xref: /linux/Documentation/devicetree/bindings/mtd/brcm,brcmnand.yaml (revision 198b8c8ede36d2135df73fee19506276059a0f8e)
1# SPDX-License-Identifier: GPL-2.0-only OR BSD-2-Clause
2%YAML 1.2
3---
4$id: http://devicetree.org/schemas/mtd/brcm,brcmnand.yaml#
5$schema: http://devicetree.org/meta-schemas/core.yaml#
6
7title: Broadcom STB NAND Controller
8
9maintainers:
10  - Brian Norris <computersforpeace@gmail.com>
11  - Kamal Dasu <kdasu.kdev@gmail.com>
12
13description: |
14  The Broadcom Set-Top Box NAND controller supports low-level access to raw NAND
15  flash chips. It has a memory-mapped register interface for both control
16  registers and for its data input/output buffer. On some SoCs, this controller
17  is paired with a custom DMA engine (inventively named "Flash DMA") which
18  supports basic PROGRAM and READ functions, among other features.
19
20  This controller was originally designed for STB SoCs (BCM7xxx) but is now
21  available on a variety of Broadcom SoCs, including some BCM3xxx, BCM63xx, and
22  iProc/Cygnus. Its history includes several similar (but not fully register
23  compatible) versions.
24
25  -- Additional SoC-specific NAND controller properties --
26
27  The NAND controller is integrated differently on the variety of SoCs on which
28  it is found. Part of this integration involves providing status and enable
29  bits with which to control the 8 exposed NAND interrupts, as well as hardware
30  for configuring the endianness of the data bus. On some SoCs, these features
31  are handled via standard, modular components (e.g., their interrupts look like
32  a normal IRQ chip), but on others, they are controlled in unique and
33  interesting ways, sometimes with registers that lump multiple NAND-related
34  functions together. The former case can be described simply by the standard
35  interrupts properties in the main controller node. But for the latter
36  exceptional cases, we define additional 'compatible' properties and associated
37  register resources within the NAND controller node above.
38
39properties:
40  compatible:
41    oneOf:
42      - items:
43          - enum:
44              - brcm,brcmnand-v2.1
45              - brcm,brcmnand-v2.2
46              - brcm,brcmnand-v4.0
47              - brcm,brcmnand-v5.0
48              - brcm,brcmnand-v6.0
49              - brcm,brcmnand-v6.1
50              - brcm,brcmnand-v6.2
51              - brcm,brcmnand-v7.0
52              - brcm,brcmnand-v7.1
53              - brcm,brcmnand-v7.2
54              - brcm,brcmnand-v7.3
55          - const: brcm,brcmnand
56      - description: BCM63138 SoC-specific NAND controller
57        items:
58          - const: brcm,nand-bcm63138
59          - enum:
60              - brcm,brcmnand-v7.0
61              - brcm,brcmnand-v7.1
62          - const: brcm,brcmnand
63      - description: iProc SoC-specific NAND controller
64        items:
65          - const: brcm,nand-iproc
66          - const: brcm,brcmnand-v6.1
67          - const: brcm,brcmnand
68      - description: BCM63168 SoC-specific NAND controller
69        items:
70          - const: brcm,nand-bcm63168
71          - const: brcm,nand-bcm6368
72          - const: brcm,brcmnand-v4.0
73          - const: brcm,brcmnand
74
75  reg:
76    minItems: 1
77    maxItems: 6
78
79  reg-names:
80    minItems: 1
81    maxItems: 6
82    items:
83      enum: [ nand, flash-dma, flash-edu, nand-cache, nand-int-base, iproc-idm, iproc-ext ]
84
85  interrupts:
86    minItems: 1
87    items:
88      - description: NAND CTLRDY interrupt
89      - description: FLASH_DMA_DONE if flash DMA is available
90      - description: FLASH_EDU_DONE if EDU is available
91
92  interrupt-names:
93    minItems: 1
94    items:
95      - const: nand_ctlrdy
96      - const: flash_dma_done
97      - const: flash_edu_done
98
99  clocks:
100    maxItems: 1
101    description: reference to the clock for the NAND controller
102
103  clock-names:
104    const: nand
105
106  brcm,nand-has-wp:
107    description: >
108      Some versions of this IP include a write-protect
109      (WP) control bit. It is always available on >=
110      v7.0. Use this property to describe the rare
111      earlier versions of this core that include WP
112    type: boolean
113
114patternProperties:
115  "^nand@[a-f0-9]$":
116    type: object
117    properties:
118      compatible:
119        const: brcm,nandcs
120
121      nand-ecc-step-size:
122        enum: [ 512, 1024 ]
123
124      brcm,nand-oob-sector-size:
125        description: |
126          integer, to denote the spare area sector size
127          expected for the ECC layout in use. This size, in
128          addition to the strength and step-size,
129          determines how the hardware BCH engine will lay
130          out the parity bytes it stores on the flash.
131          This property can be automatically determined by
132          the flash geometry (particularly the NAND page
133          and OOB size) in many cases, but when booting
134          from NAND, the boot controller has only a limited
135          number of available options for its default ECC
136          layout.
137        $ref: /schemas/types.yaml#/definitions/uint32
138
139allOf:
140  - $ref: nand-controller.yaml#
141  - if:
142      properties:
143        compatible:
144          contains:
145            const: brcm,nand-bcm63138
146    then:
147      properties:
148        reg-names:
149          items:
150            - const: nand
151            - const: nand-int-base
152  - if:
153      properties:
154        compatible:
155          contains:
156            const: brcm,nand-bcm6368
157    then:
158      properties:
159        reg-names:
160          items:
161            - const: nand
162            - const: nand-int-base
163            - const: nand-cache
164  - if:
165      properties:
166        compatible:
167          contains:
168            const: brcm,nand-iproc
169    then:
170      properties:
171        reg-names:
172          items:
173            - const: nand
174            - const: iproc-idm
175            - const: iproc-ext
176
177unevaluatedProperties: false
178
179required:
180  - reg
181  - reg-names
182  - interrupts
183
184examples:
185  - |
186    nand-controller@f0442800 {
187            compatible = "brcm,brcmnand-v7.0", "brcm,brcmnand";
188            reg = <0xf0442800 0x600>,
189                  <0xf0443000 0x100>;
190            reg-names = "nand", "flash-dma";
191            interrupt-parent = <&hif_intr2_intc>;
192            interrupts = <24>, <4>;
193
194            #address-cells = <1>;
195            #size-cells = <0>;
196
197            nand@1 {
198                    compatible = "brcm,nandcs";
199                    reg = <1>; // Chip select 1
200                    nand-on-flash-bbt;
201                    nand-ecc-strength = <12>;
202                    nand-ecc-step-size = <512>;
203
204                    #address-cells = <1>;
205                    #size-cells = <1>;
206            };
207    };
208  - |
209    nand-controller@10000200 {
210            compatible = "brcm,nand-bcm63168", "brcm,nand-bcm6368",
211                         "brcm,brcmnand-v4.0", "brcm,brcmnand";
212            reg = <0x10000200 0x180>,
213                  <0x100000b0 0x10>,
214                  <0x10000600 0x200>;
215            reg-names = "nand", "nand-int-base", "nand-cache";
216            interrupt-parent = <&periph_intc>;
217            interrupts = <50>;
218            clocks = <&periph_clk 20>;
219            clock-names = "nand";
220
221            #address-cells = <1>;
222            #size-cells = <0>;
223
224            nand@0 {
225                    compatible = "brcm,nandcs";
226                    reg = <0>;
227                    nand-on-flash-bbt;
228                    nand-ecc-strength = <1>;
229                    nand-ecc-step-size = <512>;
230
231                    #address-cells = <1>;
232                    #size-cells = <1>;
233            };
234    };
235