virtual (reference) in projects: Linux-v6.1

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Searched refs:virtual (Results 1 – 25 of 791) sorted by relevance

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/Linux-v6.1/arch/arm/mach-omap2/
D	io.c	`70 .virtual = L3_24XX_VIRT, 76 .virtual = L4_24XX_VIRT, 86 .virtual = DSP_MEM_2420_VIRT, 92 .virtual = DSP_IPI_2420_VIRT, 98 .virtual = DSP_MMU_2420_VIRT, 110 .virtual = L4_WK_243X_VIRT, 116 .virtual = OMAP243X_GPMC_VIRT, 122 .virtual = OMAP243X_SDRC_VIRT, 128 .virtual = OMAP243X_SMS_VIRT, 140 .virtual = L3_34XX_VIRT, [all …]`
/Linux-v6.1/sound/isa/wavefront/
D	wavefront_midi.c	145 spin_lock_irqsave (&midi->virtual, flags); in snd_wavefront_midi_output_write() 147 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() 163 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() 167 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() 170 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() 188 spin_lock_irqsave (&midi->virtual, flags); in snd_wavefront_midi_output_write() 194 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() 218 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() 222 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() 225 spin_unlock_irqrestore (&midi->virtual, flags); in snd_wavefront_midi_output_write() [all …]
/Linux-v6.1/drivers/gpu/drm/
D	drm_scatter.c	57 vfree(entry->virtual); in drm_sg_cleanup() 120 entry->virtual = vmalloc_32(pages << PAGE_SHIFT); in drm_legacy_sg_alloc() 121 if (!entry->virtual) { in drm_legacy_sg_alloc() 131 memset(entry->virtual, 0, pages << PAGE_SHIFT); in drm_legacy_sg_alloc() 133 entry->handle = ScatterHandle((unsigned long)entry->virtual); in drm_legacy_sg_alloc() 136 DRM_DEBUG("virtual = %p\n", entry->virtual); in drm_legacy_sg_alloc() 138 for (i = (unsigned long)entry->virtual, j = 0; j < pages; in drm_legacy_sg_alloc() 166 tmp = (unsigned long )((u8 ) entry->virtual + in drm_legacy_sg_alloc() 215 DRM_DEBUG("virtual = %p\n", entry->virtual); in drm_legacy_sg_free()
/Linux-v6.1/arch/arm/mach-omap1/
D	io.c	`27 .virtual = OMAP1_IO_VIRT, 37 .virtual = OMAP7XX_DSP_BASE, 42 .virtual = OMAP7XX_DSPREG_BASE, 53 .virtual = OMAP1510_DSP_BASE, 58 .virtual = OMAP1510_DSPREG_BASE, 69 .virtual = OMAP16XX_DSP_BASE, 74 .virtual = OMAP16XX_DSPREG_BASE,`
/Linux-v6.1/drivers/gpu/drm/nouveau/
D	nvc0_fence.c	35 nvc0_fence_emit32(struct nouveau_channel chan, u64 virtual, u32 sequence) in nvc0_fence_emit32() argument 41 NVVAL(NV906F, SEMAPHOREA, OFFSET_UPPER, upper_32_bits(virtual)), in nvc0_fence_emit32() 43 SEMAPHOREB, lower_32_bits(virtual), in nvc0_fence_emit32() 58 nvc0_fence_sync32(struct nouveau_channel chan, u64 virtual, u32 sequence) in nvc0_fence_sync32() argument 64 NVVAL(NV906F, SEMAPHOREA, OFFSET_UPPER, upper_32_bits(virtual)), in nvc0_fence_sync32() 66 SEMAPHOREB, lower_32_bits(virtual), in nvc0_fence_sync32()
/Linux-v6.1/drivers/usb/usbip/
D	Kconfig	`25 This enables the USB/IP virtual host controller driver, 32 int "Number of ports per USB/IP virtual host controller" 37 To increase number of ports available for USB/IP virtual 39 USB/IP virtual host controller. 42 int "Number of USB/IP virtual host controllers" 47 To increase number of ports available for USB/IP virtual 49 virtual host controllers as if adding physical host 66 This enables the USB/IP virtual USB device controller`
/Linux-v6.1/arch/arm/mach-tegra/
D	io.c	`26 .virtual = (unsigned long)IO_PPSB_VIRT, 32 .virtual = (unsigned long)IO_APB_VIRT, 38 .virtual = (unsigned long)IO_CPU_VIRT, 44 .virtual = (unsigned long)IO_IRAM_VIRT,`
/Linux-v6.1/arch/arm/mach-cns3xxx/
D	core.c	`28 .virtual = CNS3XXX_TC11MP_SCU_BASE_VIRT, 33 .virtual = CNS3XXX_TIMER1_2_3_BASE_VIRT, 38 .virtual = CNS3XXX_MISC_BASE_VIRT, 43 .virtual = CNS3XXX_PM_BASE_VIRT, 49 .virtual = CNS3XXX_PCIE0_HOST_BASE_VIRT, 54 .virtual = CNS3XXX_PCIE0_CFG0_BASE_VIRT, 59 .virtual = CNS3XXX_PCIE0_CFG1_BASE_VIRT, 64 .virtual = CNS3XXX_PCIE1_HOST_BASE_VIRT, 69 .virtual = CNS3XXX_PCIE1_CFG0_BASE_VIRT, 74 .virtual = CNS3XXX_PCIE1_CFG1_BASE_VIRT,`
/Linux-v6.1/arch/arm/mach-s3c/
D	s3c64xx.c	`108 .virtual = (unsigned long)S3C_VA_SYS, 113 .virtual = (unsigned long)S3C_VA_MEM, 118 .virtual = (unsigned long)(S3C_VA_UART + UART_OFFS), 123 .virtual = (unsigned long)VA_VIC0, 128 .virtual = (unsigned long)VA_VIC1, 133 .virtual = (unsigned long)S3C_VA_TIMER, 138 .virtual = (unsigned long)S3C64XX_VA_GPIO, 143 .virtual = (unsigned long)S3C64XX_VA_MODEM, 148 .virtual = (unsigned long)S3C_VA_WATCHDOG, 153 .virtual = (unsigned long)S3C_VA_USB_HSPHY,`
/Linux-v6.1/Documentation/riscv/
D	vm-layout.rst	10 This document describes the virtual memory layout used by the RISC-V Linux 26 occur.": that splits the virtual address space into 2 halves separated by a very 39 …0000000000000000 \| 0 \| 0000003fffffffff \| 256 GB \| user-space virtual memory, different … 43 … \| \| \| \| virtual memory addresses up to the -256 GB 47 … \| Kernel-space virtual memory, shared between all processes: 75 …0000000000000000 \| 0 \| 00007fffffffffff \| 128 TB \| user-space virtual memory, different … 79 … \| \| \| \| virtual memory addresses up to the -128 TB 83 … \| Kernel-space virtual memory, shared between all processes:
/Linux-v6.1/arch/arm/mm/
D	mmu.c	878 addr = md->virtual; in create_36bit_mapping() 952 addr = md->virtual & PAGE_MASK; in __create_mapping() 954 length = PAGE_ALIGN(md->length + (md->virtual & ~PAGE_MASK)); in __create_mapping() 983 if (md->virtual != vectors_base() && md->virtual < TASK_SIZE) { in create_mapping() 985 (long long)__pfn_to_phys((u64)md->pfn), md->virtual); in create_mapping() 990 md->virtual >= PAGE_OFFSET && md->virtual < FIXADDR_START && in create_mapping() 991 (md->virtual < VMALLOC_START \|\| md->virtual >= VMALLOC_END)) { in create_mapping() 993 (long long)__pfn_to_phys((u64)md->pfn), md->virtual); in create_mapping() 1006 p4d = p4d_alloc(mm, pgd_offset(mm, md->virtual), md->virtual); in create_mapping_late() 1009 pud = pud_alloc(mm, p4d, md->virtual); in create_mapping_late() [all …]
/Linux-v6.1/Documentation/x86/x86_64/
D	mm.rst	7 Complete virtual memory map with 4-level page tables 32 …0000000000000000 \| 0 \| 00007fffffffffff \| 128 TB \| user-space virtual memory, different … 36 … \| \| \| \| virtual memory addresses up to the -128 TB 40 … \| Kernel-space virtual memory, shared between all processes: 49 ffffea0000000000 \| -22 TB \| ffffeaffffffffff \| 1 TB \| virtual memory map (vmemmap_base) 75 Complete virtual memory map with 5-level page tables 91 …0000000000000000 \| 0 \| 00ffffffffffffff \| 64 PB \| user-space virtual memory, different … 95 … \| \| \| \| virtual memory addresses up to the -64 PB 99 … \| Kernel-space virtual memory, shared between all processes: 108 ffd4000000000000 \| -11 PB \| ffd5ffffffffffff \| 0.5 PB \| virtual memory map (vmemmap_base) [all …]
/Linux-v6.1/drivers/platform/goldfish/
D	Kconfig	`3 bool "Platform support for Goldfish virtual devices" 6 Say Y here to get to see options for the Goldfish virtual platform. 14 tristate "Goldfish virtual device for QEMU pipes" 16 This is a virtual device to drive the QEMU pipe interface used by`
/Linux-v6.1/scripts/coccinelle/misc/
D	excluded_middle.cocci	`9 virtual patch 10 virtual context 11 virtual org 12 virtual report`
D	add_namespace.cocci	`9 virtual nsdeps 10 virtual report 14 identifier virtual.ns; 23 identifier virtual.ns;`
D	of_table.cocci	`8 virtual patch 9 virtual context 10 virtual org 11 virtual report`
D	semicolon.cocci	`11 virtual patch 12 virtual report 13 virtual context 14 virtual org`
/Linux-v6.1/Documentation/ABI/testing/
D	sysfs-firmware-efi-runtime-map	`4 Description: Switching efi runtime services to virtual mode requires 6 bit set to be mapped to virtual addresses. 8 The efi runtime services can only be switched to virtual 10 the same physical to virtual address mappings as the first 32 virt_addr The virtual address of the memory range.`
D	sysfs-kernel-mm-memory-tiers	`1 What: /sys/devices/virtual/memory_tiering/ 9 /sys/devices/virtual/memory_tiering/memory_tierN/ 12 What: /sys/devices/virtual/memory_tiering/memory_tierN/ 13 /sys/devices/virtual/memory_tiering/memory_tierN/nodelist`
D	sysfs-platform-intel-ifs	`1 What: /sys/devices/virtual/misc/intel_ifs_<N>/run_test 12 What: /sys/devices/virtual/misc/intel_ifs_<N>/status 19 What: /sys/devices/virtual/misc/intel_ifs_<N>/details 27 What: /sys/devices/virtual/misc/intel_ifs_<N>/image_version 34 What: /sys/devices/virtual/misc/intel_ifs_<N>/reload`
/Linux-v6.1/Documentation/xtensa/
D	booting.rst	`16 - For configurations with MMUv2 the address must be a virtual address in the 17 default virtual mapping (0xd0000000..0xffffffff). 19 virtual or physical address. In either case it must be within the default 20 virtual mapping. It is considered physical if it is within the range of 22 XCHAL_KSEG_PADDR + XCHAL_KSEG_SIZE), otherwise it is considered virtual.`
/Linux-v6.1/arch/arm/mach-spear/
D	spear13xx.c	`60 .virtual = (unsigned long)VA_PERIP_GRP2_BASE, 65 .virtual = (unsigned long)VA_PERIP_GRP1_BASE, 70 .virtual = (unsigned long)VA_A9SM_AND_MPMC_BASE, 75 .virtual = (unsigned long)VA_L2CC_BASE,`
/Linux-v6.1/Documentation/devicetree/bindings/display/
D	mipi-dsi-bus.txt	26 bus. DSI peripherals are addressed using a 2-bit virtual channel number, so 52 - reg: The virtual channel number of a DSI peripheral. Must be in the range 55 Some DSI peripherals respond to more than a single virtual channel. In that 57 - The reg property can take multiple entries, one for each virtual channel 59 - If the virtual channels that a peripheral responds to are consecutive, the 61 property is the number of the first virtual channel and the second cell is 62 the number of consecutive virtual channels. 88 with different virtual channel configurations. 101 /* peripheral responds to virtual channel 0 / 117 / peripheral responds to virtual channels 0 and 2 */ [all …]
/Linux-v6.1/scripts/coccinelle/api/
D	platform_get_irq.cocci	`7 virtual patch 8 virtual context 9 virtual org 10 virtual report`
/Linux-v6.1/Documentation/networking/
D	representors.rst	23 virtual switches and IOV devices. Just as each physical port of a Linux- 24 controlled switch has a separate netdev, so does each virtual port of a virtual 27 the virtual functions appear in the networking stack of the PF via the 28 representors. The PF can thus always communicate freely with the virtual 34 administrative commands) and a data plane object (one end of a virtual pipe). 35 As a virtual link endpoint, the representor can be configured like any other 44 which has administrative control over the virtual switch on the device. 48 for the whole device or might have a separate virtual switch, and hence 68 fast-path rules in the virtual switch. Packets transmitted on the 71 be received on the representor netdevice. (That is, there is a virtual pipe [all …]

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