* move type definition to WinPR as used there too.
* supported keyboard types are defined in
[MS-RDPBCGR] 2.2.1.3.2 Client Core Data (TS_UD_CS_CORE)]
use a enum instead of magic numbers to make code more readable.
The attributes xPos and yPos for a Color Pointer Update are confusing,
as they may be confused with the xPos and yPos of the pointer bitmap on
the actual screen.
Rename these attributes to what they actually represent, and that is the
hotspot position.
xPos and yPos are still members of the hotspot. However, hotSpotX and
hotSpotY are much more clearer.
In addition to that, the Large Pointer Update uses the same names for
the hotspot coordinates.
Currently, FreeRDP-based server implementations can do connect-time
autodetection.
However, without having any control over it.
In order to be able to override the default connect-time autodetection
handling, introduce three new states for the state machine of the
connection sequence and two new callbacks for the autodetect handling.
These are:
- CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_BEGIN
- CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_IN_PROGRESS
- CONNECTION_STATE_CONNECT_TIME_AUTO_DETECT_END
- OnConnectTimeAutoDetectBegin()
- OnConnectTimeAutoDetectProgress()
The END state is pretty simple: When the autodetection is finished and
the autodetect state is FREERDP_AUTODETECT_STATE_COMPLETE, transition
into the next state of the connection sequence.
The BEGIN state is entered, when capability-wise network autodetection
is available.
In this state, the OnConnectTimeAutoDetectBegin callback is called, the
server implementation may initialize any related handling here.
If the server implementation determines, that no further handling is
required, it can end the autodetection phase by returning
FREERDP_AUTODETECT_STATE_COMPLETE.
If not, and an autodetection request is sent, it returns
FREERDP_AUTODETECT_STATE_REQUEST.
The state machine of the connection sequence will then switch into the
IN_PROGRESS state.
In the IN_PROGRESS state, any incoming PDU is handled first, then the
OnConnectTimeAutoDetectProgress callback is called.
Like in the BEGIN state, the return value will determine, whether the
state machine of the connection sequence goes into the END state or goes
into (or rather stays) in the IN_PROGRESS state.
The current state of the autodetect API for the server side does not
include all allowed scenarios where the network autodetection can be
used.
This for example includes the connect-time autodetection, as the
related calls are hidden inside FreeRDP, and not exposed as public API.
In order to avoid duplicate send methods, check the state of the
connection sequence.
If the connection sequence is not yet done, use the connect-time request
types.
Otherwise, use the continuous request types.
The Bandwidth Measure Payload PDU is a little special case, as it is
only allowed to be sent during the connection sequence.
To ensure this, add an assertion in its sending method.
Also fix the handling for the Network Characteristics Sync PDU:
Previously, after parsing the PDU data, the read data was just sent
again to the client, which is wrong.
To fix this issue, introduce a callback for this client-to-server PDU,
so that the actual server implementation can hook up its own handling
for this PDU.
Depending on the situation, the server side may want to discard or use
the retrieved data here.
Moreover, decouple the send-handling for the Network Characteristics
Result PDU from the local autodetect variables.
Currently, these variables are shared between the send and receive
methods.
This leads to access problems, where the server side, wants to use a
different thread to send the autodetect PDU, as the receive handler may
receive an autodetect PDU and overwrite these values with possible
nonsense values.
This is especially the case with RTT response PDUs, as the written
netCharAverageRTT and netCharBaseRTT values are only correct, when only
one RTTRequest happens at a time and no stray RTTResponses are received.
TargetCertificate option is set in TARGET_CERTIFICATE_CONTAINER format.
Exposed ELEMENT_TYPE_CERTIFICATE and ENCODING_TYPE_ASN1_DER1 to allow
building it externally in the mentioned format.
Progressive codec was not honoring the threading flags in settings like does
remoteFX, so even when no multiple threads decoding was asked, progressive was
using multiple threads anyway. This patch fixes it.
The client tries to connect using RDSTLS only when it has received a
server redirection PDU with LB_PASSWORD_IS_ENCRYPTED flag.
The server exposes RDSTLS on negotiation if it has been configured on settings.
Then authenticates a client using configured credentials from settings:
RedirectionGuid, Username, Domain, Password.
Added helper functions to inform a user about current state of a client
in use:
* freerdp_client_warn_exeprimental warns about unstable clients
* freerdp_client_warn_deprecated warns about clients to be dropped
* extract the certificate from the redirection PDU
* if there is a certificate provided accept it if it matches the
redirection target certificate without further user checks
most protocol internal caches do not need to be exposed. this reduces
the public API and allows us to more easily improve/change this during a
release cycle
* Properly split certificate_store, certificate_data, certificate and
private key functions to files
* Prefix all functions with freerdp_ to have a unique name
* Update certificate store to use one file per host instead of
known_hosts2
* Merge CryptoCert and rdpCertificate
Currently the proxy's TLS fallback if an NLA connection attempt failed
is broken. There are two issues with the current code that this PR
fixes:
- freerdp_reconnect is used which requires an already established
connection to work correctly. This is not the case since the NLA
connectin attempt failed. This resulted in a seemingly working TLS
connection but i.e. channels where missing/not working.
- The fallback connection attempt just altered the NLA security setting
in the instance's settings. However these settings have been already
modified by the NLA connection attempt so we need to create a copy of
the original connection settings before doing the first connect.
The PR also introduces freerdp_reset_context which restores the initial
connection settings for the given instance.
* Remove duplications in rdpRsaKey, reuse rdpCertificate for public
components
* Move all private key and certificate code to certificate.c,
remove the tssk_* variables from gcc
* Handle update of client and server random keys in wrapping functions
* Simplify gcc_write_server_security_data, use certificate.c functions
to write the certificate data
* Refactor security_establish_keys, use the random values stored in
settings directly
* Added missing definitions for RNS_UD_CS_SUPPORT_SKIP_CHANNELJOIN
and RNS_UD_SC_SKIP_CHANNELJOIN_SUPPORTED flags
* Updated stringification functions for these flags
* Implemented client and server EarlyCapabilityFlags filter for
these flags as FreeRDP currently does not implement them.
This patch does a few cleanups to allow creating TLS and DTLS contexts.
It also introduces tls_accept_ex and tls_connect_ex that can start the SSL handshake,
and it can be finished by calling tls_handshake
The shadow server tries to resize the client to use a compatible
resolution. If that fails, e.g. if there is another resize request after
the disconnect/reconnect sequence, abort the connection.
* Add callbacks for all messages exchanged between client and server
to allow server implementations to intercept them.
* Unify logging
* Add device tracking
We no longer have a blocking polling loop in transport. Instead assume
there is more data after a packet was processed and let the transport
try again. If there is another packet ready, this repeats until only a
partly received (or no new data available) situation is reached.
To have more fine granied control add a new callback.
Now you have the following callback pairs:
* PreConnect <--> PostFinalDisconnect
* PostConnect <--> PostDisconnect
When some channels are filtered, some misalignement of channel ids could happen.
This patch keeps track of the back and front channel ids to correctly identify a
channel and send packets with the correct channel id.
With the latest client changes the internal event loop requires a handle
to wait on. Add a new function to (re)set the newly added transport event handle.
Autodetect packets can be transported either in TCP TPKT packets or be contained
in multi-transport subheaders (transported on UDP). These changes do the appropriate
modifications so that in further developments we can take the transport type in account
when treating / writing these packets.
* Adds a new callback and settings in gdiGfxSurface to allow updating
a window directly from surface bitmap data
* Adds new BOOL in gdiGfxSurface windowMapped and
handleInUpdateSurfaceArea to control where surface data update is
being handled
* Add new settings for OrderSupportFlags, OrderSupportFlagsEx,
TerminalDescriptor and TextANSICodePage
* Add proper read/write routines for the new settings
* Add proper default values for the new settings
* Add new settings for previously ignored capability options
* Store raw capability data in settings for later use
* Add function to extract settings from raw capability data
* Split capability read/write from client/server logic (e.g. enforce
limits, ...)
Windows expects the containerName field in TSSmartCardCreds to be what
it would use for a smartcard key's name. Try to accomodate that (at
least for PIV and GIDS cards).
This commit fixes various bugs that I've noticed on some windows systems with
smartcards that contains multiple certificates:
* With some drivers if you retrieve the ATR while enumerating the NCrypt keys, it seems to
confuse the NCrypt key context (and you're unable to retrieve certificate property). As
we don't use the ATR, let's remove the ATR retrieval.
* if don't give any user or domain on the command line, in settings you get User=Domain=NULL,
but if you pass /u:user, you get User="user" and Domain = ""(empty string not NULL). The
smartcard filtering by user/domain was not ready for that.
When smartcard emulation was enabled we were dumping the key and cert to
temporary files for PKINIT call, but they were deleted before we have
actually done the PKINIT. This patch fixes it.
It also add debug statement for the listing of smartcard keys / certs.
This also fixes the listing of smartcard on certain windows configurations
were we have to force NCRYPT_SILENT when doing a NCryptOpenKey.
* New defines for 10.8, 10.9, 10.10, 10.11 protocol versions
* New function returning a string representation of the protocol version
* Use 10.11 by default now
When no CSP is provided, we were listing smartcard materials by querying the
MS_SCARD_PROV_A CSP, unfortunately on some windows hosts, the smartcards aren't
listed in that CSP. So this patch does the key listing by browsing all CSPs
instead of just a default one. You can still force a CSP and you'll get keys only
from this one.
This patch also address cases where the certificate on the smartcard doesn't
have a UPN attribute, if that happen we try to get a UPN from the email address.
* Fixed TestUri unit test
* Make proper unit test out of the test function
* Add proper test cases
* Replace FindFirstFileA with FindFirstFileW for addins
This allows addin paths to contain unicode symbols.
* Fixed parse_uri_to_local_file definition
* Move to common clipboard.c file
* Move to header file so it can be included in test case
* Added WINPR_LOCAL for test builds
This macro exports internal functions in case of a unit test build
This way unit tests can access these without other workarounds.
* Fixed typo in function name is_dos_driver
* Cleaned up FindFirstFileW call
Use a wrapper function to convert to unicode and call the function
* Cleaned up BUILD_TESTING and EXPORT_ALL_SYMBOLS
* EXPORT_ALL_SYMBOLS now does as the name implies and exports all
non static functions/variables from the library.
* BUILD_TESTING now only sets the defines for test code and
activates EXPORT_ALL_SYMBOLS to allow tests to access internal
code
* Fixed windows client warnings
* disable CMAKE_WINDOWS_EXPORT_ALL_SYMBOLS
This new option /tls-secret-file:<file> allows to dump TLS secrets in a file with
the SSLKEYLOGFILE format. So this way you can setup the TLS dissector of wireshark
(Pre-Master-Secret log filename) and see the traffic in clear in wireshark.
It also add some more PFS ciphers to remove for netmon captures.
The same code is copied in all dynamic channels to create a plugin, have a listener,
and manage the channel lifecycle. This patch does a mutualization effort so that channels
only have to code things that are specific to them.
This big patch fixes fragmentation handling in the dynamic channel. We used to
have a single state to handle fragmentation at the main dynamic channel level, but
in fact packets can be fragmented per sub channel. So we have to maintain a fragmentation
state per sub channel, this involve treating dynamic and static channels differentely
(so the size of the patch that has to implement state tracking per dynamic channels).
