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authorKevin Darbyshire-Bryant <ldir@darbyshire-bryant.me.uk>2018-03-22 11:43:05 +0000
committerHauke Mehrtens <hauke@hauke-m.de>2018-03-23 22:08:22 +0100
commit4a788fcf63920769be3428d5c61eaa6f09d5291a (patch)
treeca058fc94ebfa157bdb7a898fcd25bbc34f04826 /package/network
parentc9154c270a147dd92617e6ae3b07e56da68489aa (diff)
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upstream-4a788fcf63920769be3428d5c61eaa6f09d5291a.tar.bz2
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iproute2: cake: support new overhead reporting & stats structures
Cake in kernel space now splits stats structure handling across netlink messages to reduce stack usage issue flagged by upstream kernel checks. Update user space (tc) qdisc handling to understand this new regime. Cake also reports packet overheads & compensation in a different way so add display code for this. e.g. 'tc -s qdisc show dev eth0' reports this extra detail: min/max transport layer size: 28 / 1500 min/max overhead-adjusted size: 65 / 1550 average transport hdr offset: 14 Cake also supports output in JSON format. Patch is bulkier than before because a (slightly out of date - see above stats) man page is included for reference. Better than nothing! Signed-off-by: Kevin Darbyshire-Bryant <ldir@darbyshire-bryant.me.uk>
Diffstat (limited to 'package/network')
-rw-r--r--package/network/utils/iproute2/patches/950-add-cake-to-tc.patch1235
1 files changed, 969 insertions, 266 deletions
diff --git a/package/network/utils/iproute2/patches/950-add-cake-to-tc.patch b/package/network/utils/iproute2/patches/950-add-cake-to-tc.patch
index 5edb71ddc9..216d7c7ef3 100644
--- a/package/network/utils/iproute2/patches/950-add-cake-to-tc.patch
+++ b/package/network/utils/iproute2/patches/950-add-cake-to-tc.patch
@@ -1,6 +1,8 @@
+diff --git a/include/uapi/linux/pkt_sched.h b/include/uapi/linux/pkt_sched.h
+index 37b5096a..66da5df9 100644
--- a/include/uapi/linux/pkt_sched.h
+++ b/include/uapi/linux/pkt_sched.h
-@@ -934,4 +934,62 @@ enum {
+@@ -934,4 +934,75 @@ enum {
#define TCA_CBS_MAX (__TCA_CBS_MAX - 1)
@@ -17,7 +19,7 @@
+ TCA_CAKE_AUTORATE,
+ TCA_CAKE_MEMORY,
+ TCA_CAKE_NAT,
-+ TCA_CAKE_ETHERNET,
++ TCA_CAKE_RAW, // was _ETHERNET
+ TCA_CAKE_WASH,
+ TCA_CAKE_MPU,
+ TCA_CAKE_INGRESS,
@@ -33,53 +35,757 @@
+};
+
+#define TC_CAKE_MAX_TINS (8)
++struct tc_cake_tin_stats {
++
++ __u32 threshold_rate;
++ __u32 target_us;
++ struct tc_cake_traffic_stats sent;
++ struct tc_cake_traffic_stats dropped;
++ struct tc_cake_traffic_stats ecn_marked;
++ struct tc_cake_traffic_stats backlog;
++ __u32 interval_us;
++ __u32 way_indirect_hits;
++ __u32 way_misses;
++ __u32 way_collisions;
++ __u32 peak_delay_us; /* ~= bulk flow delay */
++ __u32 avge_delay_us;
++ __u32 base_delay_us; /* ~= sparse flows delay */
++ __u16 sparse_flows;
++ __u16 bulk_flows;
++ __u16 unresponse_flows;
++ __u16 spare;
++ __u32 max_skblen;
++ struct tc_cake_traffic_stats ack_drops;
++};
++
+struct tc_cake_xstats {
-+ __u16 version; /* == 5, increments when struct extended */
-+ __u8 max_tins; /* == TC_CAKE_MAX_TINS */
-+ __u8 tin_cnt; /* <= TC_CAKE_MAX_TINS */
-+
-+ __u32 threshold_rate [TC_CAKE_MAX_TINS];
-+ __u32 target_us [TC_CAKE_MAX_TINS];
-+ struct tc_cake_traffic_stats sent [TC_CAKE_MAX_TINS];
-+ struct tc_cake_traffic_stats dropped [TC_CAKE_MAX_TINS];
-+ struct tc_cake_traffic_stats ecn_marked[TC_CAKE_MAX_TINS];
-+ struct tc_cake_traffic_stats backlog [TC_CAKE_MAX_TINS];
-+ __u32 interval_us [TC_CAKE_MAX_TINS];
-+ __u32 way_indirect_hits[TC_CAKE_MAX_TINS];
-+ __u32 way_misses [TC_CAKE_MAX_TINS];
-+ __u32 way_collisions [TC_CAKE_MAX_TINS];
-+ __u32 peak_delay_us [TC_CAKE_MAX_TINS]; /* ~= bulk flow delay */
-+ __u32 avge_delay_us [TC_CAKE_MAX_TINS];
-+ __u32 base_delay_us [TC_CAKE_MAX_TINS]; /* ~= sparse flows delay */
-+ __u16 sparse_flows [TC_CAKE_MAX_TINS];
-+ __u16 bulk_flows [TC_CAKE_MAX_TINS];
-+ __u16 unresponse_flows [TC_CAKE_MAX_TINS]; /* v4 - was u32 last_len */
-+ __u16 spare [TC_CAKE_MAX_TINS]; /* v4 - split last_len */
-+ __u32 max_skblen [TC_CAKE_MAX_TINS];
-+ __u32 capacity_estimate; /* version 2 */
-+ __u32 memory_limit; /* version 3 */
-+ __u32 memory_used; /* version 3 */
-+ struct tc_cake_traffic_stats ack_drops [TC_CAKE_MAX_TINS]; /* v5 */
++ __u16 version;
++ __u16 tin_stats_size; /* == sizeof(struct tc_cake_tin_stats) */
++ __u32 capacity_estimate;
++ __u32 memory_limit;
++ __u32 memory_used;
++ __u8 tin_cnt;
++ __u8 avg_trnoff;
++ __u16 max_trnlen;
++ __u16 max_adjlen;
++ __u16 min_trnlen;
++ __u16 min_adjlen;
++
++ __u16 spare1;
++ __u32 spare2;
++
++ struct tc_cake_tin_stats tin_stats[0]; /* keep last */
+};
+
#endif
+diff --git a/man/man8/tc-cake.8 b/man/man8/tc-cake.8
+new file mode 100644
+index 00000000..ff77db8f
+--- /dev/null
++++ b/man/man8/tc-cake.8
+@@ -0,0 +1,678 @@
++.TH CAKE 8 "23 November 2017" "iproute2" "Linux"
++.SH NAME
++CAKE \- COMMON Applications Kept Enhanced (CAKE)
++.SH SYNOPSIS
++.B tc qdisc ... cake
++.br
++[
++.BR bandwidth
++RATE |
++.BR unlimited*
++|
++.BR autorate_ingress
++]
++.br
++[
++.BR rtt
++TIME |
++.BR datacentre
++|
++.BR lan
++|
++.BR metro
++|
++.BR regional
++|
++.BR internet*
++|
++.BR oceanic
++|
++.BR satellite
++|
++.BR interplanetary
++]
++.br
++[
++.BR besteffort
++|
++.BR diffserv8
++|
++.BR diffserv4
++|
++.BR diffserv-llt
++|
++.BR diffserv3*
++]
++.br
++[
++.BR flowblind
++|
++.BR srchost
++|
++.BR dsthost
++|
++.BR hosts
++|
++.BR flows
++|
++.BR dual-srchost
++|
++.BR dual-dsthost
++|
++.BR triple-isolate*
++]
++.br
++[
++.BR nat
++|
++.BR nonat*
++]
++.br
++[
++.BR wash
++|
++.BR nowash*
++]
++.br
++[
++.BR ack-filter
++|
++.BR ack-filter-aggressive
++|
++.BR no-ack-filter*
++]
++.br
++[
++.BR memlimit
++LIMIT ]
++.br
++[
++.BR ptm
++|
++.BR atm
++|
++.BR noatm*
++]
++.br
++[
++.BR overhead
++N |
++.BR conservative
++|
++.BR raw*
++]
++.br
++[
++.BR mpu
++N ]
++.br
++[
++.BR ingress
++|
++.BR egress*
++]
++.br
++(* marks defaults)
++
++
++.SH DESCRIPTION
++CAKE (Common Applications Kept Enhanced) is a shaping-capable queue discipline
++which uses both AQM and FQ. It combines COBALT, which is an AQM algorithm
++combining Codel and BLUE, a shaper which operates in deficit mode, and a variant
++of DRR++ for flow isolation. 8-way set-associative hashing is used to virtually
++eliminate hash collisions. Priority queuing is available through a simplified
++diffserv implementation. Overhead compensation for various encapsulation
++schemes is tightly integrated.
++
++All settings are optional; the default settings are chosen to be sensible in
++most common deployments. Most people will only need to set the
++.B bandwidth
++parameter to get useful results, but reading the
++.B Overhead Compensation
++and
++.B Round Trip Time
++sections is strongly encouraged.
++
++.SH SHAPER PARAMETERS
++CAKE uses a deficit-mode shaper, which does not exhibit the initial burst
++typical of token-bucket shapers. It will automatically burst precisely as much
++as required to maintain the configured throughput. As such, it is very
++straightforward to configure.
++.PP
++.B unlimited
++(default)
++.br
++ No limit on the bandwidth.
++.PP
++.B bandwidth
++RATE
++.br
++ Set the shaper bandwidth. See
++.BR tc(8)
++or examples below for details of the RATE value.
++.PP
++.B autorate_ingress
++.br
++ Automatic capacity estimation based on traffic arriving at this qdisc.
++This is most likely to be useful with cellular links, which tend to change
++quality randomly. A
++.B bandwidth
++parameter can be used in conjunction to specify an initial estimate. The shaper
++will periodically be set to a bandwidth slightly below the estimated rate. This
++estimator cannot estimate the bandwidth of links downstream of itself.
++
++.SH OVERHEAD COMPENSATION PARAMETERS
++The size of each packet on the wire may differ from that seen by Linux. The
++following parameters allow CAKE to compensate for this difference by internally
++considering each packet to be bigger than Linux informs it. To assist users who
++are not expert network engineers, keywords have been provided to represent a
++number of common link technologies.
++
++.SS Manual Overhead Specification
++.B overhead
++BYTES
++.br
++ Adds BYTES to the size of each packet. BYTES may be negative; values
++between -64 and 256 (inclusive) are accepted.
++.PP
++.B mpu
++BYTES
++.br
++ Rounds each packet (including overhead) up to a minimum length
++BYTES. BYTES may not be negative; values between 0 and 256 (inclusive)
++are accepted.
++.PP
++.B atm
++.br
++ Compensates for ATM cell framing, which is normally found on ADSL links.
++This is performed after the
++.B overhead
++parameter above. ATM uses fixed 53-byte cells, each of which can carry 48 bytes
++payload.
++.PP
++.B ptm
++.br
++ Compensates for PTM encoding, which is normally found on VDSL2 links and
++uses a 64b/65b encoding scheme. It is even more efficient to simply
++derate the specified shaper bandwidth by a factor of 64/65 or 0.984. See
++ITU G.992.3 Annex N and IEEE 802.3 Section 61.3 for details.
++.PP
++.B noatm
++.br
++ Disables ATM and PTM compensation.
++
++.SS Failsafe Overhead Keywords
++These two keywords are provided for quick-and-dirty setup. Use them if you
++can't be bothered to read the rest of this section.
++.PP
++.B raw
++(default)
++.br
++ Turns off all overhead compensation in CAKE. The packet size reported
++by Linux will be used directly.
++.PP
++ Other overhead keywords may be added after "raw". The effect of this is
++to make the overhead compensation operate relative to the reported packet size,
++not the underlying IP packet size.
++.PP
++.B conservative
++.br
++ Compensates for more overhead than is likely to occur on any
++widely-deployed link technology.
++.br
++ Equivalent to
++.B overhead 48 atm.
++
++.SS ADSL Overhead Keywords
++Most ADSL modems have a way to check which framing scheme is in use. Often this
++is also specified in the settings document provided by the ISP. The keywords in
++this section are intended to correspond with these sources of information. All
++of them implicitly set the
++.B atm
++flag.
++.PP
++.B pppoa-vcmux
++.br
++ Equivalent to
++.B overhead 10 atm
++.PP
++.B pppoa-llc
++.br
++ Equivalent to
++.B overhead 14 atm
++.PP
++.B pppoe-vcmux
++.br
++ Equivalent to
++.B overhead 32 atm
++.PP
++.B pppoe-llcsnap
++.br
++ Equivalent to
++.B overhead 40 atm
++.PP
++.B bridged-vcmux
++.br
++ Equivalent to
++.B overhead 24 atm
++.PP
++.B bridged-llcsnap
++.br
++ Equivalent to
++.B overhead 32 atm
++.PP
++.B ipoa-vcmux
++.br
++ Equivalent to
++.B overhead 8 atm
++.PP
++.B ipoa-llcsnap
++.br
++ Equivalent to
++.B overhead 16 atm
++.PP
++See also the Ethernet Correction Factors section below.
++
++.SS VDSL2 Overhead Keywords
++ATM was dropped from VDSL2 in favour of PTM, which is a much more
++straightforward framing scheme. Some ISPs retained PPPoE for compatibility with
++their existing back-end systems.
++.PP
++.B pppoe-ptm
++.br
++ Equivalent to
++.B overhead 30 ptm
++
++.br
++ PPPoE: 2B PPP + 6B PPPoE +
++.br
++ ETHERNET: 6B dest MAC + 6B src MAC + 2B ethertype + 4B Frame Check Sequence +
++.br
++ PTM: 1B Start of Frame (S) + 1B End of Frame (Ck) + 2B TC-CRC (PTM-FCS)
++.br
++.PP
++.B bridged-ptm
++.br
++ Equivalent to
++.B overhead 22 ptm
++.br
++ ETHERNET: 6B dest MAC + 6B src MAC + 2B ethertype + 4B Frame Check Sequence +
++.br
++ PTM: 1B Start of Frame (S) + 1B End of Frame (Ck) + 2B TC-CRC (PTM-FCS)
++.br
++.PP
++See also the Ethernet Correction Factors section below.
++
++.SS DOCSIS Cable Overhead Keyword
++DOCSIS is the universal standard for providing Internet service over cable-TV
++infrastructure.
++
++In this case, the actual on-wire overhead is less important than the packet size
++the head-end equipment uses for shaping and metering. This is specified to be
++an Ethernet frame including the CRC (aka FCS).
++.PP
++.B docsis
++.br
++ Equivalent to
++.B overhead 18 mpu 64 noatm
++
++.SS Ethernet Overhead Keywords
++.PP
++.B ethernet
++.br
++ Accounts for Ethernet's preamble, inter-frame gap, and Frame Check
++Sequence. Use this keyword when the bottleneck being shaped for is an
++actual Ethernet cable.
++.br
++ Equivalent to
++.B overhead 38 mpu 84 noatm
++.PP
++.B ether-vlan
++.br
++ Adds 4 bytes to the overhead compensation, accounting for an IEEE 802.1Q
++VLAN header appended to the Ethernet frame header. NB: Some ISPs use one or
++even two of these within PPPoE; this keyword may be repeated as necessary to
++express this.
++
++.SH ROUND TRIP TIME PARAMETERS
++Active Queue Management (AQM) consists of embedding congestion signals in the
++packet flow, which receivers use to instruct senders to slow down when the queue
++is persistently occupied. CAKE uses ECN signalling when available, and packet
++drops otherwise, according to a combination of the Codel and BLUE AQM algorithms
++called COBALT.
++
++Very short latencies require a very rapid AQM response to adequately control
++latency. However, such a rapid response tends to impair throughput when the
++actual RTT is relatively long. CAKE allows specifying the RTT it assumes for
++tuning various parameters. Actual RTTs within an order of magnitude of this
++will generally work well for both throughput and latency management.
++
++At the 'lan' setting and below, the time constants are similar in magnitude to
++the jitter in the Linux kernel itself, so congestion might be signalled
++prematurely. The flows will then become sparse and total throughput reduced,
++leaving little or no back-pressure for the fairness logic to work against. Use
++the "metro" setting for local lans unless you have a custom kernel.
++.PP
++.B rtt
++TIME
++.br
++ Manually specify an RTT.
++.PP
++.B datacentre
++.br
++ For extremely high-performance 10GigE+ networks only. Equivalent to
++.B rtt 100us.
++.PP
++.B lan
++.br
++ For pure Ethernet (not Wi-Fi) networks, at home or in the office. Don't
++use this when shaping for an Internet access link. Equivalent to
++.B rtt 1ms.
++.PP
++.B metro
++.br
++ For traffic mostly within a single city. Equivalent to
++.B rtt 10ms.
++.PP
++.B regional
++.br
++ For traffic mostly within a European-sized country. Equivalent to
++.B rtt 30ms.
++.PP
++.B internet
++(default)
++.br
++ This is suitable for most Internet traffic. Equivalent to
++.B rtt 100ms.
++.PP
++.B oceanic
++.br
++ For Internet traffic with generally above-average latency, such as that
++suffered by Australasian residents. Equivalent to
++.B rtt 300ms.
++.PP
++.B satellite
++.br
++ For traffic via geostationary satellites. Equivalent to
++.B rtt 1000ms.
++.PP
++.B interplanetary
++.br
++ So named because Jupiter is about 1 light-hour from Earth. Use this to
++(almost) completely disable AQM actions. Equivalent to
++.B rtt 1000s.
++
++.SH FLOW ISOLATION PARAMETERS
++With flow isolation enabled, CAKE places packets from different flows into
++different queues, each of which carries its own AQM state. Packets from each
++queue are then delivered fairly, according to a DRR++ algorithm which minimises
++latency for "sparse" flows. CAKE uses a set-associative hashing algorithm to
++minimise flow collisions.
++
++These keywords specify whether fairness based on source address, destination
++address, individual flows, or any combination of those is desired.
++.PP
++.B flowblind
++.br
++ Disables flow isolation; all traffic passes through a single queue for
++each tin.
++.PP
++.B srchost
++.br
++ Flows are defined only by source address. Could be useful on the egress
++path of an ISP backhaul.
++.PP
++.B dsthost
++.br
++ Flows are defined only by destination address. Could be useful on the
++ingress path of an ISP backhaul.
++.PP
++.B hosts
++.br
++ Flows are defined by source-destination host pairs. This is host
++isolation, rather than flow isolation.
++.PP
++.B flows
++.br
++ Flows are defined by the entire 5-tuple of source address, destination
++address, transport protocol, source port and destination port. This is the type
++of flow isolation performed by SFQ and fq_codel.
++.PP
++.B dual-srchost
++.br
++ Flows are defined by the 5-tuple, and fairness is applied first over
++source addresses, then over individual flows. Good for use on egress traffic
++from a LAN to the internet, where it'll prevent any one LAN host from
++monopolising the uplink, regardless of the number of flows they use.
++.PP
++.B dual-dsthost
++.br
++ Flows are defined by the 5-tuple, and fairness is applied first over
++destination addresses, then over individual flows. Good for use on ingress
++traffic to a LAN from the internet, where it'll prevent any one LAN host from
++monopolising the downlink, regardless of the number of flows they use.
++.PP
++.B triple-isolate
++(default)
++.br
++ Flows are defined by the 5-tuple, and fairness is applied over source
++*and* destination addresses intelligently (ie. not merely by host-pairs), and
++also over individual flows. Use this if you're not certain whether to use
++dual-srchost or dual-dsthost; it'll do both jobs at once, preventing any one
++host on *either* side of the link from monopolising it with a large number of
++flows.
++.PP
++.B nat
++.br
++ Instructs Cake to perform a NAT lookup before applying flow-isolation
++rules, to determine the true addresses and port numbers of the packet, to
++improve fairness between hosts "inside" the NAT. This has no practical effect
++in "flowblind" or "flows" modes, or if NAT is performed on a different host.
++.PP
++.B nonat
++(default)
++.br
++ Cake will not perform a NAT lookup. Flow isolation will be performed
++using the addresses and port numbers directly visible to the interface Cake is
++attached to.
++
++.SH PRIORITY QUEUE PARAMETERS
++CAKE can divide traffic into "tins" based on the Diffserv field. Each tin has
++its own independent set of flow-isolation queues, and is serviced based on a WRR
++algorithm. To avoid perverse Diffserv marking incentives, tin weights have a
++"priority sharing" value when bandwidth used by that tin is below a threshold,
++and a lower "bandwidth sharing" value when above. Bandwidth is compared against
++the threshold using the same algorithm as the deficit-mode shaper.
++
++Detailed customisation of tin parameters is not provided. The following presets
++perform all necessary tuning, relative to the current shaper bandwidth and RTT
++settings.
++.PP
++.B besteffort
++.br
++ Disables priority queuing by placing all traffic in one tin.
++.PP
++.B precedence
++.br
++ Enables legacy interpretation of TOS "Precedence" field. Use of this
++preset on the modern Internet is firmly discouraged.
++.PP
++.B diffserv-llt
++.br
++ Provides a "Latency-Loss Tradeoff" implementation with five tins:
++.br
++ Low Loss (TOS1, TOS2), 100% threshold, increased Codel target.
++.br
++ Best Effort (general), 100% threshold, normal Codel target & interval.
++.br
++ Low Latency (TOS4, TOS5, VA, EF), 100% threshold, reduced Codel interval.
++.br
++ Bulk (CS1), 6.25% threshold, normal Codel target & interval.
++.br
++ Net Control (CS6, CS7), 6.25% threshold, increased Codel target & interval.
++.PP
++.B diffserv4
++.br
++ Provides a general-purpose Diffserv implementation with four tins:
++.br
++ Bulk (CS1), 6.25% threshold, generally low priority.
++.br
++ Best Effort (general), 100% threshold.
++.br
++ Video (AF4x, AF3x, CS3, AF2x, CS2, TOS4, TOS1), 50% threshold.
++.br
++ Voice (CS7, CS6, EF, VA, CS5, CS4), 25% threshold.
++.PP
++.B diffserv3
++(default)
++.br
++ Provides a simple, general-purpose Diffserv implementation with three tins:
++.br
++ Bulk (CS1), 6.25% threshold, generally low priority.
++.br
++ Best Effort (general), 100% threshold.
++.br
++ Voice (CS7, CS6, EF, VA, TOS4), 25% threshold, reduced Codel interval.
++
++.SH OTHER PARAMETERS
++.B memlimit
++LIMIT
++.br
++ Limit the memory consumed by Cake to LIMIT bytes. Note that this does
++not translate directly to queue size (so do not size this based on bandwidth
++delay product considerations, but rather on worst case acceptable memory
++consumption), as there is some overhead in the data structures containing the
++packets, especially for small packets.
++
++ By default, the limit is calculated based on the bandwidth and RTT
++settings.
++
++.PP
++.B wash
++
++.br
++ Traffic entering your diffserv domain is frequently mis-marked in
++transit from the perspective of your network, and traffic exiting yours may be
++mis-marked from the perspective of the transiting provider.
++
++Apply the wash option to clear all extra diffserv (but not ECN bits), after
++priority queuing has taken place.
++
++If you are shaping inbound, and cannot trust the diffserv markings (as is the
++case for Comcast Cable, among others), it is best to use a single queue
++"besteffort" mode with wash.
++
++.SH EXAMPLES
++# tc qdisc delete root dev eth0
++.br
++# tc qdisc add root dev eth0 cake bandwidth 9500Kbit pppoe-ptm ether-vlan
++.br
++# tc -s qdisc show dev eth0
++.br
++qdisc cake 8007: root refcnt 6 bandwidth 9500Kbit diffserv3 triple-isolate rtt 100.0ms ptm overhead 34 via-ethernet total_overhead 34 hard_header_len 14
++ Sent 0 bytes 0 pkt (dropped 0, overlimits 0 requeues 0)
++ backlog 0b 0p requeues 0
++ memory used: 0b of 4Mb
++ capacity estimate: 9500Kbit
++.br
++ Bulk Best Effort Voice
++.br
++ thresh 593744bit 9500Kbit 2375Kbit
++.br
++ target 30.6ms 5.0ms 7.6ms
++.br
++ interval 125.6ms 100.0ms 102.6ms
++.br
++ pk_delay 0us 0us 0us
++.br
++ av_delay 0us 0us 0us
++.br
++ sp_delay 0us 0us 0us
++.br
++ pkts 0 0 0
++.br
++ bytes 0 0 0
++.br
++ way_inds 0 0 0
++.br
++ way_miss 0 0 0
++.br
++ way_cols 0 0 0
++.br
++ drops 0 0 0
++.br
++ marks 0 0 0
++.br
++ ack_drop 0 0 0
++.br
++ sp_flows 0 0 0
++.br
++ bk_flows 0 0 0
++.br
++ un_flows 0 0 0
++.br
++ max_len 0 0 0
++.br
++
++After some use:
++.br
++# tc -s qdisc show dev eth0
++
++qdisc cake 8007: root refcnt 6 bandwidth 9500Kbit diffserv3 triple-isolate rtt 100.0ms ptm overhead 34 via-ethernet total_overhead 34 hard_header_len 14
++ Sent 110769306 bytes 313857 pkt (dropped 18, overlimits 741791 requeues 0)
++ backlog 0b 0p requeues 0
++ memory used: 110488b of 4Mb
++ capacity estimate: 9500Kbit
++.br
++ Bulk Best Effort Voice
++.br
++ thresh 593744bit 9500Kbit 2375Kbit
++.br
++ target 30.6ms 5.0ms 7.6ms
++.br
++ interval 125.6ms 100.0ms 102.6ms
++.br
++ pk_delay 16.0ms 545us 15us
++.br
++ av_delay 2.4ms 161us 3us
++.br
++ sp_delay 59us 1us 1us
++.br
++ pkts 32866 195815 85194
++.br
++ bytes 8132614 69517496 33122156
++.br
++ way_inds 0 29208 0
++.br
++ way_miss 7 173 17
++.br
++ way_cols 0 0 0
++.br
++ drops 10 7 1
++.br
++ marks 217 692 300
++.br
++ ack_drop 0 0 0
++.br
++ sp_flows 0 0 0
++.br
++ bk_flows 0 0 1
++.br
++ un_flows 0 0 0
++.br
++ max_len 3028 3012 3028
++.br
++
++.SH SEE ALSO
++.BR tc (8),
++.BR tc-codel (8),
++.BR tc-fq_codel (8),
++.BR tc-red (8)
++
++.SH AUTHORS
++Cake's principal author is Jonathan Morton, with contributions from
++Tony Ambardar, Kevin Darbyshire-Bryant, Toke Høiland-Jørgensen,
++Sebastian Moeller, Ryan Mounce, Dean Scarff, Nils Andreas Svee, and Dave Täht.
++
++This manual page was written by Loganaden Velvindron. Please report corrections
++to the Linux Networking mailing list <netdev@vger.kernel.org>.
+diff --git a/tc/Makefile b/tc/Makefile
+index 3716dd6a..69f50a6b 100644
--- a/tc/Makefile
+++ b/tc/Makefile
-@@ -66,6 +66,7 @@ TCMODULES += q_codel.o
+@@ -64,6 +64,7 @@ TCMODULES += em_meta.o
+ TCMODULES += q_mqprio.o
+ TCMODULES += q_codel.o
TCMODULES += q_fq_codel.o
++TCMODULES += q_cake.o
TCMODULES += q_fq.o
TCMODULES += q_pie.o
-+TCMODULES += q_cake.o
TCMODULES += q_hhf.o
- TCMODULES += q_clsact.o
- TCMODULES += e_bpf.o
+diff --git a/tc/q_cake.c b/tc/q_cake.c
+new file mode 100644
+index 00000000..44cadb63
--- /dev/null
+++ b/tc/q_cake.c
-@@ -0,0 +1,771 @@
+@@ -0,0 +1,770 @@
++/* SPDX-License-Identifier: (GPL-2.0 OR BSD-3-Clause) */
+/*
+ * Common Applications Kept Enhanced -- CAKE
+ *
-+ * Copyright (C) 2014-2015 Jonathan Morton <chromatix99@gmail.com>
++ * Copyright (C) 2014-2018 Jonathan Morton <chromatix99@gmail.com>
++ * Copyright (C) 2017-2018 Toke Høiland-Jørgensen <toke@toke.dk>
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions
@@ -138,8 +844,8 @@
+" [ flowblind | srchost | dsthost | hosts | flows |\n"
+" dual-srchost | dual-dsthost | triple-isolate* ]\n"
+" [ nat | nonat* ]\n"
-+" [ wash | nowash * ]\n"
-+" [ ack-filter | ack-filter-aggressive | no-ack-filter * ]\n"
++" [ wash | nowash* ]\n"
++" [ ack-filter | ack-filter-aggressive | no-ack-filter* ]\n"
+" [ memlimit LIMIT ]\n"
+" [ ptm | atm | noatm* ] [ overhead N | conservative | raw* ]\n"
+" [ mpu N ] [ ingress | egress* ]\n"
@@ -147,7 +853,7 @@
+}
+
+static int cake_parse_opt(struct qdisc_util *qu, int argc, char **argv,
-+ struct nlmsghdr *n)
++ struct nlmsghdr *n, const char *dev)
+{
+ int unlimited = 0;
+ unsigned bandwidth = 0;
@@ -215,8 +921,8 @@
+ interval = 1000000;
+ target = 50000;
+ } else if (strcmp(*argv, "interplanetary") == 0) {
-+ interval = 3600000000U;
-+ target = 5000;
++ interval = 1000000000;
++ target = 50000000;
+
+ } else if (strcmp(*argv, "besteffort") == 0) {
+ diffserv = 1;
@@ -351,23 +1057,6 @@
+ * active.
+ */
+
-+ } else if (strcmp(*argv, "total_overhead") == 0) {
-+ /*
-+ * This is the overhead cake accounts for; added here so
-+ * that cake's "tc -s qdisc" output can be directly
-+ * pasted into the tc command to instantate a new cake..
-+ */
-+ NEXT_ARG();
-+
-+ } else if (strcmp(*argv, "hard_header_len") == 0) {
-+ /*
-+ * This is the overhead the kernel automatically
-+ * accounted for; added here so that cake's "tc -s
-+ * qdisc" output can be directly pasted into the tc
-+ * command to instantiate a new cake..
-+ */
-+ NEXT_ARG();
-+
+ } else if (strcmp(*argv, "ethernet") == 0) {
+ /* ethernet pre-amble & interframe gap & FCS
+ * you may need to add vlan tag */
@@ -454,7 +1143,7 @@
+ addattr_l(n, 1024, TCA_CAKE_OVERHEAD, &overhead, sizeof(overhead));
+ if (overhead_override) {
+ unsigned zero = 0;
-+ addattr_l(n, 1024, TCA_CAKE_ETHERNET, &zero, sizeof(zero));
++ addattr_l(n, 1024, TCA_CAKE_RAW, &zero, sizeof(zero));
+ }
+ if (mpu > 0)
+ addattr_l(n, 1024, TCA_CAKE_MPU, &mpu, sizeof(mpu));
@@ -489,7 +1178,7 @@
+ unsigned interval = 0;
+ unsigned memlimit = 0;
+ int overhead = 0;
-+ int ethernet = 0;
++ int raw = 0;
+ int mpu = 0;
+ int atm = 0;
+ int nat = 0;
@@ -508,43 +1197,44 @@
+ if (tb[TCA_CAKE_BASE_RATE] &&
+ RTA_PAYLOAD(tb[TCA_CAKE_BASE_RATE]) >= sizeof(__u32)) {
+ bandwidth = rta_getattr_u32(tb[TCA_CAKE_BASE_RATE]);
-+ if(bandwidth)
-+ fprintf(f, "bandwidth %s ", sprint_rate(bandwidth, b1));
-+ else
-+ fprintf(f, "unlimited ");
++ if(bandwidth) {
++ print_uint(PRINT_JSON, "bandwidth", NULL, bandwidth);
++ print_string(PRINT_FP, NULL, "bandwidth %s ", sprint_rate(bandwidth, b1));
++ } else
++ print_string(PRINT_ANY, "bandwidth", "bandwidth %s ", "unlimited");
+ }
+ if (tb[TCA_CAKE_AUTORATE] &&
+ RTA_PAYLOAD(tb[TCA_CAKE_AUTORATE]) >= sizeof(__u32)) {
+ autorate = rta_getattr_u32(tb[TCA_CAKE_AUTORATE]);
+ if(autorate == 1)
-+ fprintf(f, "autorate_ingress ");
++ print_string(PRINT_ANY, "autorate", "autorate_%s ", "ingress");
+ else if(autorate)
-+ fprintf(f, "(?autorate?) ");
++ print_string(PRINT_ANY, "autorate", "(?autorate?) ", "unknown");
+ }
+ if (tb[TCA_CAKE_DIFFSERV_MODE] &&
+ RTA_PAYLOAD(tb[TCA_CAKE_DIFFSERV_MODE]) >= sizeof(__u32)) {
+ diffserv = rta_getattr_u32(tb[TCA_CAKE_DIFFSERV_MODE]);
+ switch(diffserv) {
+ case 1:
-+ fprintf(f, "besteffort ");
++ print_string(PRINT_ANY, "diffserv", "%s ", "besteffort");
+ break;
+ case 2:
-+ fprintf(f, "precedence ");
++ print_string(PRINT_ANY, "diffserv", "%s ", "precedence");
+ break;
+ case 3:
-+ fprintf(f, "diffserv8 ");
++ print_string(PRINT_ANY, "diffserv", "%s ", "diffserv8");
+ break;
+ case 4:
-+ fprintf(f, "diffserv4 ");
++ print_string(PRINT_ANY, "diffserv", "%s ", "diffserv4");
+ break;
+ case 5:
-+ fprintf(f, "diffserv-llt ");
++ print_string(PRINT_ANY, "diffserv", "%s ", "diffserv-llt");
+ break;
+ case 6:
-+ fprintf(f, "diffserv3 ");
++ print_string(PRINT_ANY, "diffserv", "%s ", "diffserv3");
+ break;
+ default:
-+ fprintf(f, "(?diffserv?) ");
++ print_string(PRINT_ANY, "diffserv", "(?diffserv?) ", "unknown");
+ break;
+ };
+ }
@@ -555,36 +1245,37 @@
+ flowmode &= ~64;
+ switch(flowmode) {
+ case 0:
-+ fprintf(f, "flowblind ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "flowblind");
+ break;
+ case 1:
-+ fprintf(f, "srchost ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "srchost");
+ break;
+ case 2:
-+ fprintf(f, "dsthost ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "dsthost");
+ break;
+ case 3:
-+ fprintf(f, "hosts ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "hosts");
+ break;
+ case 4:
-+ fprintf(f, "flows ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "flows");
+ break;
+ case 5:
-+ fprintf(f, "dual-srchost ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "dual-srchost");
+ break;
+ case 6:
-+ fprintf(f, "dual-dsthost ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "dual-dsthost");
+ break;
+ case 7:
-+ fprintf(f, "triple-isolate ");
++ print_string(PRINT_ANY, "flowmode", "%s ", "triple-isolate");
+ break;
+ default:
-+ fprintf(f, "(?flowmode?) ");
++ print_string(PRINT_ANY, "flowmode", "(?flowmode?) ", "unknown");
+ break;
+ };
+
+ if(nat)
-+ fprintf(f, "nat ");
++ print_string(PRINT_FP, NULL, "nat ", NULL);
++ print_bool(PRINT_JSON, "nat", NULL, nat);
+ }
+ if (tb[TCA_CAKE_WASH] &&
+ RTA_PAYLOAD(tb[TCA_CAKE_WASH]) >= sizeof(__u32)) {
@@ -610,9 +1301,8 @@
+ RTA_PAYLOAD(tb[TCA_CAKE_ACK_FILTER]) >= sizeof(__u32)) {
+ ack_filter = rta_getattr_u32(tb[TCA_CAKE_ACK_FILTER]);
+ }
-+ if (tb[TCA_CAKE_ETHERNET] &&
-+ RTA_PAYLOAD(tb[TCA_CAKE_ETHERNET]) >= sizeof(__u32)) {
-+ ethernet = rta_getattr_u32(tb[TCA_CAKE_ETHERNET]);
++ if (tb[TCA_CAKE_RAW]) {
++ raw = 1;
+ }
+ if (tb[TCA_CAKE_RTT] &&
+ RTA_PAYLOAD(tb[TCA_CAKE_RTT]) >= sizeof(__u32)) {
@@ -620,224 +1310,237 @@
+ }
+
+ if (wash)
-+ fprintf(f,"wash ");
++ print_string(PRINT_FP, NULL, "wash ", NULL);
++ print_bool(PRINT_JSON, "wash", NULL, wash);
+
+ if (ingress)
-+ fprintf(f,"ingress ");
++ print_string(PRINT_FP, NULL, "ingress ", NULL);
++ print_bool(PRINT_JSON, "ingress", NULL, ingress);
+
+ if (ack_filter == 0x0600)
-+ fprintf(f,"ack-filter-aggressive ");
++ print_string(PRINT_ANY, "ack-filter", "ack-filter-%s ", "aggressive");
+ else if (ack_filter)
-+ fprintf(f,"ack-filter ");
++ print_string(PRINT_ANY, "ack-filter", "ack-filter ", "enabled");
++ else
++ print_string(PRINT_JSON, "ack-filter", NULL, "disabled");
+
+ if (interval)
-+ fprintf(f, "rtt %s ", sprint_time(interval, b2));
-+
-+ if (!atm && overhead == ethernet) {
-+ fprintf(f, "raw ");
-+ } else {
-+ if (atm == 1)
-+ fprintf(f, "atm ");
-+ else if (atm == 2)
-+ fprintf(f, "ptm ");
-+ else
-+ fprintf(f, "noatm ");
-+
-+ fprintf(f, "overhead %d ", overhead);
-+
-+ /* This is actually the *amount* of automatic compensation, but
-+ * we only report its presence as a boolean for now.
-+ */
-+ if (ethernet)
-+ fprintf(f, "via-ethernet ");
-+ }
++ print_string(PRINT_FP, NULL, "rtt %s ", sprint_time(interval, b2));
++ print_uint(PRINT_JSON, "rtt", NULL, interval);
+
-+ /* unconditionally report the overhead and hard_header_len overhead the
-+ * kernel added automatically
-+ */
-+ fprintf(f, "total_overhead %d ", overhead);
-+ fprintf(f, "hard_header_len %d ", ethernet);
++ if (raw)
++ print_string(PRINT_FP, NULL, "raw ", NULL);
++ print_bool(PRINT_JSON, "raw", NULL, raw);
+
-+ if (mpu) {
-+ fprintf(f, "mpu %d ", mpu);
-+ }
++ if (atm == 1)
++ print_string(PRINT_ANY, "atm", "%s ", "atm");
++ else if (atm == 2)
++ print_string(PRINT_ANY, "atm", "%s ", "ptm");
++ else if (!raw)
++ print_string(PRINT_ANY, "atm", "%s ", "noatm");
+
-+ if (memlimit)
-+ fprintf(f, "memlimit %s", sprint_size(memlimit, b1));
++ print_uint(PRINT_ANY, "overhead", "overhead %d ", overhead);
++
++ if (mpu)
++ print_uint(PRINT_ANY, "mpu", "mpu %d ", mpu);
++
++ if (memlimit) {
++ print_uint(PRINT_JSON, "memlimit", NULL, memlimit);
++ print_string(PRINT_FP, NULL, "memlimit %s", sprint_size(memlimit, b1));
++ }
+
+ return 0;
+}
+
++#define FOR_EACH_TIN(xstats, tst, i) \
++ for(tst = xstats->tin_stats, i = 0; \
++ i < xstats->tin_cnt; \
++ i++, tst = ((void *) xstats->tin_stats) + xstats->tin_stats_size * i)
++
++static void cake_print_json_tin(struct tc_cake_tin_stats *tst)
++{
++ open_json_object(NULL);
++ print_uint(PRINT_JSON, "threshold_rate", NULL, tst->threshold_rate);
++ print_uint(PRINT_JSON, "target", NULL, tst->target_us);
++ print_uint(PRINT_JSON, "interval", NULL, tst->interval_us);
++ print_uint(PRINT_JSON, "peak_delay", NULL, tst->peak_delay_us);
++ print_uint(PRINT_JSON, "average_delay", NULL, tst->avge_delay_us);
++ print_uint(PRINT_JSON, "base_delay", NULL, tst->base_delay_us);
++ print_uint(PRINT_JSON, "sent_packets", NULL, tst->sent.packets);
++ print_uint(PRINT_JSON, "sent_bytes", NULL, tst->sent.bytes);
++ print_uint(PRINT_JSON, "way_indirect_hits", NULL, tst->way_indirect_hits);
++ print_uint(PRINT_JSON, "way_misses", NULL, tst->way_misses);
++ print_uint(PRINT_JSON, "way_collisions", NULL, tst->way_collisions);
++ print_uint(PRINT_JSON, "drops", NULL, tst->dropped.packets);
++ print_uint(PRINT_JSON, "ecn_mark", NULL, tst->ecn_marked.packets);
++ print_uint(PRINT_JSON, "ack_drops", NULL, tst->ack_drops.packets);
++ print_uint(PRINT_JSON, "sparse_flows", NULL, tst->sparse_flows);
++ print_uint(PRINT_JSON, "bulk_flows", NULL, tst->bulk_flows);
++ print_uint(PRINT_JSON, "unresponsive_flows", NULL, tst->unresponse_flows);
++ print_uint(PRINT_JSON, "max_pkt_len", NULL, tst->max_skblen);
++ close_json_object();
++}
++
+static int cake_print_xstats(struct qdisc_util *qu, FILE *f,
+ struct rtattr *xstats)
+{
-+ /* fq_codel stats format borrowed */
-+ struct tc_fq_codel_xstats *st;
+ struct tc_cake_xstats *stnc;
++ struct tc_cake_tin_stats *tst;
+ SPRINT_BUF(b1);
-+ SPRINT_BUF(b2);
++ int i;
+
+ if (xstats == NULL)
+ return 0;
+
-+ if (RTA_PAYLOAD(xstats) < sizeof(st->type))
++ if (RTA_PAYLOAD(xstats) < sizeof(*stnc))
+ return -1;
+
-+ st = RTA_DATA(xstats);
+ stnc = RTA_DATA(xstats);
+
-+ if (st->type == TCA_FQ_CODEL_XSTATS_QDISC && RTA_PAYLOAD(xstats) >= sizeof(*st)) {
-+ fprintf(f, " maxpacket %u drop_overlimit %u new_flow_count %u ecn_mark %u",
-+ st->qdisc_stats.maxpacket,
-+ st->qdisc_stats.drop_overlimit,
-+ st->qdisc_stats.new_flow_count,
-+ st->qdisc_stats.ecn_mark);
-+ fprintf(f, "\n new_flows_len %u old_flows_len %u",
-+ st->qdisc_stats.new_flows_len,
-+ st->qdisc_stats.old_flows_len);
-+ } else if (st->type == TCA_FQ_CODEL_XSTATS_CLASS && RTA_PAYLOAD(xstats) >= sizeof(*st)) {
-+ fprintf(f, " deficit %d count %u lastcount %u ldelay %s",
-+ st->class_stats.deficit,
-+ st->class_stats.count,
-+ st->class_stats.lastcount,
-+ sprint_time(st->class_stats.ldelay, b1));
-+ if (st->class_stats.dropping) {
-+ fprintf(f, " dropping");
-+ if (st->class_stats.drop_next < 0)
-+ fprintf(f, " drop_next -%s",
-+ sprint_time(-st->class_stats.drop_next, b1));
-+ else
-+ fprintf(f, " drop_next %s",
-+ sprint_time(st->class_stats.drop_next, b1));
-+ }
-+ } else if (stnc->version >= 1 && stnc->version < 0xFF
-+ && stnc->max_tins == TC_CAKE_MAX_TINS
-+ && RTA_PAYLOAD(xstats) >= offsetof(struct tc_cake_xstats, capacity_estimate))
-+ {
-+ int i;
-+
-+ if(stnc->version >= 3)
-+ fprintf(f, " memory used: %s of %s\n", sprint_size(stnc->memory_used, b1), sprint_size(stnc->memory_limit, b2));
-+
-+ if(stnc->version >= 2)
-+ fprintf(f, " capacity estimate: %s\n", sprint_rate(stnc->capacity_estimate, b1));
-+
-+ switch(stnc->tin_cnt) {
-+ case 3:
-+ fprintf(f, " Bulk Best Effort Voice\n");
-+ break;
-+
-+ case 4:
-+ fprintf(f, " Bulk Best Effort Video Voice\n");
-+ break;
-+
-+ case 5:
-+ fprintf(f, " Low Loss Best Effort Low Delay Bulk Net Control\n");
-+ break;
-+
-+ default:
-+ fprintf(f, " ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " Tin %u", i);
-+ fprintf(f, "\n");
-+ };
-+
-+ fprintf(f, " thresh ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12s", sprint_rate(stnc->threshold_rate[i], b1));
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " target ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12s", sprint_time(stnc->target_us[i], b1));
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " interval");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12s", sprint_time(stnc->interval_us[i], b1));
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " pk_delay");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12s", sprint_time(stnc->peak_delay_us[i], b1));
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " av_delay");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12s", sprint_time(stnc->avge_delay_us[i], b1));
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " sp_delay");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12s", sprint_time(stnc->base_delay_us[i], b1));
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " pkts ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->sent[i].packets);
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " bytes ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12llu", stnc->sent[i].bytes);
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " way_inds");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->way_indirect_hits[i]);
-+ fprintf(f, "\n");
-+
-+ fprintf(f, " way_miss");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->way_misses[i]);
-+ fprintf(f, "\n");
++ if (stnc->version < 0x101 ||
++ RTA_PAYLOAD(xstats) < (sizeof(struct tc_cake_xstats) +
++ stnc->tin_stats_size * stnc->tin_cnt))
++ return -1;
+
-+ fprintf(f, " way_cols");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->way_collisions[i]);
-+ fprintf(f, "\n");
++ print_uint(PRINT_JSON, "memory_used", NULL, stnc->memory_used);
++ print_uint(PRINT_JSON, "memory_limit", NULL, stnc->memory_limit);
++ print_uint(PRINT_JSON, "capacity_estimate", NULL, stnc->capacity_estimate);
++
++ print_string(PRINT_FP, NULL, " memory used: %s",
++ sprint_size(stnc->memory_used, b1));
++ print_string(PRINT_FP, NULL, " of %s\n",
++ sprint_size(stnc->memory_limit, b1));
++ print_string(PRINT_FP, NULL, " capacity estimate: %s\n",
++ sprint_rate(stnc->capacity_estimate, b1));
++
++ print_uint(PRINT_ANY, "min_transport_size", " min/max transport layer size: %10u",
++ stnc->min_trnlen);
++ print_uint(PRINT_ANY, "max_transport_size", " /%8u\n", stnc->max_trnlen);
++ print_uint(PRINT_ANY, "min_adj_size", " min/max overhead-adjusted size: %8u",
++ stnc->min_adjlen);
++ print_uint(PRINT_ANY, "max_adj_size", " /%8u\n", stnc->max_adjlen);
++ print_uint(PRINT_ANY, "avg_hdr_offset", " average transport hdr offset: %10u\n\n",
++ stnc->avg_trnoff);
++
++ if (is_json_context()) {
++ open_json_array(PRINT_JSON, "tins");
++ FOR_EACH_TIN(stnc, tst, i)
++ cake_print_json_tin(tst);
++ close_json_array(PRINT_JSON, NULL);
++ return 0;
++ }
+
-+ fprintf(f, " drops ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->dropped[i].packets);
-+ fprintf(f, "\n");
+
-+ fprintf(f, " marks ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->ecn_marked[i].packets);
-+ fprintf(f, "\n");
++ switch(stnc->tin_cnt) {
++ case 3:
++ fprintf(f, " Bulk Best Effort Voice\n");
++ break;
+
-+ if(stnc->version >= 5) {
-+ fprintf(f, " ack_drop");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->ack_drops[i].packets);
-+ fprintf(f, "\n");
-+ }
++ case 4:
++ fprintf(f, " Bulk Best Effort Video Voice\n");
++ break;
+
-+ fprintf(f, " sp_flows");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->sparse_flows[i]);
-+ fprintf(f, "\n");
++ case 5:
++ fprintf(f, " Low Loss Best Effort Low Delay Bulk Net Control\n");
++ break;
+
-+ fprintf(f, " bk_flows");
++ default:
++ fprintf(f, " ");
+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->bulk_flows[i]);
++ fprintf(f, " Tin %u", i);
+ fprintf(f, "\n");
++ };
++
++ fprintf(f, " thresh ");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12s", sprint_rate(tst->threshold_rate, b1));
++ fprintf(f, "\n");
++
++ fprintf(f, " target ");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12s", sprint_time(tst->target_us, b1));
++ fprintf(f, "\n");
++
++ fprintf(f, " interval");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12s", sprint_time(tst->interval_us, b1));
++ fprintf(f, "\n");
++
++ fprintf(f, " pk_delay");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12s", sprint_time(tst->peak_delay_us, b1));
++ fprintf(f, "\n");
++
++ fprintf(f, " av_delay");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12s", sprint_time(tst->avge_delay_us, b1));
++ fprintf(f, "\n");
++
++ fprintf(f, " sp_delay");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12s", sprint_time(tst->base_delay_us, b1));
++ fprintf(f, "\n");
++
++ fprintf(f, " pkts ");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->sent.packets);
++ fprintf(f, "\n");
++
++ fprintf(f, " bytes ");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12llu", tst->sent.bytes);
++ fprintf(f, "\n");
++
++ fprintf(f, " way_inds");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->way_indirect_hits);
++ fprintf(f, "\n");
++
++ fprintf(f, " way_miss");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->way_misses);
++ fprintf(f, "\n");
++
++ fprintf(f, " way_cols");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->way_collisions);
++ fprintf(f, "\n");
++
++ fprintf(f, " drops ");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->dropped.packets);
++ fprintf(f, "\n");
++
++ fprintf(f, " marks ");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->ecn_marked.packets);
++ fprintf(f, "\n");
++
++ fprintf(f, " ack_drop");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->ack_drops.packets);
++ fprintf(f, "\n");
++
++ fprintf(f, " sp_flows");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->sparse_flows);
++ fprintf(f, "\n");
++
++ fprintf(f, " bk_flows");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->bulk_flows);
++ fprintf(f, "\n");
++
++ fprintf(f, " un_flows");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->unresponse_flows);
++ fprintf(f, "\n");
++
++ fprintf(f, " max_len ");
++ FOR_EACH_TIN(stnc, tst, i)
++ fprintf(f, " %12u", tst->max_skblen);
++ fprintf(f, "\n");
+
-+ if(stnc->version >= 4) {
-+ fprintf(f, " un_flows");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->unresponse_flows[i]);
-+ fprintf(f, "\n");
-+ }
-+
-+ fprintf(f, " max_len ");
-+ for(i=0; i < stnc->tin_cnt; i++)
-+ fprintf(f, " %12u", stnc->max_skblen[i]);
-+ fprintf(f, "\n");
-+ } else {
-+ return -1;
-+ }
+ return 0;
+}
+