| /third_party/ltp/testscripts/ |
| D | autofs1.sh | 221 echo "disk -fstype=auto,rw,sync :$disk_partition " > /etc/auto.disk
228 mkdir /AUTOFS/DISK/disk/test
229 cp /etc/auto.master /etc/auto.media /AUTOFS/DISK/disk/test
235 if [ -e /AUTOFS/DISK/disk/test ]; then
236 cd /AUTOFS/DISK/disk/test
237 umount /AUTOFS/DISK/disk/ >/dev/null 2>&1
241 rm -rf /etc/auto.master /etc/auto.media /etc/auto.disk /AUTOFS
246 umount /AUTOFS/DISK/disk/
250 rm -rf /etc/auto.master /etc/auto.media /etc/auto.disk /AUTOFS
260 ls -l /AUTOFS/DISK/disk
[all …]
|
| D | autofs4.sh | 210 echo "disk -fstype=ext2 :$disk_partition " > /etc/auto.disk
215 mkdir /AUTOFS/DISK/disk/test
216 cp /etc/auto.master /etc/auto.media /AUTOFS/DISK/disk/test
221 cd /AUTOFS/DISK/disk/test
222 umount /AUTOFS/DISK/disk/ >/dev/null 2>&1
226 rm -rf /etc/auto.master /etc/auto.media /etc/auto.disk /AUTOFS
232 umount /AUTOFS/DISK/disk/ >/dev/null 2>&1
236 rm -rf /etc/auto.master /etc/auto.media /etc/auto.disk /AUTOFS
246 ls -l /AUTOFS/DISK/disk
257 rm -rf /etc/auto.master /etc/auto.media /etc/auto.disk /AUTOFS
|
| /third_party/NuttX/fs/driver/ |
| D | fs_openblockdriver.c | 67 los_disk *disk = NULL; in open_blockdriver() local
102 disk = get_disk(part->disk_id); in open_blockdriver()
103 if (disk == NULL) in open_blockdriver()
109 if (pthread_mutex_lock(&disk->disk_mutex) != ENOERR) in open_blockdriver()
114 if (disk->disk_status == STAT_INUSED) in open_blockdriver()
123 (void)pthread_mutex_unlock(&disk->disk_mutex); in open_blockdriver()
129 if (pthread_mutex_unlock(&disk->disk_mutex) != ENOERR) in open_blockdriver()
|
| D | fs_closeblockdriver.c | 56 los_disk *disk = NULL; in close_blockdriver() local
88 disk = get_disk(part->disk_id); in close_blockdriver()
89 if (disk == NULL) in close_blockdriver()
95 if (pthread_mutex_lock(&disk->disk_mutex) != ENOERR) in close_blockdriver()
101 if (disk->disk_status == STAT_INUSED) in close_blockdriver()
114 if (pthread_mutex_unlock(&disk->disk_mutex) != ENOERR) in close_blockdriver()
|
| /third_party/f2fs-tools/fsck/ |
| D | quotaio_tree.h | 46 void (*mem2disk_dqblk)(void *disk, struct dquot *dquot);
48 void (*disk2mem_dqblk)(struct dquot *dquot, void *disk);
50 int (*is_id)(void *disk, struct dquot *dquot);
66 int qtree_entry_unused(struct qtree_mem_dqinfo *info, char *disk);
|
| /third_party/FatFs/ |
| D | README | 11 diskio.h Common include file for FatFs and disk I/O module.
12 diskio.c An example of glue function to attach existing disk I/O module to FatFs.
17 Low level disk I/O module is not included in this archive because the FatFs
19 storage device. You need to provide a low level disk I/O module written to
|
| /third_party/FatFs/source/ |
| D | 00readme.txt | 11 diskio.h Common include file for FatFs and disk I/O module.
12 diskio.c An example of glue function to attach existing disk I/O module to FatFs.
17 Low level disk I/O module is not included in this archive because the FatFs
19 storage device. You need to provide a low level disk I/O module written to
|
| /third_party/NuttX/drivers/bch/ |
| D | bchdev_driver.c | 341 los_disk *disk = bch->disk; in bch_ioctl() local
342 if (disk == NULL) in bch_ioctl()
348 if (pthread_mutex_lock(&disk->disk_mutex) != ENOERR) in bch_ioctl()
353 if (disk->disk_status == STAT_INUSED) in bch_ioctl()
362 if (pthread_mutex_unlock(&disk->disk_mutex) != ENOERR) in bch_ioctl()
|
| D | bchlib_cache.c | 61 ret = los_disk_write(bch->disk->disk_id, (const void *)bch->buffer, bch->sector, 1); in bchlib_flushsector()
101 ret = los_disk_read(bch->disk->disk_id, (void *)bch->buffer, sector, 1, TRUE); in bchlib_readsector()
|
| /third_party/gptfdisk/ |
| D | NEWS | 16 to use a too-small disk image); program now aborts if this happens.
88 - Fixed bug that could cause a crash if a badly-formatted MBR disk was
173 more information on what data structures are damaged when a damaged disk
198 when creating a new partition table (that is, partitioning a blank disk or
204 - On Linux, the p/-p/--print command now shows the disk's model name, as
208 when accessing disk image files, even on Linux.
223 else on the disk. The main reason I know of to do this is if the disk is
273 this feature when gdisk detects that it can't write to the disk under OS
324 if a subsequent command causes changes, they'll be written to disk.
326 would wipe the disk but not create a partition table; to create a blank
[all …]
|
| D | README.Windows | 6 Most versions of Windows cannot boot from a GPT disk on BIOS-based
12 GPT fdisk on a BIOS-mode boot disk, or perhaps even on a data disk, you may
55 won't be able to edit hard disk partition tables, although you will be able
56 to edit raw disk image files.
58 The program requires a hard disk identifier as an option. You can specify
65 on the first disk. The second way to specify a disk device is via a
71 table on the first physical disk. Change the number at the end of the
72 device name to change the disk edited.
74 If you pass the "-l" option to gdisk64.exe in addition to the disk
78 the disk when used in this way.
[all …]
|
| D | gpt.h | 85 int LoadHeader(struct GPTHeader *header, DiskIO & disk, uint64_t sector, int *crcOk);
86 int LoadPartitionTable(const struct GPTHeader & header, DiskIO & disk, uint64_t sector = 0);
88 int SaveHeader(struct GPTHeader *header, DiskIO & disk, uint64_t sector);
89 int SavePartitionTable(DiskIO & disk, uint64_t sector);
|
| D | README.md | 7 This package includes the source code for four related disk partitioning
70 disk
78 access up to three GPT partitions on the disk (gdisk and sgdisk only)
90 use in scripts to help automate tasks such as disk cloning or preparing
101 Typically, the symptom is a disk that appears to hold no partitions;
108 * Old GPT data -- If a disk is used as a GPT disk and then re-used as an
109 MBR disk, the GPT data may be incompletely erased. This happens if the
110 disk is repartitioned with fdisk or the Microsoft Windows installer, for
118 that's too large, typically ending after the last sector of the disk.
130 * Leftover RAID data -- If a disk is used in a RAID array and then re-used
[all …]
|
| D | gpt.cc | 1045 int GPTData::LoadHeader(struct GPTHeader *header, DiskIO & disk, uint64_t sector, int *crcOk) { in LoadHeader() argument
1049 disk.Seek(sector); in LoadHeader()
1050 if (disk.Read(&tempHeader, 512) != 512) { in LoadHeader()
1090 int GPTData::LoadPartitionTable(const struct GPTHeader & header, DiskIO & disk, uint64_t sector) { in LoadPartitionTable() argument
1097 } else if (disk.OpenForRead()) { in LoadPartitionTable()
1099 retval = disk.Seek(header.partitionEntriesLBA); in LoadPartitionTable()
1101 retval = disk.Seek(sector); in LoadPartitionTable()
1107 if (disk.Read(partitions, sizeOfParts) != (int) sizeOfParts) { in LoadPartitionTable()
1366 int GPTData::SaveHeader(struct GPTHeader *header, DiskIO & disk, uint64_t sector) { in SaveHeader() argument
1372 if (disk.Seek(sector)) { in SaveHeader()
[all …]
|
| /third_party/e2fsprogs/ |
| D | 0005-resize2fs-resize2fs-disk-hardlinks-will-be-error.patch | 4 Subject: [PATCH] resize2fs: resize2fs disk hardlinks will be error
6 Resize2fs disk hardlinks which mounting after the same name as tmpfs
11 mistakenly considers that disk is mounted to /root/tmp. As a result
15 dev_name="/dev/sdc" (ps: a disk in you self)
|
| D | 0008-e2fsck-add-env-param-E2FS_UNRELIABLE_IO-to-fi.patch | 7 Func write_primary_superblock() has two way to wirte disk. One is 1k block,
14 necessary to take 1k block way on writing disk.
|
| /third_party/ltp/testcases/kernel/mce-test/stress/tools/fs-metadata/ |
| D | README | 11 Note, test will caculate approximate disk space firstly based on the test
15 your disk space soon.
18 you can recover it easily by formatting disk after test gets finished!
|
| /third_party/node/deps/npm/node_modules/libnpmconfig/node_modules/locate-path/ |
| D | readme.md | 3 > Get the first path that exists on disk of multiple paths
15 Here we find the first file that exists on disk, in array order.
22 'rainbow.png', // Only this one actually exists on disk
|
| /third_party/node/deps/npm/node_modules/yargs/node_modules/locate-path/ |
| D | readme.md | 3 > Get the first path that exists on disk of multiple paths
15 Here we find the first file that exists on disk, in array order.
22 'rainbow.png', // Only this one actually exists on disk
|
| /third_party/ltp/testcases/kernel/hotplug/cpu_hotplug/doc/ |
| D | hotplug01.txt | 5 writing to disk doesn't cause an issue. We create a process that writes
6 to disk, force it to run only on a specified CPU by setting its CPU
30 Start up a process that writes to disk
|
| /third_party/mesa3d/docs/relnotes/ |
| D | 18.2.3.rst | 125 - radeonsi: use build-id when available for disk cache
126 - nouveau: use build-id when available for disk cache
127 - r600: use build-id when available for disk cache
|
| /third_party/toybox/toys/pending/ |
| D | fdisk.c | 223 static void read_geometry(struct hd_geometry *disk) in read_geometry() argument
228 disk->heads = geometry.heads; in read_geometry()
229 disk->sectors = geometry.sectors; in read_geometry()
347 struct hd_geometry disk; in read_mbr() local
372 disk.heads = disk.sectors = 0; in read_mbr()
373 read_geometry(&disk); //CHS values in read_mbr()
378 g_sectors = (FLAG(S) && TT.sectors) ? TT.sectors : s ? s : disk.sectors ? disk.sectors : 63; in read_mbr()
379 g_heads = (FLAG(H) && TT.heads) ? TT.heads : h ? h : disk.heads ? disk.heads : 255; in read_mbr()
|
| /third_party/flutter/skia/third_party/externals/freetype/docs/ |
| D | INSTALL.VMS | 37 $disk:[freetype] then define the logical with
39 define freetype $disk:[freetype.include.freetype]
|
| /third_party/node/deps/npm/node_modules/yargs/node_modules/p-locate/ |
| D | readme.md | 17 Here we find the first file that exists on disk, in array order.
25 'rainbow.png', // Only this one actually exists on disk
|
| /third_party/skia/third_party/externals/freetype/docs/ |
| D | INSTALL.VMS | 37 $disk:[freetype] then define the logical with
39 define freetype $disk:[freetype.include.freetype]
|