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The Devicetree Specification has superseded the ePAPR as the base specification for bindings. Update files in Documentation to reference the new document. First reference to ePAPR in Documentation/devicetree/bindings/arm/cci.txt is generic, remove it. Some files are not updated because there is no hypervisor chapter in the Devicetree Specification: Documentation/devicetree/bindings/powerpc/fsl/msi-pic.txt Documenation/virtual/kvm/api.txt Documenation/virtual/kvm/ppc-pv.txt Signed-off-by: Frank Rowand <frank.rowand@sony.com> Signed-off-by: Rob Herring <robh@kernel.org>
60 lines
2.1 KiB
Text
60 lines
2.1 KiB
Text
Common properties
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The Devicetree Specification does not define any properties related to hardware
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byteswapping, but endianness issues show up frequently in porting Linux to
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different machine types. This document attempts to provide a consistent
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way of handling byteswapping across drivers.
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Optional properties:
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- big-endian: Boolean; force big endian register accesses
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unconditionally (e.g. ioread32be/iowrite32be). Use this if you
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know the peripheral always needs to be accessed in BE mode.
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- little-endian: Boolean; force little endian register accesses
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unconditionally (e.g. readl/writel). Use this if you know the
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peripheral always needs to be accessed in LE mode.
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- native-endian: Boolean; always use register accesses matched to the
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endianness of the kernel binary (e.g. LE vmlinux -> readl/writel,
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BE vmlinux -> ioread32be/iowrite32be). In this case no byteswaps
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will ever be performed. Use this if the hardware "self-adjusts"
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register endianness based on the CPU's configured endianness.
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If a binding supports these properties, then the binding should also
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specify the default behavior if none of these properties are present.
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In such cases, little-endian is the preferred default, but it is not
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a requirement. The of_device_is_big_endian() and of_fdt_is_big_endian()
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helper functions do assume that little-endian is the default, because
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most existing (PCI-based) drivers implicitly default to LE by using
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readl/writel for MMIO accesses.
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Examples:
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Scenario 1 : CPU in LE mode & device in LE mode.
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dev: dev@40031000 {
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compatible = "name";
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reg = <0x40031000 0x1000>;
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...
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native-endian;
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};
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Scenario 2 : CPU in LE mode & device in BE mode.
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dev: dev@40031000 {
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compatible = "name";
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reg = <0x40031000 0x1000>;
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...
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big-endian;
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};
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Scenario 3 : CPU in BE mode & device in BE mode.
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dev: dev@40031000 {
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compatible = "name";
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reg = <0x40031000 0x1000>;
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...
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native-endian;
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};
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Scenario 4 : CPU in BE mode & device in LE mode.
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dev: dev@40031000 {
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compatible = "name";
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reg = <0x40031000 0x1000>;
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...
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little-endian;
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};
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