Properly report errors when builtin output fails

This correctly sets $status when a builtin succeeds but its output fails;
for example if the output is redirected to a file and that write fails.

Fixes #7857
This commit is contained in:
ridiculousfish 2021-04-03 15:36:04 -07:00
parent 13439b399e
commit 36ad116b34
6 changed files with 64 additions and 19 deletions

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@ -18,6 +18,7 @@ Scripting improvements
- Exit codes are better aligned with bash. A failed exec now reports ``$status`` of 127 if the file is not found, and 126 if it is not executable. - Exit codes are better aligned with bash. A failed exec now reports ``$status`` of 127 if the file is not found, and 126 if it is not executable.
- ``echo`` no longer writes its output one byte at a time, improving performance and allowing use with linux' special API files (``/proc``, ``/sys`` and such) (:issue:`7836`). - ``echo`` no longer writes its output one byte at a time, improving performance and allowing use with linux' special API files (``/proc``, ``/sys`` and such) (:issue:`7836`).
- fish should now better handle ``cd`` on filesystems with broken ``stat(3)`` responses (:issue:`7577`). - fish should now better handle ``cd`` on filesystems with broken ``stat(3)`` responses (:issue:`7577`).
- Builtins now properly report a ``$status`` of 1 upon unsuccessful writes (:issue:`7857`).
Interactive improvements Interactive improvements
------------------------- -------------------------

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@ -469,20 +469,29 @@ proc_status_t builtin_run(parser_t &parser, const wcstring_list_t &argv, io_stre
} }
if (const builtin_data_t *data = builtin_lookup(cmdname)) { if (const builtin_data_t *data = builtin_lookup(cmdname)) {
// Construct the permutable argv array which the builtin expects. // Construct the permutable argv array which the builtin expects, and execute the builtin.
null_terminated_array_t<wchar_t> argv_arr(argv); null_terminated_array_t<wchar_t> argv_arr(argv);
maybe_t<int> ret = data->func(parser, streams, argv_arr.get()); maybe_t<int> builtin_ret = data->func(parser, streams, argv_arr.get());
if (!ret) {
return proc_status_t::empty(); // Flush our out and error streams, and check for their errors.
} int out_ret = streams.out.flush_and_check_error();
int err_ret = streams.err.flush_and_check_error();
// Resolve our status code.
// If the builtin itself produced an error, use that error.
// Otherwise use any errors from writing to out and writing to err, in that order.
int code = builtin_ret ? *builtin_ret : 0;
if (code == 0) code = out_ret;
if (code == 0) code = err_ret;
// The exit code is cast to an 8-bit unsigned integer, so saturate to 255. Otherwise, // The exit code is cast to an 8-bit unsigned integer, so saturate to 255. Otherwise,
// multiples of 256 are reported as 0. // multiples of 256 are reported as 0.
int code = ret.value(); if (code > 255) code = 255;
if (code > 255) {
code = 255;
}
// Handle the case of an empty status.
if (code == 0 && !builtin_ret.has_value()) {
return proc_status_t::empty();
}
return proc_status_t::from_exit_code(code); return proc_status_t::from_exit_code(code);
} }

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@ -502,11 +502,6 @@ static void handle_builtin_output(parser_t &parser, const std::shared_ptr<job_t>
const output_stream_t &err) { const output_stream_t &err) {
assert(p->type == process_type_t::builtin && "Process is not a builtin"); assert(p->type == process_type_t::builtin && "Process is not a builtin");
// Mark if we discarded output.
if (out.discarded() || err.discarded()) {
p->status = proc_status_t::from_exit_code(STATUS_READ_TOO_MUCH);
}
// Figure out any data remaining to write. We may have none, in which case we can short-circuit. // Figure out any data remaining to write. We may have none, in which case we can short-circuit.
std::string outbuff = wcs2string(out.contents()); std::string outbuff = wcs2string(out.contents());
std::string errbuff = wcs2string(err.contents()); std::string errbuff = wcs2string(err.contents());

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@ -299,6 +299,8 @@ void output_stream_t::append_with_separation(const wchar_t *s, size_t len, separ
const wcstring &output_stream_t::contents() const { return g_empty_string; } const wcstring &output_stream_t::contents() const { return g_empty_string; }
int output_stream_t::flush_and_check_error() { return STATUS_CMD_OK; }
void fd_output_stream_t::append(const wchar_t *s, size_t amt) { void fd_output_stream_t::append(const wchar_t *s, size_t amt) {
if (errored_) return; if (errored_) return;
int res = wwrite_to_fd(s, amt, this->fd_); int res = wwrite_to_fd(s, amt, this->fd_);
@ -309,6 +311,11 @@ void fd_output_stream_t::append(const wchar_t *s, size_t amt) {
} }
} }
int fd_output_stream_t::flush_and_check_error() {
// Return a generic 1 on any write failure.
return errored_ ? STATUS_CMD_ERROR : STATUS_CMD_OK;
}
void null_output_stream_t::append(const wchar_t *, size_t) {} void null_output_stream_t::append(const wchar_t *, size_t) {}
void string_output_stream_t::append(const wchar_t *s, size_t amt) { contents_.append(s, amt); } void string_output_stream_t::append(const wchar_t *s, size_t amt) { contents_.append(s, amt); }
@ -324,4 +331,9 @@ void buffered_output_stream_t::append_with_separation(const wchar_t *s, size_t l
buffer_->append(wcs2string(s, len), type); buffer_->append(wcs2string(s, len), type);
} }
bool buffered_output_stream_t::discarded() const { return buffer_->discarded(); } int buffered_output_stream_t::flush_and_check_error() {
if (buffer_->discarded()) {
return STATUS_READ_TOO_MUCH;
}
return 0;
}

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@ -363,14 +363,15 @@ class output_stream_t {
/// Required override point. The output stream receives a string \p s with \p amt chars. /// Required override point. The output stream receives a string \p s with \p amt chars.
virtual void append(const wchar_t *s, size_t amt) = 0; virtual void append(const wchar_t *s, size_t amt) = 0;
/// \return true if output was discarded. This only applies to buffered output streams.
virtual bool discarded() const { return false; }
/// \return any internally buffered contents. /// \return any internally buffered contents.
/// This is only implemented for a string_output_stream; others flush data to their underlying /// This is only implemented for a string_output_stream; others flush data to their underlying
/// receiver (fd, or separated buffer) immediately and so will return an empty string here. /// receiver (fd, or separated buffer) immediately and so will return an empty string here.
virtual const wcstring &contents() const; virtual const wcstring &contents() const;
/// Flush any unwritten data to the underlying device, and return an error code.
/// A 0 code indicates success. The base implementation returns 0.
virtual int flush_and_check_error();
/// An optional override point. This is for explicit separation. /// An optional override point. This is for explicit separation.
virtual void append_with_separation(const wchar_t *s, size_t len, separation_type_t type); virtual void append_with_separation(const wchar_t *s, size_t len, separation_type_t type);
@ -420,6 +421,8 @@ class fd_output_stream_t final : public output_stream_t {
/// Construct from a file descriptor, which must be nonegative. /// Construct from a file descriptor, which must be nonegative.
explicit fd_output_stream_t(int fd) : fd_(fd) { assert(fd_ >= 0 && "Invalid fd"); } explicit fd_output_stream_t(int fd) : fd_(fd) { assert(fd_ >= 0 && "Invalid fd"); }
int flush_and_check_error() override;
void append(const wchar_t *s, size_t amt) override; void append(const wchar_t *s, size_t amt) override;
private: private:
@ -453,7 +456,7 @@ class buffered_output_stream_t final : public output_stream_t {
void append(const wchar_t *s, size_t amt) override; void append(const wchar_t *s, size_t amt) override;
void append_with_separation(const wchar_t *s, size_t len, separation_type_t type) override; void append_with_separation(const wchar_t *s, size_t len, separation_type_t type) override;
bool discarded() const override; int flush_and_check_error() override;
private: private:
/// The buffer we are filling. /// The buffer we are filling.

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@ -80,3 +80,28 @@ if false
end end
echo $status echo $status
#CHECK: 0 #CHECK: 0
# Verify errors from writes - see #7857.
if test -e /dev/full
# Failed writes to stdout produce 1.
echo foo > /dev/full
if test $status -ne 1
echo "Wrong status when writing to /dev/full"
end
# Here the builtin should fail with status 2,
# and also the write should fail with status 1.
# The builtin has precedence.
builtin string --not-a-valid-option 2> /dev/full
if test $status -ne 2
echo "Wrong status for failing builtin"
end
echo "Failed write tests finished"
else
echo "Failed write tests skipped"
echo "write: skipped" 1>&2
echo "write: skipped" 1>&2
end
# CHECK: Failed write tests {{finished|skipped}}
# CHECKERR: write: {{.*}}
# CHECKERR: write: {{.*}}