xref: /linux/Documentation/devicetree/bindings/powerpc/fsl/pamu.txt (revision 6fdcba32711044c35c0e1b094cbd8f3f0b4472c9)
1Freescale Peripheral Management Access Unit (PAMU) Device Tree Binding
2
3DESCRIPTION
4
5The PAMU is an I/O MMU that provides device-to-memory access control and
6address translation capabilities.
7
8Required properties:
9
10- compatible	: <string>
11		  First entry is a version-specific string, such as
12		  "fsl,pamu-v1.0".  The second is "fsl,pamu".
13- ranges	: <prop-encoded-array>
14		  A standard property. Utilized to describe the memory mapped
15		  I/O space utilized by the controller.  The size should
16		  be set to the total size of the register space of all
17		  physically present PAMU controllers.  For example, for
18		  PAMU v1.0, on an SOC that has five PAMU devices, the size
19		  is 0x5000.
20- interrupts	: <prop-encoded-array>
21		  Interrupt mappings.  The first tuple is the normal PAMU
22		  interrupt, used for reporting access violations.  The second
23		  is for PAMU hardware errors, such as PAMU operation errors
24		  and ECC errors.
25- #address-cells: <u32>
26		  A standard property.
27- #size-cells	: <u32>
28		  A standard property.
29
30Optional properties:
31- reg		: <prop-encoded-array>
32		  A standard property.   It represents the CCSR registers of
33		  all child PAMUs combined.  Include it to provide support
34		  for legacy drivers.
35- fsl,portid-mapping : <u32>
36		  The Coherency Subdomain ID Port Mapping Registers and
37		  Snoop ID Port Mapping registers, which are part of the
38		  CoreNet Coherency fabric (CCF), provide a CoreNet
39		  Coherency Subdomain ID/CoreNet Snoop ID to pamu mapping
40		  functions.  Certain bits from these registers should be
41		  set if PAMUs should be snooped.  This property defines
42		  a bitmask which selects the bits that should be set if
43		  PAMUs should be snooped.
44
45Child nodes:
46
47Each child node represents one PAMU controller.  Each SOC device that is
48connected to a specific PAMU device should have a "fsl,pamu-phandle" property
49that links to the corresponding specific child PAMU controller.
50
51- reg		: <prop-encoded-array>
52		  A standard property.  Specifies the physical address and
53		  length (relative to the parent 'ranges' property) of this
54		  PAMU controller's configuration registers.  The size should
55		  be set to the size of this PAMU controllers's register space.
56		  For PAMU v1.0, this size is 0x1000.
57- fsl,primary-cache-geometry
58		: <prop-encoded-array>
59		  Two cells that specify the geometry of the primary PAMU
60		  cache.  The first is the number of cache lines, and the
61		  second is the number of "ways".  For direct-mapped caches,
62		  specify a value of 1.
63- fsl,secondary-cache-geometry
64		: <prop-encoded-array>
65		  Two cells that specify the geometry of the secondary PAMU
66		  cache.  The first is the number of cache lines, and the
67		  second is the number of "ways".  For direct-mapped caches,
68		  specify a value of 1.
69
70Device nodes:
71
72Devices that have LIODNs need to specify links to the parent PAMU controller
73(the actual PAMU controller that this device is connected to) and a pointer to
74the LIODN register, if applicable.
75
76- fsl,iommu-parent
77		: <phandle>
78		Phandle to the single, specific PAMU controller node to which
79		this device is connect.  The PAMU topology is represented in
80		the device tree to assist code that dynamically determines the
81		best LIODN values to minimize PAMU cache thrashing.
82
83- fsl,liodn-reg : <prop-encoded-array>
84		  Two cells that specify the location of the LIODN register
85		  for this device.  Required for devices that have a single
86		  LIODN.  The first cell is a phandle to a node that contains
87		  the registers where the LIODN is to be set.  The second is
88		  the offset from the first "reg" resource of the node where
89		  the specific LIODN register is located.
90
91
92Example:
93
94	iommu@20000 {
95		compatible = "fsl,pamu-v1.0", "fsl,pamu";
96		reg = <0x20000 0x5000>;
97		ranges = <0 0x20000 0x5000>;
98		fsl,portid-mapping = <0xf80000>;
99		#address-cells = <1>;
100		#size-cells = <1>;
101		interrupts = <
102			24 2 0 0
103			16 2 1 30>;
104
105		pamu0: pamu@0 {
106			reg = <0 0x1000>;
107			fsl,primary-cache-geometry = <32 1>;
108			fsl,secondary-cache-geometry = <128 2>;
109		};
110
111		pamu1: pamu@1000 {
112			reg = <0x1000 0x1000>;
113			fsl,primary-cache-geometry = <32 1>;
114			fsl,secondary-cache-geometry = <128 2>;
115		};
116
117		pamu2: pamu@2000 {
118			reg = <0x2000 0x1000>;
119			fsl,primary-cache-geometry = <32 1>;
120			fsl,secondary-cache-geometry = <128 2>;
121		};
122
123		pamu3: pamu@3000 {
124			reg = <0x3000 0x1000>;
125			fsl,primary-cache-geometry = <32 1>;
126			fsl,secondary-cache-geometry = <128 2>;
127		};
128
129		pamu4: pamu@4000 {
130			reg = <0x4000 0x1000>;
131			fsl,primary-cache-geometry = <32 1>;
132			fsl,secondary-cache-geometry = <128 2>;
133		};
134	};
135
136	guts: global-utilities@e0000 {
137		compatible = "fsl,qoriq-device-config-1.0";
138		reg = <0xe0000 0xe00>;
139		fsl,has-rstcr;
140		#sleep-cells = <1>;
141		fsl,liodn-bits = <12>;
142	};
143
144/include/ "qoriq-dma-0.dtsi"
145	dma@100300 {
146		fsl,iommu-parent = <&pamu0>;
147		fsl,liodn-reg = <&guts 0x584>; /* DMA2LIODNR */
148	};
149