src/vnet/policer/police.h - fdio/vpp - Gitiles

 /*
  * Copyright (c) 2015 Cisco and/or its affiliates.
  * 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.
  */
 #ifndef __POLICE_H__
 #define __POLICE_H__

 typedef enum
 {
   POLICE_CONFORM = 0,
   POLICE_EXCEED = 1,
   POLICE_VIOLATE = 2,
 } policer_result_e;

 // This is the hardware representation of the policer.
 // To be multithread-safe, the policer is accessed through a spin-lock
 // on the lock field. (For a policer update operation, 24B needs to be
 // modified and this would be a challenge to do with atomic instructions.)
 // The structure is padded so that no other data is put into the same
 // 64B cache-line. This reduces cache-thrashing between threads.
 //
 // A note on scale:
 // The HW TSC tick is roughly one CPU clock cycle.
 // This is shifted to create a larger period, with a goal to be around 50usec.
 // The period time will vary based on CPU clock speed.
 // CPU speeds of 1Ghz to 8Ghz are targetted.
 // The shift amount is a constant 17 bits, resulting in a period between
 // 16usec (8Ghz CPU) and 131usec (1Ghz CPU).
 // The token_per_period computation takes into account the clock speed.
 //
 // The 32-bit bucket/limit supports about 850ms of burst on a 40GE port,
 // or 340ms on a 100GE port. If a larger burst is configured, then the
 // programmed value is simply capped at 2^32-1. If we needed to support
 // more than that, the bucket and limit fields could be expanded.
 //
 // tokens_per_period should be > 1000 to support 0.1% granularity.
 // To support lower rates (which would not meet this requirement), the packet
 // length, bucket, and limit values can be scaled. The scale is a power of 2
 // so the multiplication can be implemented as a shift. The control plane
 // computes the shift amount be the largest possible that still supports the
 // burst size. This makes the rate accuracy as high as possible.
 //
 // The 64-bit last_update_time supports a 4Ghz CPU without rollover for 100 years
 //
 // The lock field should be used for a spin-lock on the struct.

 #define POLICER_TICKS_PER_PERIOD_SHIFT 17
 #define POLICER_TICKS_PER_PERIOD       (1 << POLICER_TICKS_PER_PERIOD_SHIFT)

 typedef struct
 {

   u32 lock;			// for exclusive access to the struct

   u32 single_rate;		// 1 = single rate policer, 0 = two rate policer
   u32 color_aware;		// for hierarchical policing
   u32 scale;			// power-of-2 shift amount for lower rates
   u8 action[3];
   u8 mark_dscp[3];
   u8 pad[2];

   // Fields are marked as 2R if they are only used for a 2-rate policer,
   // and MOD if they are modified as part of the update operation.
   // 1 token = 1 byte.

   u32 cir_tokens_per_period;	// # of tokens for each period
   u32 pir_tokens_per_period;	// 2R

   u32 current_limit;
   u32 current_bucket;		// MOD
   u32 extended_limit;
   u32 extended_bucket;		// MOD

   u64 last_update_time;		// MOD
   u64 pad64;

 } policer_read_response_type_st;

 static inline policer_result_e
 vnet_police_packet (policer_read_response_type_st * policer,
 		    u32 packet_length,
 		    policer_result_e packet_color, u64 time)
 {
   u64 n_periods;
   u64 current_tokens, extended_tokens;
   policer_result_e result;

   // Scale packet length to support a wide range of speeds
   packet_length = packet_length << policer->scale;

   // Compute the number of policer periods that have passed since the last
   // operation.
   n_periods = time - policer->last_update_time;
   policer->last_update_time = time;

   // Since there is no background last-update-time adjustment, n_periods
   // could grow large if the policer is idle for a long time. This could
   // cause a 64-bit overflow when computing tokens_per_period * num_periods.
   // It will overflow if log2(n_periods) + log2(tokens_per_period) > 64.
   //
   // To mitigate this, the policer configuration algorithm insures that
   // tokens_per_period is less than 2^22, i.e. this is a 22 bit value not
   // a 32-bit value. Thus overflow will only occur if n_periods > 64-22 or
   // 42. 2^42 min-sized periods is 16us * 2^42, or 2 years. So this can
   // rarely occur. If overflow does happen, the only effect will be that
   // fewer tokens than the max burst will be added to the bucket for this
   // packet. This constraint on tokens_per_period lets the ucode omit
   // code to dynamically check for or prevent the overflow.

   if (policer->single_rate)
     {

       // Compute number of tokens for this time period
       current_tokens =
 	policer->current_bucket + n_periods * policer->cir_tokens_per_period;
       if (current_tokens > policer->current_limit)
 	{
 	  current_tokens = policer->current_limit;
 	}

       extended_tokens =
 	policer->extended_bucket + n_periods * policer->cir_tokens_per_period;
       if (extended_tokens > policer->extended_limit)
 	{
 	  extended_tokens = policer->extended_limit;
 	}

       // Determine color

       if ((!policer->color_aware || (packet_color == POLICE_CONFORM))
 	  && (current_tokens >= packet_length))
 	{
 	  policer->current_bucket = current_tokens - packet_length;
 	  policer->extended_bucket = extended_tokens - packet_length;
 	  result = POLICE_CONFORM;
 	}
       else if ((!policer->color_aware || (packet_color != POLICE_VIOLATE))
 	       && (extended_tokens >= packet_length))
 	{
 	  policer->current_bucket = current_tokens;
 	  policer->extended_bucket = extended_tokens - packet_length;
 	  result = POLICE_EXCEED;
 	}
       else
 	{
 	  policer->current_bucket = current_tokens;
 	  policer->extended_bucket = extended_tokens;
 	  result = POLICE_VIOLATE;
 	}

     }
   else
     {
       // Two-rate policer

       // Compute number of tokens for this time period
       current_tokens =
 	policer->current_bucket + n_periods * policer->cir_tokens_per_period;
       extended_tokens =
 	policer->extended_bucket + n_periods * policer->pir_tokens_per_period;
       if (current_tokens > policer->current_limit)
 	{
 	  current_tokens = policer->current_limit;
 	}
       if (extended_tokens > policer->extended_limit)
 	{
 	  extended_tokens = policer->extended_limit;
 	}

       // Determine color

       if ((policer->color_aware && (packet_color == POLICE_VIOLATE))
 	  || (extended_tokens < packet_length))
 	{
 	  policer->current_bucket = current_tokens;
 	  policer->extended_bucket = extended_tokens;
 	  result = POLICE_VIOLATE;
 	}
       else if ((policer->color_aware && (packet_color == POLICE_EXCEED))
 	       || (current_tokens < packet_length))
 	{
 	  policer->current_bucket = current_tokens;
 	  policer->extended_bucket = extended_tokens - packet_length;
 	  result = POLICE_EXCEED;
 	}
       else
 	{
 	  policer->current_bucket = current_tokens - packet_length;
 	  policer->extended_bucket = extended_tokens - packet_length;
 	  result = POLICE_CONFORM;
 	}
     }
   return result;
 }

 #endif // __POLICE_H__

 /*
  * fd.io coding-style-patch-verification: ON
  *
  * Local Variables:
  * eval: (c-set-style "gnu")
  * End:
  */
	/*
	* Copyright (c) 2015 Cisco and/or its affiliates.
	* 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.
	*/
	#ifndef __POLICE_H__
	#define __POLICE_H__

	typedef enum
	{
	POLICE_CONFORM = 0,
	POLICE_EXCEED = 1,
	POLICE_VIOLATE = 2,
	} policer_result_e;

	// This is the hardware representation of the policer.
	// To be multithread-safe, the policer is accessed through a spin-lock
	// on the lock field. (For a policer update operation, 24B needs to be
	// modified and this would be a challenge to do with atomic instructions.)
	// The structure is padded so that no other data is put into the same
	// 64B cache-line. This reduces cache-thrashing between threads.
	//
	// A note on scale:
	// The HW TSC tick is roughly one CPU clock cycle.
	// This is shifted to create a larger period, with a goal to be around 50usec.
	// The period time will vary based on CPU clock speed.
	// CPU speeds of 1Ghz to 8Ghz are targetted.
	// The shift amount is a constant 17 bits, resulting in a period between
	// 16usec (8Ghz CPU) and 131usec (1Ghz CPU).
	// The token_per_period computation takes into account the clock speed.
	//
	// The 32-bit bucket/limit supports about 850ms of burst on a 40GE port,
	// or 340ms on a 100GE port. If a larger burst is configured, then the
	// programmed value is simply capped at 2^32-1. If we needed to support
	// more than that, the bucket and limit fields could be expanded.
	//
	// tokens_per_period should be > 1000 to support 0.1% granularity.
	// To support lower rates (which would not meet this requirement), the packet
	// length, bucket, and limit values can be scaled. The scale is a power of 2
	// so the multiplication can be implemented as a shift. The control plane
	// computes the shift amount be the largest possible that still supports the
	// burst size. This makes the rate accuracy as high as possible.
	//
	// The 64-bit last_update_time supports a 4Ghz CPU without rollover for 100 years
	//
	// The lock field should be used for a spin-lock on the struct.

	#define POLICER_TICKS_PER_PERIOD_SHIFT 17
	#define POLICER_TICKS_PER_PERIOD (1 << POLICER_TICKS_PER_PERIOD_SHIFT)

	typedef struct
	{

	u32 lock; // for exclusive access to the struct

	u32 single_rate; // 1 = single rate policer, 0 = two rate policer
	u32 color_aware; // for hierarchical policing
	u32 scale; // power-of-2 shift amount for lower rates
	u8 action[3];
	u8 mark_dscp[3];
	u8 pad[2];

	// Fields are marked as 2R if they are only used for a 2-rate policer,
	// and MOD if they are modified as part of the update operation.
	// 1 token = 1 byte.

	u32 cir_tokens_per_period; // # of tokens for each period
	u32 pir_tokens_per_period; // 2R

	u32 current_limit;
	u32 current_bucket; // MOD
	u32 extended_limit;
	u32 extended_bucket; // MOD

	u64 last_update_time; // MOD
	u64 pad64;

	} policer_read_response_type_st;

	static inline policer_result_e
	vnet_police_packet (policer_read_response_type_st * policer,
	u32 packet_length,
	policer_result_e packet_color, u64 time)
	{
	u64 n_periods;
	u64 current_tokens, extended_tokens;
	policer_result_e result;

	// Scale packet length to support a wide range of speeds
	packet_length = packet_length << policer->scale;

	// Compute the number of policer periods that have passed since the last
	// operation.
	n_periods = time - policer->last_update_time;
	policer->last_update_time = time;

	// Since there is no background last-update-time adjustment, n_periods
	// could grow large if the policer is idle for a long time. This could
	// cause a 64-bit overflow when computing tokens_per_period * num_periods.
	// It will overflow if log2(n_periods) + log2(tokens_per_period) > 64.
	//
	// To mitigate this, the policer configuration algorithm insures that
	// tokens_per_period is less than 2^22, i.e. this is a 22 bit value not
	// a 32-bit value. Thus overflow will only occur if n_periods > 64-22 or
	// 42. 2^42 min-sized periods is 16us * 2^42, or 2 years. So this can
	// rarely occur. If overflow does happen, the only effect will be that
	// fewer tokens than the max burst will be added to the bucket for this
	// packet. This constraint on tokens_per_period lets the ucode omit
	// code to dynamically check for or prevent the overflow.

	if (policer->single_rate)
	{

	// Compute number of tokens for this time period
	current_tokens =
	policer->current_bucket + n_periods * policer->cir_tokens_per_period;
	if (current_tokens > policer->current_limit)
	{
	current_tokens = policer->current_limit;
	}

	extended_tokens =
	policer->extended_bucket + n_periods * policer->cir_tokens_per_period;
	if (extended_tokens > policer->extended_limit)
	{
	extended_tokens = policer->extended_limit;
	}

	// Determine color

	if ((!policer->color_aware \|\| (packet_color == POLICE_CONFORM))
	&& (current_tokens >= packet_length))
	{
	policer->current_bucket = current_tokens - packet_length;
	policer->extended_bucket = extended_tokens - packet_length;
	result = POLICE_CONFORM;
	}
	else if ((!policer->color_aware \|\| (packet_color != POLICE_VIOLATE))
	&& (extended_tokens >= packet_length))
	{
	policer->current_bucket = current_tokens;
	policer->extended_bucket = extended_tokens - packet_length;
	result = POLICE_EXCEED;
	}
	else
	{
	policer->current_bucket = current_tokens;
	policer->extended_bucket = extended_tokens;
	result = POLICE_VIOLATE;
	}

	}
	else
	{
	// Two-rate policer

	// Compute number of tokens for this time period
	current_tokens =
	policer->current_bucket + n_periods * policer->cir_tokens_per_period;
	extended_tokens =
	policer->extended_bucket + n_periods * policer->pir_tokens_per_period;
	if (current_tokens > policer->current_limit)
	{
	current_tokens = policer->current_limit;
	}
	if (extended_tokens > policer->extended_limit)
	{
	extended_tokens = policer->extended_limit;
	}

	// Determine color

	if ((policer->color_aware && (packet_color == POLICE_VIOLATE))
	\|\| (extended_tokens < packet_length))
	{
	policer->current_bucket = current_tokens;
	policer->extended_bucket = extended_tokens;
	result = POLICE_VIOLATE;
	}
	else if ((policer->color_aware && (packet_color == POLICE_EXCEED))
	\|\| (current_tokens < packet_length))
	{
	policer->current_bucket = current_tokens;
	policer->extended_bucket = extended_tokens - packet_length;
	result = POLICE_EXCEED;
	}
	else
	{
	policer->current_bucket = current_tokens - packet_length;
	policer->extended_bucket = extended_tokens - packet_length;
	result = POLICE_CONFORM;
	}
	}
	return result;
	}

	#endif // __POLICE_H__

	/*
	* fd.io coding-style-patch-verification: ON
	*
	* Local Variables:
	* eval: (c-set-style "gnu")
	* End:
	*/