Some backends support hashes but allow them to be blank. In other words, we
can't expect them to be reliably non-blank, and we shouldn't treat a blank hash
as an error.
Before this change, the bisync integration tests errored if a backend said it
supported hashes but in fact sometimes lacked them. After this change, such
errors are ignored.
The original problem was introduced here
bcdfad3c83 build: update logging statements to make json log work #6038
And this was fixed non-optimally here
f1a84d171e build: fix build after update
It fails to build on plan9, which is part of the rclone CI matrix, and
the PR fixing it upstream doesn't seem to be getting traction.
Stub it on our side, we can still remove this once it gets merged.
This changes log statements from log to fs package, which is required for --use-json-log
to properly make log output in JSON format. The recently added custom linting rule,
handled by ruleguard via gocritic via golangci-lint, warns about these and suggests
the alternative. Fixing was therefore basically running "golangci-lint run --fix",
although some manual fixup of mainly imports are necessary following that.
Before this change all exports were exported as root and the --uid and
--gid flags of the VFS were ignored.
This fixes the issue by exporting the UID and GID correctly which
default to the current user and group unless set explicitly.
This problem was caused by the defaults not being set for the options
after the conversion to the new config system in
28ba4b832d serve nfs: convert options to new style
This makes the nfs serve options globally available so nfsmount can
use them directly.
Fixes#8029
Before this change, bisync proactively converted modtime precision when greater
than what the destination backend supported.
This dates back to a time before bisync considered the modifyWindow for same-side
comparisons. Back then, it was problematic to save a listing with 12:54:49.7 for
a backend that can't handle that precision, as on the next run the backend would
report the time as 12:54:50 and bisync would think the file had changed. So the
truncation was a workaround to anticipate this and proactively record the time
with the precision we expect to receive next time.
However, this caused problems for backends (such as dropbox) that round instead
of truncating as bisync expected.
After this change, bisync preserves the original precision in the listing
(without conversion), even when greater than what the backend supports, to avoid
rounding error. On the next run, bisync will compare it to the rounded time
reported by the backend, and if it's within the modifyWindow, it will treat them
as equivalent.
The code currently hardcodes `text/srt` for all subtitles.
`text/srt` is wrong, it seems `application/x-subrip` is the official
extension coming from the official mime database, at least (and still
works with the Samsung TV I tested with). Also add that one to `fs/
mimetype.go`.
Compared to previous iterations of this PR, I dropped tests ensuring
certain mime types are present - as detection still seems to be fairly
platform-specific.
.idx and .sub subtitle files only work if both are present, but the code
was overwriting the first-inserted element to subtitlesByName, as it was
keyed by the basename without extension.
Make subtitlesByName point to a slice of nodes instead.
Apparently it seems pretty common for subtitles to be put in a
subdirectory called "Subs", rather than in the same directory as the
media file itself.
This covers that usecase, by checking the returned listing for a
directory called "Subs" to exist.
If it does, its child nodes are added to the list before they're being
passed to mediaWithResources, allowing these subtitles to be discovered
automatically.
This adds an additional flag --unix-socket, and if supplied connects
to the unix socket given.
rclone rcd --rc-addr unix:///tmp/my.socket
rclone rc --unix-socket /tmp/my.socket core/stats
This adds a new optional parameter to the backend, to specify a path
to a unix domain socket to connect to, instead the specified URL.
The URL itself is still used for the rest of the HTTP client, allowing
host and subpath to stay intact.
This allows using rclone with the webdav backend to connect to a WebDAV
server provided at a Unix Domain socket:
rclone serve webdav --addr unix:///tmp/my.socket remote:path
rclone --webdav-unix-socket /tmp/my.socket --webdav-url http://localhost lsf :webdav: