On Fri, 11 Oct 2013 09:27:26 +0200, Marek Szyprowski m.szyprowski@samsung.com wrote:
Hi all!
Benjamin Herrenschmidt pointed a few issues in the proposed design of device tree bindings for contiguous memory allocator and reserved memory regions: https://lkml.org/lkml/2013/9/15/151 http://www.spinics.net/lists/arm-kernel/msg273548.html
Some time has passed, but there is still no consensus on the bindings for the reserved memory and various drawback of this solution has been shown, so in my opinion the best I can do now is to revert them completely and start from scratch again later.
Hi Marek,
At the ARM summit last week in Edinburgh, several of us sat down and hammered out a new proposal for handling reserved memory regions based on the work that you started here. Below you will find a new binding document. I started looking at implementing this, but haven't made much progress.
Please take a look and let me know what you think.
Also, while I'm thinking about it, I took another look at the code and I think the code supporting reserved regions should go directly into drivers/of/fdt.c and drivers/of/memory.c. Also, the reserved regions parsing should be enabled unconditionally insted of filtered by (DMA_CMA || (HAVE_GENERIC_DMA_COHERENT && HAVE_MEMBLOCK). If the hardware description says to reserve a region, then the kernel must always do so, even if it doesn't actually use it for anything.
g.
-------
*** Reserved memory regions ***
Reserved memory is specified as a node under the /reserved-memory node. The operating system shall exclude reserved memory from normal usage one can create child nodes describing particular reserved (excluded from normal use) memory regions. Such memory regions are usually designed for the special usage by various device drivers.
Parameters for each memory region can be encoded into the device tree with the following nodes:
/reserved-memory node --------------------- #address-cells, #size-cells (required) - standard definition - Should use the same values as the root node ranges (required) - standard definition - Should be empty
/reserved-memory/ child nodes ----------------------------- Each child of the reserved-memory node specifies one or more regions of reserved memory. Each child node may either use a 'reg' property to specify a specific range of reserved memory, or a 'size' property with optional constraints to request a dynamically allocated block of memory.
Following the generic-names recommended practice, node names should reflect the purpose of the node (ie. "framebuffer" or "dma-pool"). Unit address (@<address>) should be appended to the name if the node is a static allocation.
Properties: Requires either a) or b) below. a) static allocation reg (required) - standard definition b) dynamic allocation size (required) - length based on parent's #size-cells - Size in bytes of memory to reserve. alignment (optional) - length based on parent's #size-cells - Address boundary for alignment of allocation. alloc-ranges (optional) - prop-encoded-array (address, length pairs). - Specifies regions of memory that are acceptable to allocate from.
If both reg and size are present, then the reg property takes precedence and size is ignored.
Additional properties: compatible (optional) - standard definition - may contain the following strings: - shared-dma-pool: This indicates a region of memory meant to be used as a shared pool of DMA buffers for a set of devices. It can be used by an operating system to instanciate the necessary pool management subsystem if necessary. - vendor specific string in the form <vendor>,[<device>-]<usage> no-map (optional) - empty property - Indicates the operating system must not create a virtual mapping of the region as part of its standard mapping of system memory, nor permit speculative access to it under any circumstances other than under the control of the device driver using the region. reusable (optional) - empty property - The operating system can use the memory in this region with the limitation that the device driver(s) owning the region need to be able to reclaim it back. Typically that means that the operating system can use that region to store volatile or cached data that can be otherwise regenerated or migrated elsewhere.
Linux implementation note: - If a "linux,cma-default" property is present, then Linux will use the region for the default pool of the contiguous memory allocator.
Device node references to reserved memory ----------------------------------------- Regions in the /reserved-memory node may be referenced by other device nodes by adding a memory-region property to the device node.
memory-region (optional) - phandle to child of /reserved-memory
Example ------- This example defines 3 contiguous regions are defined for Linux kernel: one default of all device drivers (named linux,cma@72000000 and 64MiB in size), one dedicated to the framebuffer device (named framebuffer@78000000, 8MiB), and one for multimedia processing (named multimedia-memory@77000000, 64MiB).
/ { #address-cells = <1>; #size-cells = <1>;
memory { reg = <0x40000000 0x40000000>; };
reserved-memory { #address-cells = <1>; #size-cells = <1>; ranges;
/* global autoconfigured region for contiguous allocations */ linux,cma { compatible = "shared-dma-pool"; size = <0x4000000>; alignment = <0x2000>; linux,cma-default; };
display_reserved: framebuffer@78000000 { reg = <0x78000000 0x800000>; };
multimedia_reserved: multimedia@77000000 { compatible = "acme,multimedia-memory"; reg = <0x77000000 0x4000000>; }; };
/* ... */
fb0: video@12300000 { memory-region = <&display_reserved>; /* ... */ };
scaler: scaler@12500000 { memory-region = <&multimedia_reserved>; /* ... */ };
codec: codec@12600000 { memory-region = <&multimedia_reserved>; /* ... */ }; };