(\fB*\fR should be quoted to protect it from shell expansion.)
.
.IP \fBin_port=\fIport_no\fR
-Matches physical port \fIport_no\fR. Switch ports are numbered as
+Matches OpenFlow port \fIport_no\fR. Ports are numbered as
displayed by \fBovs\-ofctl show\fR.
+.IP
+(The \fBresubmit\fR action can search OpenFlow flow tables with
+arbitrary \fBin_port\fR values, so flows that match port numbers that
+do not exist from an OpenFlow perspective can still potentially be
+matched.)
.
.IP \fBdl_vlan=\fIvlan\fR
Matches IEEE 802.1q Virtual LAN tag \fIvlan\fR. Specify \fB0xffff\fR
.IP \fBset_tunnel\fB:\fIid\fR
.IQ \fBset_tunnel64\fB:\fIid\fR
If outputting to a port that encapsulates the packet in a tunnel and
-supports an identifier (such as GRE), sets the identifier to \fBid\fR.
+supports an identifier (such as GRE), sets the identifier to \fIid\fR.
If the \fBset_tunnel\fR form is used and \fIid\fR fits in 32 bits,
then this uses an action extension that is supported by Open vSwitch
1.0 and later. Otherwise, if \fIid\fR is a 64-bit value, it requires
\fIhh\fR may be included. Pairs of hex digits may be separated by
periods for readability.
.
-.IP "\fBmove:\fIsrc\fB[\fIstart\fB..\fIend\fB]->\fIdst\fB[\fIstart\fB..\fIend\fB]\fR"
+.IP "\fBmove:\fIsrc\fB[\fIstart\fB..\fIend\fB]\->\fIdst\fB[\fIstart\fB..\fIend\fB]\fR"
Copies the named bits from field \fIsrc\fR to field \fIdst\fR.
\fIsrc\fR and \fIdst\fR must be NXM field names as defined in
\fBnicira\-ext.h\fR, e.g. \fBNXM_OF_UDP_SRC\fR or \fBNXM_NX_REG0\fR.
Examples: \fBmove:NXM_NX_REG0[0..5]\->NXM_NX_REG1[26..31]\fR copies the
six bits numbered 0 through 5, inclusive, in register 0 into bits 26
through 31, inclusive;
-\fBmove:NXM_NX_REG0[0..15]->NXM_OF_VLAN_TCI[]\fR copies the least
+\fBmove:NXM_NX_REG0[0..15]\->NXM_OF_VLAN_TCI[]\fR copies the least
significant 16 bits of register 0 into the VLAN TCI field.
.
.IP "\fBload:\fIvalue\fB\->\fIdst\fB[\fIstart\fB..\fIend\fB]"
Writes \fIvalue\fR to bits \fIstart\fR through \fIend\fR, inclusive,
-in field \fBdst\fR.
+in field \fIdst\fR.
.IP
Example: \fBload:55\->NXM_NX_REG2[0..5]\fR loads value 55 (bit pattern
\fB110111\fR) into bits 0 through 5, inclusive, in register 2.
\fIdst\fB[\fIstart\fB..\fIend\fB]\fR, which must be an NXM field as described
above.
.IP
-Example: \fBbundle_load(eth_src,0,hrw,ofport,NXM_NX_REG0[],slaves:4,8)\fR uses
-an Ethernet source hash with basis 0, to select between OpenFlow ports 4 and 8
-using the Highest Random Weight algorithm, and writes the selection to
-\fBNXM_NX_REG0[]\fR.
+Example: \fBbundle_load(eth_src, 0, hrw, ofport, NXM_NX_REG0[],
+slaves:4, 8)\fR uses an Ethernet source hash with basis 0, to select
+between OpenFlow ports 4 and 8 using the Highest Random Weight
+algorithm, and writes the selection to \fBNXM_NX_REG0[]\fR.
.IP
Refer to \fBnicira\-ext.h\fR for more details.
+.
+.IP "\fBlearn(\fIargument\fR[\fB,\fIargument\fR]...\fB)\fR"
+This action adds or modifies a flow in an OpenFlow table, similar to
+\fBovs\-ofctl \-\-strict mod\-flows\fR. The arguments specify the
+flow's match fields, actions, and other properties, as follows. At
+least one match criterion and one action argument should ordinarily be
+specified.
+.RS
+.IP \fBidle_timeout=\fIseconds\fR
+.IQ \fBhard_timeout=\fIseconds\fR
+.IQ \fBpriority=\fIvalue\fR
+These key-value pairs have the same meaning as in the usual
+\fBovs\-ofctl\fR flow syntax.
+.
+.IP \fBtable=\fInumber\fR
+The table in which the new flow should be inserted. Specify a decimal
+number between 0 and 254. The default, if \fBtable\fR is unspecified,
+is table 1.
+.
+.IP \fIfield\fB=\fIvalue\fR
+.IQ \fIfield\fB[\fIstart\fB..\fIend\fB]=\fIsrc\fB[\fIstart\fB..\fIend\fB]\fR
+.IQ \fIfield\fB[\fIstart\fB..\fIend\fB]\fR
+Adds a match criterion to the new flow.
+.IP
+The first form specifies that \fIfield\fR must match the literal
+\fIvalue\fR, e.g. \fBdl_type=0x0800\fR. All of the fields and values
+for \fBovs\-ofctl\fR flow syntax are available with their usual
+meanings.
+.IP
+The second form specifies that \fIfield\fB[\fIstart\fB..\fIend\fB]\fR
+in the new flow must match \fIsrc\fB[\fIstart\fB..\fIend\fB]\fR taken
+from the flow currently being processed.
+.IP
+The third form is a shorthand for the second form. It specifies that
+\fIfield\fB[\fIstart\fB..\fIend\fB]\fR in the new flow must match
+\fIfield\fB[\fIstart\fB..\fIend\fB]\fR taken from the flow currently
+being processed.
+.
+.IP \fBload:\fIvalue\fB\->\fIdst\fB[\fIstart\fB..\fIend\fB]
+.IQ \fBload:\fIsrc\fB[\fIstart\fB..\fIend\fB]\->\fIdst\fB[\fIstart\fB..\fIend\fB]
+.
+Adds a \fBload\fR action to the new flow.
+.IP
+The first form loads the literal \fIvalue\fR into bits \fIstart\fR
+through \fIend\fR, inclusive, in field \fIdst\fR. Its syntax is the
+same as the \fBload\fR action described earlier in this section.
+.IP
+The second form loads \fIsrc\fB[\fIstart\fB..\fIend\fB]\fR, a value
+from the flow currently being processed, into bits \fIstart\fR
+through \fIend\fR, inclusive, in field \fIdst\fR.
+.
+.IP \fBoutput:\fIfield\fB[\fIstart\fB..\fIend\fB]\fR
+Add an \fBoutput\fR action to the new flow's actions, that outputs to
+the OpenFlow port taken from \fIfield\fB[\fIstart\fB..\fIend\fB]\fR,
+which must be an NXM field as described above.
+.RE
+.IP
+For best performance, segregate learned flows into a table (using
+\fBtable=\fInumber\fR) that is not used for any other flows except
+possibly for a lowest-priority ``catch-all'' flow, that is, a flow
+with no match criteria. (This is why the default \fBtable\fR is 1, to
+keep the learned flows separate from the primary flow table 0.)
.RE
.
.PP