xref: /freebsd/sys/contrib/device-tree/Bindings/arm/arm,coresight-cti.yaml (revision 84943d6f38e936ac3b7a3947ca26eeb27a39f938)
1# SPDX-License-Identifier: GPL-2.0-only OR BSD-2-Clause
2# Copyright 2019 Linaro Ltd.
3%YAML 1.2
4---
5$id: http://devicetree.org/schemas/arm/arm,coresight-cti.yaml#
6$schema: http://devicetree.org/meta-schemas/core.yaml#
7
8title: ARM Coresight Cross Trigger Interface (CTI) device.
9
10description: |
11  The CoreSight Embedded Cross Trigger (ECT) consists of CTI devices connected
12  to one or more CoreSight components and/or a CPU, with CTIs interconnected in
13  a star topology via the Cross Trigger Matrix (CTM), which is not programmable.
14  The ECT components are not part of the trace generation data path and are thus
15  not part of the CoreSight graph.
16
17  The CTI component properties define the connections between the individual
18  CTI and the components it is directly connected to, consisting of input and
19  output hardware trigger signals. CTIs can have a maximum number of input and
20  output hardware trigger signals (8 each for v1 CTI, 32 each for v2 CTI). The
21  number is defined at design time, the maximum of each defined in the DEVID
22  register.
23
24  CTIs are interconnected in a star topology via the CTM, using a number of
25  programmable channels, usually 4, but again implementation defined and
26  described in the DEVID register. The star topology is not required to be
27  described in the bindings as the actual connections are software
28  programmable.
29
30  In general the connections between CTI and components via the trigger signals
31  are implementation defined, except when the CTI is connected to an ARM v8
32  architecture core and optional ETM.
33
34  In this case the ARM v8 architecture defines the required signal connections
35  between CTI and the CPU core and ETM if present. In the case of a v8
36  architecturally connected CTI an additional compatible string is used to
37  indicate this feature (arm,coresight-cti-v8-arch).
38
39  When CTI trigger connection information is unavailable then a minimal driver
40  binding can be declared with no explicit trigger signals. This will result
41  the driver detecting the maximum available triggers and channels from the
42  DEVID register and make them all available for use as a single default
43  connection. Any user / client application will require additional information
44  on the connections between the CTI and other components for correct operation.
45  This information might be found by enabling the Integration Test registers in
46  the driver (set CONFIG_CORESIGHT_CTI_INTEGRATION_TEST in Kernel
47  configuration). These registers may be used to explore the trigger connections
48  between CTI and other CoreSight components.
49
50  Certain triggers between CoreSight devices and the CTI have specific types
51  and usages. These can be defined along with the signal indexes with the
52  constants defined in <dt-bindings/arm/coresight-cti-dt.h>
53
54  For example a CTI connected to a core will usually have a DBGREQ signal. This
55  is defined in the binding as type PE_EDBGREQ. These types will appear in an
56  optional array alongside the signal indexes. Omitting types will default all
57  signals to GEN_IO.
58
59  Note that some hardware trigger signals can be connected to non-CoreSight
60  components (e.g. UART etc) depending on hardware implementation.
61
62maintainers:
63  - Mike Leach <mike.leach@linaro.org>
64
65allOf:
66  - $ref: /schemas/arm/primecell.yaml#
67
68# Need a custom select here or 'arm,primecell' will match on lots of nodes
69select:
70  properties:
71    compatible:
72      contains:
73        enum:
74          - arm,coresight-cti
75  required:
76    - compatible
77
78properties:
79  $nodename:
80    pattern: "^cti(@[0-9a-f]+)$"
81  compatible:
82    oneOf:
83      - items:
84          - const: arm,coresight-cti
85          - const: arm,primecell
86      - items:
87          - const: arm,coresight-cti-v8-arch
88          - const: arm,coresight-cti
89          - const: arm,primecell
90
91  reg:
92    maxItems: 1
93
94  cpu:
95    description:
96      Handle to cpu this CTI is associated with.
97
98  power-domains:
99    maxItems: 1
100
101  arm,cti-ctm-id:
102    $ref: /schemas/types.yaml#/definitions/uint32
103    description:
104      Defines the CTM this CTI is connected to, in large systems with multiple
105      separate CTI/CTM nets. Typically multi-socket systems where the CTM is
106      propagated between sockets.
107
108  arm,cs-dev-assoc:
109    $ref: /schemas/types.yaml#/definitions/phandle
110    description:
111      defines a phandle reference to an associated CoreSight trace device.
112      When the associated trace device is enabled, then the respective CTI
113      will be enabled. Use in CTI base node when compatible string
114      arm,coresight-cti-v8-arch used. If the associated device has not been
115      registered then the node name will be stored as the connection name for
116      later resolution. If the associated device is not a CoreSight device or
117      not registered then the node name will remain the connection name and
118      automatic enabling will not occur.
119
120  # size cells and address cells required if trig-conns node present.
121  "#size-cells":
122    const: 0
123
124  "#address-cells":
125    const: 1
126
127patternProperties:
128  '^trig-conns@([0-9]+)$':
129    type: object
130    additionalProperties: false
131
132    description:
133      A trigger connections child node which describes the trigger signals
134      between this CTI and another hardware device. This device may be a CPU,
135      CoreSight device, any other hardware device or simple external IO lines.
136      The connection may have both input and output triggers, or only one or the
137      other.
138
139    properties:
140      reg:
141        maxItems: 1
142
143      cpu:
144        description:
145          Handle to cpu this trigger connection is associated with.
146
147      arm,cs-dev-assoc:
148        $ref: /schemas/types.yaml#/definitions/phandle
149        description:
150          defines a phandle reference to an associated CoreSight trace device.
151          When the associated trace device is enabled, then the respective CTI
152          will be enabled. If the associated device has not been registered
153          then the node name will be stored as the connection name for later
154          resolution. If the associated device is not a CoreSight device or
155          not registered then the node name will remain the connection name
156          and automatic enabling will not occur.
157
158      arm,trig-in-sigs:
159        $ref: /schemas/types.yaml#/definitions/uint32-array
160        minItems: 1
161        maxItems: 32
162        description:
163          List of CTI trigger in signal numbers in use by a trig-conns node.
164
165      arm,trig-in-types:
166        $ref: /schemas/types.yaml#/definitions/uint32-array
167        minItems: 1
168        maxItems: 32
169        description:
170          List of constants representing the types for the CTI trigger in
171          signals. Types in this array match to the corresponding signal in the
172          arm,trig-in-sigs array. If the -types array is smaller, or omitted
173          completely, then the types will default to GEN_IO.
174
175      arm,trig-out-sigs:
176        $ref: /schemas/types.yaml#/definitions/uint32-array
177        minItems: 1
178        maxItems: 32
179        description:
180          List of CTI trigger out signal numbers in use by a trig-conns node.
181
182      arm,trig-out-types:
183        $ref: /schemas/types.yaml#/definitions/uint32-array
184        minItems: 1
185        maxItems: 32
186        description:
187          List of constants representing the types for the CTI trigger out
188          signals. Types in this array match to the corresponding signal
189          in the arm,trig-out-sigs array. If the "-types" array is smaller,
190          or omitted completely, then the types will default to GEN_IO.
191
192      arm,trig-filters:
193        $ref: /schemas/types.yaml#/definitions/uint32-array
194        minItems: 1
195        maxItems: 32
196        description:
197          List of CTI trigger out signals that will be blocked from becoming
198          active, unless filtering is disabled on the driver.
199
200      arm,trig-conn-name:
201        $ref: /schemas/types.yaml#/definitions/string
202        description:
203          Defines a connection name that will be displayed, if the cpu or
204          arm,cs-dev-assoc properties are not being used in this connection.
205          Principle use for CTI that are connected to non-CoreSight devices, or
206          external IO.
207
208    anyOf:
209      - required:
210          - arm,trig-in-sigs
211      - required:
212          - arm,trig-out-sigs
213    oneOf:
214      - required:
215          - arm,trig-conn-name
216      - required:
217          - cpu
218      - required:
219          - arm,cs-dev-assoc
220    required:
221      - reg
222
223required:
224  - compatible
225  - reg
226  - clocks
227  - clock-names
228
229if:
230  properties:
231    compatible:
232      contains:
233        const: arm,coresight-cti-v8-arch
234
235then:
236  required:
237    - cpu
238
239unevaluatedProperties: false
240
241examples:
242  # minimum CTI definition. DEVID register used to set number of triggers.
243  - |
244    cti@20020000 {
245      compatible = "arm,coresight-cti", "arm,primecell";
246      reg = <0x20020000 0x1000>;
247
248      clocks = <&soc_smc50mhz>;
249      clock-names = "apb_pclk";
250    };
251  #  v8 architecturally defined CTI - CPU + ETM connections generated by the
252  #  driver according to the v8 architecture specification.
253  - |
254    cti@859000 {
255      compatible = "arm,coresight-cti-v8-arch", "arm,coresight-cti",
256                   "arm,primecell";
257      reg = <0x859000 0x1000>;
258
259      clocks = <&soc_smc50mhz>;
260      clock-names = "apb_pclk";
261
262      cpu = <&CPU1>;
263      arm,cs-dev-assoc = <&etm1>;
264    };
265  # Implementation defined CTI - CPU + ETM connections explicitly defined..
266  # Shows use of type constants from dt-bindings/arm/coresight-cti-dt.h
267  # #size-cells and #address-cells are required if trig-conns@ nodes present.
268  - |
269    #include <dt-bindings/arm/coresight-cti-dt.h>
270
271    cti@858000 {
272      compatible = "arm,coresight-cti", "arm,primecell";
273      reg = <0x858000 0x1000>;
274
275      clocks = <&soc_smc50mhz>;
276      clock-names = "apb_pclk";
277
278      arm,cti-ctm-id = <1>;
279
280      #address-cells = <1>;
281      #size-cells = <0>;
282
283      trig-conns@0 {
284            reg = <0>;
285            arm,trig-in-sigs = <4 5 6 7>;
286            arm,trig-in-types = <ETM_EXTOUT
287                                 ETM_EXTOUT
288                                 ETM_EXTOUT
289                                 ETM_EXTOUT>;
290            arm,trig-out-sigs = <4 5 6 7>;
291            arm,trig-out-types = <ETM_EXTIN
292                                  ETM_EXTIN
293                                  ETM_EXTIN
294                                  ETM_EXTIN>;
295            arm,cs-dev-assoc = <&etm0>;
296      };
297
298      trig-conns@1 {
299            reg = <1>;
300            cpu = <&CPU0>;
301            arm,trig-in-sigs = <0 1>;
302            arm,trig-in-types = <PE_DBGTRIGGER
303                                 PE_PMUIRQ>;
304            arm,trig-out-sigs = <0 1 2 >;
305            arm,trig-out-types = <PE_EDBGREQ
306                                  PE_DBGRESTART
307                                  PE_CTIIRQ>;
308
309            arm,trig-filters = <0>;
310      };
311    };
312  # Implementation defined CTI - non CoreSight component connections.
313  - |
314    cti@20110000 {
315      compatible = "arm,coresight-cti", "arm,primecell";
316      reg = <0x20110000 0x1000>;
317
318      clocks = <&soc_smc50mhz>;
319      clock-names = "apb_pclk";
320
321      #address-cells = <1>;
322      #size-cells = <0>;
323
324      trig-conns@0 {
325        reg = <0>;
326        arm,trig-in-sigs = <0>;
327        arm,trig-in-types = <GEN_INTREQ>;
328        arm,trig-out-sigs = <0>;
329        arm,trig-out-types = <GEN_HALTREQ>;
330        arm,trig-conn-name = "sys_profiler";
331      };
332
333      trig-conns@1 {
334        reg = <1>;
335        arm,trig-out-sigs = <2 3>;
336        arm,trig-out-types = <GEN_HALTREQ GEN_RESTARTREQ>;
337        arm,trig-conn-name = "watchdog";
338      };
339
340      trig-conns@2 {
341        reg = <2>;
342        arm,trig-in-sigs = <1 6>;
343        arm,trig-in-types = <GEN_HALTREQ GEN_RESTARTREQ>;
344        arm,trig-conn-name = "g_counter";
345      };
346    };
347
348...
349