Does Linux have system calls to access all the features of the file systems it supports?
Linux supports many file systems (for example: ext3, NTFS, FAT32, etc.).
The following diagram shows how Linux allows a process to access files:
So assume that a process called the read()
system call to read a file, what will happen is that the VFS layer will be accessed, and the VFS layer will decide which file system driver to access based on the file system of the partition that the file to be read resides on.
Linux provides many system calls to access files (for example: read()
, write()
, rename()
, etc.).
Now read()
and write()
and rename()
work on all the file systems that Linux supports.
But there are specific features that exist only on some file systems while not existing on others. For example: on a NTFS file system, you can set the Archive bit for a file, while this can't be done on an ext3 file system.
Now my question is, does Linux have system calls to access all the features of the file systems it supports? for example: does Linux have a system call to set the Archive bit for a file on a NTFS file system?
linux filesystems
New contributor
add a comment |
Linux supports many file systems (for example: ext3, NTFS, FAT32, etc.).
The following diagram shows how Linux allows a process to access files:
So assume that a process called the read()
system call to read a file, what will happen is that the VFS layer will be accessed, and the VFS layer will decide which file system driver to access based on the file system of the partition that the file to be read resides on.
Linux provides many system calls to access files (for example: read()
, write()
, rename()
, etc.).
Now read()
and write()
and rename()
work on all the file systems that Linux supports.
But there are specific features that exist only on some file systems while not existing on others. For example: on a NTFS file system, you can set the Archive bit for a file, while this can't be done on an ext3 file system.
Now my question is, does Linux have system calls to access all the features of the file systems it supports? for example: does Linux have a system call to set the Archive bit for a file on a NTFS file system?
linux filesystems
New contributor
add a comment |
Linux supports many file systems (for example: ext3, NTFS, FAT32, etc.).
The following diagram shows how Linux allows a process to access files:
So assume that a process called the read()
system call to read a file, what will happen is that the VFS layer will be accessed, and the VFS layer will decide which file system driver to access based on the file system of the partition that the file to be read resides on.
Linux provides many system calls to access files (for example: read()
, write()
, rename()
, etc.).
Now read()
and write()
and rename()
work on all the file systems that Linux supports.
But there are specific features that exist only on some file systems while not existing on others. For example: on a NTFS file system, you can set the Archive bit for a file, while this can't be done on an ext3 file system.
Now my question is, does Linux have system calls to access all the features of the file systems it supports? for example: does Linux have a system call to set the Archive bit for a file on a NTFS file system?
linux filesystems
New contributor
Linux supports many file systems (for example: ext3, NTFS, FAT32, etc.).
The following diagram shows how Linux allows a process to access files:
So assume that a process called the read()
system call to read a file, what will happen is that the VFS layer will be accessed, and the VFS layer will decide which file system driver to access based on the file system of the partition that the file to be read resides on.
Linux provides many system calls to access files (for example: read()
, write()
, rename()
, etc.).
Now read()
and write()
and rename()
work on all the file systems that Linux supports.
But there are specific features that exist only on some file systems while not existing on others. For example: on a NTFS file system, you can set the Archive bit for a file, while this can't be done on an ext3 file system.
Now my question is, does Linux have system calls to access all the features of the file systems it supports? for example: does Linux have a system call to set the Archive bit for a file on a NTFS file system?
linux filesystems
linux filesystems
New contributor
New contributor
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asked 9 hours ago
user341642user341642
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does Linux have a system call to set the Archive bit for a file on a NTFS file system?
For this particular case, the ntfs-3g
driver exports the file attributes via extended attributes, see Can I set the "Archive" bit on a file on NTFS on Linux?
The (V)FAT file system has the similar file attributes, but it uses an ioctl()
function to access them, see ioctl_fat(2)
. (ioctl()
is a sort of a multipurpose system call, used for all kinds of device specific stuff that don't warrant a real system call.)
Now my question is, does Linux have system calls to access all the features of the file systems it supports?
It's hard to answer for sure, but there has been at least one example of the opposite. ext4 internally supports a "birth time" timestamp for files (like, a real creation time, unlike ctime
that changes on inode modification). But even though ext4 is the "standard" filesystem, for a long time, there was no system call to access the birth time.
It should be supported now, with the statx()
system call added in Linux 4.11, in April 2017.
Related:
- Birth is empty on ext4
- A number of articles on lwn.net about statx, including e.g. statx() v3
2
ntfs != fat. At least the kernel version of ntfs does NOT have any way to set or get the archive flag, though its headers define it. Only the fuse based ntfs-3g seems to support it (via extended attributes, not special ioctls).
– Uncle Billy
8 hours ago
This isn’t directly related to the question, but as a complement to your mention ofstatx
, it’s now supported in the C library and in the latest version of coreutils which was released a few days ago.
– Stephen Kitt
8 hours ago
@UncleBilly, d'oh, apparently I can't read, but just automatically thought of (v)fat. Thanks for noticing that, I'll see if I can find a more appropriate reference.
– ilkkachu
8 hours ago
add a comment |
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does Linux have a system call to set the Archive bit for a file on a NTFS file system?
For this particular case, the ntfs-3g
driver exports the file attributes via extended attributes, see Can I set the "Archive" bit on a file on NTFS on Linux?
The (V)FAT file system has the similar file attributes, but it uses an ioctl()
function to access them, see ioctl_fat(2)
. (ioctl()
is a sort of a multipurpose system call, used for all kinds of device specific stuff that don't warrant a real system call.)
Now my question is, does Linux have system calls to access all the features of the file systems it supports?
It's hard to answer for sure, but there has been at least one example of the opposite. ext4 internally supports a "birth time" timestamp for files (like, a real creation time, unlike ctime
that changes on inode modification). But even though ext4 is the "standard" filesystem, for a long time, there was no system call to access the birth time.
It should be supported now, with the statx()
system call added in Linux 4.11, in April 2017.
Related:
- Birth is empty on ext4
- A number of articles on lwn.net about statx, including e.g. statx() v3
2
ntfs != fat. At least the kernel version of ntfs does NOT have any way to set or get the archive flag, though its headers define it. Only the fuse based ntfs-3g seems to support it (via extended attributes, not special ioctls).
– Uncle Billy
8 hours ago
This isn’t directly related to the question, but as a complement to your mention ofstatx
, it’s now supported in the C library and in the latest version of coreutils which was released a few days ago.
– Stephen Kitt
8 hours ago
@UncleBilly, d'oh, apparently I can't read, but just automatically thought of (v)fat. Thanks for noticing that, I'll see if I can find a more appropriate reference.
– ilkkachu
8 hours ago
add a comment |
does Linux have a system call to set the Archive bit for a file on a NTFS file system?
For this particular case, the ntfs-3g
driver exports the file attributes via extended attributes, see Can I set the "Archive" bit on a file on NTFS on Linux?
The (V)FAT file system has the similar file attributes, but it uses an ioctl()
function to access them, see ioctl_fat(2)
. (ioctl()
is a sort of a multipurpose system call, used for all kinds of device specific stuff that don't warrant a real system call.)
Now my question is, does Linux have system calls to access all the features of the file systems it supports?
It's hard to answer for sure, but there has been at least one example of the opposite. ext4 internally supports a "birth time" timestamp for files (like, a real creation time, unlike ctime
that changes on inode modification). But even though ext4 is the "standard" filesystem, for a long time, there was no system call to access the birth time.
It should be supported now, with the statx()
system call added in Linux 4.11, in April 2017.
Related:
- Birth is empty on ext4
- A number of articles on lwn.net about statx, including e.g. statx() v3
2
ntfs != fat. At least the kernel version of ntfs does NOT have any way to set or get the archive flag, though its headers define it. Only the fuse based ntfs-3g seems to support it (via extended attributes, not special ioctls).
– Uncle Billy
8 hours ago
This isn’t directly related to the question, but as a complement to your mention ofstatx
, it’s now supported in the C library and in the latest version of coreutils which was released a few days ago.
– Stephen Kitt
8 hours ago
@UncleBilly, d'oh, apparently I can't read, but just automatically thought of (v)fat. Thanks for noticing that, I'll see if I can find a more appropriate reference.
– ilkkachu
8 hours ago
add a comment |
does Linux have a system call to set the Archive bit for a file on a NTFS file system?
For this particular case, the ntfs-3g
driver exports the file attributes via extended attributes, see Can I set the "Archive" bit on a file on NTFS on Linux?
The (V)FAT file system has the similar file attributes, but it uses an ioctl()
function to access them, see ioctl_fat(2)
. (ioctl()
is a sort of a multipurpose system call, used for all kinds of device specific stuff that don't warrant a real system call.)
Now my question is, does Linux have system calls to access all the features of the file systems it supports?
It's hard to answer for sure, but there has been at least one example of the opposite. ext4 internally supports a "birth time" timestamp for files (like, a real creation time, unlike ctime
that changes on inode modification). But even though ext4 is the "standard" filesystem, for a long time, there was no system call to access the birth time.
It should be supported now, with the statx()
system call added in Linux 4.11, in April 2017.
Related:
- Birth is empty on ext4
- A number of articles on lwn.net about statx, including e.g. statx() v3
does Linux have a system call to set the Archive bit for a file on a NTFS file system?
For this particular case, the ntfs-3g
driver exports the file attributes via extended attributes, see Can I set the "Archive" bit on a file on NTFS on Linux?
The (V)FAT file system has the similar file attributes, but it uses an ioctl()
function to access them, see ioctl_fat(2)
. (ioctl()
is a sort of a multipurpose system call, used for all kinds of device specific stuff that don't warrant a real system call.)
Now my question is, does Linux have system calls to access all the features of the file systems it supports?
It's hard to answer for sure, but there has been at least one example of the opposite. ext4 internally supports a "birth time" timestamp for files (like, a real creation time, unlike ctime
that changes on inode modification). But even though ext4 is the "standard" filesystem, for a long time, there was no system call to access the birth time.
It should be supported now, with the statx()
system call added in Linux 4.11, in April 2017.
Related:
- Birth is empty on ext4
- A number of articles on lwn.net about statx, including e.g. statx() v3
edited 8 hours ago
answered 8 hours ago
ilkkachuilkkachu
61.2k1099175
61.2k1099175
2
ntfs != fat. At least the kernel version of ntfs does NOT have any way to set or get the archive flag, though its headers define it. Only the fuse based ntfs-3g seems to support it (via extended attributes, not special ioctls).
– Uncle Billy
8 hours ago
This isn’t directly related to the question, but as a complement to your mention ofstatx
, it’s now supported in the C library and in the latest version of coreutils which was released a few days ago.
– Stephen Kitt
8 hours ago
@UncleBilly, d'oh, apparently I can't read, but just automatically thought of (v)fat. Thanks for noticing that, I'll see if I can find a more appropriate reference.
– ilkkachu
8 hours ago
add a comment |
2
ntfs != fat. At least the kernel version of ntfs does NOT have any way to set or get the archive flag, though its headers define it. Only the fuse based ntfs-3g seems to support it (via extended attributes, not special ioctls).
– Uncle Billy
8 hours ago
This isn’t directly related to the question, but as a complement to your mention ofstatx
, it’s now supported in the C library and in the latest version of coreutils which was released a few days ago.
– Stephen Kitt
8 hours ago
@UncleBilly, d'oh, apparently I can't read, but just automatically thought of (v)fat. Thanks for noticing that, I'll see if I can find a more appropriate reference.
– ilkkachu
8 hours ago
2
2
ntfs != fat. At least the kernel version of ntfs does NOT have any way to set or get the archive flag, though its headers define it. Only the fuse based ntfs-3g seems to support it (via extended attributes, not special ioctls).
– Uncle Billy
8 hours ago
ntfs != fat. At least the kernel version of ntfs does NOT have any way to set or get the archive flag, though its headers define it. Only the fuse based ntfs-3g seems to support it (via extended attributes, not special ioctls).
– Uncle Billy
8 hours ago
This isn’t directly related to the question, but as a complement to your mention of
statx
, it’s now supported in the C library and in the latest version of coreutils which was released a few days ago.– Stephen Kitt
8 hours ago
This isn’t directly related to the question, but as a complement to your mention of
statx
, it’s now supported in the C library and in the latest version of coreutils which was released a few days ago.– Stephen Kitt
8 hours ago
@UncleBilly, d'oh, apparently I can't read, but just automatically thought of (v)fat. Thanks for noticing that, I'll see if I can find a more appropriate reference.
– ilkkachu
8 hours ago
@UncleBilly, d'oh, apparently I can't read, but just automatically thought of (v)fat. Thanks for noticing that, I'll see if I can find a more appropriate reference.
– ilkkachu
8 hours ago
add a comment |
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