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-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.
This happens because config test does not shutdown SAPI.
In addition this commit also fixes few failures when running FPM tests
under root.
Closes GH-10296
This is to allow more time to switch for active to idle in scoreboard as
it seems that Travis is quite short on resources and might not switch it
quickly enough.
SaltStack uses Python subprocess and redirects stderr to stdout which is
then piped to the returned output. If php-fpm starts in daemonized mode,
it should close stderr. However a fix introduced in GH-8913 keeps stderr
around so it can be later restored. That causes the issue reported in
GH-9754. The solution is to keep stderr around only when php-fpm runs in
foreground as the issue is most likely visible only there. Basically
there is no need to restore stderr when php-fpm is daemonized.
