2005-04-17 06:20:36 +08:00
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#
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# Makefile for the linux networking.
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#
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# 2 Sep 2000, Christoph Hellwig <hch@infradead.org>
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# Rewritten to use lists instead of if-statements.
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#
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obj-$(CONFIG_NET) := socket.o core/
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tmp-$(CONFIG_COMPAT) := compat.o
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obj-$(CONFIG_NET) += $(tmp-y)
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# LLC has to be linked before the files in net/802/
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obj-$(CONFIG_LLC) += llc/
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2017-03-31 12:45:38 +08:00
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obj-$(CONFIG_NET) += ethernet/ 802/ sched/ netlink/ bpf/
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2005-08-10 10:30:24 +08:00
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obj-$(CONFIG_NETFILTER) += netfilter/
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2005-11-15 07:25:59 +08:00
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obj-$(CONFIG_INET) += ipv4/
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2017-06-15 02:37:39 +08:00
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obj-$(CONFIG_TLS) += tls/
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2005-04-17 06:20:36 +08:00
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obj-$(CONFIG_XFRM) += xfrm/
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obj-$(CONFIG_UNIX) += unix/
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2011-03-04 07:35:07 +08:00
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obj-$(CONFIG_NET) += ipv6/
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2005-04-17 06:20:36 +08:00
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obj-$(CONFIG_PACKET) += packet/
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obj-$(CONFIG_NET_KEY) += key/
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obj-$(CONFIG_BRIDGE) += bridge/
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net: Distributed Switch Architecture protocol support
Distributed Switch Architecture is a protocol for managing hardware
switch chips. It consists of a set of MII management registers and
commands to configure the switch, and an ethernet header format to
signal which of the ports of the switch a packet was received from
or is intended to be sent to.
The switches that this driver supports are typically embedded in
access points and routers, and a typical setup with a DSA switch
looks something like this:
+-----------+ +-----------+
| | RGMII | |
| +-------+ +------ 1000baseT MDI ("WAN")
| | | 6-port +------ 1000baseT MDI ("LAN1")
| CPU | | ethernet +------ 1000baseT MDI ("LAN2")
| |MIImgmt| switch +------ 1000baseT MDI ("LAN3")
| +-------+ w/5 PHYs +------ 1000baseT MDI ("LAN4")
| | | |
+-----------+ +-----------+
The switch driver presents each port on the switch as a separate
network interface to Linux, polls the switch to maintain software
link state of those ports, forwards MII management interface
accesses to those network interfaces (e.g. as done by ethtool) to
the switch, and exposes the switch's hardware statistics counters
via the appropriate Linux kernel interfaces.
This initial patch supports the MII management interface register
layout of the Marvell 88E6123, 88E6161 and 88E6165 switch chips, and
supports the "Ethertype DSA" packet tagging format.
(There is no officially registered ethertype for the Ethertype DSA
packet format, so we just grab a random one. The ethertype to use
is programmed into the switch, and the switch driver uses the value
of ETH_P_EDSA for this, so this define can be changed at any time in
the future if the one we chose is allocated to another protocol or
if Ethertype DSA gets its own officially registered ethertype, and
everything will continue to work.)
Signed-off-by: Lennert Buytenhek <buytenh@marvell.com>
Tested-by: Nicolas Pitre <nico@marvell.com>
Tested-by: Byron Bradley <byron.bbradley@gmail.com>
Tested-by: Tim Ellis <tim.ellis@mac.com>
Tested-by: Peter van Valderen <linux@ddcrew.com>
Tested-by: Dirk Teurlings <dirk@upexia.nl>
Signed-off-by: David S. Miller <davem@davemloft.net>
2008-10-07 21:44:02 +08:00
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obj-$(CONFIG_NET_DSA) += dsa/
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2005-04-17 06:20:36 +08:00
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obj-$(CONFIG_IPX) += ipx/
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obj-$(CONFIG_ATALK) += appletalk/
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obj-$(CONFIG_X25) += x25/
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obj-$(CONFIG_LAPB) += lapb/
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obj-$(CONFIG_NETROM) += netrom/
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obj-$(CONFIG_ROSE) += rose/
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obj-$(CONFIG_AX25) += ax25/
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2007-11-17 07:52:17 +08:00
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obj-$(CONFIG_CAN) += can/
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2005-04-17 06:20:36 +08:00
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obj-$(CONFIG_BT) += bluetooth/
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obj-$(CONFIG_SUNRPC) += sunrpc/
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2007-04-27 06:48:28 +08:00
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obj-$(CONFIG_AF_RXRPC) += rxrpc/
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2016-03-08 06:11:06 +08:00
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obj-$(CONFIG_AF_KCM) += kcm/
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strparser: Stream parser for messages
This patch introduces a utility for parsing application layer protocol
messages in a TCP stream. This is a generalization of the mechanism
implemented of Kernel Connection Multiplexor.
The API includes a context structure, a set of callbacks, utility
functions, and a data ready function.
A stream parser instance is defined by a strparse structure that
is bound to a TCP socket. The function to initialize the structure
is:
int strp_init(struct strparser *strp, struct sock *csk,
struct strp_callbacks *cb);
csk is the TCP socket being bound to and cb are the parser callbacks.
The upper layer calls strp_tcp_data_ready when data is ready on the lower
socket for strparser to process. This should be called from a data_ready
callback that is set on the socket:
void strp_tcp_data_ready(struct strparser *strp);
A parser is bound to a TCP socket by setting data_ready function to
strp_tcp_data_ready so that all receive indications on the socket
go through the parser. This is assumes that sk_user_data is set to
the strparser structure.
There are four callbacks.
- parse_msg is called to parse the message (returns length or error).
- rcv_msg is called when a complete message has been received
- read_sock_done is called when data_ready function exits
- abort_parser is called to abort the parser
The input to parse_msg is an skbuff which contains next message under
construction. The backend processing of parse_msg will parse the
application layer protocol headers to determine the length of
the message in the stream. The possible return values are:
>0 : indicates length of successfully parsed message
0 : indicates more data must be received to parse the message
-ESTRPIPE : current message should not be processed by the
kernel, return control of the socket to userspace which
can proceed to read the messages itself
other < 0 : Error is parsing, give control back to userspace
assuming that synchronzation is lost and the stream
is unrecoverable (application expected to close TCP socket)
In the case of error return (< 0) strparse will stop the parser
and report and error to userspace. The application must deal
with the error. To handle the error the strparser is unbound
from the TCP socket. If the error indicates that the stream
TCP socket is at recoverable point (ESTRPIPE) then the application
can read the TCP socket to process the stream. Once the application
has dealt with the exceptions in the stream, it may again bind the
socket to a strparser to continue data operations.
Note that ENODATA may be returned to the application. In this case
parse_msg returned -ESTRPIPE, however strparser was unable to maintain
synchronization of the stream (i.e. some of the message in question
was already read by the parser).
strp_pause and strp_unpause are used to provide flow control. For
instance, if rcv_msg is called but the upper layer can't immediately
consume the message it can hold the message and pause strparser.
Signed-off-by: Tom Herbert <tom@herbertland.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
2016-08-16 05:51:01 +08:00
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obj-$(CONFIG_STREAM_PARSER) += strparser/
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2005-04-17 06:20:36 +08:00
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obj-$(CONFIG_ATM) += atm/
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2010-04-02 14:18:33 +08:00
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obj-$(CONFIG_L2TP) += l2tp/
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2005-04-17 06:20:36 +08:00
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obj-$(CONFIG_DECNET) += decnet/
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2008-09-23 11:03:00 +08:00
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obj-$(CONFIG_PHONET) += phonet/
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2008-07-08 18:23:36 +08:00
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ifneq ($(CONFIG_VLAN_8021Q),)
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obj-y += 8021q/
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endif
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2005-08-10 11:14:34 +08:00
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obj-$(CONFIG_IP_DCCP) += dccp/
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2005-04-17 06:20:36 +08:00
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obj-$(CONFIG_IP_SCTP) += sctp/
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2009-02-24 23:30:39 +08:00
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obj-$(CONFIG_RDS) += rds/
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2010-06-27 08:00:25 +08:00
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obj-$(CONFIG_WIRELESS) += wireless/
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2007-05-06 02:45:53 +08:00
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obj-$(CONFIG_MAC80211) += mac80211/
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2006-01-03 02:04:38 +08:00
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obj-$(CONFIG_TIPC) += tipc/
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2006-08-04 07:48:37 +08:00
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obj-$(CONFIG_NETLABEL) += netlabel/
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2007-02-09 05:37:42 +08:00
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obj-$(CONFIG_IUCV) += iucv/
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2017-01-09 23:55:13 +08:00
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obj-$(CONFIG_SMC) += smc/
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2007-05-07 15:34:20 +08:00
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obj-$(CONFIG_RFKILL) += rfkill/
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2007-07-11 06:57:28 +08:00
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obj-$(CONFIG_NET_9P) += 9p/
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2010-03-30 21:56:28 +08:00
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obj-$(CONFIG_CAIF) += caif/
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2008-11-25 17:02:08 +08:00
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ifneq ($(CONFIG_DCB),)
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obj-y += dcb/
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2008-11-21 12:52:10 +08:00
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endif
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2014-07-11 16:24:18 +08:00
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obj-$(CONFIG_6LOWPAN) += 6lowpan/
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obj-$(CONFIG_IEEE802154) += ieee802154/
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2012-05-16 04:50:20 +08:00
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obj-$(CONFIG_MAC802154) += mac802154/
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2005-04-17 06:20:36 +08:00
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ifeq ($(CONFIG_NET),y)
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obj-$(CONFIG_SYSCTL) += sysctl_net.o
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endif
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2008-12-24 08:18:24 +08:00
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obj-$(CONFIG_WIMAX) += wimax/
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2010-08-04 22:16:33 +08:00
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obj-$(CONFIG_DNS_RESOLVER) += dns_resolver/
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2010-04-07 06:14:15 +08:00
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obj-$(CONFIG_CEPH_LIB) += ceph/
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2010-12-13 19:19:28 +08:00
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obj-$(CONFIG_BATMAN_ADV) += batman-adv/
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2011-07-02 06:31:33 +08:00
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obj-$(CONFIG_NFC) += nfc/
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net: Introduce psample, a new genetlink channel for packet sampling
Add a general way for kernel modules to sample packets, without being tied
to any specific subsystem. This netlink channel can be used by tc,
iptables, etc. and allow to standardize packet sampling in the kernel.
For every sampled packet, the psample module adds the following metadata
fields:
PSAMPLE_ATTR_IIFINDEX - the packets input ifindex, if applicable
PSAMPLE_ATTR_OIFINDEX - the packet output ifindex, if applicable
PSAMPLE_ATTR_ORIGSIZE - the packet's original size, in case it has been
truncated during sampling
PSAMPLE_ATTR_SAMPLE_GROUP - the packet's sample group, which is set by the
user who initiated the sampling. This field allows the user to
differentiate between several samplers working simultaneously and
filter packets relevant to him
PSAMPLE_ATTR_GROUP_SEQ - sequence counter of last sent packet. The
sequence is kept for each group
PSAMPLE_ATTR_SAMPLE_RATE - the sampling rate used for sampling the packets
PSAMPLE_ATTR_DATA - the actual packet bits
The sampled packets are sent to the PSAMPLE_NL_MCGRP_SAMPLE multicast
group. In addition, add the GET_GROUPS netlink command which allows the
user to see the current sample groups, their refcount and sequence number.
This command currently supports only netlink dump mode.
Signed-off-by: Yotam Gigi <yotamg@mellanox.com>
Signed-off-by: Jiri Pirko <jiri@mellanox.com>
Reviewed-by: Jamal Hadi Salim <jhs@mojatatu.com>
Reviewed-by: Simon Horman <simon.horman@netronome.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
2017-01-23 18:07:08 +08:00
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obj-$(CONFIG_PSAMPLE) += psample/
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2017-02-01 21:30:02 +08:00
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obj-$(CONFIG_NET_IFE) += ife/
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2011-10-26 10:26:31 +08:00
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obj-$(CONFIG_OPENVSWITCH) += openvswitch/
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VSOCK: Introduce VM Sockets
VM Sockets allows communication between virtual machines and the hypervisor.
User level applications both in a virtual machine and on the host can use the
VM Sockets API, which facilitates fast and efficient communication between
guest virtual machines and their host. A socket address family, designed to be
compatible with UDP and TCP at the interface level, is provided.
Today, VM Sockets is used by various VMware Tools components inside the guest
for zero-config, network-less access to VMware host services. In addition to
this, VMware's users are using VM Sockets for various applications, where
network access of the virtual machine is restricted or non-existent. Examples
of this are VMs communicating with device proxies for proprietary hardware
running as host applications and automated testing of applications running
within virtual machines.
The VMware VM Sockets are similar to other socket types, like Berkeley UNIX
socket interface. The VM Sockets module supports both connection-oriented
stream sockets like TCP, and connectionless datagram sockets like UDP. The VM
Sockets protocol family is defined as "AF_VSOCK" and the socket operations
split for SOCK_DGRAM and SOCK_STREAM.
For additional information about the use of VM Sockets, please refer to the
VM Sockets Programming Guide available at:
https://www.vmware.com/support/developer/vmci-sdk/
Signed-off-by: George Zhang <georgezhang@vmware.com>
Signed-off-by: Dmitry Torokhov <dtor@vmware.com>
Signed-off-by: Andy king <acking@vmware.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
2013-02-06 22:23:56 +08:00
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obj-$(CONFIG_VSOCKETS) += vmw_vsock/
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2015-03-04 09:10:23 +08:00
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obj-$(CONFIG_MPLS) += mpls/
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2017-08-29 03:43:24 +08:00
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obj-$(CONFIG_NET_NSH) += nsh/
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2013-10-31 04:10:47 +08:00
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obj-$(CONFIG_HSR) += hsr/
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2014-11-28 21:34:17 +08:00
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ifneq ($(CONFIG_NET_SWITCHDEV),)
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obj-y += switchdev/
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endif
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2015-09-30 11:07:11 +08:00
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ifneq ($(CONFIG_NET_L3_MASTER_DEV),)
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obj-y += l3mdev/
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endif
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2016-05-06 22:09:08 +08:00
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obj-$(CONFIG_QRTR) += qrtr/
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net/ncsi: Resource management
NCSI spec (DSP0222) defines several objects: package, channel, mode,
filter, version and statistics etc. This introduces the data structs
to represent those objects and implement functions to manage them.
Also, this introduces CONFIG_NET_NCSI for the newly implemented NCSI
stack.
* The user (e.g. netdev driver) dereference NCSI device by
"struct ncsi_dev", which is embedded to "struct ncsi_dev_priv".
The later one is used by NCSI stack internally.
* Every NCSI device can have multiple packages simultaneously, up
to 8 packages. It's represented by "struct ncsi_package" and
identified by 3-bits ID.
* Every NCSI package can have multiple channels, up to 32. It's
represented by "struct ncsi_channel" and identified by 5-bits ID.
* Every NCSI channel has version, statistics, various modes and
filters. They are represented by "struct ncsi_channel_version",
"struct ncsi_channel_stats", "struct ncsi_channel_mode" and
"struct ncsi_channel_filter" separately.
* Apart from AEN (Asynchronous Event Notification), the NCSI stack
works in terms of command and response. This introduces "struct
ncsi_req" to represent a complete NCSI transaction made of NCSI
request and response.
link: https://www.dmtf.org/sites/default/files/standards/documents/DSP0222_1.1.0.pdf
Signed-off-by: Gavin Shan <gwshan@linux.vnet.ibm.com>
Acked-by: Joel Stanley <joel@jms.id.au>
Signed-off-by: David S. Miller <davem@davemloft.net>
2016-07-19 09:54:16 +08:00
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obj-$(CONFIG_NET_NCSI) += ncsi/
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