The prompt regex for pexpect was:
```
return re.compile(
r"""(?:\r\n?|^) # beginning of line
(?:\x1b[\d[KB(m]*)* # optional colors
(?:\x1b[\?2004h) # Bracketed paste
(?:\x1b[>4;1m) # XTerm's modifyOtherKeys
(?:\x1b[>5u) # CSI u with kitty progressive enhancement
(?:\x1b=) # set application keypad mode, so the keypad keys send unique codes
(?:\[.\]\ )? # optional vi mode prompt
"""
+ (r"prompt\ %d>" % counter) # prompt with counter
+ r"""
(?:\x1b[\d\[KB(m]*)* # optional colors
""",
re.VERBOSE,
)
```
This has a terrible bug: an accidentally unescaped bracket here:
(?:\x1b[>4;1m) # XTerm's modifyOtherKeys
^
This bracket then extends throughout the entire regex, and is
accidentally terminated here:
(?:\x1b[\d\[KB(m]*)* # optional colors
^
Thus the whole regex is busted; in particular the prompt counters are
not being tested correctly.
A second issue is that these escape sequences are not emitted before the
first prompt, so correcting the regex will cause every test to fail.
Fix this by ignoring all of the escape sequences and merely look for
the "prompt %d>" portion.
THIS DELIBERATELY CAUSES TEST FAILURES.
The tests were already broken and falsely reported as passing.
These will be fixed in followup commits.
Good news is that the tests should become way more reliable after
this is fixed - hopefully no more introducing random sleep() calls.
A failing test might emit an OSC 133 prompt marking sequence, confusing
the parent terminal to think the test output contains a shell prompt. Let's
remove these.
Some terminals send the focus-in sequences ("^[I") whenever focus reporting is
enabled. We enable focus reporting whenever we are finished running a command.
If we run two commands without reading in between, the focus sequences
will show up on the terminal.
Fix this by enabling focus-reporting as late as possible.
This fixes the problem with `^[I` showing up when running "cat" in
gnome-terminal https://github.com/fish-shell/fish-shell/issues/10411.
This begs the question if we should do the same for CSI u and bracketed paste.
It's difficult to answer that; let's hope we find motivating test cases.
If we enable CSI u too late, we might misinterpret key presses, so for now
we still enable those as early as possible.
Also, since we now read immediately after enabling focus events, we can get
rid of the hack where we defer enabling them until after the first prompt.
When I start a fresh terminal, the ^[I no longer shows up.
See the changelog additions for user-visible changes.
Since we enable/disable terminal protocols whenever we pass terminal ownership,
tests can no longer run in parallel on the same terminal.
For the same reason, readline shortcuts in the gdb REPL will not work anymore.
As a remedy, use gdbserver, or lobby for CSI u support in libreadline.
Add sleep to some tests, otherwise they fall (both in CI and locally).
There are two weird failures on FreeBSD remaining, disable them for now
https://github.com/fish-shell/fish-shell/pull/10359/checks?check_run_id=23330096362
Design and implementation borrows heavily from Kakoune.
In future, we should try to implement more of the kitty progressive
enhancements.
Closes#10359
This is absolutely disgusting code, but it works out okay-ish.
The problem is xgettext has no rust support (it's stuck in review
limbo). So we use cargo-expand to extract all invocations of
gettext, and massage all that to generate a
messages.pot ourselves.
We also assume any string constant could be translated.
With the next commit, if I run
docker/docker_run_tests.sh --shell-after docker/jammy-asan-clang.Dockerfile
I get this in test_string.fish and test_git.fish:
=================================================================
==8339==ERROR: LeakSanitizer: detected memory leaks
Direct leak of 72 byte(s) in 1 object(s) allocated from:
#0 0x55a8a637eb45 in realloc /rustc/llvm/src/llvm-project/compiler-rt/lib/asan/asan_malloc_linux.cpp:85:3
#1 0x7facb841b6cc in _nc_doalloc (/lib/x86_64-linux-gnu/libtinfo.so.6+0x106cc) (BuildId: e22ba7829a55a0dec2201a0b6dac7ba236118561)
SUMMARY: AddressSanitizer: 72 byte(s) leaked in 1 allocation(s).
Strangely there is no tparm in the call stack. It does not seem to happen
in CI.
This strips the newline from "code_context" (which is really just the
called function), and from the unescaped output.
Rather, in case the output doesn't end with a newline it'll mark it
with an explicit message "(no trailing newline)".
Suppress TLS variable leaks caused by outstanding background threads by
suppressing the ASAN interposer functions. This is possible because because
we're now using use_tls=1.
-----------------------
Direct leak of 64 byte(s) in 2 object(s) allocated from:
#0 0x5627a1f0cc86 in __interceptor_realloc (/home/runner/work/fish-shell/fish-shell/build/fish_tests+0xb9fc86) (BuildId: da87d16730727369ad5fa46052d10337d6941fa9)
#1 0x7f04d8800f79 in pthread_getattr_np (/lib/x86_64-linux-gnu/libc.so.6+0x95f79) (BuildId: 69389d485a9793dbe873f0ea2c93e02efaa9aa3d)
#2 0x5627a1f2f664 in __sanitizer::GetThreadStackTopAndBottom(bool, unsigned long*, unsigned long*) (/home/runner/work/fish-shell/fish-shell/build/fish_tests+0xbc2664) (BuildId: da87d16730727369ad5fa46052d10337d6941fa9)
#3 0x5627a1f2fb83 in __sanitizer::GetThreadStackAndTls(bool, unsigned long*, unsigned long*, unsigned long*, unsigned long*) (/home/runner/work/fish-shell/fish-shell/build/fish_tests+0xbc2b83) (BuildId: da87d16730727369ad5fa46052d10337d6941fa9)
#4 0x5627a1f19a0d in __asan::AsanThread::SetThreadStackAndTls(__asan::AsanThread::InitOptions const*) (/home/runner/work/fish-shell/fish-shell/build/fish_tests+0xbaca0d) (BuildId: da87d16730727369ad5fa46052d10337d6941fa9)
#5 0x5627a1f19615 in __asan::AsanThread::Init(__asan::AsanThread::InitOptions const*) (/home/runner/work/fish-shell/fish-shell/build/fish_tests+0xbac615) (BuildId: da87d16730727369ad5fa46052d10337d6941fa9)
#6 0x5627a1f19b01 in __asan::AsanThread::ThreadStart(unsigned long long) (/home/runner/work/fish-shell/fish-shell/build/fish_tests+0xbacb01) (BuildId: da87d16730727369ad5fa46052d10337d6941fa9)
#7 0x7f04d87ffb42 (/lib/x86_64-linux-gnu/libc.so.6+0x94b42) (BuildId: 69389d485a9793dbe873f0ea2c93e02efaa9aa3d)
#8 0x7f04d88919ff (/lib/x86_64-linux-gnu/libc.so.6+0x1269ff) (BuildId: 69389d485a9793dbe873f0ea2c93e02efaa9aa3d)
Fixed a line or two tripped IWYU asserts about visibility
when doing e.g. a private -> public mapping but the visibility
it came up with was identical. Like the <iosfwd> to <string>
mapping, it was defined as private -> public but they're both
"public".
Added a whole bunch of lines necessary to get sane/correct
reccomendations from current IWYU on clang 10 on macOS Ventura.
Incrementally I manually added these as needed while going through
each line change IWYU wanted in each file.
clang-format (since 10) can output diagnostics which indicate
lines needing formatting with --dry-run and -Werror: the exit
code indicates if a file is correctly formatted or not.
We used to copy each .cpp file, run clang_format on the duplicate
and then `cmp` to see if there were changes made, before just
printing a line with the filename and moving the new ontop of
the original.
Now we show clang-format diagnostics which indicate which
lines will be changed, prompt for confirmation and then let
clang-format modify the files in-place without the juggling.
Looks like this: https://user-images.githubusercontent.com/291142/184561633-c16754c8-179e-426b-ba15-345ba65b9cf9.png
I keep some files around that I don't *want* to commit or ignore, but
it's fine to restyle them.
It's also fine to restyle everything if you are about to commit
something because then it'll be committed in the correct style.
git had a CVE related to arbitrary code being run when you run git status and similar, and instead of doing something about those arbitrary code bits they decided to lock it down entirely.
So now git will refuse to do basically anything once it detects the .git directory is owned by someone else.
So, what we do is:
If `git describe` failed with a status of 128, we keep an already
built version file.
This is an awful hack, but should help with the normal `cmake; make; sudo
make install` cycle.
(the only *real* way around this seems to be to not attempt to rebuild
the version file at install time entirely, but I have no idea how to
do that)
Fixes#8973.
When a pexpect test fails, it reports the "failing line." Prior to this
commit, it did so by walking up the Python call stack, looking for
the first frame which is not in the pexpect_helper module, and so presumably
in the test itself. However sometimes the test wants to define a helper
function; then if the test fails the helper function is reported as the
failing line, not the callsite of the helper.
Fix this by skipping functions which have the `callsite_skip` attribute set.
Nothing to relnote here.
Yosemite know's about system-ui.
We do know `-apple-system` predated `system-ui` and are otherwise
aware that `Menlo` and `Helvetica Neue` will exist and be 'right'
on 10.10 and earlier.
+ Adds a preinstall script to wipe out whatever the last .pkg
installed. This should avoid systems that have mad many updates
getting into strange states autoloading things that no longer
exist. Fixes#2963
+ Run add-shell with ${DSTVOLUME} prepended to the path - the
installer lets users intall onto any volume, so it's plausible
not installed onto /
+ Use `logger` instead of rando /tmp files for logging - stuff
should show up in Console.
+ make_pkg makes the pkg and also fish.app - the former was being
built with -j12 already, make the latter do so as well.
This allows the installer to work without Rosetta 2 on Apple Silicon
Macs. Note that fish shell itself has run natively since 3.3.1 but the
installer still wanted Rosetta 2, because this key was missing.
Fixes#8566. Credit to floam for finding missing key.
Previously we used a hacked up 'xar' tool for signing packages,
since productsign produced a package that could not be installed on
macOS 10.11. That was fixed in Xcode 12.5 so we can just use Apple's
tools again.
See #7656.
Also see https://developer.apple.com/forums/thread/664842
This is a little script that can be run manually to try and detect ODR
violations. It works by looking for weak symbols in .o files where the
symbol has the same name and different sizes.