(idx=index, port=port_num)) return gid def query_port(self, unsigned int port_num): """ Query port of the device and returns its attributes. :param port_num: Port number to query :return: PortAttr object on success """ port_attrs = PortAttr() rc = v.ibv_query_port(self.context, port_num, &port_attrs.attr) if rc != 0: raise PyverbsRDMAErrno('Failed to query port {p}'.format(p=port_num)) return port_attrs cdef add_ref(self, obj): if isinstance(obj, PD): self.pds.add(obj) elif isinstance(obj, DM): self.dms.add(obj) elif isinstance(obj, CompChannel): self.ccs.add(obj) elif isinstance(obj, CQ) or isinstance(obj, CQEX): self.cqs.add(obj) elif isinstance(obj, QP): self.qps.add(obj) elif isinstance(obj, XRCD): self.xrcds.add(obj) else: raise PyverbsError('Unrecognized object type') cdef class DeviceAttr(PyverbsObject): """ DeviceAttr represents ibv_device_attr C class. It exposes the same properties (read only) and also provides an __str__() function for readability. """ @property def fw_version(self): return self.dev_attr.fw_ver.decode() @property def node_guid(self): return self.dev_attr.node_guid @property def sys_image_guid(self): return self.dev_attr.sys_image_guid @property def max_mr_size(self): return self.dev_attr.max_mr_size @property def page_size_cap(self): return self.dev_attr.page_size_cap @property def vendor_id(self): return self.dev_attr.vendor_id @property def vendor_part_id(self): return self.dev_attr.vendor_part_id @property def hw_ver(self): return self.dev_attr.hw_ver @property def max_qp(self): return self.dev_attr.max_qp @property def max_qp_wr(self): return self.dev_attr.max_qp_wr @property def device_cap_flags(self): return self.dev_attr.device_cap_flags @property def max_sge(self): return self.dev_attr.max_sge @property def max_sge_rd(self): return self.dev_attr.max_sge_rd @property def max_cq(self): return self.dev_attr.max_cq @property def max_cqe(self): return self.dev_attr.max_cqe @property def max_mr(self): return self.dev_attr.max_mr @property def max_pd(self): return self.dev_attr.max_pd @property def max_qp_rd_atom(self): return self.dev_attr.max_qp_rd_atom @property def max_ee_rd_atom(self): return self.dev_attr.max_ee_rd_atom @property def max_res_rd_atom(self): return self.dev_attr.max_res_rd_atom @property def max_qp_init_rd_atom(self): return self.dev_attr.max_qp_init_rd_atom @property def max_ee_init_rd_atom(self): return self.dev_attr.max_ee_init_rd_atom @property def atomic_caps(self): return self.dev_attr.atomic_cap @property def max_ee(self): return self.dev_attr.max_ee @property def max_rdd(self): return self.dev_attr.max_rdd @property def max_mw(self): return self.dev_attr.max_mw @property def max_raw_ipv6_qps(self): return self.dev_attr.max_raw_ipv6_qp @property def max_raw_ethy_qp(self): return self.dev_attr.max_raw_ethy_qp @property def max_mcast_grp(self): return self.dev_attr.max_mcast_grp @property def max_mcast_qp_attach(self): return self.dev_attr.max_mcast_qp_attach @property def max_ah(self): return self.dev_attr.max_ah @property def max_fmr(self): return self.dev_attr.max_fmr @property def max_map_per_fmr(self): return self.dev_attr.max_map_per_fmr @property def max_srq(self): return self.dev_attr.max_srq @property def max_srq_wr(self): return self.dev_attr.max_srq_wr @property def max_srq_sge(self): return self.dev_attr.max_srq_sge @property def max_pkeys(self): return self.dev_attr.max_pkeys @property def local_ca_ack_delay(self): return self.dev_attr.local_ca_ack_delay @property def phys_port_cnt(self): return self.dev_attr.phys_port_cnt def __str__(self): print_format = '{:<22}: {:<20}\n' return print_format.format('FW version', self.fw_version) +\ print_format.format('Node guid', guid_format(self.node_guid)) +\ print_format.format('Sys image GUID', guid_format(self.sys_image_guid)) +\ print_format.format('Max MR size', hex(self.max_mr_size).replace('L', '')) +\ print_format.format('Page size cap', hex(self.page_size_cap).replace('L', '')) +\ print_format.format('Vendor ID', hex(self.vendor_id)) +\ print_format.format('Vendor part ID', self.vendor_part_id) +\ print_format.format('HW version', self.hw_ver) +\ print_format.format('Max QP', self.max_qp) +\ print_format.format('Max QP WR', self.max_qp_wr) +\ print_format.format('Device cap flags', translate_device_caps(self.device_cap_flags)) +\ print_format.format('Max SGE', self.max_sge) +\ print_format.format('Max SGE RD', self.max_sge_rd) +\ print_format.format('MAX CQ', self.max_cq) +\ print_format.format('Max CQE', self.max_cqe) +\ print_format.format('Max MR', self.max_mr) +\ print_format.format('Max PD', self.max_pd) +\ print_format.format('Max QP RD atom', self.max_qp_rd_atom) +\ print_format.format('Max EE RD atom', self.max_ee_rd_atom) +\ print_format.format('Max res RD atom', self.max_res_rd_atom) +\ print_format.format('Max QP init RD atom', self.max_qp_init_rd_atom) +\ print_format.format('Max EE init RD atom', self.max_ee_init_rd_atom) +\ print_format.format('Atomic caps', self.atomic_caps) +\ print_format.format('Max EE', self.max_ee) +\ print_format.format('Max RDD', self.max_rdd) +\ print_format.format('Max MW', self.max_mw) +\ print_format.format('Max raw IPv6 QPs', self.max_raw_ipv6_qps) +\ print_format.format('Max raw ethy QP', self.max_raw_ethy_qp) +\ print_format.format('Max mcast group', self.max_mcast_grp) +\ print_format.format('Max mcast QP attach', self.max_mcast_qp_attach) +\ print_format.format('Max AH', self.max_ah) +\ print_format.format('Max FMR', self.max_fmr) +\ print_format.format('Max map per FMR', self.max_map_per_fmr) +\ print_format.format('Max SRQ', self.max_srq) +\ print_format.format('Max SRQ WR', self.max_srq_wr) +\ print_format.format('Max SRQ SGE', self.max_srq_sge) +\ print_format.format('Max PKeys', self.max_pkeys) +\ print_format.format('local CA ack delay', self.local_ca_ack_delay) +\ print_format.format('Phys port count', self.phys_port_cnt) cdef class QueryDeviceExInput(PyverbsObject): def __cinit__(self, comp_mask): self.ex_input.comp_mask = comp_mask cdef class ODPCaps(PyverbsObject): @property def general_caps(self): return self.odp_caps.general_caps @property def rc_odp_caps(self): return self.odp_caps.per_transport_caps.rc_odp_caps @property def uc_odp_caps(self): return self.odp_caps.per_transport_caps.uc_odp_caps @property def ud_odp_caps(self): return self.odp_caps.per_transport_caps.ud_odp_caps @property def xrc_odp_caps(self): return self.xrc_odp_caps @xrc_odp_caps.setter def xrc_odp_caps(self, val): self.xrc_odp_caps = val def __str__(self): general_caps = {e.IBV_ODP_SUPPORT: 'IBV_ODP_SUPPORT', e.IBV_ODP_SUPPORT_IMPLICIT: 'IBV_ODP_SUPPORT_IMPLICIT'} l = {e.IBV_ODP_SUPPORT_SEND: 'IBV_ODP_SUPPORT_SEND', e.IBV_ODP_SUPPORT_RECV: 'IBV_ODP_SUPPORT_RECV', e.IBV_ODP_SUPPORT_WRITE: 'IBV_ODP_SUPPORT_WRITE', e.IBV_ODP_SUPPORT_READ: 'IBV_ODP_SUPPORT_READ', e.IBV_ODP_SUPPORT_ATOMIC: 'IBV_ODP_SUPPORT_ATOMIC', e.IBV_ODP_SUPPORT_SRQ_RECV: 'IBV_ODP_SUPPORT_SRQ_RECV'} print_format = '{}: {}\n' return print_format.format('ODP General caps', str_from_flags(self.general_caps, general_caps)) +\ print_format.format('RC ODP caps', str_from_flags(self.rc_odp_caps, l)) +\ print_format.format('UD ODP caps', str_from_flags(self.ud_odp_caps, l)) +\ print_format.format('UC ODP caps', str_from_flags(self.uc_odp_caps, l)) +\ print_format.format('XRC ODP caps', str_from_flags(self.xrc_odp_caps, l)) cdef class PCIAtomicCaps(PyverbsObject): @property def fetch_add(self): return self.caps.fetch_add @property def swap(self): return self.caps.swap @property def compare_swap(self): return self.caps.compare_swap cdef class TSOCaps(PyverbsObject): @property def max_tso(self): return self.tso_caps.max_tso @property def supported_qpts(self): return self.tso_caps.supported_qpts cdef class RSSCaps(PyverbsObject): @property def supported_qpts(self): return self.rss_caps.supported_qpts @property def max_rwq_indirection_tables(self): return self.rss_caps.max_rwq_indirection_tables @property def rx_hash_fields_mask(self): return self.rss_caps.rx_hash_fields_mask @property def rx_hash_function(self): return self.rss_caps.rx_hash_function @property def max_rwq_indirection_table_size(self): return self.rss_caps.max_rwq_indirection_table_size cdef class PacketPacingCaps(PyverbsObject): @property def qp_rate_limit_min(self): return self.packet_pacing_caps.qp_rate_limit_min @property def qp_rate_limit_max(self): return self.packet_pacing_caps.qp_rate_limit_max @property def supported_qpts(self): return self.packet_pacing_caps.supported_qpts cdef class TMCaps(PyverbsObject): @property def max_rndv_hdr_size(self): return self.tm_caps.max_rndv_hdr_size @property def max_num_tags(self): return self.tm_caps.max_num_tags @property def flags(self): return self.tm_caps.flags @property def max_ops(self): return self.tm_caps.max_ops @property def max_sge(self): return self.tm_caps.max_sge cdef class CQModerationCaps(PyverbsObject): @property def max_cq_count(self): return self.cq_mod_caps.max_cq_count @property def max_cq_period(self): return self.cq_mod_caps.max_cq_period cdef class DeviceAttrEx(PyverbsObject): @property def orig_attr(self): attr = DeviceAttr() attr.dev_attr = self.dev_attr.orig_attr return attr @property def comp_mask(self): return self.dev_attr.comp_mask @comp_mask.setter def comp_mask(self, val): self.dev_attr.comp_mask = val @property def odp_caps(self): caps = ODPCaps() caps.odp_caps = self.dev_attr.odp_caps caps.xrc_odp_caps = self.dev_attr.xrc_odp_caps return caps @property def completion_timestamp_mask(self): return self.dev_attr.completion_timestamp_mask @property def hca_core_clock(self): return self.dev_attr.hca_core_clock @property def device_cap_flags_ex(self): return self.dev_attr.device_cap_flags_ex @property def tso_caps(self): caps = TSOCaps() caps.tso_caps = self.dev_attr.tso_caps return caps @property def pci_atomic_caps(self): caps = PCIAtomicCaps() caps.caps = self.dev_attr.pci_atomic_caps return caps @property def rss_caps(self): caps = RSSCaps() caps.rss_caps = self.dev_attr.rss_caps return caps @property def max_wq_type_rq(self): return self.dev_attr.max_wq_type_rq @property def packet_pacing_caps(self): caps = PacketPacingCaps() caps.packet_pacing_caps = self.dev_attr.packet_pacing_caps return caps @property def raw_packet_caps(self): return self.dev_attr.raw_packet_caps @property def tm_caps(self): caps = TMCaps() caps.tm_caps = self.dev_attr.tm_caps return caps @property def cq_mod_caps(self): caps = CQModerationCaps() caps.cq_mod_caps = self.dev_attr.cq_mod_caps return caps @property def max_dm_size(self): return self.dev_attr.max_dm_size cdef class AllocDmAttr(PyverbsObject): def __cinit__(self, length, log_align_req = 0, comp_mask = 0): """ Creates an AllocDmAttr object with the given parameters. This object can than be used to create a DM object. :param length: Length of the future device memory :param log_align_req: log2 of address alignment requirement :param comp_mask: compatibility mask :return: An AllocDmAttr object """ self.alloc_dm_attr.length = length self.alloc_dm_attr.log_align_req = log_align_req self.alloc_dm_attr.comp_mask = comp_mask @property def length(self): return self.alloc_dm_attr.length @length.setter def length(self, val): self.alloc_dm_attr.length = val @property def log_align_req(self): return self.alloc_dm_attr.log_align_req @log_align_req.setter def log_align_req(self, val): self.alloc_dm_attr.log_align_req = val @property def comp_mask(self): return self.alloc_dm_attr.comp_mask @comp_mask.setter def comp_mask(self, val): self.alloc_dm_attr.comp_mask = val cdef class DM(PyverbsCM): def __cinit__(self, Context context, AllocDmAttr dm_attr not None): """ Allocate a device (direct) memory. :param context: The context of the device on which to allocate memory :param dm_attr: Attributes that define the DM :return: A DM object on success """ self.dm_mrs = weakref.WeakSet() device_attr = context.query_device_ex() if device_attr.max_dm_size <= 0: raise PyverbsUserError('Device doesn\'t support dm allocation') self.dm = v.ibv_alloc_dm(context.context, &dm_attr.alloc_dm_attr) if self.dm == NULL: raise PyverbsRDMAErrno('Failed to allocate device memory of size ' '{size}. Max available size {max}.' .format(size=dm_attr.length, max=device_attr.max_dm_size)) self.context = context context.add_ref(self) def __dealloc__(self): self.close() cpdef close(self): self.logger.debug('Closing DM') self.close_weakrefs([self.dm_mrs]) if self.dm != NULL: rc = v.ibv_free_dm(self.dm) if rc != 0: raise PyverbsRDMAErrno('Failed to free dm') self.dm = NULL self.context = None cdef add_ref(self, obj): if isinstance(obj, DMMR): self.dm_mrs.add(obj) def copy_to_dm(self, dm_offset, data, length): rc = v.ibv_memcpy_to_dm(self.dm, dm_offset, data, length) if rc != 0: raise PyverbsRDMAErrno('Failed to copy to dm') def copy_from_dm(self, dm_offset, length): cdef char *data =malloc(length) memset(data, 0, length) rc = v.ibv_memcpy_from_dm(data, self.dm, dm_offset, length) if rc != 0: raise PyverbsRDMAErrno('Failed to copy from dm') res = data[:length] free(data) return res cdef class PortAttr(PyverbsObject): @property def state(self): return self.attr.state @property def max_mtu(self): return self.attr.max_mtu @property def active_mtu(self): return self.attr.active_mtu @property def gid_tbl_len(self): return self.attr.gid_tbl_len @property def port_cap_flags(self): return self.attr.port_cap_flags @property def max_msg_sz(self): return self.attr.max_msg_sz @property def bad_pkey_cntr(self): return self.attr.bad_pkey_cntr @property def qkey_viol_cntr(self): return self.attr.qkey_viol_cntr @property def pkey_tbl_len(self): return self.attr.pkey_tbl_len @property def lid(self): return self.attr.lid @property def sm_lid(self): return self.attr.sm_lid @property def lmc(self): return self.attr.lmc @property def max_vl_num(self): return self.attr.max_vl_num @property def sm_sl(self): return self.attr.sm_sl @property def subnet_timeout(self): return self.attr.subnet_timeout @property def init_type_reply(self): return self.attr.init_type_reply @property def active_width(self): return self.attr.active_width @property def active_speed(self): return self.attr.active_speed @property def phys_state(self): return self.attr.phys_state @property def link_layer(self): return self.attr.link_layer @property def flags(self): return self.attr.flags @property def port_cap_flags2(self): return self.attr.port_cap_flags2 def __str__(self): print_format = '{:<24}: {:<20}\n' return print_format.format('Port state', port_state_to_str(self.attr.state)) +\ print_format.format('Max MTU', translate_mtu(self.attr.max_mtu)) +\ print_format.format('Active MTU', translate_mtu(self.attr.active_mtu)) +\ print_format.format('SM lid', self.attr.sm_lid) +\ print_format.format('Port lid', self.attr.lid) +\ print_format.format('lmc', hex(self.attr.lmc)) +\ print_format.format('Link layer', translate_link_layer(self.attr.link_layer)) +\ print_format.format('Max message size', hex(self.attr.max_msg_sz)) +\ print_format.format('Port cap flags', translate_port_cap_flags(self.attr.port_cap_flags)) +\ print_format.format('Port cap flags 2', translate_port_cap_flags2(self.attr.port_cap_flags2)) +\ print_format.format('max VL num', self.attr.max_vl_num) +\ print_format.format('Bad Pkey counter', self.attr.bad_pkey_cntr) +\ print_format.format('Qkey violations counter', self.attr.qkey_viol_cntr) +\ print_format.format('GID table len', self.attr.gid_tbl_len) +\ print_format.format('Pkey table len', self.attr.pkey_tbl_len) +\ print_format.format('SM sl', self.attr.sm_sl) +\ print_format.format('Subnet timeout', self.attr.subnet_timeout) +\ print_format.format('Init type reply', self.attr.init_type_reply) +\ print_format.format('Active width', width_to_str(self.attr.active_width)) +\ print_format.format('Active speed', speed_to_str(self.attr.active_speed)) +\ print_format.format('Phys state', phys_state_to_str(self.attr.phys_state)) +\ print_format.format('Flags', self.attr.flags) def guid_format(num): """ Get GUID representation of the given number, including change of endianness. :param num: Number to change to GUID format. :return: GUID-formatted string. """ num = be64toh(num) hex_str = "%016x" % (num) hex_array = [hex_str[i:i+2] for i in range(0, len(hex_str), 2)] hex_array = [''.join(x) for x in zip(hex_array[0::2], hex_array[1::2])] return ':'.join(hex_array) def translate_transport_type(transport_type): l = {0: 'IB', 1: 'IWARP', 2: 'USNIC', 3: 'USNIC UDP'} try: return l[transport_type] except KeyError: return 'Unknown' def translate_node_type(node_type): l = {1: 'CA', 2: 'Switch', 3: 'Router', 4: 'RNIC', 5: 'USNIC', 6: 'USNIC UDP'} try: return l[node_type] except KeyError: return 'Unknown' def guid_to_hex(node_guid): return hex(node_guid).replace('L', '').replace('0x', '') def port_state_to_str(port_state): l = {0: 'NOP', 1: 'Down', 2: 'Init', 3: 'Armed', 4: 'Active', 5: 'Defer'} try: return '{s} ({n})'.format(s=l[port_state].name, n=port_state) except KeyError: return 'Invalid state ({s})'.format(s=port_state) def translate_mtu(mtu): l = {1: 256, 2: 512, 3: 1024, 4: 2048, 5: 4096} try: return '{s} ({n})'.format(s=l[mtu], n=mtu) except KeyError: return 'Invalid MTU ({m})'.format(m=mtu) def translate_link_layer(ll): l = {0: 'Unspecified', 1:'InfiniBand', 2:'Ethernet'} try: return l[ll] except KeyError: return 'Invalid link layer ({ll})'.format(ll=ll) def translate_port_cap_flags(flags): l = {e.IBV_PORT_SM: 'IBV_PORT_SM', e.IBV_PORT_NOTICE_SUP: 'IBV_PORT_NOTICE_SUP', e.IBV_PORT_TRAP_SUP: 'IBV_PORT_TRAP_SUP', e.IBV_PORT_OPT_IPD_SUP: 'IBV_PORT_OPT_IPD_SUP', e.IBV_PORT_AUTO_MIGR_SUP: 'IBV_PORT_AUTO_MIGR_SUP', e.IBV_PORT_SL_MAP_SUP: 'IBV_PORT_SL_MAP_SUP', e.IBV_PORT_MKEY_NVRAM: 'IBV_PORT_MKEY_NVRAM', e.IBV_PORT_PKEY_NVRAM: 'IBV_PORT_PKEY_NVRAM', e.IBV_PORT_LED_INFO_SUP: 'IBV_PORT_LED_INFO_SUP', e.IBV_PORT_SYS_IMAGE_GUID_SUP: 'IBV_PORT_SYS_IMAGE_GUID_SUP', e.IBV_PORT_PKEY_SW_EXT_PORT_TRAP_SUP: 'IBV_PORT_PKEY_SW_EXT_PORT_TRAP_SUP', e.IBV_PORT_EXTENDED_SPEEDS_SUP: 'IBV_PORT_EXTENDED_SPEEDS_SUP', e.IBV_PORT_CAP_MASK2_SUP: 'IBV_PORT_CAP_MASK2_SUP', e.IBV_PORT_CM_SUP: 'IBV_PORT_CM_SUP', e.IBV_PORT_SNMP_TUNNEL_SUP: 'IBV_PORT_SNMP_TUNNEL_SUP', e.IBV_PORT_REINIT_SUP: 'IBV_PORT_REINIT_SUP', e.IBV_PORT_DEVICE_MGMT_SUP: 'IBV_PORT_DEVICE_MGMT_SUP', e.IBV_PORT_VENDOR_CLASS_SUP: 'IBV_PORT_VENDOR_CLASS_SUP', e.IBV_PORT_DR_NOTICE_SUP: 'IBV_PORT_DR_NOTICE_SUP', e.IBV_PORT_CAP_MASK_NOTICE_SUP: 'IBV_PORT_CAP_MASK_NOTICE_SUP', e.IBV_PORT_BOOT_MGMT_SUP: 'IBV_PORT_BOOT_MGMT_SUP', e.IBV_PORT_LINK_LATENCY_SUP: 'IBV_PORT_LINK_LATENCY_SUP', e.IBV_PORT_CLIENT_REG_SUP: 'IBV_PORT_CLIENT_REG_SUP', e.IBV_PORT_IP_BASED_GIDS: 'IBV_PORT_IP_BASED_GIDS'} return str_from_flags(flags, l) def translate_port_cap_flags2(flags): l = {e.IBV_PORT_SET_NODE_DESC_SUP: 'IBV_PORT_SET_NODE_DESC_SUP', e.IBV_PORT_INFO_EXT_SUP: 'IBV_PORT_INFO_EXT_SUP', e.IBV_PORT_VIRT_SUP: 'IBV_PORT_VIRT_SUP', e.IBV_PORT_SWITCH_PORT_STATE_TABLE_SUP: 'IBV_PORT_SWITCH_PORT_STATE_TABLE_SUP', e.IBV_PORT_LINK_WIDTH_2X_SUP: 'IBV_PORT_LINK_WIDTH_2X_SUP', e.IBV_PORT_LINK_SPEED_HDR_SUP: 'IBV_PORT_LINK_SPEED_HDR_SUP'} return str_from_flags(flags, l) def translate_device_caps(flags): l = {e.IBV_DEVICE_RESIZE_MAX_WR: 'IBV_DEVICE_RESIZE_MAX_WR', e.IBV_DEVICE_BAD_PKEY_CNTR: 'IBV_DEVICE_BAD_PKEY_CNTR', e.IBV_DEVICE_BAD_QKEY_CNTR: 'IBV_DEVICE_BAD_QKEY_CNTR', e.IBV_DEVICE_RAW_MULTI: 'IBV_DEVICE_RAW_MULTI', e.IBV_DEVICE_AUTO_PATH_MIG: 'IBV_DEVICE_AUTO_PATH_MIG', e.IBV_DEVICE_CHANGE_PHY_PORT: 'IBV_DEVICE_CHANGE_PHY_PORT', e.IBV_DEVICE_UD_AV_PORT_ENFORCE: 'IBV_DEVICE_UD_AV_PORT_ENFORCE', e.IBV_DEVICE_CURR_QP_STATE_MOD: 'IBV_DEVICE_CURR_QP_STATE_MOD', e.IBV_DEVICE_SHUTDOWN_PORT: 'IBV_DEVICE_SHUTDOWN_PORT', e.IBV_DEVICE_INIT_TYPE: 'IBV_DEVICE_INIT_TYPE', e.IBV_DEVICE_PORT_ACTIVE_EVENT: 'IBV_DEVICE_PORT_ACTIVE_EVENT', e.IBV_DEVICE_SYS_IMAGE_GUID: 'IBV_DEVICE_SYS_IMAGE_GUID', e.IBV_DEVICE_RC_RNR_NAK_GEN: 'IBV_DEVICE_RC_RNR_NAK_GEN', e.IBV_DEVICE_SRQ_RESIZE: 'IBV_DEVICE_SRQ_RESIZE', e.IBV_DEVICE_N_NOTIFY_CQ: 'IBV_DEVICE_N_NOTIFY_CQ', e.IBV_DEVICE_MEM_WINDOW: 'IBV_DEVICE_MEM_WINDOW', e.IBV_DEVICE_UD_IP_CSUM: 'IBV_DEVICE_UD_IP_CSUM', e.IBV_DEVICE_XRC: 'IBV_DEVICE_XRC', e.IBV_DEVICE_MEM_MGT_EXTENSIONS: 'IBV_DEVICE_MEM_MGT_EXTENSIONS', e.IBV_DEVICE_MEM_WINDOW_TYPE_2A: 'IBV_DEVICE_MEM_WINDOW_TYPE_2A', e.IBV_DEVICE_MEM_WINDOW_TYPE_2B: 'IBV_DEVICE_MEM_WINDOW_TYPE_2B', e.IBV_DEVICE_RC_IP_CSUM: 'IBV_DEVICE_RC_IP_CSUM', e.IBV_DEVICE_RAW_IP_CSUM: 'IBV_DEVICE_RAW_IP_CSUM', e.IBV_DEVICE_MANAGED_FLOW_STEERING: 'IBV_DEVICE_MANAGED_FLOW_STEERING'} return str_from_flags(flags, l) def str_from_flags(flags, dictionary): str_flags = "\n " for bit in dictionary: if flags & bit: str_flags += dictionary[bit] str_flags += '\n ' return str_flags def phys_state_to_str(phys): l = {1: 'Sleep', 2: 'Polling', 3: 'Disabled', 4: 'Port configuration training', 5: 'Link up', 6: 'Link error recovery', 7: 'Phy test'} try: return '{s} ({n})'.format(s=l[phys], n=phys) except KeyError: return 'Invalid physical state' def width_to_str(width): l = {1: '1X', 2: '4X', 4: '8X', 16: '2X'} try: return '{s} ({n})'.format(s=l[width], n=width) except KeyError: return 'Invalid width' def speed_to_str(speed): l = {1: '2.5 Gbps', 2: '5.0 Gbps', 4: '5.0 Gbps', 8: '10.0 Gbps', 16: '14.0 Gbps', 32: '25.0 Gbps', 64: '50.0 Gbps'} try: return '{s} ({n})'.format(s=l[speed], n=speed) except KeyError: return 'Invalid speed' def get_device_list(): """ :return: list of IB_devices on current node each list element contains a Device with: device name device node type device transport type device guid """ cdef int count = 0; cdef v.ibv_device **dev_list; dev_list = v.ibv_get_device_list(&count) if dev_list == NULL: raise PyverbsRDMAError('Failed to get devices list') devices = [] try: for i in range(count): name = dev_list[i].name node = dev_list[i].node_type transport = dev_list[i].transport_type guid = be64toh(v.ibv_get_device_guid(dev_list[i])) devices.append(Device(name, guid, node, transport)) finally: v.ibv_free_device_list(dev_list) return devices