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rte_red.h(3) DPDK rte_red.h(3)

NAME

rte_red.h

SYNOPSIS

#include <stdint.h>
#include <limits.h>
#include <rte_debug.h>
#include <rte_cycles.h>
#include <rte_branch_prediction.h>

Data Structures


struct rte_red_params
struct rte_red_config
struct rte_red

Macros


#define RTE_RED_SCALING 10
#define RTE_RED_S (1 << 22)
#define RTE_RED_MAX_TH_MAX 1023
#define RTE_RED_WQ_LOG2_MIN 1
#define RTE_RED_WQ_LOG2_MAX 12
#define RTE_RED_MAXP_INV_MIN 1
#define RTE_RED_MAXP_INV_MAX 255
#define RTE_RED_2POW16 (1<<16)

Functions


int rte_red_rt_data_init (struct rte_red *red)
Initialises run-time data. int rte_red_config_init (struct rte_red_config *red_cfg, const uint16_t wq_log2, const uint16_t min_th, const uint16_t max_th, const uint16_t maxp_inv)
Configures a single RED configuration parameter structure. static uint32_t rte_fast_rand (void)
Generate random number for RED. static uint16_t __rte_red_calc_qempty_factor (uint8_t wq_log2, uint16_t m)
calculate factor to scale average queue size when queue becomes empty static int rte_red_enqueue_empty (const struct rte_red_config *red_cfg, struct rte_red *red, const uint64_t time)
Updates queue average in condition when queue is empty. static int __rte_red_drop (const struct rte_red_config *red_cfg, struct rte_red *red)
make a decision to drop or enqueue a packet based on mark probability criteria static int rte_red_enqueue_nonempty (const struct rte_red_config *red_cfg, struct rte_red *red, const unsigned q)
Decides if new packet should be enqueued or dropped in queue non-empty case. static int rte_red_enqueue (const struct rte_red_config *red_cfg, struct rte_red *red, const unsigned q, const uint64_t time)
Decides if new packet should be enqueued or dropped Updates run time data based on new queue size value. Based on new queue average and RED configuration parameters gives verdict whether to enqueue or drop the packet. static void rte_red_mark_queue_empty (struct rte_red *red, const uint64_t time)
Callback to records time that queue became empty.

Variables


uint32_t rte_red_rand_val

Detailed Description

RTE Random Early Detection (RED)

Definition in file rte_red.h.

Macro Definition Documentation

#define RTE_RED_SCALING 10

Fraction size for fixed-point

Definition at line 23 of file rte_red.h.

#define RTE_RED_S (1 << 22)

Packet size multiplied by number of leaf queues

Definition at line 24 of file rte_red.h.

#define RTE_RED_MAX_TH_MAX 1023

Max threshold limit in fixed point format

Definition at line 25 of file rte_red.h.

#define RTE_RED_WQ_LOG2_MIN 1

Min inverse filter weight value

Definition at line 26 of file rte_red.h.

#define RTE_RED_WQ_LOG2_MAX 12

Max inverse filter weight value

Definition at line 27 of file rte_red.h.

#define RTE_RED_MAXP_INV_MIN 1

Min inverse mark probability value

Definition at line 28 of file rte_red.h.

#define RTE_RED_MAXP_INV_MAX 255

Max inverse mark probability value

Definition at line 29 of file rte_red.h.

#define RTE_RED_2POW16 (1<<16)

2 power 16

Definition at line 30 of file rte_red.h.

Function Documentation

int rte_red_rt_data_init (struct rte_red * red)

Initialises run-time data.

Parameters:

red [in,out] data pointer to RED runtime data

Returns:

Operation status

Return values:

0 success
!0 error

int rte_red_config_init (struct rte_red_config * red_cfg, const uint16_t wq_log2, const uint16_t min_th, const uint16_t max_th, const uint16_t maxp_inv)

Configures a single RED configuration parameter structure.

Parameters:

red_cfg [in,out] config pointer to a RED configuration parameter structure
wq_log2 [in] log2 of the filter weight, valid range is: RTE_RED_WQ_LOG2_MIN <= wq_log2 <= RTE_RED_WQ_LOG2_MAX
min_th [in] queue minimum threshold in number of packets
max_th [in] queue maximum threshold in number of packets
maxp_inv [in] inverse maximum mark probability

Returns:

Operation status

Return values:

0 success
!0 error

static uint32_t rte_fast_rand (void) [inline], [static]

Generate random number for RED. Implementation based on: http://software.intel.com/en-us/articles/fast-random-number-generator-on-the-intel-pentiumr-4-processor/

10 bit shift has been found through empirical tests (was 16).

Returns:

Random number between 0 and (2^22 - 1)

Definition at line 116 of file rte_red.h.

static uint16_t __rte_red_calc_qempty_factor (uint8_t wq_log2, uint16_t m) [inline], [static]

calculate factor to scale average queue size when queue becomes empty

Parameters:

wq_log2 [in] where EWMA filter weight wq = 1/(2 ^ wq_log2)
m [in] exponent in the computed value (1 - wq) ^ m

Returns:

computed value

Return values:

((1 - wq) ^ m) scaled in fixed-point format

Basic math tells us that: a^b = 2^(b * log2(a) )

in our case: a = (1-Wq) b = m Wq = 1/ (2^log2n)

So we are computing this equation: factor = 2 ^ ( m * log2(1-Wq))

First we are computing: n = m * log2(1-Wq)

To avoid dealing with signed numbers log2 values are positive but they should be negative because (1-Wq) is always < 1. Contents of log2 table values are also scaled for precision.

The tricky part is computing 2^n, for this I split n into integer part and fraction part. f - is fraction part of n n - is integer part of original n

Now using basic math we compute 2^n: 2^(f+n) = 2^f * 2^n 2^f - we use lookup table 2^n - can be replaced with bit shift right operations

Definition at line 133 of file rte_red.h.

static int rte_red_enqueue_empty (const struct rte_red_config * red_cfg, struct rte_red * red, const uint64_t time) [inline], [static]

Updates queue average in condition when queue is empty. Note: packet is never dropped in this particular case.

Parameters:

red_cfg [in] config pointer to a RED configuration parameter structure
red [in,out] data pointer to RED runtime data
time [in] current time stamp

Returns:

Operation status

Return values:

0 enqueue the packet
1 drop the packet based on max threshold criterion
2 drop the packet based on mark probability criterion

We compute avg but we don't compare avg against min_th or max_th, nor calculate drop probability

m is the number of packets that might have arrived while the queue was empty. In this case we have time stamps provided by scheduler in byte units (bytes transmitted on network port). Such time stamp translates into time units as port speed is fixed but such approach simplifies the code.

Check that m will fit into 16-bit unsigned integer

Definition at line 196 of file rte_red.h.

static int __rte_red_drop (const struct rte_red_config * red_cfg, struct rte_red * red) [inline], [static]

make a decision to drop or enqueue a packet based on mark probability criteria Drop probability (Sally Floyd and Van Jacobson):

pb = (1 / maxp_inv) * (avg - min_th) / (max_th - min_th) pa = pb / (2 - count * pb)


(1 / maxp_inv) * (avg - min_th)
---------------------------------
max_th - min_th


pa = ----------------------------------------------- count * (1 / maxp_inv) * (avg - min_th) 2 - ----------------------------------------- max_th - min_th


avg - min_th


pa = ----------------------------------------------------------- 2 * (max_th - min_th) * maxp_inv - count * (avg - min_th)

We define pa_const as: pa_const = 2 * (max_th - min_th) * maxp_inv. Then:


avg - min_th


pa = ----------------------------------- pa_const - count * (avg - min_th)

Parameters:

red_cfg [in] config pointer to structure defining RED parameters
red [in,out] data pointer to RED runtime data

Returns:

operation status

Return values:

0 enqueue the packet
1 drop the packet

Definition at line 274 of file rte_red.h.

static int rte_red_enqueue_nonempty (const struct rte_red_config * red_cfg, struct rte_red * red, const unsigned q) [inline], [static]

Decides if new packet should be enqueued or dropped in queue non-empty case.

Parameters:

red_cfg [in] config pointer to a RED configuration parameter structure
red [in,out] data pointer to RED runtime data
q [in] current queue size (measured in packets)

Returns:

Operation status

Return values:

0 enqueue the packet
1 drop the packet based on max threshold criterion
2 drop the packet based on mark probability criterion

EWMA filter (Sally Floyd and Van Jacobson): avg = (1 - wq) * avg + wq * q avg = avg + q * wq - avg * wq

We select: wq = 2^(-n). Let scaled version of avg be: avg_s = avg * 2^(N+n). We get: avg_s = avg_s + q * 2^N - avg_s * 2^(-n)

By using shift left/right operations, we get: avg_s = avg_s + (q << N) - (avg_s >> n) avg_s += (q << N) - (avg_s >> n)

Definition at line 313 of file rte_red.h.

static int rte_red_enqueue (const struct rte_red_config * red_cfg, struct rte_red * red, const unsigned q, const uint64_t time) [inline], [static]

Decides if new packet should be enqueued or dropped Updates run time data based on new queue size value. Based on new queue average and RED configuration parameters gives verdict whether to enqueue or drop the packet.

Parameters:

red_cfg [in] config pointer to a RED configuration parameter structure
red [in,out] data pointer to RED runtime data
q [in] updated queue size in packets
time [in] current time stamp

Returns:

Operation status

Return values:

0 enqueue the packet
1 drop the packet based on max threshold criteria
2 drop the packet based on mark probability criteria

Definition at line 375 of file rte_red.h.

static void rte_red_mark_queue_empty (struct rte_red * red, const uint64_t time) [inline], [static]

Callback to records time that queue became empty.

Parameters:

red [in,out] data pointer to RED runtime data
time [in] current time stamp

Definition at line 397 of file rte_red.h.

Variable Documentation

uint32_t rte_red_rand_val

Externs

Author

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Thu May 23 2024 Version 23.11.0