On Fri, Oct 21, 2022 at 9:36 AM Kevin Sprague <ksprague0...@gmail.com>
wrote:
>
> During normal operations, it is useful to understand when a particular
flow
> gets removed from the system. This can be useful when debugging
performance
> issues tied to ofproto flow changes, trying to determine deployed traffic
> patterns, or while debugging dynamic systems where ports come and go.
>
> Prior to this change, there was a lack of visibility around flow
expiration.
> The existing debugging infrastructure could tell us when a flow was added
to
> the datapath, but not when it was removed or why.
>
> This change introduces a USDT probe at the point where the revalidator
> determines that the flow should be removed. Additionally, we track the
> reason for the flow eviction and provide that information as well. With
> this change, we can track the complete flow lifecycle for the netlink
datapath
> by hooking the upcall tracepoint in kernel, the flow put USDT, and the
> revaldiator USDT, letting us watch as flows are added and removed from the
> kernel datapath.
>
> This change only enables this information via USDT probe, so it won't be
> possible to access this information any other way (see:
> Documentation/topics/usdt-probes.rst).
>
> Also included is a script (utilities/usdt-scripts/flow_reval_monitor.py)
that
> serves as a demonstration of how the new USDT probe might be used going
> forward.
>
> Change since v5: fixed author information.
>
> Signed-off-by: Kevin Sprague <ksprague0...@gmail.com>
> ---
> Documentation/topics/usdt-probes.rst | 23 +
> ofproto/ofproto-dpif-upcall.c | 45 +-
> utilities/automake.mk | 2 +
> utilities/usdt-scripts/flow_reval_monitor.py | 607 +++++++++++++++++++
> 4 files changed, 671 insertions(+), 6 deletions(-)
> create mode 100755 utilities/usdt-scripts/flow_reval_monitor.py
>
> diff --git a/Documentation/topics/usdt-probes.rst
b/Documentation/topics/usdt-probes.rst
> index 7ce19aaed..45cbc0d89 100644
> --- a/Documentation/topics/usdt-probes.rst
> +++ b/Documentation/topics/usdt-probes.rst
> @@ -214,6 +214,7 @@ Available probes in ``ovs_vswitchd``:
> - dpif_recv:recv_upcall
> - main:poll_block
> - main:run_start
> +- revalidate:flow_result
>
>
> dpif_netlink_operate\_\_:op_flow_del
> @@ -294,6 +295,7 @@ DPIF_OP_FLOW_PUT operation as part of the dpif
``operate()`` callback.
>
> **Script references**:
>
> +- ``utilities/usdt-scripts/flow_reval_monitor.py``
> - ``utilities/usdt-scripts/upcall_cost.py``
>
>
> @@ -358,6 +360,27 @@ See also the ``main:run_start`` probe above.
> - ``utilities/usdt-scripts/bridge_loop.bt``
>
>
> +probe revalidate:flow_result
> +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> +
> +**Description**:
> +This probe is triggered when the revalidator decides whether or not to
> +revalidate a flow. ``reason`` is an enum that denotes that either the
flow
> +is being kept, or the reason why the flow is being deleted. The
> +``flow_reval_monitor.py`` script uses this probe to notify users when
flows
> +matching user-provided criteria are deleted.
> +
> +**Arguments**:
> +
> +- *arg0*: ``(enum flow_del_reason) reason``
> +- *arg1*: ``(struct udpif *) udpif``
> +- *arg2*: ``(struct udpif_key *) ukey``
> +
> +**Script references**:
> +
> +- ``utilities/usdt-scripts/flow_reval_monitor.py``
> +
> +
> Adding your own probes
> ----------------------
>
> diff --git a/ofproto/ofproto-dpif-upcall.c b/ofproto/ofproto-dpif-upcall.c
> index ad9635496..dc0ecc1da 100644
> --- a/ofproto/ofproto-dpif-upcall.c
> +++ b/ofproto/ofproto-dpif-upcall.c
> @@ -31,6 +31,7 @@
> #include "openvswitch/list.h"
> #include "netlink.h"
> #include "openvswitch/ofpbuf.h"
> +#include "openvswitch/usdt-probes.h"
> #include "ofproto-dpif-ipfix.h"
> #include "ofproto-dpif-sflow.h"
> #include "ofproto-dpif-xlate.h"
> @@ -260,6 +261,18 @@ enum ukey_state {
> };
> #define N_UKEY_STATES (UKEY_DELETED + 1)
>
Hi Kevin, Eelco,
I have some minor comments regarding the namings, since I am revisiting and
trying to align:
https://patchwork.ozlabs.org/project/openvswitch/patch/20220809014100.3716850-2-hz...@ovn.org/
>
> +enum flow_del_reason {
> + FDR_FLOW_LIVE = 0, /* The flow was revalidated. */
How about FDR_REVALIDATE? LIVE looks a little confusing as a reason to
delete. FLOW is also redundant because FDR means Flow Delete Reason already.
> + FDR_FLOW_TIME_OUT, /* The flow went unused and was deleted. */
It is really about *idle* timeout, so would it be more clear to be:
FDR_IDLE?
> + FDR_TOO_EXPENSIVE, /* The flow was too expensive to revalidate.
*/
> + FDR_FLOW_WILDCARDED, /* The flow needed a narrower wildcard mask.
*/
> + FDR_BAD_ODP_FIT, /* The flow had a bad ODP flow fit. */
> + FDR_ASSOCIATED_OFPROTO, /* The flow didn't have an associated
ofproto. */
Would FDR_NO_OFPROTO be more clear (and concise)?
> + FDR_XLATION_ERROR, /* There was an error translating the flow.
*/
> + FDR_AVOID_CACHING, /* Flow deleted to avoid caching. */
> + FDR_KILL_THEM_ALL, /* All flows being killed. */
I understand that KILL_THEM_ALL matches the var in the code but it doesn't
really tell the reason. Since it is related to the flow limit, would
FDR_LIMIT be better?
Sorry for nit-picking, but since the coverage counters (added in my patch)
are better to be more accurate in meaning (and also better to be concise).
Since this patch has more counters, I'd like to rebase my patch on top of
it.
At the same time, I do notice a counter in my patch doesn't have a
counterpart in this patch. In revalidator_sweep__(), I have:
if (purge) {
result = UKEY_DELETE;
+ COVERAGE_INC(upcall_flow_del_purge);
Would it be good to add one (e.g. FDR_PURGE) here, too?
Thanks,
Han
> +};
> +
> /* 'udpif_key's are responsible for tracking the little bit of state
udpif
> * needs to do flow expiration which can't be pulled directly from the
> * datapath. They may be created by any handler or revalidator thread
at any
> @@ -2222,7 +2235,8 @@ populate_xcache(struct udpif *udpif, struct
udpif_key *ukey,
> static enum reval_result
> revalidate_ukey__(struct udpif *udpif, const struct udpif_key *ukey,
> uint16_t tcp_flags, struct ofpbuf *odp_actions,
> - struct recirc_refs *recircs, struct xlate_cache
*xcache)
> + struct recirc_refs *recircs, struct xlate_cache
*xcache,
> + enum flow_del_reason *reason)
> {
> struct xlate_out *xoutp;
> struct netflow *netflow;
> @@ -2240,11 +2254,13 @@ revalidate_ukey__(struct udpif *udpif, const
struct udpif_key *ukey,
> netflow = NULL;
>
> if (xlate_ukey(udpif, ukey, tcp_flags, &ctx)) {
> + *reason = FDR_XLATION_ERROR;
> goto exit;
> }
> xoutp = &ctx.xout;
>
> if (xoutp->avoid_caching) {
> + *reason = FDR_AVOID_CACHING;
> goto exit;
> }
>
> @@ -2258,6 +2274,7 @@ revalidate_ukey__(struct udpif *udpif, const struct
udpif_key *ukey,
> ofpbuf_clear(odp_actions);
>
> if (!ofproto) {
> + *reason = FDR_ASSOCIATED_OFPROTO;
> goto exit;
> }
>
> @@ -2269,6 +2286,7 @@ revalidate_ukey__(struct udpif *udpif, const struct
udpif_key *ukey,
> if (odp_flow_key_to_mask(ukey->mask, ukey->mask_len, &dp_mask,
&ctx.flow,
> NULL)
> == ODP_FIT_ERROR) {
> + *reason = FDR_BAD_ODP_FIT;
> goto exit;
> }
>
> @@ -2278,6 +2296,7 @@ revalidate_ukey__(struct udpif *udpif, const struct
udpif_key *ukey,
> * down. Note that we do not know if the datapath has ignored any
of the
> * wildcarded bits, so we may be overly conservative here. */
> if (flow_wildcards_has_extra(&dp_mask, ctx.wc)) {
> + *reason = FDR_FLOW_WILDCARDED;
> goto exit;
> }
>
> @@ -2323,7 +2342,8 @@ static enum reval_result
> revalidate_ukey(struct udpif *udpif, struct udpif_key *ukey,
> const struct dpif_flow_stats *stats,
> struct ofpbuf *odp_actions, uint64_t reval_seq,
> - struct recirc_refs *recircs, bool offloaded)
> + struct recirc_refs *recircs, bool offloaded,
> + enum flow_del_reason *reason)
> OVS_REQUIRES(ukey->mutex)
> {
> bool need_revalidate = ukey->reval_seq != reval_seq;
> @@ -2349,8 +2369,12 @@ revalidate_ukey(struct udpif *udpif, struct
udpif_key *ukey,
> xlate_cache_clear(ukey->xcache);
> }
> result = revalidate_ukey__(udpif, ukey, push.tcp_flags,
> - odp_actions, recircs,
ukey->xcache);
> - } /* else delete; too expensive to revalidate */
> + odp_actions, recircs,
ukey->xcache,
> + reason);
> + } else {
> + /* Delete the flow as it's too expensive to revalidate. */
> + *reason = FDR_TOO_EXPENSIVE;
> + }
> } else if (!push.n_packets || ukey->xcache
> || !populate_xcache(udpif, ukey, push.tcp_flags)) {
> result = UKEY_KEEP;
> @@ -2740,6 +2764,7 @@ revalidate(struct revalidator *revalidator)
> struct recirc_refs recircs = RECIRC_REFS_EMPTY_INITIALIZER;
> struct dpif_flow_stats stats = f->stats;
> enum reval_result result;
> + enum flow_del_reason reason = FDR_FLOW_LIVE;
> struct udpif_key *ukey;
> bool already_dumped;
> int error;
> @@ -2787,10 +2812,15 @@ revalidate(struct revalidator *revalidator)
> }
> if (kill_them_all || (used && used < now - max_idle)) {
> result = UKEY_DELETE;
> + if (kill_them_all) {
> + reason = FDR_KILL_THEM_ALL;
> + } else {
> + reason = FDR_FLOW_TIME_OUT;
> + }
> } else {
> result = revalidate_ukey(udpif, ukey, &stats,
&odp_actions,
> reval_seq, &recircs,
> - f->attrs.offloaded);
> + f->attrs.offloaded, &reason);
> }
> ukey->dump_seq = dump_seq;
>
> @@ -2799,6 +2829,7 @@ revalidate(struct revalidator *revalidator)
> udpif_update_flow_pps(udpif, ukey, f);
> }
>
> + OVS_USDT_PROBE(revalidate, flow_result, reason, udpif, ukey);
> if (result != UKEY_KEEP) {
> /* Takes ownership of 'recircs'. */
> reval_op_init(&ops[n_ops++], result, udpif, ukey,
&recircs,
> @@ -2849,6 +2880,7 @@ revalidator_sweep__(struct revalidator
*revalidator, bool purge)
> struct udpif_key *ukey;
> struct umap *umap = &udpif->ukeys[i];
> size_t n_ops = 0;
> + enum flow_del_reason reason = FDR_FLOW_LIVE;
>
> CMAP_FOR_EACH(ukey, cmap_node, &umap->cmap) {
> enum ukey_state ukey_state;
> @@ -2875,7 +2907,8 @@ revalidator_sweep__(struct revalidator
*revalidator, bool purge)
> COVERAGE_INC(revalidate_missed_dp_flow);
> memset(&stats, 0, sizeof stats);
> result = revalidate_ukey(udpif, ukey, &stats,
&odp_actions,
> - reval_seq, &recircs, false);
> + reval_seq, &recircs, false,
> + &reason);
> }
> if (result != UKEY_KEEP) {
> /* Clears 'recircs' if filled by revalidate_ukey().
*/
> diff --git a/utilities/automake.mk b/utilities/automake.mk
> index eb57653a1..fc437bb58 100644
> --- a/utilities/automake.mk
> +++ b/utilities/automake.mk
> @@ -63,6 +63,7 @@ EXTRA_DIST += \
> utilities/docker/debian/Dockerfile \
> utilities/docker/debian/build-kernel-modules.sh \
> utilities/usdt-scripts/bridge_loop.bt \
> + utilities/usdt-scripts/flow_reval_monitor.py \
> utilities/usdt-scripts/upcall_cost.py \
> utilities/usdt-scripts/upcall_monitor.py
> MAN_ROOTS += \
> @@ -133,6 +134,7 @@ FLAKE8_PYFILES += utilities/ovs-pcap.in \
> utilities/ovs-check-dead-ifs.in \
> utilities/ovs-tcpdump.in \
> utilities/ovs-pipegen.py \
> + utilities/usdt-scripts/flow_reval_monitor.py \
> utilities/usdt-scripts/upcall_monitor.py \
> utilities/usdt-scripts/upcall_cost.py
>
> diff --git a/utilities/usdt-scripts/flow_reval_monitor.py
b/utilities/usdt-scripts/flow_reval_monitor.py
> new file mode 100755
> index 000000000..73a53d14f
> --- /dev/null
> +++ b/utilities/usdt-scripts/flow_reval_monitor.py
> @@ -0,0 +1,607 @@
> +#!/usr/bin/env python3
> +#
> +# Copyright (c) 2022 Redhat, Inc.
> +#
> +# Licensed under the Apache License, Version 2.0 (the "License");
> +# you may not use this file except in compliance with the License.
> +# You may obtain a copy of the License at:
> +#
> +# http://www.apache.org/licenses/LICENSE-2.0
> +#
> +# Unless required by applicable law or agreed to in writing, software
> +# distributed under the License is distributed on an "AS IS" BASIS,
> +# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
implied.
> +# See the License for the specific language governing permissions and
> +# limitations under the License.
> +#
> +# Script information:
> +# -------------------
> +# flow_reval_monitor.py uses the dpif_netlink_operate:flow_put and
> +# revalidator:flow_result USDT probes to monitor flow lifetimes and
> +# expiration events. By default, this will show all flow_put and flow
> +# expiration events, along with their reasons. This will look like so:
> +#
> +# TIME UFID
EVENT/REASON
> +# 101536.226986736 ufid:f76fc899-376d-466b-bc74-0000b933eb97 flow_put
> +# 101536.227196214 ufid:d08472b6-110e-46cb-a9e4-00008f46838e flow_put
> +# 101541.516610178 ufid:fc5cc4a2-39e7-4a2d-bbce-000019665b32 flow_put
> +# 101541.516967303 ufid:fddd6510-26dc-4c87-8f7a-0000fc0c2c3a flow_put
> +# 101551.688050747 ufid:fddd6510-26dc-4c87-8f7a-0000fc0c2c3a flow
timed out
> +# 101551.688077175 ufid:fc5cc4a2-39e7-4a2d-bbce-000019665b32 flow
timed out
> +# 101557.695391371 ufid:f76fc899-376d-466b-bc74-0000b933eb97 flow
timed out
> +# 101557.695408909 ufid:d08472b6-110e-46cb-a9e4-00008f46838e flow
timed out
> +#
> +# flow key data can be printed using the --flow-keys option. This will
> +# print the equivalent datapath flow string.
> +#
> +# When filtering flows, the syntax is the same as used by
> +# `ovs-appctl dpctl/add-flow`.
> +#
> +# The following options are available:
> +#
> +# usage: flow_reval_monitor.py [-h] [--buffer-page-count NUMBER]
> +# [-k [FLOW_KEYS]] [-p VSWITCHD_PID]
> +# [-D [DEBUG]] [-f [FLOW STRING ...]]
> +#
> +# optional arguments:
> +# -h, --help show this help message and exit
> +# --buffer-page-count NUMBER
> +# Number of BPF ring buffer pages, default 1024
> +# -k, --flow-keys Print flow keys as flow strings
> +# -p VSWITCHD_PID, --pid VSWITCHD_PID
> +# ovs-vswitchd's PID
> +# -D [DEBUG], --debug [DEBUG]
> +# Enable eBPF debugging
> +# -f [FLOW_STRING ...], --filter-flows [FLOW_STRING ...]
> +# Filter flows that match the specified flow
> +#
> +# Examples:
> +#
> +# To use the script on a running ovs-vswitchd to see flow keys and
expiration
> +# events for flows with an ipv4 source of 192.168.10.10:
> +# $ ./flow_reval_monitor.py --flow-keys --filter-flows \
> +# "ipv4(src=192.168.10.10)"
> +# TIME UFID
EVENT/REASON
> +# 105082.457322742 ufid:f76fc899-376d-466b-bc74-0000b933eb97
flow_put
> +# ufid:f76fc899-376d-466b-bc74-0000b933eb97 has the following flow
information:
> +# in_port(2),
> +# eth(src=0e:04:47:fc:74:51, dst=da:dc:c5:69:05:d7), \
> +# eth_type(0x800), \
> +# ipv4(src=192.168.10.10, dst=192.168.10.30, proto=1, tos=0,
ttl=64,[...]),
> +# icmp(type=8, code=0)
> +# 105092.635450202 ufid:f76fc899-376d-466b-bc74-0000b933eb97 Flow
timed out
> +#
> +# Notes:
> +# 1) No options are needed to attach when there is a single running
instance
> +# of ovs-vswitchd.
> +# 2) If you're using the flow filtering option, it will only track
flows that
> +# have been upcalled since the script began running.
> +
> +try:
> + from bcc import BPF
> + from bcc import USDT
> + from bcc import USDTException
> +except ModuleNotFoundError:
> + print("ERROR: Can't find the BPF Compiler Collection Tools.")
> + print("Please install them before running this script.")
> + exit(1)
> +
> +import argparse
> +from ipaddress import IPv4Address, IPv6Address
> +import psutil
> +import struct
> +import sys
> +import time
> +
> +#
> +# eBPF source code
> +#
> +bpf_src = """
> +#include <linux/types.h>
> +#include <uapi/linux/ptrace.h>
> +
> +#define MAX_KEY 2048
> +#define FLOW_FILTER <FILTER_BOOL>
> +
> +enum probe { OP_FLOW_PUT, FLOW_RESULT };
> +
> +typedef union ovs_u128 {
> + u32 ufid32[4];
> + u64 ufid64[2];
> +} ovs_u128;
> +
> +struct dpif_flow_put {
> + int flags;
> + void *key_ptr;
> + size_t key_len;
> + void *mask_ptr;
> + size_t mask_len;
> + u64 action_ptr;
> + size_t action_len;
> + void *ufid_ptr;
> +};
> +
> +struct udpif_key {
> + void *cmap_node;
> + void *key_ptr;
> + size_t key_len;
> + void *mask_ptr;
> + size_t mask_len;
> + ovs_u128 ufid;
> +};
> +
> +struct event_t {
> + u64 ts;
> + u32 reason;
> + u32 ufid[4]; /* Can't seem to make the ovs_u128 pass to python side.
*/
> + u64 key_size;
> + unsigned char key[MAX_KEY];
> + enum probe probe;
> +};
> +
> +BPF_HASH(watchlist, ovs_u128);
> +BPF_RINGBUF_OUTPUT(events, <BUFFER_PAGE_COUNT>);
> +
> +int usdt__flow_result(struct pt_regs *ctx) {
> + u64 *ufid_present = NULL;
> + struct udpif_key ukey;
> +
> + bpf_usdt_readarg_p(3, ctx, &ukey, sizeof ukey);
> + ovs_u128 ufid = ukey.ufid;
> + ufid_present = watchlist.lookup(&ufid);
> + if(FLOW_FILTER && !ufid_present) {
> + return 0;
> + }
> +
> + struct event_t *event = events.ringbuf_reserve(sizeof(struct
event_t));
> + if(!event) {
> + /* If we can't reserve the space in the ring buffer, return 1. */
> + return 1;
> + }
> +
> + event->probe = FLOW_RESULT;
> + event->ts = bpf_ktime_get_ns();
> + bpf_probe_read(&event->ufid, sizeof ufid, &ufid);
> + bpf_usdt_readarg(1, ctx, &event->reason);
> + events.ringbuf_submit(event, 0);
> +
> + return 0;
> +};
> +
> +
> +int usdt__op_flow_put(struct pt_regs *ctx) {
> + struct dpif_flow_put put;
> + ovs_u128 ufid;
> +
> + struct event_t *event = events.ringbuf_reserve(sizeof(struct
event_t));
> + if(!event) {
> + /* If we can't reserve the space in the ring buffer, return 1. */
> + return 1;
> + }
> +
> + event->probe = OP_FLOW_PUT;
> + event->ts = bpf_ktime_get_ns();
> + bpf_usdt_readarg_p(2, ctx, &put, sizeof put);
> + bpf_probe_read(&event->ufid, sizeof event->ufid, put.ufid_ptr);
> + bpf_probe_read(&ufid, sizeof ufid, &event->ufid);
> + if (put.key_len > MAX_KEY) {
> + put.key_len = MAX_KEY;
> + }
> + event->key_size = put.key_len;
> + bpf_probe_read(&event->key, put.key_len, put.key_ptr);
> + event->reason = 0;
> + events.ringbuf_submit(event, 0);
> +
> + watchlist.increment(ufid);
> + return 0;
> +};
> +"""
> +
> +
> +#
> +# format_ufid()
> +#
> +def format_ufid(ufid):
> + return "ufid:{:08x}-{:04x}-{:04x}-{:04x}-{:04x}{:08x}".format(
> + ufid[0], ufid[1] >> 16, ufid[1] & 0xffff,
> + ufid[2] >> 16, ufid[2] & 0, ufid[3])
> +
> +
> +#
> +# find_and_delete_from_watchlist()
> +#
> +def find_and_delete_from_watchlist(event):
> + for k, _ in b["watchlist"].items():
> + key_ufid = struct.unpack("=IIII", k)
> + if key_ufid == tuple(event.ufid):
> + key = (b["watchlist"].Key * 1)(k)
> + b["watchlist"].items_delete_batch(key)
> + break
> +
> +
> +#
> +# handle_flow_put()
> +#
> +def handle_flow_put(event):
> + if args.flow_keys or args.filter_flows is not None:
> + key = decode_key(bytes(event.key)[:event.key_size])
> + flow_dict, flow_str = parse_flow_dict(key)
> + # For each attribute that we're watching.
> + if args.filter_flows is not None:
> + if not compare_flow_to_target(args.filter_flows, flow_dict):
> + find_and_delete_from_watchlist(event)
> + return
> +
> + print("{:<18.9f} {:<45} {:<13}".format(event.ts / 1000000000,
> + format_ufid(event.ufid), "Insert (put) flow to kernel."))
> +
> + if args.flow_keys:
> + if len(flow_str) > 80:
> + flow_str = " " + "),\n ".join(flow_str.split("), "))
> + else:
> + flow_str = " " + flow_str
> + print(" - It holds the following flow information:")
> + print(flow_str)
> +
> +
> +#
> +# compare_flow_to_target()
> +#
> +def compare_flow_to_target(target, flow):
> + for key in target:
> + if key not in flow:
> + return False
> + elif target[key] is True:
> + continue
> + elif target[key] == flow[key]:
> + continue
> + elif isinstance(target[key], dict) and isinstance(flow[key],
dict):
> + return compare_flow_to_target(target[key], flow[key])
> + else:
> + return False
> + return True
> +
> +
> +#
> +# parse_flow_str()
> +#
> +def parse_flow_str(flow_str):
> + f_list = [i.strip(", ") for i in flow_str.split(")")]
> + if f_list[-1] == "":
> + f_list = f_list[:-1]
> + flow_dict = {}
> + for e in f_list:
> + split_list = e.split("(")
> + k = split_list[0]
> + if len(split_list) == 1:
> + flow_dict[k] = True
> + elif split_list[1].count("=") == 0:
> + flow_dict[k] = split_list[1]
> + else:
> + sub_dict = {}
> + sublist = [i.strip() for i in split_list[1].split(",")]
> + for subkey in sublist:
> + brk = subkey.find("=")
> + sub_dict[subkey[:brk]] = subkey[brk + 1:]
> + flow_dict[k] = sub_dict
> + return flow_dict
> +
> +
> +#
> +# print_expiration()
> +#
> +def print_expiration(event):
> + reasons = ["Unknown flow expiration reason!", "Flow timed out",
> + "Flow revalidation too expensive",
> + "Flow needs narrower wildcard mask",
> + "Bad ODP flow fit", "Flow with associated ofproto",
> + "Flow translation error", "Flow cache avoidance",
> + "Kill them all signal"]
> +
> + ufid_str = format_ufid(event.ufid)
> + reason = event.reason
> +
> + if reason not in range(0, len(reasons) - 1):
> + reason = 0
> + print("{:<18.9f} {:<45} {:<17}".
> + format(event.ts / 1000000000, ufid_str, reasons[reason]))
> +
> +
> +#
> +# decode_key()
> +#
> +def decode_key(msg):
> + bytes_left = len(msg)
> + result = {}
> + while bytes_left:
> + if bytes_left < 4:
> + break
> + nla_len, nla_type = struct.unpack("=HH", msg[:4])
> + if nla_len < 4:
> + break
> + nla_data = msg[4:nla_len]
> + trunc = False
> + if nla_len > bytes_left:
> + trunc = True
> + nla_data = nla_data[:(bytes_left - 4)]
> + else:
> + result[get_ovs_key_attr_str(nla_type)] = nla_data
> + if trunc:
> + break
> + next_offset = (nla_len + 3) & (~3)
> + msg = msg[next_offset:]
> + bytes_left -= next_offset
> + return result
> +
> +
> +#
> +# get_ovs_key_attr_str()
> +#
> +def get_ovs_key_attr_str(attr):
> + ovs_key_attr = ["OVS_KEY_ATTR_UNSPEC",
> + "encap",
> + "skb_priority",
> + "in_port",
> + "eth",
> + "vlan",
> + "eth_type",
> + "ipv4",
> + "ipv6",
> + "tcp",
> + "udp",
> + "icmp",
> + "icmpv6",
> + "arp",
> + "nd",
> + "skb_mark",
> + "tunnel",
> + "sctp",
> + "tcp_flags",
> + "dp_hash",
> + "recirc_id",
> + "mpls",
> + "ct_state",
> + "ct_zone",
> + "ct_mark",
> + "ct_label",
> + "ct_tuple4",
> + "ct_tuple6",
> + "nsh"]
> +
> + if attr < 0 or attr > len(ovs_key_attr):
> + return "<UNKNOWN>: {}".format(attr)
> + return ovs_key_attr[attr]
> +
> +
> +#
> +# is_nonzero()
> +#
> +def is_nonzero(val):
> + if isinstance(val, int):
> + return (val != 0)
> +
> + if isinstance(val, str):
> + val = bytes(val, "utf-8")
> +
> + # If it's not a string or an int, it's bytes.
> + return (val.count(0) < len(val))
> +
> +
> +#
> +# parse_flow_dict()
> +#
> +def parse_flow_dict(key_dict):
> + ret_str = ""
> + parseable = {}
> + skip = ["nsh", "tunnel", "mpls", "vlan"]
> + need_byte_swap = ["ct_label"]
> + ipv4addrs = ["ct_tuple4", "tunnel", "ipv4", "arp"]
> + ipv6addrs = ["ipv6", "nd", "ct_tuple6"]
> + macs = {"eth": [0, 1], "arp": [3, 4], "nd": [1, 2]}
> + fields = [("OVS_KEY_ATTR_UNSPEC"),
> + ("encap", ),
> + ("skb_priority", "<I"),
> + ("in_port", "<I"),
> + ("eth", "!6s6s", "src", "dst"),
> + ("vlan", ),
> + ("eth_type", "!H"),
> + ("ipv4", "!4s4s4B", "src", "dst", "proto", "tos", "ttl",
"frag"),
> + ("ipv6", "!16s16s4s4B", "src", "dst",
> + "label", "proto", "tclass", "hlimit", "frag"),
> + ("tcp", "!2H", "src", "dst"),
> + ("udp", "!2H", "src", "dst"),
> + ("icmp", "!2B", "type", "code"),
> + ("icmpv6", "!2B", "type", "code"),
> + ("arp", "!4s4sH6s6s", "sip", "tip", "op", "sha", "tha"),
> + ("nd", "!16s6s6s", "target", "sll", "tll"),
> + ("skb_mark", "<I"),
> + ("tunnel", ),
> + ("sctp", "!2H", "src", "dst"),
> + ("tcp_flags", "!H"),
> + ("dp_hash", "<I"),
> + ("recirc_id", "<I"),
> + ("mpls", ),
> + ("ct_state", "<I"),
> + ("ct_zone", "<H"),
> + ("ct_mark", "<I"),
> + ("ct_label", "!16s"),
> + ("ct_tuple4",
> + "!4s4s2HB", "src", "dst", "tp_src", "tp_dst", "proto"),
> + ("ct_tuple6",
> + "!16s16sB2H", "src", "dst", "proto", "tp_src", "tp_dst"),
> + ("nsh", )]
> + for k, v in key_dict.items():
> + if k in skip:
> + continue
> + if int.from_bytes(v, "big") == 0:
> + parseable[k] = "0"
> + continue
> + if k in need_byte_swap:
> + v = int.from_bytes(v, "little").to_bytes(len(v), "big")
> + attr = -1
> + for f in fields:
> + if k == f[0]:
> + attr = fields.index(f)
> + break
> + if len(fields[attr]) > 1:
> + data = list(struct.unpack(fields[attr][1],
> + v[:struct.calcsize(fields[attr][1])]))
> + if k in ipv4addrs:
> + if data[0].count(0) < 4:
> + data[0] = str(IPv4Address(data[0]))
> + else:
> + data[0] = b"\x00"
> + if data[1].count(0) < 4:
> + data[1] = str(IPv4Address(data[1]))
> + else:
> + data[1] = b"\x00"
> + if k in ipv6addrs:
> + if data[0].count(0) < 16:
> + data[0] = str(IPv6Address(data[0]))
> + else:
> + data[0] = b"\x00"
> + if data[1].count(0) < len(data[1]):
> + data[1] = str(IPv6Address(data[1]))
> + else:
> + data[1] = b"\x00"
> + if k in macs.keys():
> + for e in macs[k]:
> + if data[e].count(0) == 6:
> + mac_str = b"\x00"
> + else:
> + mac_str = ":".join(["%02x" % i for i in data[e]])
> + data[e] = mac_str
> + if len(fields[attr]) > 2:
> + field_dict = {field: d for field, d in zip(fields[attr][2:],
data)}
> + s = ", ".join(k + "=" + str(v) for k, v in
field_dict.items())
> + elif k != "eth_type":
> + s = str(data[0])
> + field_dict = s
> + else:
> + s = hex(data[0])
> + field_dict = s
> + ret_str += k + "(" + s + "), "
> + parseable[k] = field_dict
> + ret_str = ret_str[:-2]
> + return (parseable, ret_str)
> +
> +
> +#
> +# handle_event()
> +#
> +def handle_event(ctx, data, size):
> + # Once we grab the event, we have three cases.
> + # 1. It's a revalidator probe and the reason is nonzero: A flow is
expiring
> + # 2. It's a revalidator probe and the reason is zero: flow
revalidated
> + # 3. It's a flow_put probe.
> + #
> + # We will ignore case 2, and report all others.
> + #
> + event = b["events"].event(data)
> + if event.probe == 0: # OP_FLOW_PUT
> + handle_flow_put(event)
> + elif event.probe == 1 and event.reason > 0: # FLOW_RESULT
> + print_expiration(event)
> +
> +
> +def main():
> + #
> + # Don't like these globals, but ctx passing does not work with the
existing
> + # open_ring_buffer() API :(
> + #
> + global b
> + global args
> +
> + #
> + # Argument parsing
> + #
> + parser = argparse.ArgumentParser()
> + parser.add_argument("--buffer-page-count",
> + help="Number of BPF ring buffer pages, default
1024",
> + type=int, default=1024, metavar="NUMBER")
> + parser.add_argument("-k", "--flow-keys",
> + help="Print flow keys as flow strings",
> + action="store_true")
> + parser.add_argument("-p", "--pid", metavar="VSWITCHD_PID",
> + help="ovs-vswitchd's PID", type=int,
default=None)
> + parser.add_argument("-D", "--debug", help="Enable eBPF debugging",
> + type=int, const=0x3f, default=0, nargs="?")
> + parser.add_argument("-f", "--filter-flows", metavar="FLOW_STRING",
> + help="Filter flows that match the specified
flow",
> + type=str, default=None, nargs="*")
> + args = parser.parse_args()
> +
> + #
> + # Find the PID of the ovs-vswitchd daemon if not specified.
> + #
> + if args.pid is None:
> + for proc in psutil.process_iter():
> + if "ovs-vswitchd" in proc.name():
> + if args.pid is not None:
> + print("Error: Multiple ovs-vswitchd daemons running,
"
> + "use the -p option!")
> + sys.exit(-1)
> +
> + args.pid = proc.pid
> + #
> + # Error checking on input parameters
> + #
> + if args.pid is None:
> + print("ERROR: Failed to find ovs-vswitchd's PID!")
> + sys.exit(-1)
> +
> + #
> + # Attach the USDT probes
> + #
> + u = USDT(pid=int(args.pid))
> + try:
> + u.enable_probe(probe="op_flow_put", fn_name="usdt__op_flow_put")
> + except USDTException as e:
> + print("Error attaching the dpif_netlink_operate__:op_flow_put
probe.")
> + print(str(e))
> + sys.exit(-1)
> +
> + try:
> + u.enable_probe(probe="flow_result", fn_name="usdt__flow_result")
> + except USDTException as e:
> + print("Error attaching the revalidate:flow_result probe.")
> + print(str(e))
> + sys.exit(-1)
> +
> + #
> + # Attach the probes to the running process
> + #
> + if args.filter_flows is None:
> + filter_bool = 0
> + else:
> + filter_bool = 1
> + args.filter_flows = parse_flow_str(args.filter_flows[0])
> +
> + source = bpf_src.replace("<BUFFER_PAGE_COUNT>",
> + str(args.buffer_page_count))
> + source = source.replace("<FILTER_BOOL>", str(filter_bool))
> +
> + b = BPF(text=source, usdt_contexts=[u], debug=args.debug)
> +
> + #
> + # Print header
> + #
> + print("{:<18} {:<45} {:<17}".format("TIME", "UFID", "EVENT/REASON"))
> +
> + #
> + # Dump out all events.
> + #
> + b["events"].open_ring_buffer(handle_event)
> + while 1:
> + try:
> + b.ring_buffer_poll()
> + time.sleep(0.5)
> + except KeyboardInterrupt:
> + break
> +
> +
> +#
> +# Start main() as the default entry point
> +#
> +if __name__ == "__main__":
> + main()
> --
> 2.37.3
>
> _______________________________________________
> dev mailing list
> d...@openvswitch.org
> https://mail.openvswitch.org/mailman/listinfo/ovs-dev
_______________________________________________
dev mailing list
d...@openvswitch.org
https://mail.openvswitch.org/mailman/listinfo/ovs-dev
