Re: [PATCH v2 1/2] dt-bindings: mailbox: arm,mhuv3: Add bindings
From: kernel test robot
Date: Wed Apr 03 2024 - 22:02:38 EST
Hi Cristian,
kernel test robot noticed the following build warnings:
[auto build test WARNING on soc/for-next]
[also build test WARNING on robh/for-next linus/master v6.9-rc2 next-20240403]
[If your patch is applied to the wrong git tree, kindly drop us a note.
And when submitting patch, we suggest to use '--base' as documented in
https://git-scm.com/docs/git-format-patch#_base_tree_information]
url: https://github.com/intel-lab-lkp/linux/commits/Cristian-Marussi/dt-bindings-mailbox-arm-mhuv3-Add-bindings/20240404-012010
base: https://git.kernel.org/pub/scm/linux/kernel/git/soc/soc.git for-next
patch link: https://lore.kernel.org/r/20240403171346.3173843-2-cristian.marussi%40arm.com
patch subject: [PATCH v2 1/2] dt-bindings: mailbox: arm,mhuv3: Add bindings
compiler: loongarch64-linux-gcc (GCC) 13.2.0
reproduce: (https://download.01.org/0day-ci/archive/20240404/202404040918.E8nkWuIn-lkp@xxxxxxxxx/reproduce)
If you fix the issue in a separate patch/commit (i.e. not just a new version of
the same patch/commit), kindly add following tags
| Reported-by: kernel test robot <lkp@xxxxxxxxx>
| Closes: https://lore.kernel.org/oe-kbuild-all/202404040918.E8nkWuIn-lkp@xxxxxxxxx/
dtcheck warnings: (new ones prefixed by >>)
>> Documentation/devicetree/bindings/mailbox/arm,mhuv3.yaml:86:1: [error] syntax error: found character '\t' that cannot start any token (syntax)
--
>> Documentation/devicetree/bindings/mailbox/arm,mhuv3.yaml:86:1: found a tab character where an indentation space is expected
--
>> Documentation/devicetree/bindings/mailbox/arm,mhuv3.yaml: ignoring, error parsing file
vim +86 Documentation/devicetree/bindings/mailbox/arm,mhuv3.yaml
8
9 maintainers:
10 - Sudeep Holla <sudeep.holla@xxxxxxx>
11 - Cristian Marussi <cristian.marussi@xxxxxxx>
12
13 description: |
14 The Arm Message Handling Unit (MHU) Version 3 is a mailbox controller that
15 enables unidirectional communications with remote processors through various
16 possible transport protocols.
17 The controller can optionally support a varying number of extensions that, in
18 turn, enable different kinds of transport to be used for communication.
19 Number, type and characteristics of each supported extension can be discovered
20 dynamically at runtime.
21
22 Given the unidirectional nature of the controller, an MHUv3 mailbox controller
23 is composed of a MHU Sender (MHUS) containing a PostBox (PBX) block and a MHU
24 Receiver (MHUR) containing a MailBox (MBX) block, where
25
26 PBX is used to
27 - Configure the MHU
28 - Send Transfers to the Receiver
29 - Optionally receive acknowledgment of a Transfer from the Receiver
30
31 MBX is used to
32 - Configure the MHU
33 - Receive Transfers from the Sender
34 - Optionally acknowledge Transfers sent by the Sender
35
36 Both PBX and MBX need to be present and defined in the DT description if you
37 need to establish a bidirectional communication, since you will have to
38 acquire two distinct unidirectional channels, one for each block.
39
40 As a consequence both blocks needs to be represented separately and specified
41 as distinct DT nodes in order to properly describe their resources.
42
43 Note that, though, thanks to the runtime discoverability, there is no need to
44 identify the type of blocks with distinct compatibles.
45
46 Following are the MHUv3 possible extensions.
47
48 - Doorbell Extension (DBE): DBE defines a type of channel called a Doorbell
49 Channel (DBCH). DBCH enables a single bit Transfer to be sent from the
50 Sender to Receiver. The Transfer indicates that an event has occurred.
51 When DBE is implemented, the number of DBCHs that an implementation of the
52 MHU can support is between 1 and 128, numbered starting from 0 in ascending
53 order and discoverable at run-time.
54 Each DBCH contains 32 individual fields, referred to as flags, each of which
55 can be used independently. It is possible for the Sender to send multiple
56 Transfers at once using a single DBCH, so long as each Transfer uses
57 a different flag in the DBCH.
58 Optionally, data may be transmitted through an out-of-band shared memory
59 region, wherein the MHU Doorbell is used strictly as an interrupt generation
60 mechanism, but this is out of the scope of these bindings.
61
62 - FastChannel Extension (FCE): FCE defines a type of channel called a Fast
63 Channel (FCH). FCH is intended for lower overhead communication between
64 Sender and Receiver at the expense of determinism. An FCH allows the Sender
65 to update the channel value at any time, regardless of whether the previous
66 value has been seen by the Receiver. When the Receiver reads the channel's
67 content it gets the last value written to the channel.
68 FCH is considered lossy in nature, and means that the Sender has no way of
69 knowing if, or when, the Receiver will act on the Transfer.
70 FCHs are expected to behave as RAM which generates interrupts when writes
71 occur to the locations within the RAM.
72 When FCE is implemented, the number of FCHs that an implementation of the
73 MHU can support is between 1-1024, if the FastChannel word-size is 32-bits,
74 or between 1-512, when the FastChannel word-size is 64-bits.
75 FCHs are numbered from 0 in ascending order.
76 Note that the number of FCHs and the word-size are implementation defined,
77 not configurable but discoverable at run-time.
78 Optionally, data may be transmitted through an out-of-band shared memory
79 region, wherein the MHU FastChannel is used as an interrupt generation
80 mechanism which carries also a pointer to such out-of-band data, but this
81 is out of the scope of these bindings.
82
83 - FIFO Extension (FE): FE defines a Channel type called a FIFO Channel (FFCH).
84 FFCH allows a Sender to send
85 - Multiple Transfers to the Receiver without having to wait for the
> 86 previous Transfer to be acknowledged by the Receiver, as long as the
87 FIFO has room for the Transfer.
88 - Transfers which require the Receiver to provide acknowledgment.
89 - Transfers which have in-band payload.
90 In all cases, the data is guaranteed to be observed by the Receiver in the
91 same order which the Sender sent it.
92 When FE is implemented, the number of FFCHs that an implementation of the
93 MHU can support is between 1 and 64, numbered starting from 0 in ascending
94 order. The number of FFCHs, their depth (same for all implemented FFCHs) and
95 the access-granularity are implementation defined, not configurable but
96 discoverable at run-time.
97 Optionally, additional data may be transmitted through an out-of-band shared
98 memory region, wherein the MHU FIFO is used to transmit, in order, a small
99 part of the payload (like a header) and a reference to the shared memory
100 area holding the remaining, bigger, chunk of the payload, but this is out of
101 the scope of these bindings.
102
103 properties:
104 compatible:
105 const: arm,mhuv3
106
107 reg:
108 maxItems: 1
109
110 interrupts:
111 minItems: 1
112 maxItems: 74
113
114 interrupt-names:
115 description: |
116 The MHUv3 controller generates a number of events some of which are used
117 to generate interrupts; as a consequence it can expose a varying number of
118 optional PBX/MBX interrupts, representing the events generated during the
119 operation of the various transport protocols associated with different
120 extensions. All interrupts of the MHU are level-sensitive.
121 Some of these optional interrupts are defined per-channel, where the
122 number of channels effectively available is implementation defined and
123 run-time discoverable.
124 In the following names are enumerated using patterns, with per-channel
125 interrupts implicitly capped at the maximum channels allowed by the
126 specification for each extension type.
127 For the sake of simplicity maxItems is anyway capped to a most plausible
128 number, assuming way less channels would be implemented than actually
129 possible.
130
131 The only mandatory interrupts on the MHU are:
132 - combined
133 - mbx-fch-xfer-<N> but only if mbx-fcgrp-xfer-<N> is not implemented.
134
135 minItems: 1
136 maxItems: 74
137 items:
138 oneOf:
139 - const: combined
140 description: PBX/MBX Combined interrupt
141 - const: combined-ffch
142 description: PBX/MBX FIFO Combined interrupt
143 - pattern: '^ffch-low-tide-[0-9]+$'
144 description: PBX/MBX FIFO Channel <N> Low Tide interrupt
145 - pattern: '^ffch-high-tide-[0-9]+$'
146 description: PBX/MBX FIFO Channel <N> High Tide interrupt
147 - pattern: '^ffch-flush-[0-9]+$'
148 description: PBX/MBX FIFO Channel <N> Flush interrupt
149 - pattern: '^mbx-dbch-xfer-[0-9]+$'
150 description: MBX Doorbell Channel <N> Transfer interrupt
151 - pattern: '^mbx-fch-xfer-[0-9]+$'
152 description: MBX FastChannel <N> Transfer interrupt
153 - pattern: '^mbx-fchgrp-xfer-[0-9]+$'
154 description: MBX FastChannel <N> Group Transfer interrupt
155 - pattern: '^mbx-ffch-xfer-[0-9]+$'
156 description: MBX FIFO Channel <N> Transfer interrupt
157 - pattern: '^pbx-dbch-xfer-ack-[0-9]+$'
158 description: PBX Doorbell Channel <N> Transfer Ack interrupt
159 - pattern: '^pbx-ffch-xfer-ack-[0-9]+$'
160 description: PBX FIFO Channel <N> Transfer Ack interrupt
161
162 '#mbox-cells':
163 description: |
164 The first argument in the consumers 'mboxes' property represents the
165 extension type, the second is for the channel number while the third
166 depends on extension type.
167
168 Extension type for DBE is 0 and the third parameter represents the
169 doorbell flag number to use.
170 Extension type for FCE is 1, third parameter unused.
171 Extension type for FE is 2, third parameter unused.
172
173 mboxes = <&mhu 0 0 5>; // DBE, Doorbell Channel Window 0, doorbell flag 5.
174 mboxes = <&mhu 0 1 7>; // DBE, Doorbell Channel Window 1, doorbell flag 7.
175 mboxes = <&mhu 1 0 0>; // FCE, FastChannel Window 0.
176 mboxes = <&mhu 1 3 0>; // FCE, FastChannel Window 3.
177 mboxes = <&mhu 2 1 0>; // FE, FIFO Channel Window 1.
178 mboxes = <&mhu 2 7 0>; // FE, FIFO Channel Window 7.
179 const: 3
180
181 clocks:
182 maxItems: 1
183
184 required:
185 - compatible
186 - reg
187 - interrupts
188 - interrupt-names
189 - '#mbox-cells'
190
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