This concerns how fish prevents its own fds from interfering with
user-defined fd redirections, like `echo hi >&5`. fish has historically
done this by tracking all user defined redirections when running a job,
and ensuring that pipes are not assigned the same fds. However this is
annoying to pass around - it means that we have to thread user-defined
redirections into pipe creation.
Take a page from zsh and just ensure that all pipes we create have fds in
the "high range," which here means at least 10. The primary way to do this
is via the F_DUPFD_CLOEXEC syscall, which also sets CLOEXEC, so we aren't
invoking additional syscalls in the common case. This will free us from
having to track which fds are in user-defined redirections.
Previously we sometimes wanted to access an io_buffer_t to append to it
directly, but that's no longer true; all we really care about is its
separated_buffer_t. Make io_bufferfill_t::finish return the
separated_buffer directly, simplifying call sites. No user visible changes
expected here.
This concerns builtins writing to an io_buffer_t. io_buffer_t is how fish
captures output, especially in command substitutions:
set STUFF (string upper stuff)
Recall that io_buffer_t fills itself by reading from an fd (typically
connected to stdout of the command). However if our command is a builtin,
then we can write to the buffer directly.
Prior to this change, when a builtin anticipated writing to an
io_buffer_t, it would first write into an internal buffer, and then after
the builtin was finished, we would copy it to the io_buffer_t. This was
because we didn't have a polymorphic receiver for builtin output: we
always buffered it and then directed it to the io_buffer_t or file
descriptor or stdout or whatever.
Now that we have polymorphpic io_streams_t, we can notice ahead of time
that the builtin output is destined for an internal buffer and have it
just write directly to that buffer. This saves a buffering step, which is
a nice simplification.
Prior to this change, the functions in exec.cpp would return true or false
and it was not clear what significance that value had.
Switch to an enum to make this more explicit. In particular we have the
idea of a "pipeline breaking" error which should us to skip processes
which have not yet launched; if no process launches then we can bail out
to a different path which avoids reaping processes.
Fix an error caused by `exec_job()` assuming a job launched with the
intention of being backgrounded would have a pgid assigned in all cases,
without considering the status of `exec_error` which could have resulted
in the job failing before it was launched into its own process group.
Fixes (but doesn't close) #7423 - that can be closed if this assertion
failure doesn't happen in any released fish versions.
The 'time' prefix may come about either because the job itself is marked
with time, or because of the "inside out" weirdness of 'not time...'.
Factor this logic together and precompute it for a job.
In principle this would allow 'string split' or whatever to output to
stderr and not lose the item separation. In practice this is not used
but it fixes a TODO.
builtins output to stdout and stderr via io_streams_t. Prior to this fix, it
contained an output_stream_t which just wraps a buffer. So all builtin output
went to this buffer (except for eval).
Switch output_stream_t to become a new abstract class which can output to a
buffer, file descriptor, or nowhere. This allows for example `string` to stream
its output as it is produced, instead of buffering it.
This moves us slightly closer towards fish code in the background. The idea is
that a background job may still have "foreground" sub-jobs, example:
begin ; sleep 5 ; end &
The begin/end job runs in the background but should wait for `sleep`.
Prior to this fix, fish would see the overall job group is in the background
and not wait for any of its processes. With this change we detach waiting from
is_foreground.
This changes how fish attempts to protect itself from calling tcsetpgrp() too
aggressively. Recall that tcsetpgrp() will "force" itself, if SIGTTOU is
ignored (which it is in fish when job control is enabled).
Prior to this fix, we avoided SIGTTINs by only transferring the tty ownership
if fish was already the owner. This dated from a time before we had really
nailed down how pgroups should be assigned. Now we more deliberately assign a
job's pgroup so we don't need this conservative check.
However we still need logic to avoid transferring the tty if fish is not the
owner. The bad case is when job control is enabled while fish is running in the
background - here fish would transfer the tty and "steal" from the foreground
process.
So retain the checks of the current tty owner but migrate them to the point of
calling tcsetpgrp() itself.
Assigning the tty is really a function of a job group, not an individual
job. Reflect that in terminal_maybe_give_to_job_group and also
terminal_return_from_job_group.
Prior to this change, the posix_spawn code paths used a fair amount of
manual management around its allocated structures (attrs and file actions).
Encapsulate this into a new class that manages memory management and error
handling.
Initially I wanted to pick a different name to avoid confusion with
process groups, but really job trees *are* process groups. So name them
to reflect that fact.
Also rename "placeholder" to "internal" which is clearer.
Prior to this, jobs all had a pgid, and fish has to work hard to ensure
that pgids were inherited properly for nested jobs. But now the job tree
is the source of truth and there is only one location for the pgid.
job_lineage was used to track "where jobs came from" but the job tree idea is
a better abstraction. It groups jobs together similar to how a process group
would in other shells. Begin to remove the notion of lineage.
Job trees come in two flavors: “placeholders” for jobs which are only fish
functions, and non-placeholders which need to track a pgid. This adds
logic to allow a job to decide if its parent's job tree is appropriate,
and allocating a new tree if not.
Currently fish aborts execution mid-pipeline if a file redirection
failed, which can leave the shell in a broken state (job abandoned after
giving control of the terminal to an already-executed job in the
pipeline).
This patch replaces a failed fd with a closed fd and continues execution
if the affected process wasn't the first in the pipeline.
While this is a hack to address the regression behind fish-shell/#7038
introduced in d62576c, it can also be argued that this behavior is
actually more correct... right?
Closes#7038.
builtin_eval needs to know whether to set up bufferfills to capture its
output and/or errput; it should do this specifically if the output and
errput is piped (and not, say, directed to a file). In preparation for
this change, add bools to io_streams_t which track whether stdout and
stderr are specifically piped.
Give string expansion an (optional) parent pgroup. This is threaded all
the way into eval(). This ensures that in a mixed pipeline like:
cmd | begin ; something (cmd2) ; end
that cmd2 and cmd have the same pgroup.
Add a test to ensure that command substitutions inherit pgroups
properly.
Fixes#6624
If a background process runs a fish function which launches another
background process, ensure that these background procs get different
pgroups. Add a test for it.
Prior to this commit, when executing a builtin, we mark the job as not
foreground. After this commit we no longer modify the foreground state
of the job just for the builtin.
There was the following comment:
// Since this may be the foreground job, and since a builtin may execute another
// foreground job, we need to pretend to suspend this job while running the
// builtin, in order to avoid a situation where two jobs are running at once.
The concern seemed to be in the `bg` and `fg` builtins, which might attempt
to foreground or background the jobs associated with `bg` and `fg` themselves.
But the builtins run before the job is marked constructed, so it cannot
actually happen.
Bravely remove this code.
