xref: /linux/Documentation/misc-devices/ibmvmc.rst (revision 37744feebc086908fd89760650f458ab19071750)
1.. SPDX-License-Identifier: GPL-2.0+
2
3======================================================
4IBM Virtual Management Channel Kernel Driver (IBMVMC)
5======================================================
6
7:Authors:
8	Dave Engebretsen <engebret@us.ibm.com>,
9	Adam Reznechek <adreznec@linux.vnet.ibm.com>,
10	Steven Royer <seroyer@linux.vnet.ibm.com>,
11	Bryant G. Ly <bryantly@linux.vnet.ibm.com>,
12
13Introduction
14============
15
16Note: Knowledge of virtualization technology is required to understand
17this document.
18
19A good reference document would be:
20
21https://openpowerfoundation.org/wp-content/uploads/2016/05/LoPAPR_DRAFT_v11_24March2016_cmt1.pdf
22
23The Virtual Management Channel (VMC) is a logical device which provides an
24interface between the hypervisor and a management partition. This interface
25is like a message passing interface. This management partition is intended
26to provide an alternative to systems that use a Hardware Management
27Console (HMC) - based system management.
28
29The primary hardware management solution that is developed by IBM relies
30on an appliance server named the Hardware Management Console (HMC),
31packaged as an external tower or rack-mounted personal computer. In a
32Power Systems environment, a single HMC can manage multiple POWER
33processor-based systems.
34
35Management Application
36----------------------
37
38In the management partition, a management application exists which enables
39a system administrator to configure the system’s partitioning
40characteristics via a command line interface (CLI) or Representational
41State Transfer Application (REST API's).
42
43The management application runs on a Linux logical partition on a
44POWER8 or newer processor-based server that is virtualized by PowerVM.
45System configuration, maintenance, and control functions which
46traditionally require an HMC can be implemented in the management
47application using a combination of HMC to hypervisor interfaces and
48existing operating system methods. This tool provides a subset of the
49functions implemented by the HMC and enables basic partition configuration.
50The set of HMC to hypervisor messages supported by the management
51application component are passed to the hypervisor over a VMC interface,
52which is defined below.
53
54The VMC enables the management partition to provide basic partitioning
55functions:
56
57- Logical Partitioning Configuration
58- Start, and stop actions for individual partitions
59- Display of partition status
60- Management of virtual Ethernet
61- Management of virtual Storage
62- Basic system management
63
64Virtual Management Channel (VMC)
65--------------------------------
66
67A logical device, called the Virtual Management Channel (VMC), is defined
68for communicating between the management application and the hypervisor. It
69basically creates the pipes that enable virtualization management
70software. This device is presented to a designated management partition as
71a virtual device.
72
73This communication device uses Command/Response Queue (CRQ) and the
74Remote Direct Memory Access (RDMA) interfaces. A three-way handshake is
75defined that must take place to establish that both the hypervisor and
76management partition sides of the channel are running prior to
77sending/receiving any of the protocol messages.
78
79This driver also utilizes Transport Event CRQs. CRQ messages are sent
80when the hypervisor detects one of the peer partitions has abnormally
81terminated, or one side has called H_FREE_CRQ to close their CRQ.
82Two new classes of CRQ messages are introduced for the VMC device. VMC
83Administrative messages are used for each partition using the VMC to
84communicate capabilities to their partner. HMC Interface messages are used
85for the actual flow of HMC messages between the management partition and
86the hypervisor. As most HMC messages far exceed the size of a CRQ buffer,
87a virtual DMA (RMDA) of the HMC message data is done prior to each HMC
88Interface CRQ message. Only the management partition drives RDMA
89operations; hypervisors never directly cause the movement of message data.
90
91
92Terminology
93-----------
94RDMA
95        Remote Direct Memory Access is DMA transfer from the server to its
96        client or from the server to its partner partition. DMA refers
97        to both physical I/O to and from memory operations and to memory
98        to memory move operations.
99CRQ
100        Command/Response Queue a facility which is used to communicate
101        between partner partitions. Transport events which are signaled
102        from the hypervisor to partition are also reported in this queue.
103
104Example Management Partition VMC Driver Interface
105=================================================
106
107This section provides an example for the management application
108implementation where a device driver is used to interface to the VMC
109device. This driver consists of a new device, for example /dev/ibmvmc,
110which provides interfaces to open, close, read, write, and perform
111ioctl’s against the VMC device.
112
113VMC Interface Initialization
114----------------------------
115
116The device driver is responsible for initializing the VMC when the driver
117is loaded. It first creates and initializes the CRQ. Next, an exchange of
118VMC capabilities is performed to indicate the code version and number of
119resources available in both the management partition and the hypervisor.
120Finally, the hypervisor requests that the management partition create an
121initial pool of VMC buffers, one buffer for each possible HMC connection,
122which will be used for management application  session initialization.
123Prior to completion of this initialization sequence, the device returns
124EBUSY to open() calls. EIO is returned for all open() failures.
125
126::
127
128        Management Partition		Hypervisor
129                        CRQ INIT
130        ---------------------------------------->
131        	   CRQ INIT COMPLETE
132        <----------------------------------------
133        	      CAPABILITIES
134        ---------------------------------------->
135        	 CAPABILITIES RESPONSE
136        <----------------------------------------
137              ADD BUFFER (HMC IDX=0,1,..)         _
138        <----------------------------------------  |
139        	  ADD BUFFER RESPONSE              | - Perform # HMCs Iterations
140        ----------------------------------------> -
141
142VMC Interface Open
143------------------
144
145After the basic VMC channel has been initialized, an HMC session level
146connection can be established. The application layer performs an open() to
147the VMC device and executes an ioctl() against it, indicating the HMC ID
148(32 bytes of data) for this session. If the VMC device is in an invalid
149state, EIO will be returned for the ioctl(). The device driver creates a
150new HMC session value (ranging from 1 to 255) and HMC index value (starting
151at index 0 and ranging to 254) for this HMC ID. The driver then does an
152RDMA of the HMC ID to the hypervisor, and then sends an Interface Open
153message to the hypervisor to establish the session over the VMC. After the
154hypervisor receives this information, it sends Add Buffer messages to the
155management partition to seed an initial pool of buffers for the new HMC
156connection. Finally, the hypervisor sends an Interface Open Response
157message, to indicate that it is ready for normal runtime messaging. The
158following illustrates this VMC flow:
159
160::
161
162        Management Partition             Hypervisor
163        	      RDMA HMC ID
164        ---------------------------------------->
165        	    Interface Open
166        ---------------------------------------->
167        	      Add Buffer                  _
168        <----------------------------------------  |
169        	  Add Buffer Response              | - Perform N Iterations
170        ----------------------------------------> -
171        	Interface Open Response
172        <----------------------------------------
173
174VMC Interface Runtime
175---------------------
176
177During normal runtime, the management application and the hypervisor
178exchange HMC messages via the Signal VMC message and RDMA operations. When
179sending data to the hypervisor, the management application performs a
180write() to the VMC device, and the driver RDMA’s the data to the hypervisor
181and then sends a Signal Message. If a write() is attempted before VMC
182device buffers have been made available by the hypervisor, or no buffers
183are currently available, EBUSY is returned in response to the write(). A
184write() will return EIO for all other errors, such as an invalid device
185state. When the hypervisor sends a message to the management, the data is
186put into a VMC buffer and an Signal Message is sent to the VMC driver in
187the management partition. The driver RDMA’s the buffer into the partition
188and passes the data up to the appropriate management application via a
189read() to the VMC device. The read() request blocks if there is no buffer
190available to read. The management application may use select() to wait for
191the VMC device to become ready with data to read.
192
193::
194
195        Management Partition             Hypervisor
196        		MSG RDMA
197        ---------------------------------------->
198        		SIGNAL MSG
199        ---------------------------------------->
200        		SIGNAL MSG
201        <----------------------------------------
202        		MSG RDMA
203        <----------------------------------------
204
205VMC Interface Close
206-------------------
207
208HMC session level connections are closed by the management partition when
209the application layer performs a close() against the device. This action
210results in an Interface Close message flowing to the hypervisor, which
211causes the session to be terminated. The device driver must free any
212storage allocated for buffers for this HMC connection.
213
214::
215
216        Management Partition             Hypervisor
217        	     INTERFACE CLOSE
218        ---------------------------------------->
219                INTERFACE CLOSE RESPONSE
220        <----------------------------------------
221
222Additional Information
223======================
224
225For more information on the documentation for CRQ Messages, VMC Messages,
226HMC interface Buffers, and signal messages please refer to the Linux on
227Power Architecture Platform Reference. Section F.
228