| /Linux-v6.1/Documentation/devicetree/bindings/reserved-memory/ |
| D | reserved-memory.yaml | 1 # SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause)
3 ---
4 $id: http://devicetree.org/schemas/reserved-memory/reserved-memory.yaml#
5 $schema: http://devicetree.org/meta-schemas/core.yaml#
7 title: /reserved-memory Child Node Common
10 - devicetree-spec@vger.kernel.org
13 Reserved memory is specified as a node under the /reserved-memory node. The
14 operating system shall exclude reserved memory from normal usage one can
15 create child nodes describing particular reserved (excluded from normal use)
16 memory regions. Such memory regions are usually designed for the special
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| D | memory-region.yaml | 1 # SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause)
3 ---
4 $id: http://devicetree.org/schemas/reserved-memory/memory-region.yaml#
5 $schema: http://devicetree.org/meta-schemas/core.yaml#
7 title: Reserved Memory Region
10 - devicetree-spec@vger.kernel.org
13 Regions in the /reserved-memory node may be referenced by other device
14 nodes by adding a memory-region property to the device node.
19 memory-region:
20 $ref: /schemas/types.yaml#/definitions/phandle-array
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| D | xen,shared-memory.txt | 1 * Xen hypervisor reserved-memory binding
3 Expose one or more memory regions as reserved-memory to the guest
5 to be a shared memory area across multiple virtual machines for
8 For each of these pre-shared memory regions, a range is exposed under
9 the /reserved-memory node as a child node. Each range sub-node is named
10 xen-shmem@<address> and has the following properties:
12 - compatible:
13 compatible = "xen,shared-memory-v1"
15 - reg:
16 the base guest physical address and size of the shared memory region
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| D | qcom,cmd-db.yaml | 1 # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
3 ---
4 $id: "http://devicetree.org/schemas/reserved-memory/qcom,cmd-db.yaml#"
5 $schema: "http://devicetree.org/meta-schemas/core.yaml#"
12 is stored in a shared memory region and is loaded by the remote processor.
17 remote processor and made available in the shared memory.
20 - Bjorn Andersson <bjorn.andersson@linaro.org>
23 - $ref: "reserved-memory.yaml"
27 const: qcom,cmd-db
30 - reg
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| D | shared-dma-pool.yaml | 1 # SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause)
3 ---
4 $id: http://devicetree.org/schemas/reserved-memory/shared-dma-pool.yaml#
5 $schema: http://devicetree.org/meta-schemas/core.yaml#
7 title: /reserved-memory DMA pool node bindings
10 - devicetree-spec@vger.kernel.org
13 - $ref: "reserved-memory.yaml"
18 - const: shared-dma-pool
20 This indicates a region of memory meant to be used as a shared
25 - const: restricted-dma-pool
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| /Linux-v6.1/tools/testing/memblock/tests/ |
| D | basic_api.c | 1 // SPDX-License-Identifier: GPL-2.0-or-later
17 ASSERT_NE(memblock.memory.regions, NULL); in memblock_initialization_check()
18 ASSERT_EQ(memblock.memory.cnt, 1); in memblock_initialization_check()
19 ASSERT_EQ(memblock.memory.max, EXPECTED_MEMBLOCK_REGIONS); in memblock_initialization_check()
20 ASSERT_EQ(strcmp(memblock.memory.name, "memory"), 0); in memblock_initialization_check()
22 ASSERT_NE(memblock.reserved.regions, NULL); in memblock_initialization_check()
23 ASSERT_EQ(memblock.reserved.cnt, 1); in memblock_initialization_check()
24 ASSERT_EQ(memblock.memory.max, EXPECTED_MEMBLOCK_REGIONS); in memblock_initialization_check()
25 ASSERT_EQ(strcmp(memblock.reserved.name, "reserved"), 0); in memblock_initialization_check()
36 * A simple test that adds a memory block of a specified base address
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| D | alloc_helpers_api.c | 1 // SPDX-License-Identifier: GPL-2.0-or-later
5 * A simple test that tries to allocate a memory region above a specified,
9 * | +-----------+ |
11 * +----------+-----------+---------+
16 * Expect to allocate a cleared region at the minimal memory address.
20 struct memblock_region *rgn = &memblock.reserved.regions[0]; in alloc_from_simple_generic_check()
28 min_addr = memblock_end_of_DRAM() - SMP_CACHE_BYTES; in alloc_from_simple_generic_check()
35 ASSERT_EQ(rgn->size, size); in alloc_from_simple_generic_check()
36 ASSERT_EQ(rgn->base, min_addr); in alloc_from_simple_generic_check()
38 ASSERT_EQ(memblock.reserved.cnt, 1); in alloc_from_simple_generic_check()
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| D | alloc_nid_api.c | 1 // SPDX-License-Identifier: GPL-2.0-or-later
40 * A simple test that tries to allocate a memory region within min_addr and
44 * | + +-----------+ |
46 * +----+-------+-----------+------+
55 struct memblock_region *rgn = &memblock.reserved.regions[0]; in alloc_try_nid_top_down_simple_check()
71 rgn_end = rgn->base + rgn->size; in alloc_try_nid_top_down_simple_check()
76 ASSERT_EQ(rgn->size, size); in alloc_try_nid_top_down_simple_check()
77 ASSERT_EQ(rgn->base, max_addr - size); in alloc_try_nid_top_down_simple_check()
80 ASSERT_EQ(memblock.reserved.cnt, 1); in alloc_try_nid_top_down_simple_check()
81 ASSERT_EQ(memblock.reserved.total_size, size); in alloc_try_nid_top_down_simple_check()
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| D | alloc_api.c | 1 // SPDX-License-Identifier: GPL-2.0-or-later
21 * A simple test that tries to allocate a small memory region.
22 * Expect to allocate an aligned region near the end of the available memory.
26 struct memblock_region *rgn = &memblock.reserved.regions[0]; in alloc_top_down_simple_check()
34 expected_start = memblock_end_of_DRAM() - SMP_CACHE_BYTES; in alloc_top_down_simple_check()
41 ASSERT_EQ(rgn->size, size); in alloc_top_down_simple_check()
42 ASSERT_EQ(rgn->base, expected_start); in alloc_top_down_simple_check()
44 ASSERT_EQ(memblock.reserved.cnt, 1); in alloc_top_down_simple_check()
45 ASSERT_EQ(memblock.reserved.total_size, size); in alloc_top_down_simple_check()
53 * A test that tries to allocate memory next to a reserved region that starts at
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| /Linux-v6.1/Documentation/powerpc/ |
| D | firmware-assisted-dump.rst | 2 Firmware-Assisted Dump
7 The goal of firmware-assisted dump is to enable the dump of
8 a crashed system, and to do so from a fully-reset system, and
12 - Firmware-Assisted Dump (FADump) infrastructure is intended to replace
14 - Fadump uses the same firmware interfaces and memory reservation model
16 - Unlike phyp dump, FADump exports the memory dump through /proc/vmcore
19 - Unlike phyp dump, userspace tool does not need to refer any sysfs
21 - Unlike phyp dump, FADump allows user to release all the memory reserved
23 - Once enabled through kernel boot parameter, FADump can be
28 Comparing with kdump or other strategies, firmware-assisted
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| /Linux-v6.1/kernel/dma/ |
| D | contiguous.c | 1 // SPDX-License-Identifier: GPL-2.0+
3 * Contiguous Memory Allocator for DMA mapping framework
4 * Copyright (c) 2010-2011 by Samsung Electronics.
9 * Contiguous Memory Allocator
11 * The Contiguous Memory Allocator (CMA) makes it possible to
12 * allocate big contiguous chunks of memory after the system has
17 * Various devices on embedded systems have no scatter-getter and/or
18 * IO map support and require contiguous blocks of memory to
22 * Such devices often require big memory buffers (a full HD frame
24 * MB of memory), which makes mechanisms such as kmalloc() or
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| /Linux-v6.1/include/linux/ |
| D | memblock.h | 1 /* SPDX-License-Identifier: GPL-2.0-or-later */
6 * Logical memory blocks.
28 * enum memblock_flags - definition of memory region attributes
30 * @MEMBLOCK_HOTPLUG: memory region indicated in the firmware-provided memory
31 * map during early boot as hot(un)pluggable system RAM (e.g., memory range
33 * commandline, try keeping this memory region hotunpluggable. Does not apply
37 * reserved in the memory map; refer to memblock_mark_nomap() description
39 * @MEMBLOCK_DRIVER_MANAGED: memory region that is always detected and added
40 * via a driver, and never indicated in the firmware-provided memory map as
53 * struct memblock_region - represents a memory region
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| /Linux-v6.1/Documentation/devicetree/bindings/remoteproc/ |
| D | ti,davinci-rproc.txt | 4 Binding status: Unstable - Subject to changes for DT representation of clocks
7 The TI Davinci family of SoCs usually contains a TI DSP Core sub-system that
8 is used to offload some of the processor-intensive tasks or algorithms, for
11 The processor cores in the sub-system usually contain additional sub-modules
12 like L1 and/or L2 caches/SRAMs, an Interrupt Controller, an external memory
18 Each DSP Core sub-system is represented as a single DT node.
21 --------------------
24 - compatible: Should be one of the following,
25 "ti,da850-dsp" for DSPs on OMAP-L138 SoCs
27 - reg: Should contain an entry for each value in 'reg-names'.
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| D | ti,omap-remoteproc.yaml | 1 # SPDX-License-Identifier: (GPL-2.0-only or BSD-2-Clause)
3 ---
4 $id: http://devicetree.org/schemas/remoteproc/ti,omap-remoteproc.yaml#
5 $schema: http://devicetree.org/meta-schemas/core.yaml#
10 - Suman Anna <s-anna@ti.com>
13 The OMAP family of SoCs usually have one or more slave processor sub-systems
14 that are used to offload some of the processor-intensive tasks, or to manage
17 The processor cores in the sub-system are usually behind an IOMMU, and may
18 contain additional sub-modules like Internal RAM and/or ROMs, L1 and/or L2
21 The OMAP SoCs usually have a DSP processor sub-system and/or an IPU processor
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| D | ti,k3-dsp-rproc.yaml | 1 # SPDX-License-Identifier: (GPL-2.0-only or BSD-2-Clause)
3 ---
4 $id: http://devicetree.org/schemas/remoteproc/ti,k3-dsp-rproc.yaml#
5 $schema: http://devicetree.org/meta-schemas/core.yaml#
10 - Suman Anna <s-anna@ti.com>
13 The TI K3 family of SoCs usually have one or more TI DSP Core sub-systems
14 that are used to offload some of the processor-intensive tasks or algorithms,
17 These processor sub-systems usually contain additional sub-modules like
18 L1 and/or L2 caches/SRAMs, an Interrupt Controller, an external memory
23 Each DSP Core sub-system is represented as a single DT node. Each node has a
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| D | ti,keystone-rproc.txt | 5 sub-systems that are used to offload some of the processor-intensive tasks or
8 These processor sub-systems usually contain additional sub-modules like L1
9 and/or L2 caches/SRAMs, an Interrupt Controller, an external memory controller,
15 Each DSP Core sub-system is represented as a single DT node, and should also
22 --------------------
25 - compatible: Should be one of the following,
26 "ti,k2hk-dsp" for DSPs on Keystone 2 66AK2H/K SoCs
27 "ti,k2l-dsp" for DSPs on Keystone 2 66AK2L SoCs
28 "ti,k2e-dsp" for DSPs on Keystone 2 66AK2E SoCs
29 "ti,k2g-dsp" for DSPs on Keystone 2 66AK2G SoCs
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| /Linux-v6.1/arch/powerpc/kernel/ |
| D | fadump.c | 1 // SPDX-License-Identifier: GPL-2.0-or-later
6 * memory contents. The most of the code implementation has been adapted
33 #include <asm/fadump-internal.h>
58 #define RESERVED_RNGS_SZ 16384 /* 16K - 128 entries */
63 reserved_mrange_info = { "reserved", rngs, RESERVED_RNGS_SZ, 0, RESERVED_RNGS_CNT, true };
71 * fadump_cma_init() - Initialize CMA area from a fadump reserved memory
73 * This function initializes CMA area from fadump reserved memory.
74 * The total size of fadump reserved memory covers for boot memory size
76 * Initialize only the area equivalent to boot memory size for CMA use.
77 * The remaining portion of fadump reserved memory will be not given
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| /Linux-v6.1/Documentation/devicetree/bindings/soc/fsl/ |
| D | qman.txt | 3 Copyright (C) 2008 - 2014 Freescale Semiconductor Inc.
7 - QMan Node
8 - QMan Private Memory Nodes
9 - Example
13 The Queue Manager is part of the Data-Path Acceleration Architecture (DPAA). QMan
16 flow-level queuing, is also responsible for congestion management functions such
22 - compatible
26 May include "fsl,<SoC>-qman"
28 - reg
30 Value type: <prop-encoded-array>
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| D | bman.txt | 3 Copyright (C) 2008 - 2014 Freescale Semiconductor Inc.
7 - BMan Node
8 - BMan Private Memory Node
9 - Example
13 The Buffer Manager is part of the Data-Path Acceleration Architecture (DPAA).
20 - compatible
24 May include "fsl,<SoC>-bman"
26 - reg
28 Value type: <prop-encoded-array>
34 - interrupts
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| /Linux-v6.1/drivers/of/ |
| D | of_reserved_mem.c | 1 // SPDX-License-Identifier: GPL-2.0+
3 * Device tree based initialization code for reserved memory.
5 * Copyright (c) 2013, 2015 The Linux Foundation. All Rights Reserved.
12 #define pr_fmt(fmt) "OF: reserved mem: " fmt
44 return -ENOMEM; in early_init_dt_alloc_reserved_memory_arch()
58 * fdt_reserved_mem_save_node() - save fdt node for second pass initialization
70 rmem->fdt_node = node; in fdt_reserved_mem_save_node()
71 rmem->name = uname; in fdt_reserved_mem_save_node()
72 rmem->base = base; in fdt_reserved_mem_save_node()
73 rmem->size = size; in fdt_reserved_mem_save_node()
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| /Linux-v6.1/mm/ |
| D | memblock.c | 1 // SPDX-License-Identifier: GPL-2.0-or-later
3 * Procedures for maintaining information about logical memory blocks.
39 * Memblock is a method of managing memory regions during the early
40 * boot period when the usual kernel memory allocators are not up and
43 * Memblock views the system memory as collections of contiguous
46 * * ``memory`` - describes the physical memory available to the
47 * kernel; this may differ from the actual physical memory installed
48 * in the system, for instance when the memory is restricted with
50 * * ``reserved`` - describes the regions that were allocated
51 * * ``physmem`` - describes the actual physical memory available during
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| /Linux-v6.1/Documentation/devicetree/bindings/media/ |
| D | s5p-mfc.txt | 10 - compatible : value should be either one among the following
11 (a) "samsung,mfc-v5" for MFC v5 present in Exynos4 SoCs
12 (b) "samsung,mfc-v6" for MFC v6 present in Exynos5 SoCs
13 (c) "samsung,mfc-v7" for MFC v7 present in Exynos5420 SoC
14 (d) "samsung,mfc-v8" for MFC v8 present in Exynos5800 SoC
15 (e) "samsung,exynos5433-mfc" for MFC v8 present in Exynos5433 SoC
16 (f) "samsung,mfc-v10" for MFC v10 present in Exynos7880 SoC
18 - reg : Physical base address of the IP registers and length of memory
21 - interrupts : MFC interrupt number to the CPU.
22 - clocks : from common clock binding: handle to mfc clock.
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| /Linux-v6.1/drivers/gpu/drm/nouveau/nvkm/subdev/instmem/ |
| D | nv40.c | 39 #define nv40_instobj(p) container_of((p), struct nv40_instobj, base.memory)
48 nv40_instobj_wr32(struct nvkm_memory *memory, u64 offset, u32 data) in nv40_instobj_wr32() argument
50 struct nv40_instobj *iobj = nv40_instobj(memory); in nv40_instobj_wr32()
51 iowrite32_native(data, iobj->imem->iomem + iobj->node->offset + offset); in nv40_instobj_wr32()
55 nv40_instobj_rd32(struct nvkm_memory *memory, u64 offset) in nv40_instobj_rd32() argument
57 struct nv40_instobj *iobj = nv40_instobj(memory); in nv40_instobj_rd32()
58 return ioread32_native(iobj->imem->iomem + iobj->node->offset + offset); in nv40_instobj_rd32()
68 nv40_instobj_release(struct nvkm_memory *memory) in nv40_instobj_release() argument
74 nv40_instobj_acquire(struct nvkm_memory *memory) in nv40_instobj_acquire() argument
76 struct nv40_instobj *iobj = nv40_instobj(memory); in nv40_instobj_acquire()
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| /Linux-v6.1/tools/testing/selftests/bpf/verifier/ |
| D | ringbuf.c | 4 /* reserve 8 byte ringbuf memory */
5 BPF_ST_MEM(BPF_DW, BPF_REG_10, -8, 0),
10 /* store a pointer to the reserved memory in R6 */
15 BPF_STX_MEM(BPF_DW, BPF_REG_10, BPF_REG_6, -8),
17 BPF_LDX_MEM(BPF_DW, BPF_REG_7, BPF_REG_10, -8),
20 /* submit the reserved ringbuf memory */
22 /* add invalid offset to reserved ringbuf memory */
36 /* reserve 8 byte ringbuf memory */
37 BPF_ST_MEM(BPF_DW, BPF_REG_10, -8, 0),
42 /* store a pointer to the reserved memory in R6 */
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| /Linux-v6.1/arch/alpha/include/asm/ |
| D | core_irongate.h | 1 /* SPDX-License-Identifier: GPL-2.0 */
9 * IRONGATE is the internal name for the AMD-751 K7 core logic chipset
10 * which provides memory controller and PCI access for NAUTILUS-based
21 * The 21264 supports, and internally recognizes, a 44-bit physical
22 * address space that is divided equally between memory address space
23 * and I/O address space. Memory address space resides in the lower
30 * through the routines given is 32-bit.
38 igcsr32 dev_vendor; /* 0x00 - device ID, vendor ID */
39 igcsr32 stat_cmd; /* 0x04 - status, command */
40 igcsr32 class; /* 0x08 - class code, rev ID */
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