When loading an acme dump file that contains a window with only one
tag line, there are cases where acme hides that window (i.e. not even
its tag is visible).
The following commands reproduce the issue:
% ed <<EOE
1
i
/tmp
/lib/font/bit/pelm/unicode.8.font
/lib/font/bit/pelm/unicode.8.font
0
f 0 5 175 175 1
5 40 175 1 0 /sys/src/cmd/acme/ Del Snarf Get | Look
f 0 4 330 330 3
4 27 330 1 0 /tmp/ Del Snarf Get | Look
.
,w /tmp/test.dump
Q
EOE
% window -dx 900 -dy 600 'acme -l /tmp/test.dump'
This issue was introduced in commit 47b7dc5ccd.
The following patch fixes acme display glitches at the bottom fringe
of columns when adding/moving/resizing windows.
Here an example of an easy to reproduce case:
• https://invidio.xamh.de/watch?v=iLekQrxycaM
…opening acme and resizing a column to the right is all that is needed.
The functions winresize(…) and textresize(…) are extended with an
additional parameter `fillfringe` to indicate if a window/tag shall
fill a potential fringe area that would otherwise remain white.
The changes have been inspired by the approach taken in plan9port
acme.
If the font chosen for acme is retrieved via `getenv("font")` its
memory is leaked:
<snip>
if(fontnames[0] == nil)
fontnames[0] = getenv("font");
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
> getenv(…) mallocs memory
if(fontnames[0] == nil)
fontnames[0] = "/lib/font/bit/vga/unicode.font";
if(access(fontnames[0], 0) < 0){
fprint(2, "acme: can't access %s: %r\n", fontnames[0]);
exits("font open");
}
if(fontnames[1] == nil)
fontnames[1] = fontnames[0];
fontnames[0] = estrdup(fontnames[0]);
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
> if the `getenv("font")` path was taken above, this assignment
> will leak its memory.
</snap>
The following leak/acid session demonstrates the issue:
<snip>
cpu% leak -s 212252
src(0x002000cb); // 1
cpu% acid 212252
/proc/212252/text:amd64 plan 9 executable
/sys/lib/acid/port
/sys/lib/acid/amd64
acid: src(0x002000cb)
/sys/src/cmd/acme/acme.c:107
102 fprint(2, "usage: acme [-aib] [-c ncol] [-f font] [-F fixedfont] [-l loadfile | file...]\n");
103 exits("usage");
104 }ARGEND
105
106 if(fontnames[0] == nil)
>107 fontnames[0] = getenv("font");
108 if(fontnames[0] == nil)
109 fontnames[0] = "/lib/font/bit/vga/unicode.font";
110 if(access(fontnames[0], 0) < 0){
111 fprint(2, "acme: can't access %s: %r\n", fontnames[0]);
112 exits("font open");
acid:
</snap>
The fix tries to first check if a font has been set via
command line options in which case the font string is
malloced via estrdup(…).
If no font has been selected on the command line getenv("font")
is used. If no getenv("font") var is found we malloc a default
font via estrdup(…).
<snip>
if(fontnames[0] != nil)
fontnames[0] = estrdup(fontnames[0]);
else
if((fontnames[0] = getenv("font")) == nil)
fontnames[0] = estrdup("/lib/font/bit/vga/unicode.font");
if(access(fontnames[0], 0) < 0){
fprint(2, "acme: can't access %s: %r\n", fontnames[0]);
exits("font open");
}
if(fontnames[1] == nil)
fontnames[1] = fontnames[0];
fontnames[1] = estrdup(fontnames[1]);
</snap>
This resolves the memory leak reported by leak(1).
To reproduce the suicide try running the following in acme:
• 'Edit B <ls lib'
by select and middle clicking in a window that is in your $home.
There is a very high chance acme will commit suicide like this:
<snip>
cpu% broke
echo kill>/proc/333310/ctl # acme
cpu% acid 333310
/proc/333310/text:amd64 plan 9 executable
/sys/lib/acid/port
/sys/lib/acid/amd64
acid: lstk()
edittext(nr=0x31,q=0x0,r=0x45aa10)+0x8 /sys/src/cmd/acme/ecmd.c:135
xfidwrite(x=0x461230)+0x28a /sys/src/cmd/acme/xfid.c:479
w=0x0
qid=0x5
fc=0x461390
t=0x1
nr=0x100000031
r=0x45aa10
eval=0x3100000000
a=0x405621
nb=0x500000001
err=0x419310
q0=0x100000000
tq0=0x80
tq1=0x8000000000
buf=0x41e8d800000000
xfidctl(arg=0x461230)+0x35 /sys/src/cmd/acme/xfid.c:52
x=0x461230
launcheramd64(arg=0x461230,f=0x22357e)+0x10 /sys/src/libthread/amd64.c:11
0xfefefefefefefefe ?file?:0
</snap>
The suicide issue is caused by the following chain of events:
• /sys/src/cmd/acme/ecmd.c:/^edittext is called at
/sys/src/cmd/acme/xfid.c:479 passing nil as its first parameter:
<snip>
...
case QWeditout:
r = fullrunewrite(x, &nr);
if(w)
err = edittext(w, w->wrselrange.q1, r, nr);
else
err = edittext(nil, 0, r, nr);
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
...
</snap>
...and /sys/src/cmd/acme/ecmd.c:/^edittext dereferences the
first parameter that is *nil* at the first statement:
<snip>
char*
edittext(Window *w, int q, Rune *r, int nr)
{
File *f;
f = w->body.file;
^^^^^^^^^^^^^^^^^^^^^
This will crash if 'w' is *nil*
switch(editing){
...
</snap>
Moving the the derefernce of 'w' into the case where it is
needed (see above patch) fixes the suicude.
The memory leak is fixed in /sys/src/cmd/acme/ecmd.c:/^filelist. The
current implementation of filelist(...) breaks its contract with its
caller, thereby leading to a memory leak in /sys/src/cmd/acme/ecmd.c:/^B_cmd
and /sys/src/cmd/acme/ecmd.c:/^D_cmd.
The contract /sys/src/cmd/acme/ecmd.c:/^filelist seems to have with
its callers is that in case of success it fills up a 'collection' that
callers can then clear with a call to clearcollection(...).
The fix above honours this contract and thereby removes the leak.
After you apply the patch the following two tests should succeed:
• Execute by select and middle click in a Tag:
'Edit B lib/profile'
• Execute by select and middle click in a Tag:
'Edit B <ls lib'
The former lead to a resource leak that is now fixed.
The latter lead to a suicide that is now fixed by moving the statement
that dereferences the parameter to the location where it is needed,
which is not the path used in the case of 'Edit B <ls'.
Cheers,
Igor
Import the following improvements and bugfixes from plan9port:
4650064a acme: scale window bodies on resize, not including tag space
d28913a9 acme: save/restore multiline tags in Dump/Load
d2df5d6c acme: fix crash in X |cat with multiple windows
3d6e5cb5 acme: preserve window position and selection during Get
version(5) says:
If the server does not understand the client's version
string, it should respond with an Rversion message (not
Rerror) with the version string the 7 characters
``unknown''.
Pre-lib9p file servers -- all except cwfs(4) -- do return Rerror.
lib9p(2) follows the above spec, although ignoring the next part
concerning comparison after period-stripping. It assumes an
Fcall.version starting with "9P" is correctly formed and returns
the only supported version of the protocol, which seems alright.
This patch brings pre-lib9p servers in accordance with the spec.
This brings acme scrolling behaviour in line with that of 9front's rio
and sam, where the amount scrolled varies with a vertical position of
the pointer within the window, similar to how the scrollbar works.
At some point it would be good to implement a line-at-a-time scrolling
when the Shift key is pressed, as seen in rio. For this to happen the
acme keyboard input needs to be rewritten in terms of /dev/kbd instead
of relying on keyboard(2) -- that is, the /dev/cons interface.
Based off the following 3 commits:
4a3fb87264f8bc03fc62f00ef335056f30d18023
45f8ba54143323f08a21343633764caa59aa3ea3
fdf6ef333705c844bcf3ccf2f93b2773f1a6aa41
Reading /mnt/acme/log reports a log of window create,
put, focus, and delete events, as they happen. It blocks
until the next event is available.
Example log output:
8 new /Users/rsc/foo.go
8 put /Users/rsc/foo.go
8 del /Users/rsc/foo.go
This lets acme-aware programs react to file writes, for example
compiling code, running a test, or updating an import block.
The new command marks the target window as a scratch window -- a window
whose state cannot be "dirtied" by changes made to its body, therefore
avoiding warnings about unsaved changes when deleting the window or
exiting acme.
Existing examples of scratch windows are error, directory, and guide
windows, whose scratchness is set internally.
With the new command users and programs alike can create their own
scratch windows. This is put to use in acme's own win(1).
The mount() and bind() syscalls return -1 on error,
and the mountid sequence number on success.
The manpage states that the mountid sequence number
is a positive integer, but the kernels implementation
currently uses a unsigned 32-bit integer and does not
guarantee that the mountid will not become negative.
Most code just cares about the error, so test for
the -1 error value only.
grow selection from point of click, not start of selection region.
starting at the beginning of the selection region causes the match
logic to kick in, which is confusing.
When plumbing an address like `3-`, Acme selects line 1,
and similarly `3+` selects line 5.
The same problem can be observed for character addresses (`#123+`)
but _not_ for ones like `+`, `.+` or `/foo/+`:
The problem only occurs when a number is followed by a direction (`-`/`+`).
Following along with the example `3-` through `address` (in addr.c):
We read `3` into `c` and match the `case` on line 239.
The `while` loop on line 242ff reads additional digits into `c`
and puts the first non-digit back by decrementing the index `q`.
Then we find the range for line 3 on line 251 and continue.
On the next iteration, we set `prevc` to the last `c`,
but since that part read ahead _into `c`_,
`c` is currently the _next_ character we will read, `-`,
and now `prevc` is too.
Then in the case block (line 210) the condition on line 211 holds
and Acme believes that it has read two `-` in sequence
and modifies the range to account for the “first” `-`.
The “second” `-` gets applied after the loop is done, on line 292.
So the general problem is:
While reading numbers, Acme reads the next character after the number into `c`.
It decrements the counter to ensure it will read it again on the next iteration,
but it still uses it to update `prevc`.
This change solves the problem by reading digits into `nc` instead.
This variable is used to similar effect in the block for directions (line 212)
and fills the role of “local `c` that we can safely use to read ahead” nicely.
(imported from plan9front a82a8b6368274d77d42f526e379b74e79c137e26)
To reproduce, create a column with at least two windows and resize
acme to have almost zero height.
(imported from plan9port commit 76b9347a5fa3a0970527c6ee1b97ef1c714f636b)
when we get eof, stop the loop immidiately and do not
rely on the read to eventually return an error.
when convM2S() fails to decode the message, error out
and stop the loop. there is no point in continuing.
the utf8 buffers b1 where allocated from fbufalloc() which gives
us BUFSIZE bytes, but Xfid->count can be bigger than that. so just
emalloc() the requested number of bytes.
when converting from Runes to utf-8, we have to account for the
terminating '\0' byte snprint() places, so fix the maxrune number
calculation instead of using BUFSIZE+1 as buffer size.
quote handling was broken with 21-bit runes. nextrec()
returned quoted rune as long rune | (Runemax+1) to escape
it.
with 16-bit runes, storing that long into 16-bit Rune
would automatically remove the escaping, but with 21-bit
runes, Rune is uint32 so the escaping would remain. we
now use (Runemask+1) instead, and mask the escaping off
explicitely when storing back to Rune.
from 9atom/acmearrowfun patch:
reported by mark van atten
In Plan 9 acme, if you type
{}
then go back and type text between the brackets
{Curiouser and curiouser!}
the right arrow is blocked when you want to go over the closing
bracket to continue typing to its right. (If you first go to the left,
and then back to the right, it works.)
Same for the other brackets: [ ], ( ), < >.
noted that brackets are not necessary. same behavior with any
character.
fix is to textcommit before moving.
we'r getting a rectangle taller than a single line from
coladd() which causes textresize() to collapse the tag
text to zero height.
should probably fix coladd() instead.