The char arrays were too small for a long on 64-bit systems, which
resulted in cutting off the string at the end with a NUL byte. Use a
size of MAX_LENGTH_OF_LONG to fix this issue instead of a fixed size
of 11 chars.
Closes GH-10525.
get_browser() implements a lazy parse system for the browscap
INI configuration. There are two possible moments when a browscap
configuration can be loaded: during module startup or during request.
In case of module startup, the strings are persistent strings, while for
the request they are not.
The INI parser must therefore know whether to create persistent or
non-persistent strings. It does this by looking at
CG(ini_parser_unbuffered_errors). If that value is 1 it's persistent,
otherwise non-persistent. Note that this also controls how the errors
are reported: if it's 1 then the errors are sent to stderr, otherwise we
get E_WARNINGs.
Currently, a hardcoded value of 1 is always used for that CG value in
browscap_read_file(). This means we'll always create persistent strings
*and* we'll not report parse errors correctly as E_WARNINGs.
We fix both the crash and the lack of warnings by passing the value of
persistent instead of a hardcoded 1.
This is also in line with how other INI parsing code is called in
ext/standard: they also make sure that during request a value of 0 is
passed.
Closes GH-10883.
This happens when there are spaces are in the path info. The reason is
that Apache decodes the path info part in the SCRIPT_NAME as per CGI
RFC. FPM tries to strip path info from the SCRIPT_NAME but the
comparison is done against SCRIPT_FILENAME which is not decoded. For
that to work we have to decode it before comparison if there is any
encoded character.
Closes GH-10869
Fixes GH-8789.
Fixes GH-10015.
This is one small part of the underlying bug for GH-10737, as in my
attempts to reproduce the issue I constantly hit this crash easily.
(The fix for the other underlying issue for that bug will follow soon.)
It's possible that a signal arrives at a thread that never handled a PHP
request before. This causes the signal globals to dereference a NULL
pointer because the TSRM pointers for the thread aren't set up to point
to the thread resources yet.
PR GH-9766 previously fixed this for master by ignoring the signal if
the thread didn't handle a PHP request yet. While this fixes the crash
bug, I think the solution is suboptimal for 3 reasons:
1) The signal is ignored and a message is printed saying there is a bug.
However, this is not a bug at all. For example in Apache, the signal
set up happens on child process creation, and the thread resource
creation happens lazily when the first request is handled by the
thread. Hence, the fact that the thread resources aren't set up yet
is not actually buggy behaviour.
2) I believe since it was believed to be buggy behaviour, that fix was
only applied to master, so 8.1 & 8.2 keep on crashing.
3) We can do better than ignoring the signal. By just acting in the
same way as if the signals aren't active. This means we need to
take the same path as if the TSRM had already shut down.
Closes GH-10861.
* Missing check: SQLAllocHandle() for the environment wasn't checked in
pdo_odbc_handle_factory(). Add a check similar to the other ones for
SQLAllocHandle().
* Inconsistent check: one of the SQLAllocHandle() calls wasn't checked
for SQL_SUCCESS_WITH_INFO. However, looking at the other uses and the
documentation we should probably check this as well.
Furthermore, since there was a mix of "SQLAllocHandle: reason" and
"SQLAllocHandle (reason)" in the error reporting, I made them
consistently use the first option as that seems to be the most used for
error reporting in this file.
Closes GH-10740.
Commit a21195650e fixed a leak by adding a TSRM destructor for the
JIT globals in ZTS mode. In case the main thread shuts down the TSRM, it
will call all the destructors. The JIT globals destructor will be
invoked, but will always access the main thread globals using JIT_G.
This means that instead of freeing the JIT globals in the different
threads, the one in the main thread is freed repeatedly over and over,
crashing PHP. Fix it by always passing the pointer instead of relying on
JIT_G.
Closes GH-10835.
Fixes GH-10801
Named arguments are not supported by the constant evaluation routine, in
the sense that they are ignored. This causes two issues:
- It causes a crash because not all oplines belonging to the call are
removed, which results in SEND_VA{L,R} which should've been removed.
- It causes semantic issues (demonstrated in the test case).
This case never worked anyway, leading to crashes or incorrect behaviour,
so just prevent CTE of calls with named parameters for now.
We can choose to support it later, but introducing support for this in
a stable branch seems too dangerous.
This patch does not change the removal of SEND_* opcodes in remove_call
because the crash bug can't be triggered anymore with this patch as
there are no named parameters anymore and no variadic CTE functions
exist.
Closes GH-10811.
We need to carry around a reference to the underlying Bucket to be able to modify it by reference.
Closes GH-10749
Signed-off-by: George Peter Banyard <girgias@php.net>
Disable opcache.consistency_checks.
This feature does not work right now and leads to memory leaks and other
problems. For analysis and discussion see GH-8065. In GH-10624 it was
decided to disable the feature to prevent problems for end users.
If end users which to get some consistency guarantees, they can rely on
opcache.protect_memory.
Closes GH-10798.
Fixes GH-8646
See https://github.com/php/php-src/issues/8646 for thorough discussion.
Interned strings that hold class entries can get a corresponding slot in map_ptr for the CE cache.
map_ptr works like a bump allocator: there is a counter which increases to allocate the next slot in the map.
For class name strings in non-opcache we have:
- on startup: permanent + interned
- on request: interned
For class name strings in opcache we have:
- on startup: permanent + interned
- on request: either not interned at all, which we can ignore because they won't get a CE cache entry
or they were already permanent + interned
or we get a new permanent + interned string in the opcache persistence code
Notice that the map_ptr layout always has the permanent strings first, and the request strings after.
In non-opcache, a request string may get a slot in map_ptr, and that interned request string
gets destroyed at the end of the request. The corresponding map_ptr slot can thereafter never be used again.
This causes map_ptr to keep reallocating to larger and larger sizes.
We solve it as follows:
We can check whether we had any interned request strings, which only happens in non-opcache.
If we have any, we reset map_ptr to the last permanent string.
We can't lose any permanent strings because of map_ptr's layout.
Closes GH-10783.
Pushing many commits to a pull request in a short amount of time can stall the
merge builds and also wastes energy unnecessarily. Enable concurrency to cancel
workflows of old commits in pull requests. Generate a common group name for pull
requests using github.event.pull_request.url with github.run_id as a fallback
for branches, which is unique and always available.
Closes GH-10799
