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Diffstat (limited to 'docs/gettingstarted')
-rw-r--r-- | docs/gettingstarted/developers/buildwireshark.md | 81 | ||||
-rw-r--r-- | docs/gettingstarted/developers/index.rst | 1 | ||||
-rw-r--r-- | docs/gettingstarted/developers/vnet.md | 183 |
3 files changed, 263 insertions, 2 deletions
diff --git a/docs/gettingstarted/developers/buildwireshark.md b/docs/gettingstarted/developers/buildwireshark.md new file mode 100644 index 00000000000..3da70e9e0ba --- /dev/null +++ b/docs/gettingstarted/developers/buildwireshark.md @@ -0,0 +1,81 @@ +How to build a vpp dispatch trace aware Wireshark +================================================= + +At some point, we will upstream our vpp pcap dispatch trace dissector. +It's not finished - contributions welcome - and we have to work through +whatever issues will be discovered during the upstreaming process. + +On the other hand, it's ready for some tire-kicking. Here's how to build +wireshark. + +Download and patch wireshark source code +----------------------------------------- + +The wireshark git repo is large, so it takes a while to clone. + +``` + git clone https://code.wireshark.org/review/wireshark + cp .../extras/wireshark/packet-vpp.c wireshark/epan/dissectors + patch -p1 < .../extras/wireshark/diffs.txt +``` + +The small patch adds packet-vpp.c to the dissector list. + +Install prerequisite Debian packages +------------------------------------ + +Here is a list of prerequisite packages which must be present in order +to compile wireshark, beyond what's typically installed on an Ubuntu +18.04 system: + +``` + libgcrypt11-dev flex bison qtbase5-dev qttools5-dev-tools qttools5-dev + qtmultimedia5-dev libqt5svg5-dev libpcap-dev qt5-default +``` + +Compile Wireshark +----------------- + +Mercifully, Wireshark uses cmake, so it's relatively easy to build, at +least on Ubuntu 18.04. + + +``` + $ cd wireshark + $ cmake -G Ninja + $ ninja -j 8 + $ sudo ninja install +``` + +Make a pcap dispatch trace +-------------------------- + +Configure vpp to pass traffic in some fashion or other, and then: + +``` + vpp# pcap dispatch trace on max 10000 file vppcapture buffer-trace dpdk-input 1000 + +``` + +or similar. Run traffic for long enough to capture some data. Save the +dispatch trace capture like so: + +``` + vpp# pcap dispatch trace off +``` + +Display in Wireshark +-------------------- + +Display /tmp/vppcapture in the vpp-enabled version of wireshark. With +any luck, normal version of wireshark will refuse to process vpp +dispatch trace pcap files because they won't understand the encap type. + +Set wireshark to filter on vpp.bufferindex to watch a single packet +traverse the forwarding graph. Otherwise, you'll see a vector of packets +in e.g. ip4-lookup, then a vector of packets in ip4-rewrite, etc. + + + + + diff --git a/docs/gettingstarted/developers/index.rst b/docs/gettingstarted/developers/index.rst index 525f1b72305..199f8b23208 100644 --- a/docs/gettingstarted/developers/index.rst +++ b/docs/gettingstarted/developers/index.rst @@ -36,3 +36,4 @@ The Developers section covers the following areas: buildsystem/index.rst eventviewer fib20/index.rst + buildwireshark diff --git a/docs/gettingstarted/developers/vnet.md b/docs/gettingstarted/developers/vnet.md index 60362f4b360..532eeeae67c 100644 --- a/docs/gettingstarted/developers/vnet.md +++ b/docs/gettingstarted/developers/vnet.md @@ -250,13 +250,15 @@ Packet tracer ------------- Vlib includes a frame element \[packet\] trace facility, with a simple -vlib cli interface. The cli is straightforward: "trace add -input-node-name count". +debug CLI interface. The cli is straightforward: "trace add +input-node-name count" to start capturing packet traces. To trace 100 packets on a typical x86\_64 system running the dpdk plugin: "trace add dpdk-input 100". When using the packet generator: "trace add pg-input 100" +To display the packet trace: "show trace" + Each graph node has the opportunity to capture its own trace data. It is almost always a good idea to do so. The trace capture APIs are simple. @@ -286,3 +288,180 @@ Here's a simple example: The trace framework hands the per-node format function the data it captured as the packet whizzed by. The format function pretty-prints the data as desired. + +Graph Dispatcher Pcap Tracing +----------------------------- + +The vpp graph dispatcher knows how to capture vectors of packets in pcap +format as they're dispatched. The pcap captures are as follows: + +``` + VPP graph dispatch trace record description: + + 0 1 2 3 + 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Major Version | Minor Version | NStrings | ProtoHint | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Buffer index (big endian) | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + + VPP graph node name ... ... | NULL octet | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Buffer Metadata ... ... | NULL octet | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Buffer Opaque ... ... | NULL octet | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Buffer Opaque 2 ... ... | NULL octet | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | VPP ASCII packet trace (if NStrings > 4) | NULL octet | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Packet data (up to 16K) | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ +``` + +Graph dispatch records comprise a version stamp, an indication of how +many NULL-terminated strings will follow the record header and preceed +packet data, and a protocol hint. + +The buffer index is an opaque 32-bit cookie which allows consumers of +these data to easily filter/track single packets as they traverse the +forwarding graph. Multiple records per packet are normal, and to be +expected. + +As of this writing: major version = 1, minor version = 0. Nstrings +SHOULD be 4 or 5. Consumers SHOULD be wary values less than 4 or +greater than 5. They MAY attempt to display the claimed number of +strings, or they MAY treat the condition as an error. + +Here is the current set of protocol hints: + +```c + typedef enum + { + VLIB_NODE_PROTO_HINT_NONE = 0, + VLIB_NODE_PROTO_HINT_ETHERNET, + VLIB_NODE_PROTO_HINT_IP4, + VLIB_NODE_PROTO_HINT_IP6, + VLIB_NODE_PROTO_HINT_TCP, + VLIB_NODE_PROTO_HINT_UDP, + VLIB_NODE_N_PROTO_HINTS, + } vlib_node_proto_hint_t; +``` + +Example: VLIB_NODE_PROTO_HINT_IP6 means that the first octet of packet +data SHOULD be 0x60, and should begin an ipv6 packet header. + +Downstream consumers of these data SHOULD pay attention to the +protocol hint. They MUST tolerate inaccurate hints, which WILL occur +from time to time. + +### Dispatch Pcap Trace Debug CLI + +To start a dispatch trace capture of up to 10,000 trace records: + +``` + pcap dispatch trace on max 10000 file dispatch.pcap +``` + +To start a dispatch trace which will also include standard vpp packet +tracing for packets which originate in dpdk-input: + +``` + pcap dispatch trace on max 10000 file dispatch.pcap buffer-trace dpdk-input 1000 +``` +To save the pcap trace, e.g. in /tmp/dispatch.pcap: + +``` + pcap dispatch trace off +``` + +### Wireshark dissection of dispatch pcap traces + +It almost goes without saying that we built a companion wireshark +dissector to display these traces. As of this writing, we're in the +process of trying to upstream the wireshark dissector. + +Until various games of "fetch me a rock" involved are finished, please +see the "How to build a vpp dispatch trace aware Wireshark" page +for build info, and/or take a look at .../extras/wireshark. + +Here is a sample packet dissection, with some fields omitted for +clarity. The point is that the wireshark dissector accurately +displays **all** of the vpp buffer metadata, and the name of the graph +node in question. + +``` + Frame 1: 2216 bytes on wire (17728 bits), 2216 bytes captured (17728 bits) + Encapsulation type: USER 13 (58) + [Protocols in frame: vpp:vpp-metadata:vpp-opaque:vpp-opaque2:eth:ethertype:ip:tcp:data] + VPP Dispatch Trace + BufferIndex: 0x00036663 + NodeName: ethernet-input + VPP Buffer Metadata + Metadata: flags: + Metadata: current_data: 0, current_length: 102 + Metadata: current_config_index: 0, flow_id: 0, next_buffer: 0 + Metadata: error: 0, n_add_refs: 0, buffer_pool_index: 0 + Metadata: trace_index: 0, recycle_count: 0, len_not_first_buf: 0 + Metadata: free_list_index: 0 + Metadata: + VPP Buffer Opaque + Opaque: raw: 00000007 ffffffff 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 + Opaque: sw_if_index[VLIB_RX]: 7, sw_if_index[VLIB_TX]: -1 + Opaque: L2 offset 0, L3 offset 0, L4 offset 0, feature arc index 0 + Opaque: ip.adj_index[VLIB_RX]: 0, ip.adj_index[VLIB_TX]: 0 + Opaque: ip.flow_hash: 0x0, ip.save_protocol: 0x0, ip.fib_index: 0 + Opaque: ip.save_rewrite_length: 0, ip.rpf_id: 0 + Opaque: ip.icmp.type: 0 ip.icmp.code: 0, ip.icmp.data: 0x0 + Opaque: ip.reass.next_index: 0, ip.reass.estimated_mtu: 0 + Opaque: ip.reass.fragment_first: 0 ip.reass.fragment_last: 0 + Opaque: ip.reass.range_first: 0 ip.reass.range_last: 0 + Opaque: ip.reass.next_range_bi: 0x0, ip.reass.ip6_frag_hdr_offset: 0 + Opaque: mpls.ttl: 0, mpls.exp: 0, mpls.first: 0, mpls.save_rewrite_length: 0, mpls.bier.n_bytes: 0 + Opaque: l2.feature_bitmap: 00000000, l2.bd_index: 0, l2.l2_len: 0, l2.shg: 0, l2.l2fib_sn: 0, l2.bd_age: 0 + Opaque: l2.feature_bitmap_input: none configured, L2.feature_bitmap_output: none configured + Opaque: l2t.next_index: 0, l2t.session_index: 0 + Opaque: l2_classify.table_index: 0, l2_classify.opaque_index: 0, l2_classify.hash: 0x0 + Opaque: policer.index: 0 + Opaque: ipsec.flags: 0x0, ipsec.sad_index: 0 + Opaque: map.mtu: 0 + Opaque: map_t.v6.saddr: 0x0, map_t.v6.daddr: 0x0, map_t.v6.frag_offset: 0, map_t.v6.l4_offset: 0 + Opaque: map_t.v6.l4_protocol: 0, map_t.checksum_offset: 0, map_t.mtu: 0 + Opaque: ip_frag.mtu: 0, ip_frag.next_index: 0, ip_frag.flags: 0x0 + Opaque: cop.current_config_index: 0 + Opaque: lisp.overlay_afi: 0 + Opaque: tcp.connection_index: 0, tcp.seq_number: 0, tcp.seq_end: 0, tcp.ack_number: 0, tcp.hdr_offset: 0, tcp.data_offset: 0 + Opaque: tcp.data_len: 0, tcp.flags: 0x0 + Opaque: sctp.connection_index: 0, sctp.sid: 0, sctp.ssn: 0, sctp.tsn: 0, sctp.hdr_offset: 0 + Opaque: sctp.data_offset: 0, sctp.data_len: 0, sctp.subconn_idx: 0, sctp.flags: 0x0 + Opaque: snat.flags: 0x0 + Opaque: + VPP Buffer Opaque2 + Opaque2: raw: 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 + Opaque2: qos.bits: 0, qos.source: 0 + Opaque2: loop_counter: 0 + Opaque2: gbp.flags: 0, gbp.src_epg: 0 + Opaque2: pg_replay_timestamp: 0 + Opaque2: + Ethernet II, Src: 06:d6:01:41:3b:92 (06:d6:01:41:3b:92), Dst: IntelCor_3d:f6 Transmission Control Protocol, Src Port: 22432, Dst Port: 54084, Seq: 1, Ack: 1, Len: 36 + Source Port: 22432 + Destination Port: 54084 + TCP payload (36 bytes) + Data (36 bytes) + + 0000 cf aa 8b f5 53 14 d4 c7 29 75 3e 56 63 93 9d 11 ....S...)u>Vc... + 0010 e5 f2 92 27 86 56 4c 21 ce c5 23 46 d7 eb ec 0d ...'.VL!..#F.... + 0020 a8 98 36 5a ..6Z + Data: cfaa8bf55314d4c729753e5663939d11e5f2922786564c21… + [Length: 36] +``` + +It's a matter of a couple of mouse-clicks in Wireshark to filter the +trace to a specific buffer index. With that specific kind of filtration, +one can watch a packet walk through the forwarding graph; noting any/all +metadata changes, header checksum changes, and so forth. + +This should be of significant value when developing new vpp graph +nodes. If new code mispositions b->current_data, it will be completely +obvious from looking at the dispatch trace in wireshark. + |