Exemple #1
0
def install_simple_flows():
    count = 0
    for h in ports:  # for each high-capacity source host
        for sw in ports[h]:  # for each switch in the tree
            # group entry
            newgid = get_next_gid(sw)
            g = GroupEntry(dpids[sw]["id"], newgid, "ALL")
            i = 0
            for p in ports[h][sw]:  # for each switch port in the tree
                g.addBucket()
                g.addAction(i, "OUTPUT", port=p)
                i += 1
            g.install()
            count += 1
            # flow entry (also match on in_port for reverse path check)
            f = FlowEntry(dpids[sw]["id"])
            f.addMatch("in_port", reverse_path_port(hosts[h], sw))
            f.addMatch("dl_type", 0x800)
            f.addMatch("nw_src", hosts[h]['ip'])
            f.addMatch("nw_dst", MCAST_ADDR)
            f.addAction("GROUP", group_id=newgid)
            f.install()
            count += 1
    increment_mcast_addr()
    return count
Exemple #2
0
def install_lq_flows():
    for t in ports_lq:  # for each transcoder as source
        for sw in ports_lq[t]:  # for each switch in the tree
            # group entry
            newgid = get_next_gid(sw)
            g = GroupEntry(dpids[sw]["id"], newgid, "ALL")
            i = 0
            for p in ports_lq[t][sw]:  # for each switch port in the tree
                g.addBucket()
                g.addAction(i, "OUTPUT", port=p)
                i += 1
            g.install()
            # flow entry (also match on in_port for reverse path check)
            # do not install on transcoder switch, tos is not set by T
            if not sw == tees[t]['switch']:
                f = FlowEntry(dpids[sw]["id"])
                f.addMatch("in_port", reverse_path_port(tees[t], sw))
                f.addMatch("dl_type", 0x800)
                f.addMatch("ip_dscp", DSCP_VALUE)
                f.addMatch("nw_src", tees[t]['ip'])
                f.addMatch("nw_dst", MCAST_ADDR)
                f.addAction("GROUP", group_id=newgid)
                f.install()
        # set ip dscp when coming from T
        # the last group added to T's switch refers to the low-capacity tree
        tsw = tees[t]['switch']
        lastgid = gid[tsw] - 1
        # flow entry (match on in_port, not nw_src, because original IP address
        # should be kept)
        f = FlowEntry(dpids[tsw]["id"])
        f.addMatch("in_port", tees[t]['port'])
        f.addMatch("dl_type", 0x800)
        f.addMatch("nw_dst", MCAST_ADDR)
        f.addAction("SET_FIELD", field="ip_dscp", value=DSCP_VALUE)
        f.addAction("GROUP", group_id=lastgid)
        f.install()
Exemple #3
0
def install_branch_aware_flows(sh, dhs):
    global switch_usage
    count = 0
    branch_node = {}
    degree = {}
    installed = {}
    branch_node_sw = {}

    src = hosts[sh]['switch']

    for dh in dhs:
        branch_node[dh] = None

    for sw in switches.keys():
        branch_node_sw[sw] = 0

    for dh in dhs:
        dst = hosts[dh]['switch']
        cur = dst
        pre = cur
        first = 1
        while cur is not None:
            if (len(switch_usage[cur]) > 1):
                if (first is not 1):
                    port = switches[cur][pre]["port"]
                    branch_node[dh] = cur, port
                    break
                elif (first is 1):
                    break
            elif (len(switch_usage[cur]) == 1):
                pre = cur
                cur = sp[src][cur]
            first = 0

    for dh in dhs:
        if branch_node[dh] is not None:
            branch_node_sw[branch_node[dh][0]] = 1

    for h in ports:
        for sw in ports[h]:
            degree[sw] = len(ports[h][sw]) + 1
            installed[sw] = 0

    for h in ports:  # for each high-capacity source host
        for sw in ports[h]:  # for each switch in the tree
            if (len(switch_usage[sw]) > 1):
                # group entry
                newgid = get_next_gid(sw)
                g = GroupEntry(dpids[sw]["id"], newgid, "ALL")
                i = 0
                for p in ports[h][sw]:  # for each switch port in the tree
                    g.addBucket()
                    g.addAction(i, "OUTPUT", port=p)
                    i += 1
                g.install()
                count += 1
                dpids[sw]["capacity"] = dpids[sw]["capacity"] - 1
                # flow entry (also match on in_port for reverse path check)
                f = FlowEntry(dpids[sw]["id"])
                f.addMatch("in_port", reverse_path_port(hosts[h], sw))
                f.addMatch("dl_type", 0x800)
                f.addMatch("nw_src", hosts[h]['ip'])
                f.addMatch("nw_dst", MCAST_ADDR)
                f.addAction("GROUP", group_id=newgid)
                f.install()
                count += 1
                dpids[sw]["capacity"] = dpids[sw]["capacity"] - 1

    for h in ports:
        for dh in dhs:
            if branch_node[dh] is not None:
                sw, p = branch_node[dh]
                if sw is not None:
                    f = FlowEntry(dpids[sw]["id"])
                    f.addMatch("in_port", reverse_path_port(hosts[h], sw))
                    f.addMatch("dl_type", 0x800)
                    f.addMatch("nw_dst", MCAST_ADDR)
                    f.addAction("SET_FIELD",
                                field="ipv4_dst",
                                value=hosts[dh]['ip'])
                    f.addAction("OUTPUT", port=p)
                    f.install()
                    count += 1
                    dpids[sw]["capacity"] = dpids[sw]["capacity"] - 1

    for h in ports:
        i = 0
        for sw in ports[h]:
            if (len(switch_usage[sw]) == 1):
                f = FlowEntry(dpids[sw]["id"])
                f.addMatch("in_port", reverse_path_port(hosts[h], sw))
                f.addMatch("dl_type", 0x800)
                f.addMatch("nw_src", hosts[h]['ip'])
                f.addMatch("nw_dst", hosts[switch_usage[sw][0]]['ip'])
                for p in ports[h][sw]:
                    f.addAction("OUTPUT", port=p)
                f.install()
                i += 1
    increment_mcast_addr()
    return count