Avoid linear searches for error codes by converting wsock_errmap
to a ordered array, indexed by WinSock error code (subtracted by
WSABASEERR.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
This decouples host_errmap from the errmap_t definition which is
about to be changed in a followup patch.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
Given that 64 bit Cygwin defines all file access types (off_t,
fpos_t, and derived types) as 64 bit anyway, there's no reason
left to rely on the stdio64 part of newlib. Use base functions
and base types.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
- Previously, LoadLibraryA() is hooked for ConEmu cygwin connector.
With this patch, GetProcAddress() for "RequestTermConnector" is
hooked instead which is more essential for ConEmu cygwin connector.
- Recent commit "Cygwin: console: Add missing input_mutex guard."
has a problem that causes NULL pointer access if cygheap->ctty
is NULL. This patch fixes the issue.
gdb master recently learnt how to use GetThreadDescription() [1], so set
threadnames using SetThreadDescription() [available since Windows 10
1607] as well.
This is superior to using a special exception to indicate the thread
name to the debugger, because the thread name isn't missed if you don't
have a debugger attached at the time it's set.
It's not clear what the encoding of a thread name string is, we assume
UTF8 for the moment.
For the moment, continue to use the old method as well, for the benefit
of older gdb versions etc.
[1] https://sourceware.org/pipermail/gdb-patches/2022-April/187833.html
Back in early Cygwin development a function based access to the
environment was exported, the internal environ in Cygwin was called
__cygwin_environ and cur_environ() was used to access the environment
indirectly . The history of that necessity is not documented,
but kept in i686 for backward compatibility.
The x86_64 port eventually used __cygwin_environ directly and exported
it as DATA under the usual name environ.
We don't need the i686 workaround anymore, so just rename
__cygwin_environ to environ, drop the cur_environ() macro and
simply export environ under its own name.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
- rename "is64bit" to "is_x86_64"
- Always set sym_prefix to empty string and add a FIXME
- speclib: rename uscore to sym_prefix and fix bug in string handling
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
- ConEmu cygwin connector conflicts with cons_master_thread since
it does not use read() to read console input. With this patch,
cons_master_thread is disabled in ConEmu cygwin connector.
Somehow this patch looks like it was pushed before having been
finished. Let's try again...
Fixes: e46f15c2d1 ("Cygwin: hookapi: drop handling i386 targets")
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
Only the assembler snippet is really x86_64-specific, so minimize the
conditional code block to this snippet.
Signed-off-by: Corinna Vinschen <corinna@vinschen.de>
By default, Newlib uses a huge object of type struct _reent to store
thread-specific data. This object is returned by __getreent() if the
__DYNAMIC_REENT__ Newlib configuration option is defined.
The reentrancy structure contains for example errno and the standard input,
output, and error file streams. This means that if an application only uses
errno it has a dependency on the file stream support even if it does not use
it. This is an issue for lower end targets and applications which need to
qualify the software according to safety standards (for example ECSS-E-ST-40C,
ECSS-Q-ST-80C, IEC 61508, ISO 26262, DO-178, DO-330, DO-333).
If the new _REENT_THREAD_LOCAL configuration option is enabled, then struct
_reent is replaced by dedicated thread-local objects for each struct _reent
member. The thread-local objects are defined in translation units which use
the corresponding object.
In a follow up patch, struct _reent is optionally replaced by dedicated
thread-local objects. In this case,_REENT is optionally defined to NULL. Add
the _REENT_IS_NULL() macro to disable this check on demand.
Add a _REENT_SIG_FUNC() macro to encapsulate access to the
_sig_func member of struct reent. This will help to replace the
struct member with a thread-local storage object in a follow up
patch.
Add a _REENT_CVTBUF() macro to encapsulate access to the _cvtbuf
member of struct reent. This will help to replace the struct
member with a thread-local storage object in a follow up patch.
Add a _REENT_CVTLEN() macro to encapsulate access to the _cvtlen
member of struct reent. This will help to replace the struct
member with a thread-local storage object in a follow-up patch.
Add a _REENT_CLEANUP() macro to encapsulate access to the
__cleanup member of struct reent. This will help to replace the
struct member with a thread-local storage object in a follow up
patch.
Add a _REENT_LOCALE() macro to encapsulate access to the _locale
member of struct reent. This will help to replace the struct
member with a thread-local storage object in a follow up patch.
Add a _REENT_INC() macro to encapsulate access to the _inc member
of struct reent. This will help to replace the struct member with
a thread-local storage object in a follow up patch.
Add a _REENT_STDERR() macro to encapsulate access to the _stderr
member of struct reent. This will help to replace the struct
member with a thread-local storage object in a follow up patch.