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861 lines
38 KiB
Plaintext
861 lines
38 KiB
Plaintext
#
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# $FreeBSD$
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#
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Notes on the internal structure of dummynet (2010 version)
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by Riccardo Panicucci and Luigi Rizzo
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Work supported by the EC project ONELAB2
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*********
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* INDEX *
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*********
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Implementation of new dummynet
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Internal structure
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Files
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Packet arrival
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The reconfiguration routine
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dummynet_task()
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Configuration
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Add a pipe
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Add a scheduler
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Add a flowset
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Listing object
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Delete of object
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Delete a pipe
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Delete a flowset
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Delete a scheduler
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Compatibility with FreeBSD7.2 and FreeBSD 8 ipfw binary
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ip_dummynet_glue.c
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ip_fw_glue.c
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How to configure dummynet
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How to implement a new scheduler
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OPEN ISSUES
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------------------------------
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20100131 deleting RR causes infinite loop
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presumably in the rr_free_queue() call -- seems to hang
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forever when deleting a live flow
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------------------------------
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Dummynet is a traffic shaper and network emulator. Packets are
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selected by an external filter such as ipfw, and passed to the emulator
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with a tag such as "pipe 10" or "queue 5" which tells what to
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do with the packet. As an example
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ipfw add queue 5 icmp from 10.0.0.2 to all
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All packets with the same tag belong to a "flowset", or a set
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of flows which can be further partitioned according to a mask.
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Flowsets are then passed to a scheduler for processing. The
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association of flowsets and schedulers is configurable e.g.
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ipfw queue 5 config sched 10 weight 3 flow_mask xxxx
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ipfw queue 8 config sched 10 weight 1 ...
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ipfw queue 3 config sched 20 weight 1 ...
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"sched 10" represents one or more scheduler instances,
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selected through a mask on the 5-tuple itself.
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ipfw sched 20 config type FIFO sched_mask yyy ...
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There are in fact two masks applied to each packet:
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+ the "sched_mask" sends packets arriving to a scheduler_id to
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one of many instances.
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+ the "flow_mask" together with the flowset_id is used to
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collect packets into independent flows on each scheduler.
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As an example, we can have
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ipfw queue 5 config sched 10 flow_mask src-ip 0x000000ff
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ipfw sched 10 config type WF2Q+ sched_mask src-ip 0xffffff00
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means that sched 10 will have one instance per /24 source subnet,
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and within that, each individual source will be a flow.
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Internal structure
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-----------------
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Dummynet-related data is split into several data structures,
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part of them constituting the userland-kernel API, and others
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specific to the kernel.
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NOTE: for up-to-date details please look at the relevant source
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headers (ip_dummynet.h, ip_dn_private.h, dn_sched.h)
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USERLAND-KERNEL API (ip_dummynet.h)
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struct dn_link:
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contains data about the physical link such as
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bandwith, delay, burst size;
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struct dn_fs:
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describes a flowset, i.e. a template for queues.
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Main parameters are the scheduler we attach to, a flow_mask,
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buckets, queue size, plr, weight, and other scheduler-specific
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parameters.
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struct dn_flow
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contains information on a flow, including masks and
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statistics
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struct dn_sch:
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defines a scheduler (and a link attached to it).
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Parameters include scheduler type, sched_mask, number of
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buckets, and possibly other scheduler-specific parameters,
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struct dn_profile:
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fields to simulate a delay profile
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KERNEL REPRESENTATION (ip_dn_private.h)
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struct mq
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a queue of mbufs with head and tail.
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struct dn_queue
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individual queue of packets, created by a flowset using
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flow_mask and attached to a scheduler instance selected
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through sched_mask.
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A dn_queue has a pointer to the dn_fsk (which in turn counts
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how many queues point to it), a pointer to the
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dn_sch_inst it attaches to, and is in a hash table in the
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flowset. scheduler instances also should store queues in
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their own containers used for scheduling (lists, trees, etc.)
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CREATE: done on packet arrivals when a flow matches a flowset.
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DELETE: done only when deleting the parent dn_sch_inst
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or draining memory.
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struct dn_fsk
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includes a dn_fs; a pointer to the dn_schk; a link field
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for the list of dn_fsk attached to the same scheduler,
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or for the unlinked list;
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a refcount for the number of queues pointing to it;
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The dn_fsk is in a hash table, fshash.
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CREATE: done on configuration commands.
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DELETE: on configuration commands.
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struct dn_sch_inst
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a scheduler instance, created from a dn_schk applying sched_mask.
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Contains a delay line, a reference to the parent, and scheduler-
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specific info. Both dn_sch_inst and its delay line can be in the
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evheap if they have events to be processed.
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CREATE: created from a dn_schk applying sched_mask
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DELETE: configuration command delete a scheduler which in turn
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sweeps the hash table of instances deleting them
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struct dn_schk
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includes dn_sch, dn_link, a pointer to dn_profile,
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a hash table of dn_sch_inst, a list of dn_fsk
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attached to it.
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CREATE: configuration command. If there are flowsets that
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refer to this number, they are attached and moved
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to the hash table
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DELETE: manual, see dn_sch_inst
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fshash schedhash
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+---------------+ sched +--------------+
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| sched-------------------->| NEW_SCHK|
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-<----*sch_chain |<-----------------*fsk_list |
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|NEW_FSK |<----. | [dn_link] |
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+---------------+ | +--------------+
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|qht (hash) | | | siht(hash) |
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| [dn_queue] | | | [dn_si] |
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| [dn_queue] | | | [dn_si] |
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| ... | | | ... |
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| +--------+ | | | +---------+ |
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| |dn_queue| | | | |dn_si | |
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| | fs *----------' | | | |
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| | si *---------------------->| | |
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| +---------+ | | +---------+ |
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+---------------+ +--------------+
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The following global data structures contain all
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schedulers and flowsets.
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- schedhash[x]: contains all scheduler templates in the system.
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Looked up only on manual configurations, where flowsets
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are attached to matching schedulers.
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We have one entry per 'sched X config' command
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(plus one for each 'pipe X config').
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- fshash[x]: contains all flowsets.
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We do a lookup on this for each packet.
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We have one entry for each 'queue X config'
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(plus one for each 'pipe X config').
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Additionally, a list that contains all unlinked flowset:
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- fsu: contains flowset that are not linked with any scheduler.
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Flowset are put in this list when they refer to a non
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existing scheduler.
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We don't need an efficient data structure as we never search
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here on a packet arrivals.
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Scheduler instances and the delay lines associated with each scheduler
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instance need to be woken up at certain times. Because we have many
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such objects, we keep them in a priority heap (system_heap).
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Almost all objects in this implementation are preceded by a structure
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(struct dn_id) which makes it easier to identify them.
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Files
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-----
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The dummynet code is split in several files.
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All kernel code is in sys/netpfil/ipfw except ip_dummynet.h
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All userland code is in sbin/ipfw.
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Files are
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- sys/netpfil/ip_dummynet.h defines the kernel-userland API
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- ip_dn_private.h contains the kernel-specific APIs
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and data structures
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- dn_sched.h defines the scheduler API
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- ip_dummynet.c cointains module glue and sockopt handlers, with all
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functions to configure and list objects.
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- ip_dn_io.c contains the functions directly related to packet processing,
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and run in the critical path. It also contains some functions
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exported to the schedulers.
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- dn_heap.[ch] implement a binary heap and a generic hash table
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- dn_sched_* implement the various scheduler modules
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- dummynet.c is the file used to implement the user side of dummynet.
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It contains the function to parsing command line, and functions to
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show the output of dummynet objects.
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Moreover, there are two new file (ip_dummynet_glue.c and ip_fw_glue.c) that
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are used to allow compatibility with the "ipfw" binary from FreeBSD 7.2 and
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FreeBSD 8.
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LOCKING
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=======
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At the moment the entire processing occurs under a single lock
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which is expected to be acquired in exclusive mode
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DN_BH_WLOCK() / DN_BH_WUNLOCK().
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In perspective we aim at the following:
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- the 'busy' flag, 'pending' list and all structures modified by packet
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arrivals and departures are protected by the BH_WLOCK.
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This is normally acquired in exclusive mode by the packet processing
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functions for short sections of code (exception -- the timer).
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If 'busy' is not set, we can do regular packet processing.
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If 'busy' is set, no pieces can be accessed.
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We must enqueue the packet on 'pending' and return immediately.
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- the 'busy' flag is set/cleared by long sections of code as follows:
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UH_WLOCK(); KASSERT(busy == 0);
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BH_WLOCK(); busy=1; BH_WUNLOCK();
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... do processing ...
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BH_WLOCK(); busy=0; drain_queue(pending); BH_WUNLOCK();
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UH_WUNLOCK();
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this normally happens when the upper half has something heavy
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to do. The prologue and epilogue are not in the critical path.
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- the main containers (fshash, schedhash, ...) are protected by
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UH_WLOCK.
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Packet processing
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=================
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A packet enters dummynet through dummynet_io(). We first lookup
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the flowset number in fshash using dn_ht_find(), then find the scheduler
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instance using ipdn_si_find(), then possibly identify the correct
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queue with ipdn_q_find().
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If successful, we call the scheduler's enqueue function(), and
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if needed start I/O on the link calling serve_sched().
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If the packet can be returned immediately, this is done by
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leaving *m0 set. Otherwise, the packet is absorbed by dummynet
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and we simply return, possibly with some appropriate error code.
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Reconfiguration
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---------------
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Reconfiguration is the complex part of the system because we need to
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keep track of the various objects and containers.
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At the moment we do not use reference counts for objects so all
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processing must be done under a lock.
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The main entry points for configuration is the ip_dn_ctl() handler
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for the IP_DUMMYNET3 sockopt (others are provided only for backward
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compatibility). Modifications to the configuration call do_config().
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The argument is a sequence of blocks each starting with a struct dn_id
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which specifies its content.
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The first dn_id must contain as obj.id the DN_API_VERSION
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The obj.type is DN_CMD_CONFIG (followed by actual objects),
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DN_CMD_DELETE (with the correct subtype and list of objects), or
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DN_CMD_FLUSH.
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DN_CMD_CONFIG is followed by objects to add/reconfigure. In general,
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if an object already exists it is reconfigured, otherwise it is
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created in a way that keeps the structure consistent.
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We have the following objects in the system, normally numbered with
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an identifier N between 1 and 65535. For certain objects we have
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"shadow" copies numbered I+NMAX and I+ 2*NMAX which are used to
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implement certain backward compatibility features.
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In general we have the following linking
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TRADITIONAL DUMMYNET QUEUES "queue N config ... pipe M ..."
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corresponds to a dn_fs object numbered N
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TRADITIONAL DUMMYNET PIPES "pipe N config ..."
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dn_fs N+2*NMAX --> dn_sch N+NMAX type FIFO --> dn_link N+NMAX
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GENERIC SCHEDULER "sched N config ... "
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[dn_fs N+NMAX] --> dn_sch N --> dn_link N
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The flowset N+NMAX is created only if the scheduler is not
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of type MULTIQUEUE.
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DELAY PROFILE "pipe N config profile ..."
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it is always attached to an existing dn_link N
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Because traditional dummynet pipes actually configure both a
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'standalone' instance and one that can be used by queues,
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we do the following:
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"pipe N config ..." configures:
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dn_sched N type WF2Q+
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dn_sched N+NMAX type FIFO
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dn_fs N+2NMAX attached to dn_sched N+NMAX
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dn_pipe N
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dn_pipe N+NMAX
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"queue N config" configures
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dn_fs N
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"sched N config" configures
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dn_sched N type as desired
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dn_fs N+NMAX attached to dn_sched N
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dummynet_task()
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===============
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The dummynet_task() function is the main dummynet processing function and is
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called every tick. This function first calculate the new current time, then
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it checks if it is the time to wake up object from the system_heap comparing
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the current time and the key of the heap. Two types of object (really the
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heap contains pointer to objects) are in the
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system_heap:
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- scheduler instance: if a scheduler instance is waked up, the dequeue()
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function is called until it has credit. If the dequeue() returns packets,
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the scheduler instance is inserted in the heap with a new key depending of
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the data that will be send out. If the scheduler instance remains with
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some credit, it means that is hasn't other packet to send and so the
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instance is no longer inserted in the heap.
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If the scheduler instance extracted from the heap has the DELETE flag set,
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the dequeue() is not called and the instance is destroyed now.
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- delay line: when extracting a delay line, the function transmit_event() is
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called to send out packet from delay line.
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If the scheduler instance associated with this delay line doesn't exists,
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the delay line will be delete now.
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Configuration
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=============
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To create a pipe, queue or scheduler, the user should type commands like:
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"ipfw pipe x config"
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"ipfw queue y config pipe x"
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"ipfw pipe x config sched <type>"
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The userland side of dummynet will prepare a buffer contains data to pass to
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kernel side.
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The buffer contains all struct needed to configure an object. In more detail,
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to configure a pipe all three structs (dn_link, dn_sch, dn_fs) are needed,
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plus the delay profile struct if the pipe has a delay profile.
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If configuring a scheduler only the struct dn_sch is wrote in the buffer,
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while if configuring a flowset only the dn_fs struct is wrote.
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The first struct in the buffer contains the type of command request, that is
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if it is configuring a pipe, a queue, or a scheduler. Then there are structs
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need to configure the object, and finally there is the struct that mark
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the end of the buffer.
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To support the insertion of pipe and queue using the old syntax, when adding
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a pipe it's necessary to create a FIFO flowset and a FIFO scheduler, which
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have a number x + DN_PIPEOFFSET.
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Add a pipe
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----------
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A pipe is only a template for a link.
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If the pipe already exists, parameters are updated. If a delay profile exists
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it is deleted and a new one is created.
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If the pipe doesn't exist a new one is created. After the creation, the
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flowset unlinked list is scanned to see if there are some flowset that would
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be linked with this pipe. If so, these flowset will be of wf2q+ type (for
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compatibility) and a new wf2q+ scheduler is created now.
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Add a scheduler
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---------------
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If the scheduler already exists, and the type and the mask are the same, the
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scheduler is simply reconfigured calling the config_scheduler() scheduler
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function with the RECONFIGURE flag active.
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If the type or the mask differ, it is necessary to delete the old scheduler
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and create a new one.
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If the scheduler doesn't exists, a new one is created. If the scheduler has
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a mask, the hash table is created to store pointers to scheduler instances.
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When a new scheduler is created, it is necessary to scan the unlinked
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flowset list to search eventually flowset that would be linked with this
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scheduler number. If some are found, flowsets became of the type of this
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scheduler and they are configured properly.
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Add a flowset
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-------------
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Flowset pointers are store in the system in two list. The unlinked flowset list
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contains all flowset that aren't linked with a scheduler, the flowset list
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contains flowset linked to a scheduler, and so they have a type.
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When adding a new flowset, first it is checked if the flowset exists (that is,
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it is in the flowset list) and if it doesn't exists a new flowset is created
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and added to unlinked flowset list if the scheduler which the flowset would be
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linked doesn't exists, or added in the flowset list and configured properly if
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the scheduler exists. If the flowset (before to be created) was in the
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unlinked flowset list, it is removed and deleted, and then recreated.
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If the flowset exists, to allow reconfiguration of this flowset, the
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scheduler number and types must match with the one in memory. If this isn't
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so, the flowset is deleted and a new one will be created. Really, the flowset
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it isn't deleted now, but it is removed from flowset list and it will be
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deleted later because there could be some queues that are using it.
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Listing of object
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=================
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The user can request a list of object present in dummynet through the command
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"ipfw [-v] pipe|queue [x] list|show"
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The kernel side of dummynet send a buffer to user side that contains all
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pipe, all scheduler, all flowset, plus all scheduler instances and all queues.
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The dummynet user land will format the output and show only the relevant
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information.
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The buffer sent start with all pipe from the system. The entire struct dn_link
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is passed, except the delay_profile struct that is useless in user space.
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After pipes, all flowset are wrote in the buffer. The struct contains
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scheduler flowset specific data is linked with the flowset writing the
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'obj' id of the extension into the 'alg_fs' pointer.
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Then schedulers are wrote. If a scheduler has one or more scheduler instance,
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these are linked to the parent scheduler writing the id of the parent in the
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'ptr_sched' pointer. If a scheduler instance has queues, there are wrote in
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the buffer and linked thorugh the 'obj' and 'sched_inst' pointer.
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Finally, flowsets in the unlinked flowset list are write in the buffer, and
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then a struct gen in saved in the buffer to mark the last struct in the buffer.
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Delete of object
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================
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An object is usually removed by user through a command like
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"ipfw pipe|queue x delete". XXX sched?
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ipfw pass to the kernel a struct gen that contains the type and the number
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of the object to remove
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Delete of pipe x
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----------------
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A pipe can be deleted by the user throught the command 'ipfw pipe x delete'.
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To delete a pipe, the pipe is removed from the pipe list, and then deleted.
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Also the scheduler associated with this pipe should be deleted.
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For compatibility with old dummynet syntax, the associated FIFO scheduler and
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FIFO flowset must be deleted.
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Delete of flowset x
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-------------------
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To remove a flowset, we must be sure that is no loger referenced by any object.
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If the flowset to remove is in the unlinked flowset list, there is not any
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issue, the flowset can be safely removed calling a free() (the flowset
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extension is not yet created if the flowset is in this list).
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If the flowset is in the flowset list, first we remove from it so new packet
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are discarded when arrive. Next, the flowset is marked as delete.
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Now we must check if some queue is using this flowset.
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To do this, a counter (active_f) is provided. This counter indicate how many
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queues exist using this flowset.
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The active_f counter is automatically incremented when a queue is created
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and decremented when a queue is deleted.
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|
If the counter is 0, the flowset can be safely deleted, and the delete_alg_fs()
|
|
scheduler function is called before deallocate memory.
|
|
If the counter is not 0, the flowset remain in memory until the counter become
|
|
zero. When a queue is delete (by dn_delete_queue() function) it is checked if
|
|
the linked flowset is deleting and if so the counter is decrementing. If the
|
|
counter reaches 0, the flowset is deleted.
|
|
The deletion of a queue can be done only by the scheduler, or when the scheduler
|
|
is destroyed.
|
|
|
|
Delete of scheduler x
|
|
---------------------
|
|
To delete a scheduler we must be sure that any scheduler instance of this type
|
|
are in the system_heap. To do so, a counter (inst_counter) is provided.
|
|
This counter is managed by the system: it is incremented every time it is
|
|
inserted in the system_heap, and decremented every time it is extracted from it.
|
|
To delete the scheduler, first we remove it from the scheduler list, so new
|
|
packet are discarded when they arrive, and mark the scheduler as deleting.
|
|
|
|
If the counter is 0, we can remove the scheduler safely calling the
|
|
really_deletescheduler() function. This function will scan all scheduler
|
|
instances and call the delete_scheduler_instance() function that will delete
|
|
the instance. When all instance are deleted, the scheduler template is
|
|
deleted calling the delete_scheduler_template(). If the delay line associate
|
|
with the scheduler is empty, it is deleted now, else it will be deleted when
|
|
it will became empy.
|
|
If the counter was not 0, we wait for it. Every time the dummynet_task()
|
|
function extract a scheduler from the system_heap, the counter is decremented.
|
|
If the scheduler has the delete flag enabled the dequeue() is not called and
|
|
delete_scheduler_instance() is called to delete the instance.
|
|
Obviously this scheduler instance is no loger inserted in the system_heap.
|
|
If the counter reaches 0, the delete_scheduler_template() function is called
|
|
all memory is released.
|
|
NOTE: Flowsets that belong to this scheduler are not deleted, so if a new
|
|
scheduler with the same number is inserted will use these flowsets.
|
|
To do so, the best approach would be insert these flowset in the
|
|
unlinked flowset list, but doing this now will be very expensive.
|
|
So flowsets will remain in memory and linked with a scheduler that no
|
|
longer exists until a packet belonging to this flowset arrives. When
|
|
this packet arrives, the reconfigure() function is called because the
|
|
generation number mismatch with one contains in the flowset and so
|
|
the flowset will be moved into the flowset unlinked list, or will be
|
|
linked with the new scheduler if a new one was created.
|
|
|
|
|
|
COMPATIBILITY WITH FREEBSD 7.2 AND FREEBSD 8 'IPFW' BINARY
|
|
==========================================================
|
|
Dummynet is not compatible with old ipfw binary because internal structs are
|
|
changed. Moreover, the old ipfw binary is not compatible with new kernels
|
|
because the struct that represents a firewall rule has changed. So, if a user
|
|
install a new kernel on a FreeBSD 7.2, the ipfw (and possibly many other
|
|
commands) will not work.
|
|
New dummynet uses a new socket option: IP_DUMMYNET3, used for both set and get.
|
|
The old option can be used to allow compatibility with the 'ipfw' binary of
|
|
older version (tested with 7.2 and 8.0) of FreeBSD.
|
|
Two file are provided for this purpose:
|
|
- ip_dummynet_glue.c translates old dummynet requests to the new ones,
|
|
- ip_fw_glue.c converts the rule format between 7.2 and 8 versions.
|
|
Let see in detail these two files.
|
|
|
|
IP_DUMMYNET_GLUE.C
|
|
------------------
|
|
The internal structs of new dummynet are very different from the original.
|
|
Because of there are some difference from between dummynet in FreeBSD 7.2 and
|
|
dummynet in FreeBSD 8 (the FreeBSD 8 version includes support to pipe delay
|
|
profile and burst option), I have to include both header files. I copied
|
|
the revision 191715 (for version 7.2) and the revision 196045 (for version 8)
|
|
and I appended a number to each struct to mark them.
|
|
|
|
The main function of this file is ip_dummynet_compat() that is called by
|
|
ip_dn_ctl() when it receive a request of old socket option.
|
|
|
|
A global variabile ('is7') store the version of 'ipfw' that FreeBSD is using.
|
|
This variable is set every time a request of configuration is done, because
|
|
with this request we receive a buffer of which size depending of ipfw version.
|
|
Because of in general the first action is a configuration, this variable is
|
|
usually set accordly. If the first action is a request of listing of pipes
|
|
or queues, the system cannot know the version of ipfw, and we suppose that
|
|
version 7.2 is used. If version is wrong, the output can be senseless, but
|
|
the application should not crash.
|
|
|
|
There are four request for old dummynet:
|
|
- IP_DUMMYNET_FLUSH: the flush options have no parameter, so simply the
|
|
dummynet_flush() function is called;
|
|
- IP_DUMMYNET_DEL: the delete option need to be translate.
|
|
It is only necessary to extract the number and the type of the object
|
|
(pipe or queue) to delete from the buffer received and build a new struct
|
|
gen contains the right parameters, then call the delete_object() function;
|
|
- IP_DUMMYNET_CONFIGURE: the configure command receive a buffer depending of
|
|
the ipfw version. After the properly extraction of all data, that depends
|
|
by the ipfw version used, new structures are filled and then the dummynet
|
|
config_link() function is properly called. Note that the 7.2 version does
|
|
not support some parameter as burst or delay profile.
|
|
- IP_DUMMYNET_GET: The get command should send to the ipfw the correct buffer
|
|
depending of its version. There are two function that build the
|
|
corrected buffer, ip_dummynet_get7() and ip_dummynet_get8(). These
|
|
functions reproduce the buffer exactly as 'ipfw' expect. The only difference
|
|
is that the weight parameter for a queue is no loger sent by dummynet and so
|
|
it is set to 0.
|
|
Moreover, because of the internal structure has changed, the bucket size
|
|
of a queue could not be correct, because now all flowset share the hash
|
|
table.
|
|
If the version of ipfw is wrong, the output could be senseless or truncated,
|
|
but the application should not crash.
|
|
|
|
IP_FW_GLUE.C
|
|
------------
|
|
The ipfw binary also is used to add rules to FreeBSD firewall. Because of the
|
|
struct ip_fw is changed from FreeBsd 7.2 to FreeBSD 8, it is necessary
|
|
to write some glue code to allow use ipfw from FreeBSD 7.2 with the kernel
|
|
provided with FreeBSD 8.
|
|
This file contains two functions to convert a rule from FreeBSD 7.2 format to
|
|
FreeBSD 8 format, and viceversa.
|
|
The conversion should be done when a rule passes from userspace to kernel space
|
|
and viceversa.
|
|
I have to modify the ip_fw2.c file to manage these two case, and added a
|
|
variable (is7) to store the ipfw version used, using an approach like the
|
|
previous file:
|
|
- when a new rule is added (option IP_FW_ADD) the is7 variable is set if the
|
|
size of the rule received corrispond to FreeBSD 7.2 ipfw version. If so, the
|
|
rule is converted to version 8 calling the function convert_rule_to_8().
|
|
Moreover, after the insertion of the rule, the rule is now reconverted to
|
|
version 7 because the ipfw binary will print it.
|
|
- when the user request a list of rules (option IP_FW_GET) the is7 variable
|
|
should be set correctly because we suppose that a configure command was done,
|
|
else we suppose that the FreeBSD version is 8. The function ipfw_getrules()
|
|
in ip_fw2.c file return all rules, eventually converted to version 7 (if
|
|
the is7 is set) to the ipfw binary.
|
|
The conversion of a rule is quite simple. The only difference between the
|
|
two structures (struct ip_fw) is that in the new there is a new field
|
|
(uint32_t id). So, I copy the entire rule in a buffer and the copy the rule in
|
|
the right position in the new (or old) struct. The size of commands are not
|
|
changed, and the copy is done into a cicle.
|
|
|
|
How to configure dummynet
|
|
=========================
|
|
It is possible to configure dummynet through two main commands:
|
|
'ipfw pipe' and 'ipfw queue'.
|
|
To allow compatibility with old version, it is possible configure dummynet
|
|
using the old command syntax. Doing so, obviously, it is only possible to
|
|
configure a FIFO scheduler or a wf2q+ scheduler.
|
|
A new command, 'ipfw pipe x config sched <type>' is supported to add a new
|
|
scheduler to the system.
|
|
|
|
- ipfw pipe x config ...
|
|
create a new pipe with the link parameters
|
|
create a new scheduler fifo (x + offset)
|
|
create a new flowset fifo (x + offset)
|
|
the mask is eventually stored in the FIFO scheduler
|
|
|
|
- ipfw queue y config pipe x ...
|
|
create a new flowset y linked to sched x.
|
|
The type of flowset depends by the specified scheduler.
|
|
If the scheduler does not exist, this flowset is inserted in a special
|
|
list and will be not active.
|
|
If pipe x exists and sched does not exist, a new wf2q+ scheduler is
|
|
created and the flowset will be linked to this new scheduler (this is
|
|
done for compatibility with old syntax).
|
|
|
|
- ipfw pipe x config sched <type> ...
|
|
create a new scheduler x of type <type>.
|
|
Search into the flowset unlinked list if there are some flowset that
|
|
should be linked with this new scheduler.
|
|
|
|
- ipfw pipe x delete
|
|
delete the pipe x
|
|
delete the scheduler fifo (x + offset)
|
|
delete the scheduler x
|
|
delete the flowset fifo (x + offset)
|
|
|
|
- ipfw queue x delete
|
|
delete the flowset x
|
|
|
|
- ipfw sched x delete ///XXX
|
|
delete the scheduler x
|
|
|
|
Follow now some examples to how configure dummynet:
|
|
- Ex1:
|
|
ipfw pipe 10 config bw 1M delay 15 // create a pipe with band and delay
|
|
A FIFO flowset and scheduler is
|
|
also created
|
|
ipfw queue 5 config pipe 10 weight 56 // create a flowset. This flowset
|
|
will be of wf2q+ because a pipe 10
|
|
exists. Moreover, the wf2q+
|
|
scheduler is created now.
|
|
- Ex2:
|
|
ipfw queue 5 config pipe 10 weight 56 // Create a flowset. Scheduler 10
|
|
does not exist, so this flowset
|
|
is inserted in the unlinked
|
|
flowset list.
|
|
ipfw pipe 10 config bw... // Create a pipe, a FIFO flowset and scheduler.
|
|
Because of a flowset with 'pipe 10' exists,
|
|
a wf2q+ scheduler is created now and that
|
|
flowset is linked with this sceduler.
|
|
|
|
- Ex3:
|
|
ipfw pipe 10 config bw... // Create a pipe, a FIFO flowset and scheduler.
|
|
ipfw pipe 10 config sched rr // Create a scheduler of type RR, linked to
|
|
pipe 10
|
|
ipfw queue 5 config pipe 10 weight 56 // Create a flowset 5. This flowset
|
|
will belong to scheduler 10 and
|
|
it is of type RR
|
|
|
|
- Ex4:
|
|
ipfw pipe 10 config sched rr // Create a scheduler of type RR, linked to
|
|
pipe 10 (not exist yet)
|
|
ipfw pipe 10 config bw... // Create a pipe, a FIFO flowset and scheduler.
|
|
ipfw queue 5 config pipe 10 weight 56 // Create a flowset 5.This flowset
|
|
will belong to scheduler 10 and
|
|
it is of type RR
|
|
ipfw pipe 10 config sched wf2q+ // Modify the type of scheduler 10. It
|
|
becomes a wf2q+ scheduler.
|
|
When a new packet of flowset 5 arrives,
|
|
the flowset 5 becomes to wf2q+ type.
|
|
|
|
How to implement a new scheduler
|
|
================================
|
|
In dummynet, a scheduler algorithm is represented by two main structs, some
|
|
functions and other minor structs.
|
|
- A struct dn_sch_xyz (where xyz is the 'type' of scheduler algorithm
|
|
implemented) contains data relative to scheduler, as global parameter that
|
|
are common to all instances of the scheduler
|
|
- A struct dn_sch_inst_xyz contains data relative to a single scheduler
|
|
instance, as local status variable depending for example by flows that
|
|
are linked with the scheduler, and so on.
|
|
To add a scheduler to dummynet, the user should type a command like:
|
|
'ipfw pipe x config sched <type> [mask ... ...]'
|
|
This command creates a new struct dn_sch_xyz of type <type>, and
|
|
store the optional parameter in that struct.
|
|
|
|
The parameter mask determines how many scheduler instance of this
|
|
scheduler may exist. For example, it is possible to divide traffic
|
|
depending on the source port (or destination, or ip address...),
|
|
so that every scheduler instance act as an independent scheduler.
|
|
If the mask is not set, all traffic goes to the same instance.
|
|
|
|
When a packet arrives to a scheduler, the system search the corrected
|
|
scheduler instance, and if it does not exist it is created now (the
|
|
struct dn_sch_inst_xyz is allocated by the system, and the scheduler
|
|
fills the field correctly). It is a task of the scheduler to create
|
|
the struct that contains all queues for a scheduler instance.
|
|
Dummynet provides some function to create an hash table to store
|
|
queues, but the schedule algorithm can choice the own struct.
|
|
|
|
To link a flow to a scheduler, the user should type a command like:
|
|
'ipfw queue z config pipe x [mask... ...]'
|
|
|
|
This command creates a new 'dn_fs' struct that will be inserted
|
|
in the system. If the scheduler x exists, this flowset will be
|
|
linked to that scheduler and the flowset type become the same as
|
|
the scheduler type. At this point, the function create_alg_fs_xyz()
|
|
is called to allow store eventually parameter for the flowset that
|
|
depend by scheduler (for example the 'weight' parameter for a wf2q+
|
|
scheduler, or some priority...). A parameter mask can be used for
|
|
a flowset. If the mask parameter is set, the scheduler instance can
|
|
separate packet according to its flow id (src and dst ip, ports...)
|
|
and assign it to a separate queue. This is done by the scheduler,
|
|
so it can ignore the mask if it wants.
|
|
|
|
See now the two main structs:
|
|
struct dn_sch_xyz {
|
|
struct gen g; /* important the name g */
|
|
/* global params */
|
|
};
|
|
struct dn_sch_inst_xyz {
|
|
struct gen g; /* important the name g */
|
|
/* params of the instance */
|
|
};
|
|
It is important to embed the struct gen as first parameter. The struct gen
|
|
contains some values that the scheduler instance must fill (the 'type' of
|
|
scheduler, the 'len' of the struct...)
|
|
The function create_scheduler_xyz() should be implemented to initialize global
|
|
parameters in the first struct, and if memory allocation is done it is
|
|
mandatory to implement the delete_scheduler_template() function to free that
|
|
memory.
|
|
The function create_scheduler_instance_xyz() must be implemented even if the
|
|
scheduler instance does not use extra parameters. In this function the struct
|
|
gen fields must be filled with corrected infos. The
|
|
delete_scheduler_instance_xyz() function must bu implemented if the instance
|
|
has allocated some memory in the previous function.
|
|
|
|
To store data belonging to a flowset the follow struct is used:
|
|
struct alg_fs_xyz {
|
|
struct gen g;
|
|
/* fill correctly the gen struct
|
|
g.subtype = DN_XYZ;
|
|
g.len = sizeof(struct alg_fs_xyz)
|
|
...
|
|
*/
|
|
/* params for the flow */
|
|
};
|
|
The create_alg_fs_xyz() function is mandatory, because it must fill the struct
|
|
gen, but the delete_alg_fs_xyz() is mandatory only if the previous function
|
|
has allocated some memory.
|
|
|
|
A struct dn_queue contains packets belonging to a queue and some statistical
|
|
data. The scheduler could have to store data in this struct, so it must define
|
|
a dn_queue_xyz struct:
|
|
struct dn_queue_xyz {
|
|
struct dn_queue q;
|
|
/* parameter for a queue */
|
|
}
|
|
|
|
All structures are allocated by the system. To do so, the scheduler must
|
|
set the size of its structs in the scheduler descriptor:
|
|
scheduler_size: sizeof(dn_sch_xyz)
|
|
scheduler_i_size: sizeof(dn_sch_inst_xyz)
|
|
flowset_size: sizeof(alg_fs_xyz)
|
|
queue_size: sizeof(dn_queue_xyz);
|
|
The scheduler_size could be 0, but other struct must have at least a struct gen.
|
|
|
|
|
|
After the definition of structs, it is necessary to implement the
|
|
scheduler functions.
|
|
|
|
- int (*config_scheduler)(char *command, void *sch, int reconfigure);
|
|
Configure a scheduler, or reconfigure if 'reconfigure' == 1.
|
|
This function performs additional allocation and initialization of global
|
|
parameter for this scheduler.
|
|
If memory is allocated here, the delete_scheduler_template() function
|
|
should be implemented to remove this memory.
|
|
- int (*delete_scheduler_template)(void* sch);
|
|
Delete a scheduler template. This function is mandatory if the scheduler
|
|
uses extra data respect the struct dn_sch.
|
|
- int (*create_scheduler_instance)(void *s);
|
|
Create a new scheduler instance. The system allocate the necessary memory
|
|
and the schedulet can access it using the 's' pointer.
|
|
The scheduler instance stores all queues, and to do this can use the
|
|
hash table provided by the system.
|
|
- int (*delete_scheduler_instance)(void *s);
|
|
Delete a scheduler instance. It is important to free memory allocated
|
|
by create_scheduler_instance() function. The memory allocated by system
|
|
is freed by the system itself. The struct contains all queue also has
|
|
to be deleted.
|
|
- int (*enqueue)(void *s, struct gen *f, struct mbuf *m,
|
|
struct ipfw_flow_id *id);
|
|
Called when a packet arrives. The packet 'm' belongs to the scheduler
|
|
instance 's', has a flowset 'f' and the flowid 'id' has already been
|
|
masked. The enqueue() must call dn_queue_packet(q, m) function to really
|
|
enqueue packet in the queue q. The queue 'q' is chosen by the scheduler
|
|
and if it does not exist should be created calling the dn_create_queue()
|
|
function. If the schedule want to drop the packet, it must call the
|
|
dn_drop_packet() function and then return 1.
|
|
- struct mbuf * (*dequeue)(void *s);
|
|
Called when the timer expires (or when a packet arrives and the scheduler
|
|
instance is idle).
|
|
This function is called when at least a packet can be send out. The
|
|
scheduler choices the packet and returns it; if no packet are in the
|
|
schedulerinstance, the function must return NULL.
|
|
Before return a packet, it is important to call the function
|
|
dn_return_packet() to update some statistic of the queue and update the
|
|
queue counters.
|
|
- int (*drain_queue)(void *s, int flag);
|
|
The system request to scheduler to delete all queues that is not using
|
|
to free memory. The flag parameter indicate if a queue must be deleted
|
|
even if it is active.
|
|
|
|
- int (*create_alg_fs)(char *command, struct gen *g, int reconfigure);
|
|
It is called when a flowset is linked with a scheduler. This is done
|
|
when the scheduler is defined, so we can know the type of flowset.
|
|
The function initialize the flowset paramenter parsing the command
|
|
line. The parameter will be stored in the g struct that have the right
|
|
size allocated by the system. If the reconfigure flag is set, it means
|
|
that the flowset is reconfiguring
|
|
- int (*delete_alg_fs)(struct gen *f);
|
|
It is called when a flowset is deleting. Must remove the memory allocate
|
|
by the create_alg_fs() function.
|
|
|
|
- int (*create_queue_alg)(struct dn_queue *q, struct gen *f);
|
|
Called when a queue is created. The function should link the queue
|
|
to the struct used by the scheduler instance to store all queues.
|
|
- int (*delete_queue_alg)(struct dn_queue *q);
|
|
Called when a queue is deleting. The function should remove extra data
|
|
and update the struct contains all queues in the scheduler instance.
|
|
|
|
The struct scheduler represent the scheduler descriptor that is passed to
|
|
dummynet when a scheduler module is loaded.
|
|
This struct contains the type of scheduler, the length of all structs and
|
|
all function pointers.
|
|
If a function is not implemented should be initialize to NULL. Some functions
|
|
are mandatory, other are mandatory if some memory should be freed.
|
|
Mandatory functions:
|
|
- create_scheduler_instance()
|
|
- enqueue()
|
|
- dequeue()
|
|
- create_alg_fs()
|
|
- drain_queue()
|
|
Optional functions:
|
|
- config_scheduler()
|
|
- create_queue_alg()
|
|
Mandatory functions if the corresponding create...() has allocated memory:
|
|
- delete_scheduler_template()
|
|
- delete_scheduler_instance()
|
|
- delete_alg_fs()
|
|
- delete_queue_alg()
|
|
|