Signed-off-by: Stephen Finucane <step...@that.guru>
---
 INSTALL.SSL.md                  | 314 -------------------------------------
 INSTALL.SSL.rst                 | 338 ++++++++++++++++++++++++++++++++++++++++
 Makefile.am                     |   2 +-
 README.rst                      |   2 +-
 rhel/openvswitch-fedora.spec.in |   2 +-
 rhel/openvswitch.spec.in        |   2 +-
 6 files changed, 342 insertions(+), 318 deletions(-)
 delete mode 100644 INSTALL.SSL.md
 create mode 100644 INSTALL.SSL.rst

diff --git a/INSTALL.SSL.md b/INSTALL.SSL.md
deleted file mode 100644
index e341524..0000000
--- a/INSTALL.SSL.md
+++ /dev/null
@@ -1,314 +0,0 @@
-Configuring Open vSwitch for SSL
-================================
-
-If you plan to configure Open vSwitch to connect across the network to
-an OpenFlow controller, then we recommend that you build Open vSwitch
-with OpenSSL.  SSL support ensures integrity and confidentiality of
-the OpenFlow connections, increasing network security.
-
-This file explains how to configure an Open vSwitch to connect to an
-OpenFlow controller over SSL.  Refer to [INSTALL.rst] for instructions
-on building Open vSwitch with SSL support.
-
-Open vSwitch uses TLS version 1.0 or later (TLSv1), as specified by
-RFC 2246, which is very similar to SSL version 3.0.  TLSv1 was
-released in January 1999, so all current software and hardware should
-implement it.
-
-This document assumes basic familiarity with public-key cryptography
-and public-key infrastructure.
-
-SSL Concepts for OpenFlow
--------------------------
-
-This section is an introduction to the public-key infrastructure
-architectures that Open vSwitch supports for SSL authentication.
-
-To connect over SSL, every Open vSwitch must have a unique
-private/public key pair and a certificate that signs that public key.
-Typically, the Open vSwitch generates its own public/private key pair.
-There are two common ways to obtain a certificate for a switch:
-
-  * Self-signed certificates: The Open vSwitch signs its certificate
-    with its own private key.  In this case, each switch must be
-    individually approved by the OpenFlow controller(s), since there
-    is no central authority.
-
-    This is the only switch PKI model currently supported by NOX
-    (http://noxrepo.org).
-
-  * Switch certificate authority: A certificate authority (the
-    "switch CA") signs each Open vSwitch's public key.  The OpenFlow
-    controllers then check that any connecting switches'
-    certificates are signed by that certificate authority.
-
-    This is the only switch PKI model supported by the simple
-    OpenFlow controller included with Open vSwitch.
-
-Each Open vSwitch must also have a copy of the CA certificate for the
-certificate authority that signs OpenFlow controllers' keys (the
-"controller CA" certificate).  Typically, the same controller CA
-certificate is installed on all of the switches within a given
-administrative unit.  There are two common ways for a switch to obtain
-the controller CA certificate:
-
-  * Manually copy the certificate to the switch through some secure
-    means, e.g. using a USB flash drive, or over the network with
-    "scp", or even FTP or HTTP followed by manual verification.
-
-  * Open vSwitch "bootstrap" mode, in which Open vSwitch accepts and
-    saves the controller CA certificate that it obtains from the
-    OpenFlow controller on its first connection.  Thereafter the
-    switch will only connect to controllers signed by the same CA
-    certificate.
-
-Establishing a Public Key Infrastructure
-----------------------------------------
-
-Open vSwitch can make use of your existing public key infrastructure.
-If you already have a PKI, you may skip forward to the next section.
-Otherwise, if you do not have a PKI, the ovs-pki script included with
-Open vSwitch can help.  To create an initial PKI structure, invoke it
-as:
-
-    % ovs-pki init
-
-to create and populate a new PKI directory.  The default location for
-the PKI directory depends on how the Open vSwitch tree was configured
-(to see the configured default, look for the --dir option description
-in the output of "ovs-pki --help").
-
-The pki directory contains two important subdirectories.  The
-controllerca subdirectory contains controller CA files, including the
-following:
-
-  - cacert.pem: Root certificate for the controller certificate
-    authority.  Each Open vSwitch must have a copy of this file to
-    allow it to authenticate valid controllers.
-
-  - private/cakey.pem: Private signing key for the controller
-    certificate authority.  This file must be kept secret.  There is
-    no need for switches or controllers to have a copy of it.
-
-The switchca subdirectory contains switch CA files, analogous to those
-in the controllerca subdirectory:
-
-  - cacert.pem: Root certificate for the switch certificate
-    authority.  The OpenFlow controller must have this file to
-    enable it to authenticate valid switches.
-
-  - private/cakey.pem: Private signing key for the switch
-    certificate authority.  This file must be kept secret.  There is
-    no need for switches or controllers to have a copy of it.
-
-After you create the initial structure, you can create keys and
-certificates for switches and controllers with ovs-pki.  Refer to the
-ovs-pki(8) manage for complete details.  A few examples of its use
-follow:
-
-CONTROLLER KEY GENERATION
-
-To create a controller private key and certificate in files named
-ctl-privkey.pem and ctl-cert.pem, run the following on the machine
-that contains the PKI structure:
-
-      % ovs-pki req+sign ctl controller
-
-ctl-privkey.pem and ctl-cert.pem would need to be copied to the
-controller for its use at runtime.  If, for testing purposes, you were
-to use ovs-testcontroller, the simple OpenFlow controller included
-with Open vSwitch, then the --private-key and --certificate options,
-respectively, would point to these files.
-
-It is very important to make sure that no stray copies of
-ctl-privkey.pem are created, because they could be used to impersonate
-the controller.
-
-SWITCH KEY GENERATION WITH SELF-SIGNED CERTIFICATES
-
-If you are using self-signed certificates (see "SSL Concepts for
-OpenFlow"), this is one way to create an acceptable certificate for
-your controller to approve.
-
-1. Run the following command on the Open vSwitch itself:
-
-       % ovs-pki self-sign sc
-
-   (This command does not require a copy of any of the PKI files
-   generated by "ovs-pki init", and you should not copy them to the
-   switch because some of them have contents that must remain secret
-   for security.)
-
-   The "ovs-pki self-sign" command has the following output:
-
-     * sc-privkey.pem, the switch private key file.  For security,
-       the contents of this file must remain secret.  There is
-       ordinarily no need to copy this file off the Open vSwitch.
-
-     * sc-cert.pem, the switch certificate, signed by the switch's
-       own private key.  Its contents are not a secret.
-
-2. Optionally, copy controllerca/cacert.pem from the machine that has
-   the OpenFlow PKI structure and verify that it is correct.
-   (Otherwise, you will have to use CA certificate bootstrapping when
-   you configure Open vSwitch in the next step.)
-
-3. Configure Open vSwitch to use the keys and certificates (see
-   "Configuring SSL Support", below).
-
-SWITCH KEY GENERATION WITH A SWITCH PKI (EASY METHOD)
-
-If you are using a switch PKI (see "SSL Concepts for OpenFlow",
-above), this method of switch key generation is a little easier than
-the alternate method described below, but it is also a little less
-secure because it requires copying a sensitive private key from file
-from the machine hosting the PKI to the switch.
-
-1. Run the following on the machine that contains the PKI structure:
-
-       % ovs-pki req+sign sc switch
-
-   This command has the following output:
-
-     * sc-privkey.pem, the switch private key file.  For
-       security, the contents of this file must remain secret.
-
-     * sc-cert.pem, the switch certificate.  Its contents are
-       not a secret.
-
-2. Copy sc-privkey.pem and sc-cert.pem, plus controllerca/cacert.pem,
-   to the Open vSwitch.
-
-3. Delete the copies of sc-privkey.pem and sc-cert.pem on the PKI
-   machine and any other copies that may have been made in transit.
-   It is very important to make sure that there are no stray copies of
-   sc-privkey.pem, because they could be used to impersonate the
-   switch.
-
-   (Don't delete controllerca/cacert.pem!  It is not
-   security-sensitive and you will need it to configure additional
-   switches.)
-
-4. Configure Open vSwitch to use the keys and certificates (see
-   "Configuring SSL Support", below).
-
-SWITCH KEY GENERATION WITH A SWITCH PKI (MORE SECURE)
-
-If you are using a switch PKI (see "SSL Concepts for OpenFlow",
-above), then, compared to the previous method, the method described
-here takes a little more work, but it does not involve copying the
-private key from one machine to another, so it may also be a little
-more secure.
-
-1. Run the following command on the Open vSwitch itself:
-
-       % ovs-pki req sc
-
-   (This command does not require a copy of any of the PKI files
-   generated by "ovs-pki init", and you should not copy them to the
-   switch because some of them have contents that must remain secret
-   for security.)
-
-   The "ovs-pki req" command has the following output:
-
-     * sc-privkey.pem, the switch private key file.  For security,
-       the contents of this file must remain secret.  There is
-       ordinarily no need to copy this file off the Open vSwitch.
-
-     * sc-req.pem, the switch "certificate request", which is
-       essentially the switch's public key.  Its contents are not a
-       secret.
-
-     * A fingerprint, on stdout.
-
-2. Write the fingerprint down on a slip of paper and copy sc-req.pem
-   to the machine that contains the PKI structure.
-
-3. On the machine that contains the PKI structure, run:
-
-       % ovs-pki sign sc switch
-
-   This command will output a fingerprint to stdout and request that
-   you verify it.  Check that it is the same as the fingerprint that
-   you wrote down on the slip of paper before you answer "yes".
-
-   "ovs-pki sign" creates a file named sc-cert.pem, which is the
-   switch certificate.  Its contents are not a secret.
-
-4. Copy the generated sc-cert.pem, plus controllerca/cacert.pem from
-   the PKI structure, to the Open vSwitch, and verify that they were
-   copied correctly.
-
-   You may delete sc-cert.pem from the machine that hosts the PKI
-   structure now, although it is not important that you do so.  (Don't
-   delete controllerca/cacert.pem!  It is not security-sensitive and
-   you will need it to configure additional switches.)
-
-5. Configure Open vSwitch to use the keys and certificates (see
-   "Configuring SSL Support", below).
-
-Configuring SSL Support
------------------------
-
-SSL configuration requires three additional configuration files.  The
-first two of these are unique to each Open vSwitch.  If you used the
-instructions above to build your PKI, then these files will be named
-sc-privkey.pem and sc-cert.pem, respectively:
-
-    - A private key file, which contains the private half of an RSA or
-      DSA key.
-
-      This file can be generated on the Open vSwitch itself, for the
-      greatest security, or it can be generated elsewhere and copied
-      to the Open vSwitch.
-
-      The contents of the private key file are secret and must not be
-      exposed.
-
-    - A certificate file, which certifies that the private key is that
-      of a trustworthy Open vSwitch.
-
-      This file has to be generated on a machine that has the private
-      key for the switch certification authority, which should not be
-      an Open vSwitch; ideally, it should be a machine that is not
-      networked at all.
-
-      The certificate file itself is not a secret.
-
-The third configuration file is typically the same across all the
-switches in a given administrative unit.  If you used the
-instructions above to build your PKI, then this file will be named
-cacert.pem:
-
-  - The root certificate for the controller certificate authority.
-    The Open vSwitch verifies it that is authorized to connect to an
-    OpenFlow controller by verifying a signature against this CA
-    certificate.
-
-Once you have these files, configure ovs-vswitchd to use them using
-the ovs-vsctl "set-ssl" command, e.g.:
-
-    ovs-vsctl set-ssl /etc/openvswitch/sc-privkey.pem 
/etc/openvswitch/sc-cert.pem /etc/openvswitch/cacert.pem
-
-Substitute the correct file names, of course, if they differ from the
-ones used above.  You should use absolute file names (ones that begin
-with "/"), because ovs-vswitchd's current directory is unrelated to
-the one from which you run ovs-vsctl.
-
-If you are using self-signed certificates (see "SSL Concepts for
-OpenFlow") and you did not copy controllerca/cacert.pem from the PKI
-machine to the Open vSwitch, then add the --bootstrap option, e.g.:
-
-    ovs-vsctl -- --bootstrap set-ssl /etc/openvswitch/sc-privkey.pem 
/etc/openvswitch/sc-cert.pem /etc/openvswitch/cacert.pem
-
-After you have added all of these configuration keys, you may specify
-"ssl:" connection methods elsewhere in the configuration database.
-"tcp:" connection methods are still allowed even after SSL has been
-configured, so for security you should use only "ssl:" connections.
-
-Reporting Bugs
---------------
-
-Please report problems to b...@openvswitch.org.
-
-[INSTALL.rst]:INSTALL.rst
diff --git a/INSTALL.SSL.rst b/INSTALL.SSL.rst
new file mode 100644
index 0000000..8edd25e
--- /dev/null
+++ b/INSTALL.SSL.rst
@@ -0,0 +1,338 @@
+..
+      Licensed under the Apache License, Version 2.0 (the "License"); you may
+      not use this file except in compliance with the License. You may obtain
+      a copy of the License at
+
+          http://www.apache.org/licenses/LICENSE-2.0
+
+      Unless required by applicable law or agreed to in writing, software
+      distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
+      WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
+      License for the specific language governing permissions and limitations
+      under the License.
+
+      Convention for heading levels in Open vSwitch documentation:
+
+      =======  Heading 0 (reserved for the title in a document)
+      -------  Heading 1
+      ~~~~~~~  Heading 2
+      +++++++  Heading 3
+      '''''''  Heading 4
+
+      Avoid deeper levels because they do not render well.
+
+=====================
+Open vSwitch with SSL
+=====================
+
+If you plan to configure Open vSwitch to connect across the network to an
+OpenFlow controller, then we recommend that you build Open vSwitch with
+OpenSSL. SSL support ensures integrity and confidentiality of the OpenFlow
+connections, increasing network security.
+
+This document describes how to configure an Open vSwitch to connect to an
+OpenFlow controller over SSL.  Refer to the `general installation guide
+<INSTALL.rst>`__ for instructions on building Open vSwitch with SSL support.
+
+Open vSwitch uses TLS version 1.0 or later (TLSv1), as specified by RFC 2246,
+which is very similar to SSL version 3.0.  TLSv1 was released in January 1999,
+so all current software and hardware should implement it.
+
+This document assumes basic familiarity with public-key cryptography and
+public-key infrastructure.
+
+SSL Concepts for OpenFlow
+-------------------------
+
+This section is an introduction to the public-key infrastructure architectures
+that Open vSwitch supports for SSL authentication.
+
+To connect over SSL, every Open vSwitch must have a unique private/public key
+pair and a certificate that signs that public key.  Typically, the Open vSwitch
+generates its own public/private key pair.  There are two common ways to obtain
+a certificate for a switch:
+
+* Self-signed certificates: The Open vSwitch signs its certificate with its own
+  private key.  In this case, each switch must be individually approved by the
+  OpenFlow controller(s), since there is no central authority.
+
+  This is the only switch PKI model currently supported by NOX
+  (http://noxrepo.org).
+
+* Switch certificate authority: A certificate authority (the "switch CA") signs
+  each Open vSwitch's public key.  The OpenFlow controllers then check that any
+  connecting switches' certificates are signed by that certificate authority.
+
+  This is the only switch PKI model supported by the simple OpenFlow controller
+  included with Open vSwitch.
+
+Each Open vSwitch must also have a copy of the CA certificate for the
+certificate authority that signs OpenFlow controllers' keys (the "controller
+CA" certificate).  Typically, the same controller CA certificate is installed
+on all of the switches within a given administrative unit.  There are two
+common ways for a switch to obtain the controller CA certificate:
+
+* Manually copy the certificate to the switch through some secure means, e.g.
+  using a USB flash drive, or over the network with "scp", or even FTP or HTTP
+  followed by manual verification.
+
+* Open vSwitch "bootstrap" mode, in which Open vSwitch accepts and saves the
+  controller CA certificate that it obtains from the OpenFlow controller on its
+  first connection.  Thereafter the switch will only connect to controllers
+  signed by the same CA certificate.
+
+Establishing a Public Key Infrastructure
+----------------------------------------
+
+Open vSwitch can make use of your existing public key infrastructure.  If you
+already have a PKI, you may skip forward to the next section.  Otherwise, if
+you do not have a PKI, the ovs-pki script included with Open vSwitch can help.
+To create an initial PKI structure, invoke it as:
+
+::
+
+    $ ovs-pki init
+
+This will create and populate a new PKI directory.  The default location for
+the PKI directory depends on how the Open vSwitch tree was configured (to see
+the configured default, look for the ``--dir`` option description in the output
+of ``ovs-pki --help``).
+
+The pki directory contains two important subdirectories.  The `controllerca`
+subdirectory contains controller CA files, including the following:
+
+`cacert.pem`
+  Root certificate for the controller certificate authority.  Each Open vSwitch
+  must have a copy of this file to allow it to authenticate valid controllers.
+
+`private/cakey.pem`
+  Private signing key for the controller certificate authority.  This file must
+  be kept secret.  There is no need for switches or controllers to have a copy
+  of it.
+
+The `switchca` subdirectory contains switch CA files, analogous to those in the
+`controllerca` subdirectory:
+
+`cacert.pem`
+  Root certificate for the switch certificate authority.  The OpenFlow
+  controller must have this file to enable it to authenticate valid switches.
+
+`private/cakey.pem`
+  Private signing key for the switch certificate authority.  This file must be
+  kept secret.  There is no need for switches or controllers to have a copy of
+  it.
+
+After you create the initial structure, you can create keys and certificates
+for switches and controllers with ovs-pki.  Refer to the ovs-pki(8) manage for
+complete details.  A few examples of its use follow:
+
+Controller Key Generation
+~~~~~~~~~~~~~~~~~~~~~~~~~
+
+To create a controller private key and certificate in files named
+ctl-privkey.pem and ctl-cert.pem, run the following on the machine that
+contains the PKI structure:
+
+::
+
+    $ ovs-pki req+sign ctl controller
+
+ctl-privkey.pem and ctl-cert.pem would need to be copied to the controller for
+its use at runtime.  If, for testing purposes, you were to use
+ovs-testcontroller, the simple OpenFlow controller included with Open vSwitch,
+then the --private-key and --certificate options, respectively, would point to
+these files.
+
+It is very important to make sure that no stray copies of ctl-privkey.pem are
+created, because they could be used to impersonate the controller.
+
+Switch Key Generation with Self-Signed Certificates
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+If you are using self-signed certificates (see "SSL Concepts for OpenFlow"),
+this is one way to create an acceptable certificate for your controller to
+approve.
+
+1. Run the following command on the Open vSwitch itself::
+
+       $ ovs-pki self-sign sc
+
+   .. note::
+     This command does not require a copy of any of the PKI files generated by
+     ``ovs-pki init``, and you should not copy them to the switch because some
+     of them have contents that must remain secret for security.)
+
+   The ``ovs-pki self-sign`` command has the following output:
+
+   sc-privkey.pem
+     the switch private key file.  For security, the contents of this file must
+     remain secret.  There is ordinarily no need to copy this file off the Open
+     vSwitch.
+
+   sc-cert.pem
+     the switch certificate, signed by the switch's own private key.  Its
+     contents are not a secret.
+
+2. Optionally, copy `controllerca/cacert.pem` from the machine that has the
+   OpenFlow PKI structure and verify that it is correct.  (Otherwise, you will
+   have to use CA certificate bootstrapping when you configure Open vSwitch in
+   the next step.)
+
+3. Configure Open vSwitch to use the keys and certificates (see "Configuring
+   SSL Support", below).
+
+Switch Key Generation with a Switch PKI (Easy Method)
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+If you are using a switch PKI (see "SSL Concepts for OpenFlow", above), this
+method of switch key generation is a little easier than the alternate method
+described below, but it is also a little less secure because it requires
+copying a sensitive private key from file from the machine hosting the PKI to
+the switch.
+
+1. Run the following on the machine that contains the PKI structure::
+
+       $ ovs-pki req+sign sc switch
+
+   This command has the following output:
+
+   sc-privkey.pem
+     the switch private key file.  For security, the contents of this file must
+     remain secret.
+
+   sc-cert.pem
+     the switch certificate.  Its contents are not a secret.
+
+2. Copy sc-privkey.pem and sc-cert.pem, plus controllerca/cacert.pem, to the
+   Open vSwitch.
+
+3. Delete the copies of sc-privkey.pem and sc-cert.pem on the PKI machine and
+   any other copies that may have been made in transit.  It is very important
+   to make sure that there are no stray copies of sc-privkey.pem, because they
+   could be used to impersonate the switch.
+
+   .. warning::
+     Don't delete controllerca/cacert.pem!  It is not security-sensitive and
+     you will need it to configure additional switches.
+
+4. Configure Open vSwitch to use the keys and certificates (see "Configuring
+   SSL Support", below).
+
+Switch Key Generation with a Switch PKI (More Secure)
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+If you are using a switch PKI (see "SSL Concepts for OpenFlow", above), then,
+compared to the previous method, the method described here takes a little more
+work, but it does not involve copying the private key from one machine to
+another, so it may also be a little more secure.
+
+1. Run the following command on the Open vSwitch itself::
+
+       $ ovs-pki req sc
+
+   .. note::
+     This command does not require a copy of any of the PKI files generated by
+     "ovs-pki init", and you should not copy them to the switch because some of
+     them have contents that must remain secret for security.
+
+   The "ovs-pki req" command has the following output:
+
+   sc-privkey.pem
+     the switch private key file.  For security, the contents of this file must
+     remain secret.  There is ordinarily no need to copy this file off the Open
+     vSwitch.
+
+   sc-req.pem
+     the switch "certificate request", which is essentially the switch's public
+     key.  Its contents are not a secret.
+
+   a fingerprint
+     this is output on stdout.
+
+2. Write the fingerprint down on a slip of paper and copy `sc-req.pem` to the
+   machine that contains the PKI structure.
+
+3. On the machine that contains the PKI structure, run::
+
+       $ ovs-pki sign sc switch
+
+   This command will output a fingerprint to stdout and request that you verify
+   it.  Check that it is the same as the fingerprint that you wrote down on the
+   slip of paper before you answer "yes".
+
+   ``ovs-pki sign`` creates a file named `sc-cert.pem`, which is the switch
+   certificate.  Its contents are not a secret.
+
+4. Copy the generated `sc-cert.pem`, plus `controllerca/cacert.pem` from the
+   PKI structure, to the Open vSwitch, and verify that they were copied
+   correctly.
+
+   You may delete `sc-cert.pem` from the machine that hosts the PKI
+   structure now, although it is not important that you do so.
+
+   .. warning::
+     Don't delete `controllerca/cacert.pem`!  It is not security-sensitive and
+     you will need it to configure additional switches.
+
+5. Configure Open vSwitch to use the keys and certificates (see "Configuring
+   SSL Support", below).
+
+Configuring SSL Support
+-----------------------
+
+SSL configuration requires three additional configuration files.  The first two
+of these are unique to each Open vSwitch.  If you used the instructions above
+to build your PKI, then these files will be named `sc-privkey.pem` and
+`sc-cert.pem`, respectively:
+
+- A private key file, which contains the private half of an RSA or DSA key.
+
+  This file can be generated on the Open vSwitch itself, for the greatest
+  security, or it can be generated elsewhere and copied to the Open vSwitch.
+
+  The contents of the private key file are secret and must not be exposed.
+
+- A certificate file, which certifies that the private key is that of a
+  trustworthy Open vSwitch.
+
+  This file has to be generated on a machine that has the private key for the
+  switch certification authority, which should not be an Open vSwitch; ideally,
+  it should be a machine that is not networked at all.
+
+  The certificate file itself is not a secret.
+
+The third configuration file is typically the same across all the switches in a
+given administrative unit.  If you used the instructions above to build your
+PKI, then this file will be named `cacert.pem`:
+
+- The root certificate for the controller certificate authority.  The Open
+  vSwitch verifies it that is authorized to connect to an OpenFlow controller
+  by verifying a signature against this CA certificate.
+
+Once you have these files, configure ovs-vswitchd to use them using the
+``ovs-vsctl set-ssl`` command, e.g.::
+
+    $ ovs-vsctl set-ssl /etc/openvswitch/sc-privkey.pem \
+        /etc/openvswitch/sc-cert.pem /etc/openvswitch/cacert.pem
+
+Substitute the correct file names, of course, if they differ from the ones used
+above.  You should use absolute file names (ones that begin with ``/``),
+because ovs-vswitchd's current directory is unrelated to the one from which you
+run ovs-vsctl.
+
+If you are using self-signed certificates (see "SSL Concepts for OpenFlow") and
+you did not copy controllerca/cacert.pem from the PKI machine to the Open
+vSwitch, then add the ``--bootstrap`` option, e.g.::
+
+    $ ovs-vsctl -- --bootstrap set-ssl /etc/openvswitch/sc-privkey.pem \
+        /etc/openvswitch/sc-cert.pem /etc/openvswitch/cacert.pem
+
+After you have added all of these configuration keys, you may specify ``ssl:``
+connection methods elsewhere in the configuration database.  ``tcp:`` 
connection
+methods are still allowed even after SSL has been configured, so for security
+you should use only ``ssl:`` connections.
+
+Reporting Bugs
+--------------
+
+Report problems to b...@openvswitch.org.
diff --git a/Makefile.am b/Makefile.am
index ebcf263..3f3cd21 100644
--- a/Makefile.am
+++ b/Makefile.am
@@ -82,7 +82,7 @@ docs = \
        INSTALL.NetBSD.md \
        INSTALL.RHEL.md \
        INSTALL.SELinux.md \
-       INSTALL.SSL.md \
+       INSTALL.SSL.rst \
        INSTALL.XenServer.rst \
        INSTALL.userspace.rst \
        INSTALL.Windows.rst \
diff --git a/README.rst b/README.rst
index 7d18b38..c0a2ce4 100644
--- a/README.rst
+++ b/README.rst
@@ -101,7 +101,7 @@ To use Open vSwitch...
 For answers to common questions, refer to the `FAQ <FAQ.rst>`__.
 
 To learn how to set up SSL support for Open vSwitch, see `here
-<INSTALL.SSL.md>`__.
+<INSTALL.SSL.rst>`__.
 
 To learn about some advanced features of the Open vSwitch software switch, read
 the `tutorial <tutorial/Tutorial.md>`__.
diff --git a/rhel/openvswitch-fedora.spec.in b/rhel/openvswitch-fedora.spec.in
index 029471c..861dac7 100644
--- a/rhel/openvswitch-fedora.spec.in
+++ b/rhel/openvswitch-fedora.spec.in
@@ -474,7 +474,7 @@ fi
 %{_mandir}/man8/ovs-vswitchd.8*
 %{_mandir}/man8/ovs-parse-backtrace.8*
 %{_mandir}/man8/ovs-testcontroller.8*
-%doc COPYING DESIGN.rst INSTALL.SSL.md NOTICE README.rst WHY-OVS.rst
+%doc COPYING DESIGN.rst INSTALL.SSL.rst NOTICE README.rst WHY-OVS.rst
 %doc FAQ.rst NEWS INSTALL.DPDK.rst rhel/README.RHEL.rst
 /var/lib/openvswitch
 /var/log/openvswitch
diff --git a/rhel/openvswitch.spec.in b/rhel/openvswitch.spec.in
index 2e429e6..6c5fe1b 100644
--- a/rhel/openvswitch.spec.in
+++ b/rhel/openvswitch.spec.in
@@ -247,7 +247,7 @@ exit 0
 /usr/share/openvswitch/scripts/sysconfig.template
 /usr/share/openvswitch/vswitch.ovsschema
 /usr/share/openvswitch/vtep.ovsschema
-%doc COPYING DESIGN.rst INSTALL.SSL.md NOTICE README.rst WHY-OVS.rst FAQ.rst 
NEWS
+%doc COPYING DESIGN.rst INSTALL.SSL.rst NOTICE README.rst WHY-OVS.rst FAQ.rst 
NEWS
 %doc INSTALL.DPDK.rst rhel/README.RHEL.rst README-native-tunneling.rst
 /var/lib/openvswitch
 /var/log/openvswitch
-- 
2.7.4

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