It's sometime useful to create a stream aliasing a buffer on the stack, and
it's nice if we don't need some extra malloc for this.
Example use:
BYTE buffer[20];
wStream s;
Stream_StaticInit(&s, buffer, sizeof(buffer));
Stream_Write_UINT16(&s, 0xff01);
Stream_Free(&s, FALSE);
leaked_storage: Variable "result" going out of scope leaks the storage it points to.
leaked_storage: Variable "bt" going out of scope leaks the storage it points to.
leaked_storage: Variable "sam" going out of scope leaks the storage it points to.
leaked_storage: Variable "s" going out of scope leaks the storage it points to.
leaked_storage: Variable "snt" going out of scope leaks the storage it points to.
(we overwrite the password and pin arguments).
This implies changes in the argument parsing tests that now must pass a mutable argv
(copied from the statically declared test argvs).
Some other const inconsistency have been dealt with too.
This allows FreeBSD to successfully build with BUILD_TESTING enabled. Currently,
only 3/184 tests fail:
13 - TestLibraryLoadLibrary (Failed)
14 - TestLibraryGetProcAddress (Failed)
15 - TestLibraryGetModuleFileName (Failed)
These failures are probably due to a lack of GetModuleFileNameA implementation
on FreeBSD.
libepoll-shim is our implementation of this API on top of kevent. It supplies
the same headers and a library, but we don't install it in any of the default
include search paths when it comes in through ports on an as-needed basis.
This set of changes is restricted to FREEBSD-compatible OS, which includes
DragonflyBSD and FreeBSD.
Terminating null character was inserted in the middle of readerNames instead of
last position in the unicode version of SCardStatus function.
This commit fix it.
issue detected by cppcheck
[channels/drive/client/drive_main.c:454] -> [channels/drive/client/drive_main.c:443]: (warning) Either the condition '!irp' is redundant or there is possible null pointer dereference: irp.
[client/X11/xf_window.c:582] -> [client/X11/xf_window.c:580]: (warning) Either the condition '!xfc' is redundant or there is possible null pointer dereference: xfc.
[winpr/libwinpr/path/test/TestPathShell.c:40] -> [winpr/libwinpr/path/test/TestPathShell.c:43]: (warning) Either the condition '!path' is redundant or there is possible null pointer dereference: path.
[winpr/libwinpr/path/test/TestPathShell.c:49] -> [winpr/libwinpr/path/test/TestPathShell.c:52]: (warning) Either the condition '!path' is redundant or there is possible null pointer dereference: path.
When using pthread_once with destructors they are only called,
if each thread (including the main thread) is exited with pthread_exit.
Introducing winpr_exit as a wrapper for that purpose.
* fix StatusW_Call to rely and use SCardStatusW
* fix trace call in StatusW_Call - needs to be called after the sizes
are set
* unify SCardStatus functions for pcsc - let the internal function handle unicode directly
This fixes an issue with size calculations of SCardStatusW.
The PCSC SCard implementation in winpr tried to rename reader and group
names received from PCSC to something similar to what the windows smart
card service would return.
Because of the following reasons this mapping was removed:
* reader names are not standardized
* no mapping of reader name should be required at all
* the mapping added extra complexity
* the mapping didn't produce the same names as if the reader was
directly connected on windows (or redirected from a windows host)
In case there are situations where this is nevertheless required this
feature can simple be (re-)implemented a part of the smart card channel.
Also the formatting was fixed.
SCardAddReaderName isn't part of the SCard API.
Note: removing this also removes the possibility to redirect single
smartcard readers with /smartcard:READERNAME. However this features
wasn't implemented in a general way and will be re-added as part of
the smart card channel directly.
The state tracking/modifications (presumably thought as optimization?!) in
PCSC_SCardGetStatusChange_Internal cause a lot of applications to behave
incorrectly and/or hang. Ideally no modifications of the states should
be necessary as PCSC implements the same API as passed over the channel.
To be able to avoid password conversion if the password is already unicode
this change adds the sspi_SetAuthIdentityWithUnicodePassword() function
that is identical to sspi_SetAuthIdentity() except that the password is
used without further conversions in the Unicode identity.
Wide char strings are always little endian encoded and thus
Data_Write_UINT16 has to be used in _RtlAnsiStringToUnicodeString.
It fixes TestIoDevice on big endian machines among others.
https://github.com/FreeRDP/FreeRDP/issues/4231
FreeRDP aborts if OpenSSL operates in FIPS mode and +fipsmode is not
manually specified. Let's prevent the abortion and enable the necessary
options in that case automatically.
This option will ensure that NLA is disabled(since NTLM uses weak crypto algorithms), FIPS
encryption is enabled, and ensure fips mode is enabled for openssl.
Selectively override specific uses of MD5/RC4 with new API calls specifically tailored to override FIPS.
Add comments on why overriding the use of these algorithms under FIPS is acceptable for the locations where overrides happen.
Remove check of server proprietary certificate which was already being ignore to avoid use of MD5.
Initialize winpr openssl earlier to ensure fips mode is set before starting using any crypto algorithms.
The signotec signature device requires the eventChar support to work properly in
serial redirection mode. This implementation is basic but does the job for this
device.
Sponsored by: Rangee GmbH (http://www.rangee.de)
The mkdir(2) function returns 0 on success, and -1 on error.
This resolves an error in TestIoDevice when /tmp/.device/ does not
exist.
Bug: https://bugs.gentoo.org/635838
When building packages, especially when source packages are used, git is
not necessarily available or the source isn't provided in git. In those
cases it wasn't possible to set the GIT_REVISION and --version shows
"n/a" for the git revision.
If the file .source_version is available now the content of it is used
as GIT_REVISION. Packagers might want to add a .source_version file
when they don't build the packages from git.
Possible breaking change:
The variable PRODUCT_VERSION isn't available anymore. Use GIT_REVISION
instead.
FreeRDP/winpr/libwinpr/clipboard/posix.c:397:20: error: conflicting types for ‘basename’
static const char* basename(const char* name)
^
In file included from FreeRDP/winpr/include/winpr/collections.h:25:0,
from FreeRDP/winpr/libwinpr/clipboard/posix.c:37:
/usr/include/string.h:599:14: note: previous declaration of ‘basename’ was here
extern char *basename (const char *__filename) __THROW __nonnull ((1));
This preprocessor definition has been initially intended to disable some
computationally expensive logging, however it turned out that there is
not much computation involved in the resulting implementation of new
wClipboard subsystems. Therefore we do not actually need the compilation
option, the logs can be filtered by "com.winpr.wclipboard.*" tag at
runtime if necessary. So drop the WITH_DEBUG_WCLIPBOARD CMake option and
convert all detailed logs to use WLOG_TRACE level via WLog_VRB macro.
Adds a callback that allows servers to compute NTLM hashes by themselves. The typical
use of this callback is to provide a function that gives precomputed hash values.
Sponsored by: Wheel Systems (http://www.wheelsystems.com)
This header file (currently) provides definitions of FILEDESCRIPTOR
structure and GetUserProfileDirectory() function. However, it does so
only when included on non-Windows platforms. The code which includes it
fails to build on Windows because the definitions are absent and it
causes weird compilation errors (like FILEDESCRIPTOR being treated as
the name of a function argument).
Inculde <shlobj.h> to get FILEDESCRIPTOR and <userenv.h> for the
GetUserProfileDirectory() function. (And hope that this will not
pull more Windows headers than we need in the files which include
<winpr/shell.h>.)
Another issue revealed during testing is that older Windows systems
cannot handle the reserved file names well. While Windows 8 and 10 are
fine (they silently abort the file transfer), using reserved names with
Windows 7 can flat out crash explorer.exe or result into weird error
messages like "fatal error: 0x00000000 ERROR_SUCCESS".
This is not required by MS-RDPECLIP specification, but we should try to
avoid this issue as not using reserved file names seems to be assumed
a common sense in Windows protocols.
The most convenient way to handle the issue would be on wClipboard level
so that WinPR's clients do not bother with it. We should prohibit the
reserved names from being used in FILEDESCRIPTOR, failing the conversion
if we see such a file.
POSIX subsystem (the only one at the moment) handles remote file names
in two places so move the Unicode conversion and the new validation
check into a separate function.
The reserved file name predicate is placed into <winpr/file.h> so that
it can be used in other places too. For example, other wClipboard local
file subsystems will need it. (It would be really nice to enforce this
check somewhere in the common code, so that the subsystems can't miss
it, but other places can miss some errors thus we're doing it here, as
early as possible.)
The predicate acts on separate file name components rather than full
file names because the backslash is a reserved character too. If we
process full file names this can result in phantom directory entry in
the remote file name. Not to say that handling ready-made components
spares us from splitting the full file name to extract them :)
The implementation is... a bit verbose, but that's fine by me. In the
absence of functions for case-insensitive wide string comparison and
the need to check for the [0-9] at the end of some file names this is
quite readable. Thanks to FAT and NTFS for being case-insensitive and
to MS-DOS for having reserved file names in the first place.
One important point in the cliprdr protocol is that the peers are not
allowed to request file sizes and ranges if the clipboard content
changes. File locking should be used to gain this ability. However, our
file list is still accessible after new data is set into wClipboard.
Catch this error by storing the sequence number of the file list when it
is set and checking that it is still in effect at the time when the
client requests file sizes or ranges. There is a small chance of false
positives when the sequence number overflows, but I guess we can safely
ignore it.
This is another bunch of callbacks which provide the file contents to
the clients. We jump through some extra hoops in order to have more
pleasant user experience.
Simple stuff goes first. The file offset (or position) is split into the
low and high parts because this is the format in which the clients
receive the request from the server. They can simply copy the values as
is into the struct without repackaging them (which we do instead in the
end to get a 64-bit off_t).
Another thing is that we try to minimize the number of lseek() calls and
to keep as few file descriptors open as possible. We cannot open all the
files at once as there could be thousands of them and we'll run out of
the allowed number of the fds. However, the server can (in theory)
request the file ranges randomly so we need to be prepared for that. One
way to do that would be to always open the file before reading and close
it immediately afterwards. A dead simple solution with an acceptable
performance, but... some file systems do not support seeking, such as
FTP directories mounted over FUSE. However, they handle sequential
reading just fine *and* the server requests the data sequentially most
of the time so we can exploit this.
Thus open the file only once, during the first range request and keep
it open until the server reads all the data. In order to know how much
data is left we keep an accurate account of all reads and maintain the
file offset ourselves. This also allows us to avoid calling lseek() when
the file offset will not be effectively changed. However, if the server
requests some weird offset then we have no choice and will attempt
seeking. Unfortunately, we cannot tell whether it is a genuine failure
or the file system just does not support seeking, so we do not handle
the error further. (One workaround would be to reopen the file and keep
reading it until we're at the correct offset.) In this way we can
support sequential-only file systems if the server requests the contents
sequentially (and it does).
Also note that we do an fstat() right after opening the file in order to
have an accurate value of file size, for this exact file descriptor we
will be using. We should have it filled it by now, but just in case...
There is one more thing to explain. The cbRequested field specifies the
maximum number of bytes the server can handle, not the required number.
Usually this is some power-of-two number like 64 KB, based on the size
of the files on the clipboard. This is why posix_file_read_perform()
does not attempt to fill the whole buffer by repeatedly calling read()
if it has read less data than requested. The server can handle underruns
just fine (and this spares us from special-casing the EOF condition).
This is an example of wClipboardDelegate method implementation. POSIX
subsystem uses synchronous methods, but the interface can be used for
asynchronous request processing as well. The client should call a
Client* callback to request some action and the wClipboard will process
the request and report the result by calling an approriate Clipboard*
callback. Usually there will be two callbacks: one for reporting success
and one to report errors.
All callbacks have at least two arguments: the wClipboardDelegate itself
to pass the system context, and the wClipboard*Request structure with
the arguments to pass the call context. The request context is also
passed to the result callbacks by wClipboard so that the client can
match up the result with its previous request.
The fields of wClipboard*Request structures are heavily influenced by
the MS-RDPECLIP spec and mirror the respective fields of
CLIPRDR_FILECONTENTS_REQUEST. wClipboard should not depend on
MS-RDPECLIP, that's the reason we don't use CLIPRDR_FILECONTENTS_REQUEST
directly. However, I believe that we should not have void* fields in the
request structs so that they can be easily copied around if needed.
This is why have the weird 'streamId' field there which has nothing to
do with wClipboard and will be used only by the clients when sending
replies to the server.
Return values of the callbacks are to be used for reporting errors with
processing the request or reply per se, not for errors encountered while
performing the action requested. Thus, for example, we return NO_ERROR
from posix_file_request_size() even when we fail to report the result to
the client, because we have successfully performed the request and do
not care if the client could not handle our reply for some reason.
Also note that setup_delegate() fills in dummy implementations of
Clipboard* reply callbacks so that we do not crash in case the client
does not fill them and do not have to perform paranoid NULL checks
before calling every single callback.
This is the thing which will be used by clients to request file sizes
and ranges from wClipboard and by wClipboard to report the results of
the requests to the clients.
wClipboard and the client will fill in the (currently absent) callbacks
with their implementations of the request-report interface and will be
using them accordingly.
Initially I thought that wClipbardDelegate would be dynamically
allocated by the client and set into wClipboard (as this would be the
case with a delegate interface implementation in OOP langauges), but
after some thought I ended up with storing the delegate in wClipboard
and using the 'void* custom' field for client-private data.
So the idea is for the subsystem to fill in its callbacks during
wClipboard construction and for the client to get access to
wClipboardDelegate with a getter and fill in its callbacks during its
clipboard initialization. The subsystem will use wClipboard* pointer to
access its data and the client will have its void* pointer to store its
context.