| /kernel/linux/linux-5.10/drivers/char/tpm/ |
| D | tpm2-space.c | 31 static void tpm2_flush_sessions(struct tpm_chip *chip, struct tpm_space *space) in tpm2_flush_sessions() argument
35 for (i = 0; i < ARRAY_SIZE(space->session_tbl); i++) { in tpm2_flush_sessions()
36 if (space->session_tbl[i]) in tpm2_flush_sessions()
37 tpm2_flush_context(chip, space->session_tbl[i]); in tpm2_flush_sessions()
41 int tpm2_init_space(struct tpm_space *space, unsigned int buf_size) in tpm2_init_space() argument
43 space->context_buf = kzalloc(buf_size, GFP_KERNEL); in tpm2_init_space()
44 if (!space->context_buf) in tpm2_init_space()
47 space->session_buf = kzalloc(buf_size, GFP_KERNEL); in tpm2_init_space()
48 if (space->session_buf == NULL) { in tpm2_init_space()
49 kfree(space->context_buf); in tpm2_init_space()
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| /kernel/linux/linux-5.10/fs/btrfs/tests/ |
| D | free-space-tests.c | 10 #include "../free-space-cache.h"
17 * entry and remove space from either end and the middle, and make sure we can
18 * remove space that covers adjacent extent entries.
40 test_err("full remove left some lingering space"); in test_extents()
70 test_err("still have space at the front"); in test_extents()
75 test_err("still have space in the middle"); in test_extents()
80 test_err("still have space at the end"); in test_extents()
110 test_err("left some space in bitmap"); in test_bitmaps()
136 test_err("couldn't add space that straddles two bitmaps %d", in test_bitmaps()
143 test_err("couldn't remove overlapping space %d", ret); in test_bitmaps()
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| /kernel/linux/linux-5.10/arch/s390/kvm/ |
| D | gaccess.h | 109 * Copies a simple value from kernel space to a guest vcpu's lowcore.
132 * write_guest_lc - copy data from kernel space to guest vcpu's lowcore
135 * @data: source address in kernel space
138 * Copy data from kernel space to guest vcpu's lowcore. The entire range must
158 * read_guest_lc - copy data from guest vcpu's lowcore to kernel space
161 * @data: destination address in kernel space
164 * Copy data from guest vcpu's lowcore to kernel space. The entire range must
201 * write_guest - copy data from kernel space to guest space
205 * @data: source address in kernel space
208 * Copy @len bytes from @data (kernel space) to @ga (guest address).
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| /kernel/liteos_a/kernel/base/vm/ |
| D | los_vm_dump.c | 85 INT32 OsRegionOverlapCheckUnlock(LosVmSpace *space, LosVmMapRegion *region) in OsRegionOverlapCheckUnlock() argument
92 RB_SCAN_SAFE(&space->regionRbTree, pstRbNode, pstRbNodeNext) in OsRegionOverlapCheckUnlock()
100 "flags:%#x base:%p size:%08x space:%p\n" in OsRegionOverlapCheckUnlock()
101 "flags:%#x base:%p size:%08x space:%p", in OsRegionOverlapCheckUnlock()
102 region->regionFlags, region->range.base, region->range.size, region->space, in OsRegionOverlapCheckUnlock()
103 … regionTemp->regionFlags, regionTemp->range.base, regionTemp->range.size, regionTemp->space); in OsRegionOverlapCheckUnlock()
106 RB_SCAN_SAFE_END(&space->regionRbTree, pstRbNode, pstRbNodeNext) in OsRegionOverlapCheckUnlock()
111 UINT32 OsShellCmdProcessVmUsage(LosVmSpace *space) in OsShellCmdProcessVmUsage() argument
118 if (space == NULL) { in OsShellCmdProcessVmUsage()
122 if (space == LOS_GetKVmSpace()) { in OsShellCmdProcessVmUsage()
[all …]
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| D | los_vm_map.c | 140 VM_ERR("Create mutex for vm space failed, status: %d", retval); in OsVmSpaceInitCommon()
212 LosVmSpace *space = LOS_MemAlloc(m_aucSysMem0, sizeof(LosVmSpace)); in OsCreateUserVmSpace() local
213 if (space == NULL) { in OsCreateUserVmSpace()
219 (VOID)LOS_MemFree(m_aucSysMem0, space); in OsCreateUserVmSpace()
224 retVal = OsUserVmSpaceInit(space, ttb); in OsCreateUserVmSpace()
227 (VOID)LOS_MemFree(m_aucSysMem0, space); in OsCreateUserVmSpace()
231 LOS_ListAdd(&space->archMmu.ptList, &(vmPage->node)); in OsCreateUserVmSpace()
233 return space; in OsCreateUserVmSpace()
451 OsDumpAspace(region->space); in OsInsertRegion()
480 LosVmSpace *space = NULL; in LOS_PaddrQuery() local
[all …]
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| D | los_vm_syscall.c | 133 /* user mode calls mmap to release heap physical memory without releasing heap virtual space */ in LOS_MMap()
190 VOID *OsShrinkHeap(VOID *addr, LosVmSpace *space) in OsShrinkHeap() argument
195 oldBrk = LOS_Align(space->heapNow, PAGE_SIZE); in OsShrinkHeap()
197 return (void *)(UINTPTR)space->heapNow; in OsShrinkHeap()
199 space->heapNow = (VADDR_T)(UINTPTR)addr; in OsShrinkHeap()
205 LosVmSpace *space = OsCurrProcessGet()->vmSpace; in LOS_DoBrk() local
213 return (void *)(UINTPTR)space->heapNow; in LOS_DoBrk()
216 if ((UINTPTR)addr < (UINTPTR)space->heapBase) { in LOS_DoBrk()
220 size = (UINTPTR)addr - (UINTPTR)space->heapBase; in LOS_DoBrk()
222 alignAddr = (CHAR *)(UINTPTR)(space->heapBase) + size; in LOS_DoBrk()
[all …]
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| /kernel/linux/linux-5.10/tools/perf/trace/beauty/ |
| D | usbdevfs_ioctl.sh | 10 …="^#[[:space:]]*define[[:space:]]+USBDEVFS_(\w+)(\(\w+\))?[[:space:]]+_IO[CWR]{0,2}\([[:space:]]*(…
11 egrep "$regex" ${header_dir}/usbdevice_fs.h | egrep -v 'USBDEVFS_\w+32[[:space:]]' | \
17 regex="^#[[:space:]]*define[[:space:]]+USBDEVFS_(\w+)[[:space:]]+_IO[WR]{0,2}\([[:space:]]*'U'[[:sp…
18 egrep $regex ${header_dir}/usbdevice_fs.h | egrep 'USBDEVFS_\w+32[[:space:]]' | \
|
| D | vhost_virtio_ioctl.sh | 7 regex='^#[[:space:]]*define[[:space:]]+VHOST_(\w+)[[:space:]]+_IOW?\([[:space:]]*VHOST_VIRTIO[[:spa…
14 regex='^#[[:space:]]*define[[:space:]]+VHOST_(\w+)[[:space:]]+_IOW?R\([[:space:]]*VHOST_VIRTIO[[:sp…
|
| D | mount_flags.sh | 7 regex='^[[:space:]]*#[[:space:]]*define[[:space:]]+MS_([[:alnum:]_]+)[[:space:]]+([[:digit:]]+)[[:s…
11 regex='^[[:space:]]*#[[:space:]]*define[[:space:]]+MS_([[:alnum:]_]+)[[:space:]]+\(1<<([[:digit:]]+…
|
| D | rename_flags.sh | 10 …='^[[:space:]]*#[[:space:]]*define[[:space:]]+RENAME_([[:alnum:]_]+)[[:space:]]+\(1[[:space:]]*<<[…
|
| /kernel/linux/linux-5.10/fs/ubifs/ |
| D | budget.c | 13 * space management.
15 * Factors such as compression, wasted space at the ends of LEBs, space in other
17 * impossible to accurately predict the amount of space needed. Consequently
26 * When pessimistic budget calculations say that there is no enough space,
62 * This function runs garbage collector to make some more free space. Returns
70 /* Make some free space by garbage-collecting dirty space */ in run_gc()
103 * make_free_space - make more free space on the file-system.
107 * is supposedly no free space. But in most cases there is some free space:
109 * needed, so shrinking the liability is one way to make free space - the
110 * cached data will take less space then it was budgeted for;
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| /kernel/linux/linux-5.10/tools/perf/trace/beauty/tracepoints/ |
| D | x86_msr.sh | 17 regex='^[[:space:]]*#[[:space:]]*define[[:space:]]+MSR_([[:alnum:]][[:alnum:]_]+)[[:space:]]+(0x000…
24 regex='^[[:space:]]*#[[:space:]]*define[[:space:]]+MSR_([[:alnum:]][[:alnum:]_]+)[[:space:]]+(0xc00…
33 regex='^[[:space:]]*#[[:space:]]*define[[:space:]]+MSR_([[:alnum:]][[:alnum:]_]+)[[:space:]]+(0xc00…
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| /kernel/linux/linux-5.10/arch/arm/mach-mv78xx0/ |
| D | mv78xx0.h | 19 * c0000000 PCIe Memory space
20 * f0800000 PCIe #0 I/O space
21 * f0900000 PCIe #1 I/O space
22 * f0a00000 PCIe #2 I/O space
23 * f0b00000 PCIe #3 I/O space
24 * f0c00000 PCIe #4 I/O space
25 * f0d00000 PCIe #5 I/O space
26 * f0e00000 PCIe #6 I/O space
27 * f0f00000 PCIe #7 I/O space
32 * fee00000 f0800000 64K PCIe #0 I/O space
[all …]
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| /kernel/linux/linux-5.10/Documentation/x86/x86_64/ |
| D | 5level-paging.rst | 10 space and 64 TiB of physical address space. We are already bumping into
17 It bumps the limits to 128 PiB of virtual address space and 4 PiB of
18 physical address space. This "ought to be enough for anybody" ©.
34 User-space and large virtual address space
36 On x86, 5-level paging enables 56-bit userspace virtual address space.
37 Not all user space is ready to handle wide addresses. It's known that
42 To mitigate this, we are not going to allocate virtual address space
45 But userspace can ask for allocation from full address space by
50 occupied, we look for unmapped area in *full* address space, rather than
58 to allocation from 47-bit address space.
[all …]
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| /kernel/linux/linux-5.10/include/linux/ |
| D | rio_drv.h | 46 * rio_local_read_config_32 - Read 32 bits from local configuration space
48 * @offset: Offset into local configuration space
52 * device's configuration space.
61 * rio_local_write_config_32 - Write 32 bits to local configuration space
63 * @offset: Offset into local configuration space
67 * device's configuration space.
76 * rio_local_read_config_16 - Read 16 bits from local configuration space
78 * @offset: Offset into local configuration space
82 * device's configuration space.
91 * rio_local_write_config_16 - Write 16 bits to local configuration space
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| /kernel/linux/linux-5.10/lib/ |
| D | iomap_copy.c | 10 * __iowrite32_copy - copy data to MMIO space, in 32-bit units
11 * @to: destination, in MMIO space (must be 32-bit aligned)
15 * Copy data from kernel space to MMIO space, in units of 32 bits at a
33 * __ioread32_copy - copy data from MMIO space, in 32-bit units
35 * @from: source, in MMIO space (must be 32-bit aligned)
38 * Copy data from MMIO space to kernel space, in units of 32 bits at a
54 * __iowrite64_copy - copy data to MMIO space, in 64-bit or 32-bit units
55 * @to: destination, in MMIO space (must be 64-bit aligned)
59 * Copy data from kernel space to MMIO space, in units of 32 or 64 bits at a
|
| /kernel/linux/linux-5.10/fs/btrfs/ |
| D | space-info.c | 5 #include "space-info.h"
8 #include "free-space-cache.h"
14 * HOW DOES SPACE RESERVATION WORK
22 * 1) space_info. This is the ultimate arbiter of how much space we can use.
26 * determining if there is space to make an allocation. There is a space_info
32 * much space is accounted for in space_info->bytes_may_use.
62 * enough space
73 * Flushes various things attempting to free up space.
76 * This is called by anything that either subtracts space from
80 * completed. If it can the space is added to space_info->bytes_may_use and
[all …]
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| D | delalloc-space.c | 4 #include "delalloc-space.h"
7 #include "space-info.h"
58 * will just focus on how it is used for delalloc space.
64 * outstanding DELALLOC space we have in this inode. We limit the maximum
78 * necessary, either by attempting to reserve more space, or freeing up excess
79 * space.
144 /* Use new btrfs_qgroup_reserve_data to reserve precious data space. */ in btrfs_check_data_free_space()
157 * This one will *NOT* use accurate qgroup reserved space API, just for case
158 * which we can't sleep and is sure it won't affect qgroup reserved space.
177 * space framework.
[all …]
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| /kernel/linux/linux-5.10/Documentation/powerpc/ |
| D | pci_iov_resource_on_powernv.rst | 57 - For DMA we then provide an entire address space for each PE that can
63 - For MSIs, we have two windows in the address space (one at the top of
64 the 32-bit space and one much higher) which, via a combination of the
75 from the CPU address space to the PCI address space. There is one M32
78 the CPU address space to the PCIe bus and must be naturally aligned
89 portion of address space from the CPU to PCIe
93 ignores that however and will forward in that space if we try).
96 maps each segment to a PE#. That allows portions of the MMIO space
102 onto a segment alignment/granularity so that the space behind a bridge
127 for large BARs in 64-bit space:
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| /kernel/linux/linux-5.10/Documentation/PCI/ |
| D | acpi-info.rst | 12 method for accessing PCI config space below it, the address space windows
33 reserving address space. The static tables are for things the OS needs to
45 describe all the address space they consume. This includes all the windows
53 space, since it is consumed by the host bridge.
58 spec defines Consumer/Producer only for the Extended Address Space
60 Address Space descriptors. Consequently, OSes have to assume all
63 Prior to the addition of Extended Address Space descriptors, the failure of
66 bridge registers (including ECAM space) in PNP0C02 catch-all devices [6].
67 With the exception of ECAM, the bridge register space is device-specific
71 New architectures should be able to use "Consumer" Extended Address Space
[all …]
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| /kernel/linux/linux-5.10/sound/core/ |
| D | memory.c | 14 * copy_to_user_fromio - copy data from mmio-space to user-space
15 * @dst: the destination pointer on user-space
19 * Copies the data from mmio-space to user-space.
46 * copy_from_user_toio - copy data from user-space to mmio-space
47 * @dst: the destination pointer on mmio-space
48 * @src: the source pointer on user-space
51 * Copies the data from user-space to mmio-space.
|
| /kernel/linux/linux-5.10/Documentation/vm/ |
| D | active_mm.rst | 27 difference is that an anonymous address space doesn't care about the
29 anonymous address space we just leave the previous address space
32 The obvious use for a "anonymous address space" is any thread that
35 some amount of time they are not going to be interested in user space,
40 - "tsk->mm" points to the "real address space". For an anonymous process,
42 really doesn't _have_ a real address space at all.
44 - however, we obviously need to keep track of which address space we
46 which shows what the currently active address space is.
48 The rule is that for a process with a real address space (ie tsk->mm is
54 anonymous process gets scheduled away, the borrowed address space is
[all …]
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| /kernel/liteos_a/fs/proc/os_adapt/ |
| D | vmm_proc.c | 46 LosVmSpace *space = NULL; in OsVmDumpSeqSpaces() local
58 LOS_DL_LIST_FOR_EACH_ENTRY(space, aspaceList, LosVmSpace, node) { in OsVmDumpSeqSpaces()
59 (VOID)LOS_MuxAcquire(&space->regionMux); in OsVmDumpSeqSpaces()
60 spacePages = OsCountAspacePages(space); in OsVmDumpSeqSpaces()
61 pcb = OsGetPIDByAspace(space); in OsVmDumpSeqSpaces()
63 (VOID)LOS_MuxRelease(&space->regionMux); in OsVmDumpSeqSpaces()
69 … pcb->processID, space, pcb->processName, space->base, space->size, spacePages); in OsVmDumpSeqSpaces()
75 RB_SCAN_SAFE(&space->regionRbTree, pstRbNode, pstRbNodeNext) in OsVmDumpSeqSpaces()
77 regionPages = OsCountRegionPages(space, region, &pssPages); in OsVmDumpSeqSpaces()
86 (VOID)OsRegionOverlapCheck(space, region); in OsVmDumpSeqSpaces()
[all …]
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| /kernel/linux/linux-5.10/arch/ia64/kernel/ |
| D | acpi-ext.c | 16 * Device CSRs that do not appear in PCI config space should be described
17 * via ACPI. This would normally be done with Address Space Descriptors
20 * describe the location and size of CSR space.
62 struct csr_space *space = data; in find_csr_space() local
71 space->base = addr.address.minimum; in find_csr_space()
72 space->length = addr.address.address_length; in find_csr_space()
80 struct csr_space space = { 0, 0 }; in hp_crs_locate() local
82 acpi_walk_resources(obj, METHOD_NAME__CRS, find_csr_space, &space); in hp_crs_locate()
83 if (!space.length) in hp_crs_locate()
86 *base = space.base; in hp_crs_locate()
[all …]
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| /kernel/linux/linux-5.10/Documentation/virt/kvm/devices/ |
| D | vm.rst | 63 Allows user space to retrieve machine and kvm specific cpu related information::
75 :Returns: -EFAULT if the given address is not accessible from kernel space;
82 Allows user space to retrieve or request to change cpu related information for a vcpu::
100 -EFAULT if the given address is not accessible from kernel space;
109 Allows user space to retrieve available cpu features. A feature is available if
120 :Returns: -EFAULT if the given address is not accessible from kernel space;
126 Allows user space to retrieve or change enabled cpu features for all VCPUs of a
133 :Returns: -EFAULT if the given address is not accessible from kernel space;
143 Allows user space to retrieve available cpu subfunctions without any filtering
176 :Returns: -EFAULT if the given address is not accessible from kernel space;
[all …]
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