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/*
* Copyright ( c ) 2003 Patrick McHardy , < kaber @ trash . net >
*
* This program is free software ; you can redistribute it and / or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation ; either version 2
* of the License , or ( at your option ) any later version .
*
* 2003 - 10 - 17 - Ported from altq
*/
/*
* Copyright ( c ) 1997 - 1999 Carnegie Mellon University . All Rights Reserved .
*
* Permission to use , copy , modify , and distribute this software and
* its documentation is hereby granted ( including for commercial or
* for - profit use ) , provided that both the copyright notice and this
* permission notice appear in all copies of the software , derivative
* works , or modified versions , and any portions thereof .
*
* THIS SOFTWARE IS EXPERIMENTAL AND IS KNOWN TO HAVE BUGS , SOME OF
* WHICH MAY HAVE SERIOUS CONSEQUENCES . CARNEGIE MELLON PROVIDES THIS
* SOFTWARE IN ITS ` ` AS IS ' ' CONDITION , AND ANY EXPRESS OR IMPLIED
* WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED . IN NO EVENT SHALL CARNEGIE MELLON UNIVERSITY BE LIABLE
* FOR ANY DIRECT , INDIRECT , INCIDENTAL , SPECIAL , EXEMPLARY , OR
* CONSEQUENTIAL DAMAGES ( INCLUDING , BUT NOT LIMITED TO , PROCUREMENT
* OF SUBSTITUTE GOODS OR SERVICES ; LOSS OF USE , DATA , OR PROFITS ; OR
* BUSINESS INTERRUPTION ) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY , WHETHER IN CONTRACT , STRICT LIABILITY , OR TORT
* ( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE
* USE OF THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE .
*
* Carnegie Mellon encourages ( but does not require ) users of this
* software to return any improvements or extensions that they make ,
* and to grant Carnegie Mellon the rights to redistribute these
* changes without encumbrance .
*/
/*
* H - FSC is described in Proceedings of SIGCOMM ' 97 ,
* " A Hierarchical Fair Service Curve Algorithm for Link-Sharing,
* Real - Time and Priority Service "
* by Ion Stoica , Hui Zhang , and T . S . Eugene Ng .
*
* Oleg Cherevko < olwi @ aq . ml . com . ua > added the upperlimit for link - sharing .
* when a class has an upperlimit , the fit - time is computed from the
* upperlimit service curve . the link - sharing scheduler does not schedule
* a class whose fit - time exceeds the current time .
*/
# include <linux/kernel.h>
# include <linux/module.h>
# include <linux/types.h>
# include <linux/errno.h>
# include <linux/compiler.h>
# include <linux/spinlock.h>
# include <linux/skbuff.h>
# include <linux/string.h>
# include <linux/slab.h>
# include <linux/list.h>
# include <linux/rbtree.h>
# include <linux/init.h>
# include <linux/rtnetlink.h>
# include <linux/pkt_sched.h>
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# include <net/netlink.h>
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# include <net/pkt_sched.h>
# include <net/pkt_cls.h>
# include <asm/div64.h>
/*
* kernel internal service curve representation :
* coordinates are given by 64 bit unsigned integers .
* x - axis : unit is clock count .
* y - axis : unit is byte .
*
* The service curve parameters are converted to the internal
* representation . The slope values are scaled to avoid overflow .
* the inverse slope values as well as the y - projection of the 1 st
* segment are kept in order to to avoid 64 - bit divide operations
* that are expensive on 32 - bit architectures .
*/
struct internal_sc
{
u64 sm1 ; /* scaled slope of the 1st segment */
u64 ism1 ; /* scaled inverse-slope of the 1st segment */
u64 dx ; /* the x-projection of the 1st segment */
u64 dy ; /* the y-projection of the 1st segment */
u64 sm2 ; /* scaled slope of the 2nd segment */
u64 ism2 ; /* scaled inverse-slope of the 2nd segment */
} ;
/* runtime service curve */
struct runtime_sc
{
u64 x ; /* current starting position on x-axis */
u64 y ; /* current starting position on y-axis */
u64 sm1 ; /* scaled slope of the 1st segment */
u64 ism1 ; /* scaled inverse-slope of the 1st segment */
u64 dx ; /* the x-projection of the 1st segment */
u64 dy ; /* the y-projection of the 1st segment */
u64 sm2 ; /* scaled slope of the 2nd segment */
u64 ism2 ; /* scaled inverse-slope of the 2nd segment */
} ;
enum hfsc_class_flags
{
HFSC_RSC = 0x1 ,
HFSC_FSC = 0x2 ,
HFSC_USC = 0x4
} ;
struct hfsc_class
{
u32 classid ; /* class id */
unsigned int refcnt ; /* usage count */
struct gnet_stats_basic bstats ;
struct gnet_stats_queue qstats ;
struct gnet_stats_rate_est rate_est ;
unsigned int level ; /* class level in hierarchy */
struct tcf_proto * filter_list ; /* filter list */
unsigned int filter_cnt ; /* filter count */
struct hfsc_sched * sched ; /* scheduler data */
struct hfsc_class * cl_parent ; /* parent class */
struct list_head siblings ; /* sibling classes */
struct list_head children ; /* child classes */
struct Qdisc * qdisc ; /* leaf qdisc */
struct rb_node el_node ; /* qdisc's eligible tree member */
struct rb_root vt_tree ; /* active children sorted by cl_vt */
struct rb_node vt_node ; /* parent's vt_tree member */
struct rb_root cf_tree ; /* active children sorted by cl_f */
struct rb_node cf_node ; /* parent's cf_heap member */
struct list_head hlist ; /* hash list member */
struct list_head dlist ; /* drop list member */
u64 cl_total ; /* total work in bytes */
u64 cl_cumul ; /* cumulative work in bytes done by
real - time criteria */
u64 cl_d ; /* deadline*/
u64 cl_e ; /* eligible time */
u64 cl_vt ; /* virtual time */
u64 cl_f ; /* time when this class will fit for
link - sharing , max ( myf , cfmin ) */
u64 cl_myf ; /* my fit-time (calculated from this
class ' s own upperlimit curve ) */
u64 cl_myfadj ; /* my fit-time adjustment (to cancel
history dependence ) */
u64 cl_cfmin ; /* earliest children's fit-time (used
with cl_myf to obtain cl_f ) */
u64 cl_cvtmin ; /* minimal virtual time among the
children fit for link - sharing
( monotonic within a period ) */
u64 cl_vtadj ; /* intra-period cumulative vt
adjustment */
u64 cl_vtoff ; /* inter-period cumulative vt offset */
u64 cl_cvtmax ; /* max child's vt in the last period */
u64 cl_cvtoff ; /* cumulative cvtmax of all periods */
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u64 cl_pcvtoff ; /* parent's cvtoff at initialization
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time */
struct internal_sc cl_rsc ; /* internal real-time service curve */
struct internal_sc cl_fsc ; /* internal fair service curve */
struct internal_sc cl_usc ; /* internal upperlimit service curve */
struct runtime_sc cl_deadline ; /* deadline curve */
struct runtime_sc cl_eligible ; /* eligible curve */
struct runtime_sc cl_virtual ; /* virtual curve */
struct runtime_sc cl_ulimit ; /* upperlimit curve */
unsigned long cl_flags ; /* which curves are valid */
unsigned long cl_vtperiod ; /* vt period sequence number */
unsigned long cl_parentperiod ; /* parent's vt period sequence number*/
unsigned long cl_nactive ; /* number of active children */
} ;
# define HFSC_HSIZE 16
struct hfsc_sched
{
u16 defcls ; /* default class id */
struct hfsc_class root ; /* root class */
struct list_head clhash [ HFSC_HSIZE ] ; /* class hash */
struct rb_root eligible ; /* eligible tree */
struct list_head droplist ; /* active leaf class list (for
dropping ) */
struct sk_buff_head requeue ; /* requeued packet */
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struct qdisc_watchdog watchdog ; /* watchdog timer */
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} ;
# define HT_INFINITY 0xffffffffffffffffULL /* infinite time value */
/*
* eligible tree holds backlogged classes being sorted by their eligible times .
* there is one eligible tree per hfsc instance .
*/
static void
eltree_insert ( struct hfsc_class * cl )
{
struct rb_node * * p = & cl - > sched - > eligible . rb_node ;
struct rb_node * parent = NULL ;
struct hfsc_class * cl1 ;
while ( * p ! = NULL ) {
parent = * p ;
cl1 = rb_entry ( parent , struct hfsc_class , el_node ) ;
if ( cl - > cl_e > = cl1 - > cl_e )
p = & parent - > rb_right ;
else
p = & parent - > rb_left ;
}
rb_link_node ( & cl - > el_node , parent , p ) ;
rb_insert_color ( & cl - > el_node , & cl - > sched - > eligible ) ;
}
static inline void
eltree_remove ( struct hfsc_class * cl )
{
rb_erase ( & cl - > el_node , & cl - > sched - > eligible ) ;
}
static inline void
eltree_update ( struct hfsc_class * cl )
{
eltree_remove ( cl ) ;
eltree_insert ( cl ) ;
}
/* find the class with the minimum deadline among the eligible classes */
static inline struct hfsc_class *
eltree_get_mindl ( struct hfsc_sched * q , u64 cur_time )
{
struct hfsc_class * p , * cl = NULL ;
struct rb_node * n ;
for ( n = rb_first ( & q - > eligible ) ; n ! = NULL ; n = rb_next ( n ) ) {
p = rb_entry ( n , struct hfsc_class , el_node ) ;
if ( p - > cl_e > cur_time )
break ;
if ( cl = = NULL | | p - > cl_d < cl - > cl_d )
cl = p ;
}
return cl ;
}
/* find the class with minimum eligible time among the eligible classes */
static inline struct hfsc_class *
eltree_get_minel ( struct hfsc_sched * q )
{
struct rb_node * n ;
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n = rb_first ( & q - > eligible ) ;
if ( n = = NULL )
return NULL ;
return rb_entry ( n , struct hfsc_class , el_node ) ;
}
/*
* vttree holds holds backlogged child classes being sorted by their virtual
* time . each intermediate class has one vttree .
*/
static void
vttree_insert ( struct hfsc_class * cl )
{
struct rb_node * * p = & cl - > cl_parent - > vt_tree . rb_node ;
struct rb_node * parent = NULL ;
struct hfsc_class * cl1 ;
while ( * p ! = NULL ) {
parent = * p ;
cl1 = rb_entry ( parent , struct hfsc_class , vt_node ) ;
if ( cl - > cl_vt > = cl1 - > cl_vt )
p = & parent - > rb_right ;
else
p = & parent - > rb_left ;
}
rb_link_node ( & cl - > vt_node , parent , p ) ;
rb_insert_color ( & cl - > vt_node , & cl - > cl_parent - > vt_tree ) ;
}
static inline void
vttree_remove ( struct hfsc_class * cl )
{
rb_erase ( & cl - > vt_node , & cl - > cl_parent - > vt_tree ) ;
}
static inline void
vttree_update ( struct hfsc_class * cl )
{
vttree_remove ( cl ) ;
vttree_insert ( cl ) ;
}
static inline struct hfsc_class *
vttree_firstfit ( struct hfsc_class * cl , u64 cur_time )
{
struct hfsc_class * p ;
struct rb_node * n ;
for ( n = rb_first ( & cl - > vt_tree ) ; n ! = NULL ; n = rb_next ( n ) ) {
p = rb_entry ( n , struct hfsc_class , vt_node ) ;
if ( p - > cl_f < = cur_time )
return p ;
}
return NULL ;
}
/*
* get the leaf class with the minimum vt in the hierarchy
*/
static struct hfsc_class *
vttree_get_minvt ( struct hfsc_class * cl , u64 cur_time )
{
/* if root-class's cfmin is bigger than cur_time nothing to do */
if ( cl - > cl_cfmin > cur_time )
return NULL ;
while ( cl - > level > 0 ) {
cl = vttree_firstfit ( cl , cur_time ) ;
if ( cl = = NULL )
return NULL ;
/*
* update parent ' s cl_cvtmin .
*/
if ( cl - > cl_parent - > cl_cvtmin < cl - > cl_vt )
cl - > cl_parent - > cl_cvtmin = cl - > cl_vt ;
}
return cl ;
}
static void
cftree_insert ( struct hfsc_class * cl )
{
struct rb_node * * p = & cl - > cl_parent - > cf_tree . rb_node ;
struct rb_node * parent = NULL ;
struct hfsc_class * cl1 ;
while ( * p ! = NULL ) {
parent = * p ;
cl1 = rb_entry ( parent , struct hfsc_class , cf_node ) ;
if ( cl - > cl_f > = cl1 - > cl_f )
p = & parent - > rb_right ;
else
p = & parent - > rb_left ;
}
rb_link_node ( & cl - > cf_node , parent , p ) ;
rb_insert_color ( & cl - > cf_node , & cl - > cl_parent - > cf_tree ) ;
}
static inline void
cftree_remove ( struct hfsc_class * cl )
{
rb_erase ( & cl - > cf_node , & cl - > cl_parent - > cf_tree ) ;
}
static inline void
cftree_update ( struct hfsc_class * cl )
{
cftree_remove ( cl ) ;
cftree_insert ( cl ) ;
}
/*
* service curve support functions
*
* external service curve parameters
* m : bps
* d : us
* internal service curve parameters
* sm : ( bytes / psched_us ) < < SM_SHIFT
* ism : ( psched_us / byte ) < < ISM_SHIFT
* dx : psched_us
*
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* The clock source resolution with ktime is 1.024 us .
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*
* sm and ism are scaled in order to keep effective digits .
* SM_SHIFT and ISM_SHIFT are selected to keep at least 4 effective
* digits in decimal using the following table .
*
* bits / sec 100 Kbps 1 Mbps 10 Mbps 100 Mbps 1 Gbps
* - - - - - - - - - - - - + - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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* bytes / 1.024 us 12.8e-3 128e-3 1280e-3 12800e-3 128000e-3
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*
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* 1.024 us / byte 78.125 7.8125 0.78125 0.078125 0.0078125
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*/
# define SM_SHIFT 20
# define ISM_SHIFT 18
# define SM_MASK ((1ULL << SM_SHIFT) - 1)
# define ISM_MASK ((1ULL << ISM_SHIFT) - 1)
static inline u64
seg_x2y ( u64 x , u64 sm )
{
u64 y ;
/*
* compute
* y = x * sm > > SM_SHIFT
* but divide it for the upper and lower bits to avoid overflow
*/
y = ( x > > SM_SHIFT ) * sm + ( ( ( x & SM_MASK ) * sm ) > > SM_SHIFT ) ;
return y ;
}
static inline u64
seg_y2x ( u64 y , u64 ism )
{
u64 x ;
if ( y = = 0 )
x = 0 ;
else if ( ism = = HT_INFINITY )
x = HT_INFINITY ;
else {
x = ( y > > ISM_SHIFT ) * ism
+ ( ( ( y & ISM_MASK ) * ism ) > > ISM_SHIFT ) ;
}
return x ;
}
/* Convert m (bps) into sm (bytes/psched us) */
static u64
m2sm ( u32 m )
{
u64 sm ;
sm = ( ( u64 ) m < < SM_SHIFT ) ;
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sm + = PSCHED_TICKS_PER_SEC - 1 ;
do_div ( sm , PSCHED_TICKS_PER_SEC ) ;
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return sm ;
}
/* convert m (bps) into ism (psched us/byte) */
static u64
m2ism ( u32 m )
{
u64 ism ;
if ( m = = 0 )
ism = HT_INFINITY ;
else {
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ism = ( ( u64 ) PSCHED_TICKS_PER_SEC < < ISM_SHIFT ) ;
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ism + = m - 1 ;
do_div ( ism , m ) ;
}
return ism ;
}
/* convert d (us) into dx (psched us) */
static u64
d2dx ( u32 d )
{
u64 dx ;
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dx = ( ( u64 ) d * PSCHED_TICKS_PER_SEC ) ;
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dx + = USEC_PER_SEC - 1 ;
do_div ( dx , USEC_PER_SEC ) ;
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return dx ;
}
/* convert sm (bytes/psched us) into m (bps) */
static u32
sm2m ( u64 sm )
{
u64 m ;
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m = ( sm * PSCHED_TICKS_PER_SEC ) > > SM_SHIFT ;
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return ( u32 ) m ;
}
/* convert dx (psched us) into d (us) */
static u32
dx2d ( u64 dx )
{
u64 d ;
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d = dx * USEC_PER_SEC ;
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do_div ( d , PSCHED_TICKS_PER_SEC ) ;
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return ( u32 ) d ;
}
static void
sc2isc ( struct tc_service_curve * sc , struct internal_sc * isc )
{
isc - > sm1 = m2sm ( sc - > m1 ) ;
isc - > ism1 = m2ism ( sc - > m1 ) ;
isc - > dx = d2dx ( sc - > d ) ;
isc - > dy = seg_x2y ( isc - > dx , isc - > sm1 ) ;
isc - > sm2 = m2sm ( sc - > m2 ) ;
isc - > ism2 = m2ism ( sc - > m2 ) ;
}
/*
* initialize the runtime service curve with the given internal
* service curve starting at ( x , y ) .
*/
static void
rtsc_init ( struct runtime_sc * rtsc , struct internal_sc * isc , u64 x , u64 y )
{
rtsc - > x = x ;
rtsc - > y = y ;
rtsc - > sm1 = isc - > sm1 ;
rtsc - > ism1 = isc - > ism1 ;
rtsc - > dx = isc - > dx ;
rtsc - > dy = isc - > dy ;
rtsc - > sm2 = isc - > sm2 ;
rtsc - > ism2 = isc - > ism2 ;
}
/*
* calculate the y - projection of the runtime service curve by the
* given x - projection value
*/
static u64
rtsc_y2x ( struct runtime_sc * rtsc , u64 y )
{
u64 x ;
if ( y < rtsc - > y )
x = rtsc - > x ;
else if ( y < = rtsc - > y + rtsc - > dy ) {
/* x belongs to the 1st segment */
if ( rtsc - > dy = = 0 )
x = rtsc - > x + rtsc - > dx ;
else
x = rtsc - > x + seg_y2x ( y - rtsc - > y , rtsc - > ism1 ) ;
} else {
/* x belongs to the 2nd segment */
x = rtsc - > x + rtsc - > dx
+ seg_y2x ( y - rtsc - > y - rtsc - > dy , rtsc - > ism2 ) ;
}
return x ;
}
static u64
rtsc_x2y ( struct runtime_sc * rtsc , u64 x )
{
u64 y ;
if ( x < = rtsc - > x )
y = rtsc - > y ;
else if ( x < = rtsc - > x + rtsc - > dx )
/* y belongs to the 1st segment */
y = rtsc - > y + seg_x2y ( x - rtsc - > x , rtsc - > sm1 ) ;
else
/* y belongs to the 2nd segment */
y = rtsc - > y + rtsc - > dy
+ seg_x2y ( x - rtsc - > x - rtsc - > dx , rtsc - > sm2 ) ;
return y ;
}
/*
* update the runtime service curve by taking the minimum of the current
* runtime service curve and the service curve starting at ( x , y ) .
*/
static void
rtsc_min ( struct runtime_sc * rtsc , struct internal_sc * isc , u64 x , u64 y )
{
u64 y1 , y2 , dx , dy ;
u32 dsm ;
if ( isc - > sm1 < = isc - > sm2 ) {
/* service curve is convex */
y1 = rtsc_x2y ( rtsc , x ) ;
if ( y1 < y )
/* the current rtsc is smaller */
return ;
rtsc - > x = x ;
rtsc - > y = y ;
return ;
}
/*
* service curve is concave
* compute the two y values of the current rtsc
* y1 : at x
* y2 : at ( x + dx )
*/
y1 = rtsc_x2y ( rtsc , x ) ;
if ( y1 < = y ) {
/* rtsc is below isc, no change to rtsc */
return ;
}
y2 = rtsc_x2y ( rtsc , x + isc - > dx ) ;
if ( y2 > = y + isc - > dy ) {
/* rtsc is above isc, replace rtsc by isc */
rtsc - > x = x ;
rtsc - > y = y ;
rtsc - > dx = isc - > dx ;
rtsc - > dy = isc - > dy ;
return ;
}
/*
* the two curves intersect
* compute the offsets ( dx , dy ) using the reverse
* function of seg_x2y ( )
* seg_x2y ( dx , sm1 ) = = seg_x2y ( dx , sm2 ) + ( y1 - y )
*/
dx = ( y1 - y ) < < SM_SHIFT ;
dsm = isc - > sm1 - isc - > sm2 ;
do_div ( dx , dsm ) ;
/*
* check if ( x , y1 ) belongs to the 1 st segment of rtsc .
* if so , add the offset .
*/
if ( rtsc - > x + rtsc - > dx > x )
dx + = rtsc - > x + rtsc - > dx - x ;
dy = seg_x2y ( dx , isc - > sm1 ) ;
rtsc - > x = x ;
rtsc - > y = y ;
rtsc - > dx = dx ;
rtsc - > dy = dy ;
return ;
}
static void
init_ed ( struct hfsc_class * cl , unsigned int next_len )
{
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u64 cur_time = psched_get_time ( ) ;
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/* update the deadline curve */
rtsc_min ( & cl - > cl_deadline , & cl - > cl_rsc , cur_time , cl - > cl_cumul ) ;
/*
* update the eligible curve .
* for concave , it is equal to the deadline curve .
* for convex , it is a linear curve with slope m2 .
*/
cl - > cl_eligible = cl - > cl_deadline ;
if ( cl - > cl_rsc . sm1 < = cl - > cl_rsc . sm2 ) {
cl - > cl_eligible . dx = 0 ;
cl - > cl_eligible . dy = 0 ;
}
/* compute e and d */
cl - > cl_e = rtsc_y2x ( & cl - > cl_eligible , cl - > cl_cumul ) ;
cl - > cl_d = rtsc_y2x ( & cl - > cl_deadline , cl - > cl_cumul + next_len ) ;
eltree_insert ( cl ) ;
}
static void
update_ed ( struct hfsc_class * cl , unsigned int next_len )
{
cl - > cl_e = rtsc_y2x ( & cl - > cl_eligible , cl - > cl_cumul ) ;
cl - > cl_d = rtsc_y2x ( & cl - > cl_deadline , cl - > cl_cumul + next_len ) ;
eltree_update ( cl ) ;
}
static inline void
update_d ( struct hfsc_class * cl , unsigned int next_len )
{
cl - > cl_d = rtsc_y2x ( & cl - > cl_deadline , cl - > cl_cumul + next_len ) ;
}
static inline void
update_cfmin ( struct hfsc_class * cl )
{
struct rb_node * n = rb_first ( & cl - > cf_tree ) ;
struct hfsc_class * p ;
if ( n = = NULL ) {
cl - > cl_cfmin = 0 ;
return ;
}
p = rb_entry ( n , struct hfsc_class , cf_node ) ;
cl - > cl_cfmin = p - > cl_f ;
}
static void
init_vf ( struct hfsc_class * cl , unsigned int len )
{
struct hfsc_class * max_cl ;
struct rb_node * n ;
u64 vt , f , cur_time ;
int go_active ;
cur_time = 0 ;
go_active = 1 ;
for ( ; cl - > cl_parent ! = NULL ; cl = cl - > cl_parent ) {
if ( go_active & & cl - > cl_nactive + + = = 0 )
go_active = 1 ;
else
go_active = 0 ;
if ( go_active ) {
n = rb_last ( & cl - > cl_parent - > vt_tree ) ;
if ( n ! = NULL ) {
max_cl = rb_entry ( n , struct hfsc_class , vt_node ) ;
/*
* set vt to the average of the min and max
* classes . if the parent ' s period didn ' t
* change , don ' t decrease vt of the class .
*/
vt = max_cl - > cl_vt ;
if ( cl - > cl_parent - > cl_cvtmin ! = 0 )
vt = ( cl - > cl_parent - > cl_cvtmin + vt ) / 2 ;
if ( cl - > cl_parent - > cl_vtperiod ! =
cl - > cl_parentperiod | | vt > cl - > cl_vt )
cl - > cl_vt = vt ;
} else {
/*
* first child for a new parent backlog period .
* add parent ' s cvtmax to cvtoff to make a new
* vt ( vtoff + vt ) larger than the vt in the
* last period for all children .
*/
vt = cl - > cl_parent - > cl_cvtmax ;
cl - > cl_parent - > cl_cvtoff + = vt ;
cl - > cl_parent - > cl_cvtmax = 0 ;
cl - > cl_parent - > cl_cvtmin = 0 ;
cl - > cl_vt = 0 ;
}
cl - > cl_vtoff = cl - > cl_parent - > cl_cvtoff -
cl - > cl_pcvtoff ;
/* update the virtual curve */
vt = cl - > cl_vt + cl - > cl_vtoff ;
rtsc_min ( & cl - > cl_virtual , & cl - > cl_fsc , vt ,
2007-02-09 17:25:16 +03:00
cl - > cl_total ) ;
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if ( cl - > cl_virtual . x = = vt ) {
cl - > cl_virtual . x - = cl - > cl_vtoff ;
cl - > cl_vtoff = 0 ;
}
cl - > cl_vtadj = 0 ;
cl - > cl_vtperiod + + ; /* increment vt period */
cl - > cl_parentperiod = cl - > cl_parent - > cl_vtperiod ;
if ( cl - > cl_parent - > cl_nactive = = 0 )
cl - > cl_parentperiod + + ;
cl - > cl_f = 0 ;
vttree_insert ( cl ) ;
cftree_insert ( cl ) ;
if ( cl - > cl_flags & HFSC_USC ) {
/* class has upper limit curve */
if ( cur_time = = 0 )
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cur_time = psched_get_time ( ) ;
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/* update the ulimit curve */
rtsc_min ( & cl - > cl_ulimit , & cl - > cl_usc , cur_time ,
2007-02-09 17:25:16 +03:00
cl - > cl_total ) ;
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/* compute myf */
cl - > cl_myf = rtsc_y2x ( & cl - > cl_ulimit ,
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cl - > cl_total ) ;
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cl - > cl_myfadj = 0 ;
}
}
f = max ( cl - > cl_myf , cl - > cl_cfmin ) ;
if ( f ! = cl - > cl_f ) {
cl - > cl_f = f ;
cftree_update ( cl ) ;
update_cfmin ( cl - > cl_parent ) ;
}
}
}
static void
update_vf ( struct hfsc_class * cl , unsigned int len , u64 cur_time )
{
u64 f ; /* , myf_bound, delta; */
int go_passive = 0 ;
if ( cl - > qdisc - > q . qlen = = 0 & & cl - > cl_flags & HFSC_FSC )
go_passive = 1 ;
for ( ; cl - > cl_parent ! = NULL ; cl = cl - > cl_parent ) {
cl - > cl_total + = len ;
if ( ! ( cl - > cl_flags & HFSC_FSC ) | | cl - > cl_nactive = = 0 )
continue ;
if ( go_passive & & - - cl - > cl_nactive = = 0 )
go_passive = 1 ;
else
go_passive = 0 ;
if ( go_passive ) {
/* no more active child, going passive */
/* update cvtmax of the parent class */
if ( cl - > cl_vt > cl - > cl_parent - > cl_cvtmax )
cl - > cl_parent - > cl_cvtmax = cl - > cl_vt ;
/* remove this class from the vt tree */
vttree_remove ( cl ) ;
cftree_remove ( cl ) ;
update_cfmin ( cl - > cl_parent ) ;
continue ;
}
/*
* update vt and f
*/
cl - > cl_vt = rtsc_y2x ( & cl - > cl_virtual , cl - > cl_total )
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- cl - > cl_vtoff + cl - > cl_vtadj ;
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/*
* if vt of the class is smaller than cvtmin ,
* the class was skipped in the past due to non - fit .
* if so , we need to adjust vtadj .
*/
if ( cl - > cl_vt < cl - > cl_parent - > cl_cvtmin ) {
cl - > cl_vtadj + = cl - > cl_parent - > cl_cvtmin - cl - > cl_vt ;
cl - > cl_vt = cl - > cl_parent - > cl_cvtmin ;
}
/* update the vt tree */
vttree_update ( cl ) ;
if ( cl - > cl_flags & HFSC_USC ) {
cl - > cl_myf = cl - > cl_myfadj + rtsc_y2x ( & cl - > cl_ulimit ,
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cl - > cl_total ) ;
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#if 0
/*
* This code causes classes to stay way under their
* limit when multiple classes are used at gigabit
* speed . needs investigation . - kaber
*/
/*
* if myf lags behind by more than one clock tick
* from the current time , adjust myfadj to prevent
* a rate - limited class from going greedy .
* in a steady state under rate - limiting , myf
* fluctuates within one clock tick .
*/
myf_bound = cur_time - PSCHED_JIFFIE2US ( 1 ) ;
if ( cl - > cl_myf < myf_bound ) {
delta = cur_time - cl - > cl_myf ;
cl - > cl_myfadj + = delta ;
cl - > cl_myf + = delta ;
}
# endif
}
f = max ( cl - > cl_myf , cl - > cl_cfmin ) ;
if ( f ! = cl - > cl_f ) {
cl - > cl_f = f ;
cftree_update ( cl ) ;
update_cfmin ( cl - > cl_parent ) ;
}
}
}
static void
set_active ( struct hfsc_class * cl , unsigned int len )
{
if ( cl - > cl_flags & HFSC_RSC )
init_ed ( cl , len ) ;
if ( cl - > cl_flags & HFSC_FSC )
init_vf ( cl , len ) ;
list_add_tail ( & cl - > dlist , & cl - > sched - > droplist ) ;
}
static void
set_passive ( struct hfsc_class * cl )
{
if ( cl - > cl_flags & HFSC_RSC )
eltree_remove ( cl ) ;
list_del ( & cl - > dlist ) ;
/*
* vttree is now handled in update_vf ( ) so that update_vf ( cl , 0 , 0 )
* needs to be called explicitly to remove a class from vttree .
*/
}
/*
* hack to get length of first packet in queue .
*/
static unsigned int
qdisc_peek_len ( struct Qdisc * sch )
{
struct sk_buff * skb ;
unsigned int len ;
skb = sch - > dequeue ( sch ) ;
if ( skb = = NULL ) {
if ( net_ratelimit ( ) )
printk ( " qdisc_peek_len: non work-conserving qdisc ? \n " ) ;
return 0 ;
}
len = skb - > len ;
if ( unlikely ( sch - > ops - > requeue ( skb , sch ) ! = NET_XMIT_SUCCESS ) ) {
if ( net_ratelimit ( ) )
printk ( " qdisc_peek_len: failed to requeue \n " ) ;
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qdisc_tree_decrease_qlen ( sch , 1 ) ;
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return 0 ;
}
return len ;
}
static void
hfsc_purge_queue ( struct Qdisc * sch , struct hfsc_class * cl )
{
unsigned int len = cl - > qdisc - > q . qlen ;
qdisc_reset ( cl - > qdisc ) ;
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qdisc_tree_decrease_qlen ( cl - > qdisc , len ) ;
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}
static void
hfsc_adjust_levels ( struct hfsc_class * cl )
{
struct hfsc_class * p ;
unsigned int level ;
do {
level = 0 ;
list_for_each_entry ( p , & cl - > children , siblings ) {
2006-05-11 23:22:03 +04:00
if ( p - > level > = level )
level = p - > level + 1 ;
2005-04-17 02:20:36 +04:00
}
2006-05-11 23:22:03 +04:00
cl - > level = level ;
2005-04-17 02:20:36 +04:00
} while ( ( cl = cl - > cl_parent ) ! = NULL ) ;
}
static inline unsigned int
hfsc_hash ( u32 h )
{
h ^ = h > > 8 ;
h ^ = h > > 4 ;
return h & ( HFSC_HSIZE - 1 ) ;
}
static inline struct hfsc_class *
hfsc_find_class ( u32 classid , struct Qdisc * sch )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl ;
list_for_each_entry ( cl , & q - > clhash [ hfsc_hash ( classid ) ] , hlist ) {
if ( cl - > classid = = classid )
return cl ;
}
return NULL ;
}
static void
hfsc_change_rsc ( struct hfsc_class * cl , struct tc_service_curve * rsc ,
2007-02-09 17:25:16 +03:00
u64 cur_time )
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{
sc2isc ( rsc , & cl - > cl_rsc ) ;
rtsc_init ( & cl - > cl_deadline , & cl - > cl_rsc , cur_time , cl - > cl_cumul ) ;
cl - > cl_eligible = cl - > cl_deadline ;
if ( cl - > cl_rsc . sm1 < = cl - > cl_rsc . sm2 ) {
cl - > cl_eligible . dx = 0 ;
cl - > cl_eligible . dy = 0 ;
}
cl - > cl_flags | = HFSC_RSC ;
}
static void
hfsc_change_fsc ( struct hfsc_class * cl , struct tc_service_curve * fsc )
{
sc2isc ( fsc , & cl - > cl_fsc ) ;
rtsc_init ( & cl - > cl_virtual , & cl - > cl_fsc , cl - > cl_vt , cl - > cl_total ) ;
cl - > cl_flags | = HFSC_FSC ;
}
static void
hfsc_change_usc ( struct hfsc_class * cl , struct tc_service_curve * usc ,
2007-02-09 17:25:16 +03:00
u64 cur_time )
2005-04-17 02:20:36 +04:00
{
sc2isc ( usc , & cl - > cl_usc ) ;
rtsc_init ( & cl - > cl_ulimit , & cl - > cl_usc , cur_time , cl - > cl_total ) ;
cl - > cl_flags | = HFSC_USC ;
}
2008-01-24 07:35:39 +03:00
static const struct nla_policy hfsc_policy [ TCA_HFSC_MAX + 1 ] = {
[ TCA_HFSC_RSC ] = { . len = sizeof ( struct tc_service_curve ) } ,
[ TCA_HFSC_FSC ] = { . len = sizeof ( struct tc_service_curve ) } ,
[ TCA_HFSC_USC ] = { . len = sizeof ( struct tc_service_curve ) } ,
} ;
2005-04-17 02:20:36 +04:00
static int
hfsc_change_class ( struct Qdisc * sch , u32 classid , u32 parentid ,
2008-01-23 09:11:17 +03:00
struct nlattr * * tca , unsigned long * arg )
2005-04-17 02:20:36 +04:00
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl = ( struct hfsc_class * ) * arg ;
struct hfsc_class * parent = NULL ;
2008-01-23 09:11:17 +03:00
struct nlattr * opt = tca [ TCA_OPTIONS ] ;
struct nlattr * tb [ TCA_HFSC_MAX + 1 ] ;
2005-04-17 02:20:36 +04:00
struct tc_service_curve * rsc = NULL , * fsc = NULL , * usc = NULL ;
u64 cur_time ;
2008-01-24 07:33:32 +03:00
int err ;
2005-04-17 02:20:36 +04:00
2008-01-24 07:33:32 +03:00
if ( opt = = NULL )
2005-04-17 02:20:36 +04:00
return - EINVAL ;
2008-01-24 07:35:39 +03:00
err = nla_parse_nested ( tb , TCA_HFSC_MAX , opt , hfsc_policy ) ;
2008-01-24 07:33:32 +03:00
if ( err < 0 )
return err ;
2008-01-23 09:11:17 +03:00
if ( tb [ TCA_HFSC_RSC ] ) {
rsc = nla_data ( tb [ TCA_HFSC_RSC ] ) ;
2005-04-17 02:20:36 +04:00
if ( rsc - > m1 = = 0 & & rsc - > m2 = = 0 )
rsc = NULL ;
}
2008-01-23 09:11:17 +03:00
if ( tb [ TCA_HFSC_FSC ] ) {
fsc = nla_data ( tb [ TCA_HFSC_FSC ] ) ;
2005-04-17 02:20:36 +04:00
if ( fsc - > m1 = = 0 & & fsc - > m2 = = 0 )
fsc = NULL ;
}
2008-01-23 09:11:17 +03:00
if ( tb [ TCA_HFSC_USC ] ) {
usc = nla_data ( tb [ TCA_HFSC_USC ] ) ;
2005-04-17 02:20:36 +04:00
if ( usc - > m1 = = 0 & & usc - > m2 = = 0 )
usc = NULL ;
}
if ( cl ! = NULL ) {
if ( parentid ) {
if ( cl - > cl_parent & & cl - > cl_parent - > classid ! = parentid )
return - EINVAL ;
if ( cl - > cl_parent = = NULL & & parentid ! = TC_H_ROOT )
return - EINVAL ;
}
2007-03-23 21:29:25 +03:00
cur_time = psched_get_time ( ) ;
2005-04-17 02:20:36 +04:00
sch_tree_lock ( sch ) ;
if ( rsc ! = NULL )
hfsc_change_rsc ( cl , rsc , cur_time ) ;
if ( fsc ! = NULL )
hfsc_change_fsc ( cl , fsc ) ;
if ( usc ! = NULL )
hfsc_change_usc ( cl , usc , cur_time ) ;
if ( cl - > qdisc - > q . qlen ! = 0 ) {
if ( cl - > cl_flags & HFSC_RSC )
update_ed ( cl , qdisc_peek_len ( cl - > qdisc ) ) ;
if ( cl - > cl_flags & HFSC_FSC )
update_vf ( cl , 0 , cur_time ) ;
}
sch_tree_unlock ( sch ) ;
2008-01-23 09:11:17 +03:00
if ( tca [ TCA_RATE ] )
2005-04-17 02:20:36 +04:00
gen_replace_estimator ( & cl - > bstats , & cl - > rate_est ,
2007-07-03 09:47:37 +04:00
& sch - > dev - > queue_lock ,
2008-01-23 09:11:17 +03:00
tca [ TCA_RATE ] ) ;
2005-04-17 02:20:36 +04:00
return 0 ;
}
if ( parentid = = TC_H_ROOT )
return - EEXIST ;
parent = & q - > root ;
if ( parentid ) {
parent = hfsc_find_class ( parentid , sch ) ;
if ( parent = = NULL )
return - ENOENT ;
}
if ( classid = = 0 | | TC_H_MAJ ( classid ^ sch - > handle ) ! = 0 )
return - EINVAL ;
if ( hfsc_find_class ( classid , sch ) )
return - EEXIST ;
if ( rsc = = NULL & & fsc = = NULL )
return - EINVAL ;
2006-07-22 01:51:30 +04:00
cl = kzalloc ( sizeof ( struct hfsc_class ) , GFP_KERNEL ) ;
2005-04-17 02:20:36 +04:00
if ( cl = = NULL )
return - ENOBUFS ;
if ( rsc ! = NULL )
hfsc_change_rsc ( cl , rsc , 0 ) ;
if ( fsc ! = NULL )
hfsc_change_fsc ( cl , fsc ) ;
if ( usc ! = NULL )
hfsc_change_usc ( cl , usc , 0 ) ;
cl - > refcnt = 1 ;
cl - > classid = classid ;
cl - > sched = q ;
cl - > cl_parent = parent ;
2006-11-30 04:35:18 +03:00
cl - > qdisc = qdisc_create_dflt ( sch - > dev , & pfifo_qdisc_ops , classid ) ;
2005-04-17 02:20:36 +04:00
if ( cl - > qdisc = = NULL )
cl - > qdisc = & noop_qdisc ;
INIT_LIST_HEAD ( & cl - > children ) ;
cl - > vt_tree = RB_ROOT ;
cl - > cf_tree = RB_ROOT ;
sch_tree_lock ( sch ) ;
list_add_tail ( & cl - > hlist , & q - > clhash [ hfsc_hash ( classid ) ] ) ;
list_add_tail ( & cl - > siblings , & parent - > children ) ;
if ( parent - > level = = 0 )
hfsc_purge_queue ( sch , parent ) ;
hfsc_adjust_levels ( parent ) ;
cl - > cl_pcvtoff = parent - > cl_cvtoff ;
sch_tree_unlock ( sch ) ;
2008-01-23 09:11:17 +03:00
if ( tca [ TCA_RATE ] )
2005-04-17 02:20:36 +04:00
gen_new_estimator ( & cl - > bstats , & cl - > rate_est ,
2008-01-23 09:11:17 +03:00
& sch - > dev - > queue_lock , tca [ TCA_RATE ] ) ;
2005-04-17 02:20:36 +04:00
* arg = ( unsigned long ) cl ;
return 0 ;
}
static void
hfsc_destroy_class ( struct Qdisc * sch , struct hfsc_class * cl )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
2007-03-23 21:29:43 +03:00
tcf_destroy_chain ( cl - > filter_list ) ;
2005-04-17 02:20:36 +04:00
qdisc_destroy ( cl - > qdisc ) ;
gen_kill_estimator ( & cl - > bstats , & cl - > rate_est ) ;
if ( cl ! = & q - > root )
kfree ( cl ) ;
}
static int
hfsc_delete_class ( struct Qdisc * sch , unsigned long arg )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
if ( cl - > level > 0 | | cl - > filter_cnt > 0 | | cl = = & q - > root )
return - EBUSY ;
sch_tree_lock ( sch ) ;
list_del ( & cl - > siblings ) ;
hfsc_adjust_levels ( cl - > cl_parent ) ;
2007-03-28 01:04:24 +04:00
2005-04-17 02:20:36 +04:00
hfsc_purge_queue ( sch , cl ) ;
2007-03-28 01:04:24 +04:00
list_del ( & cl - > hlist ) ;
2005-04-17 02:20:36 +04:00
if ( - - cl - > refcnt = = 0 )
hfsc_destroy_class ( sch , cl ) ;
sch_tree_unlock ( sch ) ;
return 0 ;
}
static struct hfsc_class *
hfsc_classify ( struct sk_buff * skb , struct Qdisc * sch , int * qerr )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl ;
struct tcf_result res ;
struct tcf_proto * tcf ;
int result ;
if ( TC_H_MAJ ( skb - > priority ^ sch - > handle ) = = 0 & &
( cl = hfsc_find_class ( skb - > priority , sch ) ) ! = NULL )
if ( cl - > level = = 0 )
return cl ;
2006-01-09 09:35:55 +03:00
* qerr = NET_XMIT_BYPASS ;
2005-04-17 02:20:36 +04:00
tcf = q - > root . filter_list ;
while ( tcf & & ( result = tc_classify ( skb , tcf , & res ) ) > = 0 ) {
# ifdef CONFIG_NET_CLS_ACT
switch ( result ) {
case TC_ACT_QUEUED :
2007-02-09 17:25:16 +03:00
case TC_ACT_STOLEN :
2005-04-17 02:20:36 +04:00
* qerr = NET_XMIT_SUCCESS ;
2007-02-09 17:25:16 +03:00
case TC_ACT_SHOT :
2005-04-17 02:20:36 +04:00
return NULL ;
}
# endif
if ( ( cl = ( struct hfsc_class * ) res . class ) = = NULL ) {
if ( ( cl = hfsc_find_class ( res . classid , sch ) ) = = NULL )
break ; /* filter selected invalid classid */
}
if ( cl - > level = = 0 )
return cl ; /* hit leaf class */
/* apply inner filter chain */
tcf = cl - > filter_list ;
}
/* classification failed, try default class */
cl = hfsc_find_class ( TC_H_MAKE ( TC_H_MAJ ( sch - > handle ) , q - > defcls ) , sch ) ;
if ( cl = = NULL | | cl - > level > 0 )
return NULL ;
return cl ;
}
static int
hfsc_graft_class ( struct Qdisc * sch , unsigned long arg , struct Qdisc * new ,
2007-02-09 17:25:16 +03:00
struct Qdisc * * old )
2005-04-17 02:20:36 +04:00
{
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
if ( cl = = NULL )
return - ENOENT ;
if ( cl - > level > 0 )
return - EINVAL ;
if ( new = = NULL ) {
2006-11-30 04:35:18 +03:00
new = qdisc_create_dflt ( sch - > dev , & pfifo_qdisc_ops ,
cl - > classid ) ;
2005-04-17 02:20:36 +04:00
if ( new = = NULL )
new = & noop_qdisc ;
}
sch_tree_lock ( sch ) ;
hfsc_purge_queue ( sch , cl ) ;
* old = xchg ( & cl - > qdisc , new ) ;
sch_tree_unlock ( sch ) ;
return 0 ;
}
static struct Qdisc *
hfsc_class_leaf ( struct Qdisc * sch , unsigned long arg )
{
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
if ( cl ! = NULL & & cl - > level = = 0 )
return cl - > qdisc ;
return NULL ;
}
2006-11-30 04:36:43 +03:00
static void
hfsc_qlen_notify ( struct Qdisc * sch , unsigned long arg )
{
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
if ( cl - > qdisc - > q . qlen = = 0 ) {
update_vf ( cl , 0 , 0 ) ;
set_passive ( cl ) ;
}
}
2005-04-17 02:20:36 +04:00
static unsigned long
hfsc_get_class ( struct Qdisc * sch , u32 classid )
{
struct hfsc_class * cl = hfsc_find_class ( classid , sch ) ;
if ( cl ! = NULL )
cl - > refcnt + + ;
return ( unsigned long ) cl ;
}
static void
hfsc_put_class ( struct Qdisc * sch , unsigned long arg )
{
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
if ( - - cl - > refcnt = = 0 )
hfsc_destroy_class ( sch , cl ) ;
}
static unsigned long
hfsc_bind_tcf ( struct Qdisc * sch , unsigned long parent , u32 classid )
{
struct hfsc_class * p = ( struct hfsc_class * ) parent ;
struct hfsc_class * cl = hfsc_find_class ( classid , sch ) ;
if ( cl ! = NULL ) {
if ( p ! = NULL & & p - > level < = cl - > level )
return 0 ;
cl - > filter_cnt + + ;
}
return ( unsigned long ) cl ;
}
static void
hfsc_unbind_tcf ( struct Qdisc * sch , unsigned long arg )
{
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
cl - > filter_cnt - - ;
}
static struct tcf_proto * *
hfsc_tcf_chain ( struct Qdisc * sch , unsigned long arg )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
if ( cl = = NULL )
cl = & q - > root ;
return & cl - > filter_list ;
}
static int
hfsc_dump_sc ( struct sk_buff * skb , int attr , struct internal_sc * sc )
{
struct tc_service_curve tsc ;
tsc . m1 = sm2m ( sc - > sm1 ) ;
tsc . d = dx2d ( sc - > dx ) ;
tsc . m2 = sm2m ( sc - > sm2 ) ;
2008-01-23 09:11:17 +03:00
NLA_PUT ( skb , attr , sizeof ( tsc ) , & tsc ) ;
2005-04-17 02:20:36 +04:00
return skb - > len ;
2008-01-23 09:11:17 +03:00
nla_put_failure :
2005-04-17 02:20:36 +04:00
return - 1 ;
}
static inline int
hfsc_dump_curves ( struct sk_buff * skb , struct hfsc_class * cl )
{
if ( ( cl - > cl_flags & HFSC_RSC ) & &
( hfsc_dump_sc ( skb , TCA_HFSC_RSC , & cl - > cl_rsc ) < 0 ) )
2008-01-23 09:11:17 +03:00
goto nla_put_failure ;
2005-04-17 02:20:36 +04:00
if ( ( cl - > cl_flags & HFSC_FSC ) & &
( hfsc_dump_sc ( skb , TCA_HFSC_FSC , & cl - > cl_fsc ) < 0 ) )
2008-01-23 09:11:17 +03:00
goto nla_put_failure ;
2005-04-17 02:20:36 +04:00
if ( ( cl - > cl_flags & HFSC_USC ) & &
( hfsc_dump_sc ( skb , TCA_HFSC_USC , & cl - > cl_usc ) < 0 ) )
2008-01-23 09:11:17 +03:00
goto nla_put_failure ;
2005-04-17 02:20:36 +04:00
return skb - > len ;
2008-01-23 09:11:17 +03:00
nla_put_failure :
2005-04-17 02:20:36 +04:00
return - 1 ;
}
static int
hfsc_dump_class ( struct Qdisc * sch , unsigned long arg , struct sk_buff * skb ,
2007-02-09 17:25:16 +03:00
struct tcmsg * tcm )
2005-04-17 02:20:36 +04:00
{
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
2008-01-24 07:34:11 +03:00
struct nlattr * nest ;
2005-04-17 02:20:36 +04:00
tcm - > tcm_parent = cl - > cl_parent ? cl - > cl_parent - > classid : TC_H_ROOT ;
tcm - > tcm_handle = cl - > classid ;
if ( cl - > level = = 0 )
tcm - > tcm_info = cl - > qdisc - > handle ;
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nest = nla_nest_start ( skb , TCA_OPTIONS ) ;
if ( nest = = NULL )
goto nla_put_failure ;
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if ( hfsc_dump_curves ( skb , cl ) < 0 )
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goto nla_put_failure ;
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nla_nest_end ( skb , nest ) ;
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return skb - > len ;
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nla_put_failure :
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nla_nest_cancel ( skb , nest ) ;
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return - 1 ;
}
static int
hfsc_dump_class_stats ( struct Qdisc * sch , unsigned long arg ,
struct gnet_dump * d )
{
struct hfsc_class * cl = ( struct hfsc_class * ) arg ;
struct tc_hfsc_stats xstats ;
cl - > qstats . qlen = cl - > qdisc - > q . qlen ;
xstats . level = cl - > level ;
xstats . period = cl - > cl_vtperiod ;
xstats . work = cl - > cl_total ;
xstats . rtwork = cl - > cl_cumul ;
if ( gnet_stats_copy_basic ( d , & cl - > bstats ) < 0 | |
gnet_stats_copy_rate_est ( d , & cl - > rate_est ) < 0 | |
gnet_stats_copy_queue ( d , & cl - > qstats ) < 0 )
return - 1 ;
return gnet_stats_copy_app ( d , & xstats , sizeof ( xstats ) ) ;
}
static void
hfsc_walk ( struct Qdisc * sch , struct qdisc_walker * arg )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl ;
unsigned int i ;
if ( arg - > stop )
return ;
for ( i = 0 ; i < HFSC_HSIZE ; i + + ) {
list_for_each_entry ( cl , & q - > clhash [ i ] , hlist ) {
if ( arg - > count < arg - > skip ) {
arg - > count + + ;
continue ;
}
if ( arg - > fn ( sch , ( unsigned long ) cl , arg ) < 0 ) {
arg - > stop = 1 ;
return ;
}
arg - > count + + ;
}
}
}
static void
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hfsc_schedule_watchdog ( struct Qdisc * sch )
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{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl ;
u64 next_time = 0 ;
if ( ( cl = eltree_get_minel ( q ) ) ! = NULL )
next_time = cl - > cl_e ;
if ( q - > root . cl_cfmin ! = 0 ) {
if ( next_time = = 0 | | next_time > q - > root . cl_cfmin )
next_time = q - > root . cl_cfmin ;
}
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WARN_ON ( next_time = = 0 ) ;
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qdisc_watchdog_schedule ( & q - > watchdog , next_time ) ;
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}
static int
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hfsc_init_qdisc ( struct Qdisc * sch , struct nlattr * opt )
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{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct tc_hfsc_qopt * qopt ;
unsigned int i ;
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if ( opt = = NULL | | nla_len ( opt ) < sizeof ( * qopt ) )
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return - EINVAL ;
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qopt = nla_data ( opt ) ;
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q - > defcls = qopt - > defcls ;
for ( i = 0 ; i < HFSC_HSIZE ; i + + )
INIT_LIST_HEAD ( & q - > clhash [ i ] ) ;
q - > eligible = RB_ROOT ;
INIT_LIST_HEAD ( & q - > droplist ) ;
skb_queue_head_init ( & q - > requeue ) ;
q - > root . refcnt = 1 ;
q - > root . classid = sch - > handle ;
q - > root . sched = q ;
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q - > root . qdisc = qdisc_create_dflt ( sch - > dev , & pfifo_qdisc_ops ,
sch - > handle ) ;
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if ( q - > root . qdisc = = NULL )
q - > root . qdisc = & noop_qdisc ;
INIT_LIST_HEAD ( & q - > root . children ) ;
q - > root . vt_tree = RB_ROOT ;
q - > root . cf_tree = RB_ROOT ;
list_add ( & q - > root . hlist , & q - > clhash [ hfsc_hash ( q - > root . classid ) ] ) ;
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qdisc_watchdog_init ( & q - > watchdog , sch ) ;
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return 0 ;
}
static int
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hfsc_change_qdisc ( struct Qdisc * sch , struct nlattr * opt )
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{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct tc_hfsc_qopt * qopt ;
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if ( opt = = NULL | | nla_len ( opt ) < sizeof ( * qopt ) )
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return - EINVAL ;
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qopt = nla_data ( opt ) ;
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sch_tree_lock ( sch ) ;
q - > defcls = qopt - > defcls ;
sch_tree_unlock ( sch ) ;
return 0 ;
}
static void
hfsc_reset_class ( struct hfsc_class * cl )
{
cl - > cl_total = 0 ;
cl - > cl_cumul = 0 ;
cl - > cl_d = 0 ;
cl - > cl_e = 0 ;
cl - > cl_vt = 0 ;
cl - > cl_vtadj = 0 ;
cl - > cl_vtoff = 0 ;
cl - > cl_cvtmin = 0 ;
cl - > cl_cvtmax = 0 ;
cl - > cl_cvtoff = 0 ;
cl - > cl_pcvtoff = 0 ;
cl - > cl_vtperiod = 0 ;
cl - > cl_parentperiod = 0 ;
cl - > cl_f = 0 ;
cl - > cl_myf = 0 ;
cl - > cl_myfadj = 0 ;
cl - > cl_cfmin = 0 ;
cl - > cl_nactive = 0 ;
cl - > vt_tree = RB_ROOT ;
cl - > cf_tree = RB_ROOT ;
qdisc_reset ( cl - > qdisc ) ;
if ( cl - > cl_flags & HFSC_RSC )
rtsc_init ( & cl - > cl_deadline , & cl - > cl_rsc , 0 , 0 ) ;
if ( cl - > cl_flags & HFSC_FSC )
rtsc_init ( & cl - > cl_virtual , & cl - > cl_fsc , 0 , 0 ) ;
if ( cl - > cl_flags & HFSC_USC )
rtsc_init ( & cl - > cl_ulimit , & cl - > cl_usc , 0 , 0 ) ;
}
static void
hfsc_reset_qdisc ( struct Qdisc * sch )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl ;
unsigned int i ;
for ( i = 0 ; i < HFSC_HSIZE ; i + + ) {
list_for_each_entry ( cl , & q - > clhash [ i ] , hlist )
hfsc_reset_class ( cl ) ;
}
__skb_queue_purge ( & q - > requeue ) ;
q - > eligible = RB_ROOT ;
INIT_LIST_HEAD ( & q - > droplist ) ;
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qdisc_watchdog_cancel ( & q - > watchdog ) ;
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sch - > q . qlen = 0 ;
}
static void
hfsc_destroy_qdisc ( struct Qdisc * sch )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl , * next ;
unsigned int i ;
for ( i = 0 ; i < HFSC_HSIZE ; i + + ) {
list_for_each_entry_safe ( cl , next , & q - > clhash [ i ] , hlist )
hfsc_destroy_class ( sch , cl ) ;
}
__skb_queue_purge ( & q - > requeue ) ;
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qdisc_watchdog_cancel ( & q - > watchdog ) ;
2005-04-17 02:20:36 +04:00
}
static int
hfsc_dump_qdisc ( struct Qdisc * sch , struct sk_buff * skb )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
2007-04-20 07:29:13 +04:00
unsigned char * b = skb_tail_pointer ( skb ) ;
2005-04-17 02:20:36 +04:00
struct tc_hfsc_qopt qopt ;
qopt . defcls = q - > defcls ;
2008-01-23 09:11:17 +03:00
NLA_PUT ( skb , TCA_OPTIONS , sizeof ( qopt ) , & qopt ) ;
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return skb - > len ;
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nla_put_failure :
2007-03-26 10:06:12 +04:00
nlmsg_trim ( skb , b ) ;
2005-04-17 02:20:36 +04:00
return - 1 ;
}
static int
hfsc_enqueue ( struct sk_buff * skb , struct Qdisc * sch )
{
struct hfsc_class * cl ;
unsigned int len ;
int err ;
cl = hfsc_classify ( skb , sch , & err ) ;
if ( cl = = NULL ) {
2006-01-09 09:35:55 +03:00
if ( err = = NET_XMIT_BYPASS )
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sch - > qstats . drops + + ;
kfree_skb ( skb ) ;
return err ;
}
len = skb - > len ;
err = cl - > qdisc - > enqueue ( skb , cl - > qdisc ) ;
if ( unlikely ( err ! = NET_XMIT_SUCCESS ) ) {
cl - > qstats . drops + + ;
sch - > qstats . drops + + ;
return err ;
}
if ( cl - > qdisc - > q . qlen = = 1 )
set_active ( cl , len ) ;
cl - > bstats . packets + + ;
cl - > bstats . bytes + = len ;
sch - > bstats . packets + + ;
sch - > bstats . bytes + = len ;
sch - > q . qlen + + ;
return NET_XMIT_SUCCESS ;
}
static struct sk_buff *
hfsc_dequeue ( struct Qdisc * sch )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl ;
struct sk_buff * skb ;
u64 cur_time ;
unsigned int next_len ;
int realtime = 0 ;
if ( sch - > q . qlen = = 0 )
return NULL ;
if ( ( skb = __skb_dequeue ( & q - > requeue ) ) )
goto out ;
2007-03-23 21:29:25 +03:00
cur_time = psched_get_time ( ) ;
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/*
* if there are eligible classes , use real - time criteria .
* find the class with the minimum deadline among
* the eligible classes .
*/
if ( ( cl = eltree_get_mindl ( q , cur_time ) ) ! = NULL ) {
realtime = 1 ;
} else {
/*
* use link - sharing criteria
* get the class with the minimum vt in the hierarchy
*/
cl = vttree_get_minvt ( & q - > root , cur_time ) ;
if ( cl = = NULL ) {
sch - > qstats . overlimits + + ;
2007-03-16 11:19:33 +03:00
hfsc_schedule_watchdog ( sch ) ;
2005-04-17 02:20:36 +04:00
return NULL ;
}
}
skb = cl - > qdisc - > dequeue ( cl - > qdisc ) ;
if ( skb = = NULL ) {
if ( net_ratelimit ( ) )
printk ( " HFSC: Non-work-conserving qdisc ? \n " ) ;
return NULL ;
}
update_vf ( cl , skb - > len , cur_time ) ;
if ( realtime )
cl - > cl_cumul + = skb - > len ;
if ( cl - > qdisc - > q . qlen ! = 0 ) {
if ( cl - > cl_flags & HFSC_RSC ) {
/* update ed */
next_len = qdisc_peek_len ( cl - > qdisc ) ;
if ( realtime )
update_ed ( cl , next_len ) ;
else
update_d ( cl , next_len ) ;
}
} else {
/* the class becomes passive */
set_passive ( cl ) ;
}
out :
sch - > flags & = ~ TCQ_F_THROTTLED ;
sch - > q . qlen - - ;
return skb ;
}
static int
hfsc_requeue ( struct sk_buff * skb , struct Qdisc * sch )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
__skb_queue_head ( & q - > requeue , skb ) ;
sch - > q . qlen + + ;
sch - > qstats . requeues + + ;
return NET_XMIT_SUCCESS ;
}
static unsigned int
hfsc_drop ( struct Qdisc * sch )
{
struct hfsc_sched * q = qdisc_priv ( sch ) ;
struct hfsc_class * cl ;
unsigned int len ;
list_for_each_entry ( cl , & q - > droplist , dlist ) {
if ( cl - > qdisc - > ops - > drop ! = NULL & &
( len = cl - > qdisc - > ops - > drop ( cl - > qdisc ) ) > 0 ) {
if ( cl - > qdisc - > q . qlen = = 0 ) {
update_vf ( cl , 0 , 0 ) ;
set_passive ( cl ) ;
} else {
list_move_tail ( & cl - > dlist , & q - > droplist ) ;
}
cl - > qstats . drops + + ;
sch - > qstats . drops + + ;
sch - > q . qlen - - ;
return len ;
}
}
return 0 ;
}
2007-11-14 12:44:41 +03:00
static const struct Qdisc_class_ops hfsc_class_ops = {
2005-04-17 02:20:36 +04:00
. change = hfsc_change_class ,
. delete = hfsc_delete_class ,
. graft = hfsc_graft_class ,
. leaf = hfsc_class_leaf ,
2006-11-30 04:36:43 +03:00
. qlen_notify = hfsc_qlen_notify ,
2005-04-17 02:20:36 +04:00
. get = hfsc_get_class ,
. put = hfsc_put_class ,
. bind_tcf = hfsc_bind_tcf ,
. unbind_tcf = hfsc_unbind_tcf ,
. tcf_chain = hfsc_tcf_chain ,
. dump = hfsc_dump_class ,
. dump_stats = hfsc_dump_class_stats ,
. walk = hfsc_walk
} ;
2007-11-14 12:44:41 +03:00
static struct Qdisc_ops hfsc_qdisc_ops __read_mostly = {
2005-04-17 02:20:36 +04:00
. id = " hfsc " ,
. init = hfsc_init_qdisc ,
. change = hfsc_change_qdisc ,
. reset = hfsc_reset_qdisc ,
. destroy = hfsc_destroy_qdisc ,
. dump = hfsc_dump_qdisc ,
. enqueue = hfsc_enqueue ,
. dequeue = hfsc_dequeue ,
. requeue = hfsc_requeue ,
. drop = hfsc_drop ,
. cl_ops = & hfsc_class_ops ,
. priv_size = sizeof ( struct hfsc_sched ) ,
. owner = THIS_MODULE
} ;
static int __init
hfsc_init ( void )
{
return register_qdisc ( & hfsc_qdisc_ops ) ;
}
static void __exit
hfsc_cleanup ( void )
{
unregister_qdisc ( & hfsc_qdisc_ops ) ;
}
MODULE_LICENSE ( " GPL " ) ;
module_init ( hfsc_init ) ;
module_exit ( hfsc_cleanup ) ;