Provided by: tcl8.5-doc_8.5.19-4_all 
NAME
Tcl_CreateChannel, Tcl_GetChannelInstanceData, Tcl_GetChannelType, Tcl_GetChannelName,
Tcl_GetChannelHandle, Tcl_GetChannelMode, Tcl_GetChannelBufferSize, Tcl_SetChannelBufferSize,
Tcl_NotifyChannel, Tcl_BadChannelOption, Tcl_ChannelName, Tcl_ChannelVersion, Tcl_ChannelBlockModeProc,
Tcl_ChannelCloseProc, Tcl_ChannelClose2Proc, Tcl_ChannelInputProc, Tcl_ChannelOutputProc,
Tcl_ChannelSeekProc, Tcl_ChannelWideSeekProc, Tcl_ChannelTruncateProc, Tcl_ChannelSetOptionProc,
Tcl_ChannelGetOptionProc, Tcl_ChannelWatchProc, Tcl_ChannelGetHandleProc, Tcl_ChannelFlushProc,
Tcl_ChannelHandlerProc, Tcl_ChannelThreadActionProc, Tcl_IsChannelShared, Tcl_IsChannelRegistered,
Tcl_CutChannel, Tcl_SpliceChannel, Tcl_IsChannelExisting, Tcl_ClearChannelHandlers, Tcl_GetChannelThread,
Tcl_ChannelBuffered - procedures for creating and manipulating channels
SYNOPSIS
#include <tcl.h>
Tcl_Channel
Tcl_CreateChannel(typePtr, channelName, instanceData, mask)
ClientData
Tcl_GetChannelInstanceData(channel)
Tcl_ChannelType *
Tcl_GetChannelType(channel)
const char *
Tcl_GetChannelName(channel)
int
Tcl_GetChannelHandle(channel, direction, handlePtr)
Tcl_ThreadId
Tcl_GetChannelThread(channel)
int
Tcl_GetChannelMode(channel)
int
Tcl_GetChannelBufferSize(channel)
Tcl_SetChannelBufferSize(channel, size)
Tcl_NotifyChannel(channel, mask)
int
Tcl_BadChannelOption(interp, optionName, optionList)
int
Tcl_IsChannelShared(channel)
int
Tcl_IsChannelRegistered(interp, channel)
int
Tcl_IsChannelExisting(channelName)
void
Tcl_CutChannel(channel)
void
Tcl_SpliceChannel(channel)
void
Tcl_ClearChannelHandlers(channel)
int
Tcl_ChannelBuffered(channel)
const char *
Tcl_ChannelName(typePtr)
Tcl_ChannelTypeVersion
Tcl_ChannelVersion(typePtr)
Tcl_DriverBlockModeProc *
Tcl_ChannelBlockModeProc(typePtr)
Tcl_DriverCloseProc *
Tcl_ChannelCloseProc(typePtr)
Tcl_DriverClose2Proc *
Tcl_ChannelClose2Proc(typePtr)
Tcl_DriverInputProc *
Tcl_ChannelInputProc(typePtr)
Tcl_DriverOutputProc *
Tcl_ChannelOutputProc(typePtr)
Tcl_DriverSeekProc *
Tcl_ChannelSeekProc(typePtr)
Tcl_DriverWideSeekProc *
Tcl_ChannelWideSeekProc(typePtr)
Tcl_DriverThreadActionProc *
Tcl_ChannelThreadActionProc(typePtr)
Tcl_DriverTruncateProc * │
Tcl_ChannelTruncateProc(typePtr) │
Tcl_DriverSetOptionProc *
Tcl_ChannelSetOptionProc(typePtr)
Tcl_DriverGetOptionProc *
Tcl_ChannelGetOptionProc(typePtr)
Tcl_DriverWatchProc *
Tcl_ChannelWatchProc(typePtr)
Tcl_DriverGetHandleProc *
Tcl_ChannelGetHandleProc(typePtr)
Tcl_DriverFlushProc *
Tcl_ChannelFlushProc(typePtr)
Tcl_DriverHandlerProc *
Tcl_ChannelHandlerProc(typePtr)
ARGUMENTS
const Tcl_ChannelType *typePtr (in) Points to a structure containing the addresses of
procedures that can be called to perform I/O and other
functions on the channel.
const char *channelName (in) The name of this channel, such as file3; must not be in
use by any other channel. Can be NULL, in which case the
channel is created without a name.
ClientData instanceData (in) Arbitrary one-word value to be associated with this
channel. This value is passed to procedures in typePtr
when they are invoked.
int mask (in) OR-ed combination of TCL_READABLE and TCL_WRITABLE to
indicate whether a channel is readable and writable.
Tcl_Channel channel (in) The channel to operate on.
int direction (in) TCL_READABLE means the input handle is wanted;
TCL_WRITABLE means the output handle is wanted.
ClientData *handlePtr (out) Points to the location where the desired OS-specific
handle should be stored.
int size (in) The size, in bytes, of buffers to allocate in this
channel.
int mask (in) An OR-ed combination of TCL_READABLE, TCL_WRITABLE and
TCL_EXCEPTION that indicates events that have occurred
on this channel.
Tcl_Interp *interp (in) Current interpreter. (can be NULL)
const char *optionName (in) Name of the invalid option.
const char *optionList (in) Specific options list (space separated words, without
“-”) to append to the standard generic options list.
Can be NULL for generic options error message only.
________________________________________________________________________________________________________________
DESCRIPTION
Tcl uses a two-layered channel architecture. It provides a generic upper layer to enable C and Tcl
programs to perform input and output using the same APIs for a variety of files, devices, sockets etc.
The generic C APIs are described in the manual entry for Tcl_OpenFileChannel.
The lower layer provides type-specific channel drivers for each type of device supported on each
platform. This manual entry describes the C APIs used to communicate between the generic layer and the
type-specific channel drivers. It also explains how new types of channels can be added by providing new
channel drivers.
Channel drivers consist of a number of components: First, each channel driver provides a Tcl_ChannelType
structure containing pointers to functions implementing the various operations used by the generic layer
to communicate with the channel driver. The Tcl_ChannelType structure and the functions referenced by it
are described in the section TCL_CHANNELTYPE, below.
Second, channel drivers usually provide a Tcl command to create instances of that type of channel. For
example, the Tcl open command creates channels that use the file and command channel drivers, and the Tcl
socket command creates channels that use TCP sockets for network communication.
Third, a channel driver optionally provides a C function to open channel instances of that type. For
example, Tcl_OpenFileChannel opens a channel that uses the file channel driver, and Tcl_OpenTcpClient
opens a channel that uses the TCP network protocol. These creation functions typically use
Tcl_CreateChannel internally to open the channel.
To add a new type of channel you must implement a C API or a Tcl command that opens a channel by invoking
Tcl_CreateChannel. When your driver calls Tcl_CreateChannel it passes in a Tcl_ChannelType structure
describing the driver's I/O procedures. The generic layer will then invoke the functions referenced in
that structure to perform operations on the channel.
Tcl_CreateChannel opens a new channel and associates the supplied typePtr and instanceData with it. The
channel is opened in the mode indicated by mask. For a discussion of channel drivers, their operations
and the Tcl_ChannelType structure, see the section TCL_CHANNELTYPE, below.
Tcl_CreateChannel interacts with the code managing the standard channels. Once a standard channel was
initialized either through a call to Tcl_GetStdChannel or a call to Tcl_SetStdChannel closing this
standard channel will cause the next call to Tcl_CreateChannel to make the new channel the new standard
channel too. See Tcl_StandardChannels for a general treatise about standard channels and the behaviour of
the Tcl library with regard to them.
Tcl_GetChannelInstanceData returns the instance data associated with the channel in channel. This is the
same as the instanceData argument in the call to Tcl_CreateChannel that created this channel.
Tcl_GetChannelType returns a pointer to the Tcl_ChannelType structure used by the channel in the channel
argument. This is the same as the typePtr argument in the call to Tcl_CreateChannel that created this
channel.
Tcl_GetChannelName returns a string containing the name associated with the channel, or NULL if the
channelName argument to Tcl_CreateChannel was NULL.
Tcl_GetChannelHandle places the OS-specific device handle associated with channel for the given direction
in the location specified by handlePtr and returns TCL_OK. If the channel does not have a device handle
for the specified direction, then TCL_ERROR is returned instead. Different channel drivers will return
different types of handle. Refer to the manual entries for each driver to determine what type of handle
is returned.
Tcl_GetChannelThread returns the id of the thread currently managing the specified channel. This allows
channel drivers to send their file events to the correct event queue even for a multi-threaded core.
Tcl_GetChannelMode returns an OR-ed combination of TCL_READABLE and TCL_WRITABLE, indicating whether the
channel is open for input and output.
Tcl_GetChannelBufferSize returns the size, in bytes, of buffers allocated to store input or output in
channel. If the value was not set by a previous call to Tcl_SetChannelBufferSize, described below, then
the default value of 4096 is returned.
Tcl_SetChannelBufferSize sets the size, in bytes, of buffers that will be allocated in subsequent
operations on the channel to store input or output. The size argument should be between ten and one
million, allowing buffers of ten bytes to one million bytes. If size is outside this range,
Tcl_SetChannelBufferSize sets the buffer size to 4096.
Tcl_NotifyChannel is called by a channel driver to indicate to the generic layer that the events
specified by mask have occurred on the channel. Channel drivers are responsible for invoking this
function whenever the channel handlers need to be called for the channel. See WATCHPROC below for more
details.
Tcl_BadChannelOption is called from driver specific setOptionProc or getOptionProc to generate a complete
error message.
Tcl_ChannelBuffered returns the number of bytes of input currently buffered in the internal buffer (push
back area) of the channel itself. It does not report about the data in the overall buffers for the stack
of channels the supplied channel is part of.
Tcl_IsChannelShared checks the refcount of the specified channel and returns whether the channel was
shared among multiple interpreters (result == 1) or not (result == 0).
Tcl_IsChannelRegistered checks whether the specified channel is registered in the given interpreter
(result == 1) or not (result == 0).
Tcl_IsChannelExisting checks whether a channel with the specified name is registered in the
(thread)-global list of all channels (result == 1) or not (result == 0).
Tcl_CutChannel removes the specified channel from the (thread)global list of all channels (of the current
thread). Application to a channel still registered in some interpreter is not allowed. Also notifies │
the driver if the Tcl_ChannelType version is TCL_CHANNEL_VERSION_4 (or higher), and │
Tcl_DriverThreadActionProc is defined for it.
Tcl_SpliceChannel adds the specified channel to the (thread)global list of all channels (of the current
thread). Application to a channel registered in some interpreter is not allowed. Also notifies the │
driver if the Tcl_ChannelType version is TCL_CHANNEL_VERSION_4 (or higher), and │
Tcl_DriverThreadActionProc is defined for it.
Tcl_ClearChannelHandlers removes all channel handlers and event scripts associated with the specified
channel, thus shutting down all event processing for this channel.
TCL_CHANNELTYPE
A channel driver provides a Tcl_ChannelType structure that contains pointers to functions that implement
the various operations on a channel; these operations are invoked as needed by the generic layer. The
structure was versioned starting in Tcl 8.3.2/8.4 to correct a problem with stacked channel drivers. See
the OLD CHANNEL TYPES section below for details about the old structure.
The Tcl_ChannelType structure contains the following fields:
typedef struct Tcl_ChannelType {
char *typeName;
Tcl_ChannelTypeVersion version;
Tcl_DriverCloseProc *closeProc;
Tcl_DriverInputProc *inputProc;
Tcl_DriverOutputProc *outputProc;
Tcl_DriverSeekProc *seekProc;
Tcl_DriverSetOptionProc *setOptionProc;
Tcl_DriverGetOptionProc *getOptionProc;
Tcl_DriverWatchProc *watchProc;
Tcl_DriverGetHandleProc *getHandleProc;
Tcl_DriverClose2Proc *close2Proc;
Tcl_DriverBlockModeProc *blockModeProc;
Tcl_DriverFlushProc *flushProc;
Tcl_DriverHandlerProc *handlerProc;
Tcl_DriverWideSeekProc *wideSeekProc;
Tcl_DriverThreadActionProc *threadActionProc;
Tcl_DriverTruncateProc *truncateProc; │
} Tcl_ChannelType;
It is not necessary to provide implementations for all channel operations. Those which are not necessary
may be set to NULL in the struct: blockModeProc, seekProc, setOptionProc, getOptionProc, getHandleProc,
and close2Proc, in addition to flushProc, handlerProc, threadActionProc, and truncateProc. Other
functions that cannot be implemented in a meaningful way should return EINVAL when called, to indicate
that the operations they represent are not available. Also note that wideSeekProc can be NULL if seekProc
is.
The user should only use the above structure for Tcl_ChannelType instantiation. When referencing fields
in a Tcl_ChannelType structure, the following functions should be used to obtain the values:
Tcl_ChannelName, Tcl_ChannelVersion, Tcl_ChannelBlockModeProc, Tcl_ChannelCloseProc,
Tcl_ChannelClose2Proc, Tcl_ChannelInputProc, Tcl_ChannelOutputProc, Tcl_ChannelSeekProc,
Tcl_ChannelWideSeekProc, Tcl_ChannelThreadActionProc, Tcl_ChannelTruncateProc, Tcl_ChannelSetOptionProc, │
Tcl_ChannelGetOptionProc, Tcl_ChannelWatchProc, Tcl_ChannelGetHandleProc, Tcl_ChannelFlushProc, or
Tcl_ChannelHandlerProc.
The change to the structures was made in such a way that standard channel types are binary compatible.
However, channel types that use stacked channels (i.e. TLS, Trf) have new versions to correspond to the
above change since the previous code for stacked channels had problems.
TYPENAME
The typeName field contains a null-terminated string that identifies the type of the device implemented
by this driver, e.g. file or socket.
This value can be retrieved with Tcl_ChannelName, which returns a pointer to the string.
VERSION
The version field should be set to the version of the structure that you require. TCL_CHANNEL_VERSION_2
is the minimum recommended. TCL_CHANNEL_VERSION_3 must be set to specify the wideSeekProc member.
TCL_CHANNEL_VERSION_4 must be set to specify the threadActionProc member (includes wideSeekProc). │
TCL_CHANNEL_VERSION_5 must be set to specify the truncateProc members (includes wideSeekProc and │
threadActionProc). If it is not set to any of these, then this Tcl_ChannelType is assumed to have the
original structure. See OLD CHANNEL TYPES for more details. While Tcl will recognize and function with
either structures, stacked channels must be of at least TCL_CHANNEL_VERSION_2 to function correctly.
This value can be retrieved with Tcl_ChannelVersion, which returns one of TCL_CHANNEL_VERSION_5, │
TCL_CHANNEL_VERSION_4, TCL_CHANNEL_VERSION_3, TCL_CHANNEL_VERSION_2 or TCL_CHANNEL_VERSION_1.
BLOCKMODEPROC
The blockModeProc field contains the address of a function called by the generic layer to set blocking
and nonblocking mode on the device. BlockModeProc should match the following prototype:
typedef int Tcl_DriverBlockModeProc(
ClientData instanceData,
int mode);
The instanceData is the same as the value passed to Tcl_CreateChannel when this channel was created. The
mode argument is either TCL_MODE_BLOCKING or TCL_MODE_NONBLOCKING to set the device into blocking or
nonblocking mode. The function should return zero if the operation was successful, or a nonzero POSIX
error code if the operation failed.
If the operation is successful, the function can modify the supplied instanceData to record that the
channel entered blocking or nonblocking mode and to implement the blocking or nonblocking behavior. For
some device types, the blocking and nonblocking behavior can be implemented by the underlying operating
system; for other device types, the behavior must be emulated in the channel driver.
This value can be retrieved with Tcl_ChannelBlockModeProc, which returns a pointer to the function.
A channel driver not supplying a blockModeProc has to be very, very careful. It has to tell the generic
layer exactly which blocking mode is acceptable to it, and should this also document for the user so that
the blocking mode of the channel is not changed to an unacceptable value. Any confusion here may lead the
interpreter into a (spurious and difficult to find) deadlock.
CLOSEPROC AND CLOSE2PROC
The closeProc field contains the address of a function called by the generic layer to clean up driver-
related information when the channel is closed. CloseProc must match the following prototype:
typedef int Tcl_DriverCloseProc(
ClientData instanceData,
Tcl_Interp *interp);
The instanceData argument is the same as the value provided to Tcl_CreateChannel when the channel was
created. The function should release any storage maintained by the channel driver for this channel, and
close the input and output devices encapsulated by this channel. All queued output will have been flushed
to the device before this function is called, and no further driver operations will be invoked on this
instance after calling the closeProc. If the close operation is successful, the procedure should return
zero; otherwise it should return a nonzero POSIX error code. In addition, if an error occurs and interp
is not NULL, the procedure should store an error message in the interpreter's result.
Alternatively, channels that support closing the read and write sides independently may set closeProc to
TCL_CLOSE2PROC and set close2Proc to the address of a function that matches the following prototype:
typedef int Tcl_DriverClose2Proc(
ClientData instanceData,
Tcl_Interp *interp,
int flags);
The close2Proc will be called with flags set to an OR'ed combination of TCL_CLOSE_READ or TCL_CLOSE_WRITE
to indicate that the driver should close the read and/or write side of the channel. The channel driver
may be invoked to perform additional operations on the channel after close2Proc is called to close one or
both sides of the channel. If flags is 0 (zero), the driver should close the channel in the manner
described above for closeProc. No further operations will be invoked on this instance after close2Proc
is called with all flags cleared. In all cases, the close2Proc function should return zero if the close
operation was successful; otherwise it should return a nonzero POSIX error code. In addition, if an error
occurs and interp is not NULL, the procedure should store an error message in the interpreter's result.
The closeProc and close2Proc values can be retrieved with Tcl_ChannelCloseProc or Tcl_ChannelClose2Proc,
which return a pointer to the respective function.
INPUTPROC
The inputProc field contains the address of a function called by the generic layer to read data from the
file or device and store it in an internal buffer. InputProc must match the following prototype:
typedef int Tcl_DriverInputProc(
ClientData instanceData,
char *buf,
int bufSize,
int *errorCodePtr);
InstanceData is the same as the value passed to Tcl_CreateChannel when the channel was created. The buf
argument points to an array of bytes in which to store input from the device, and the bufSize argument
indicates how many bytes are available at buf.
The errorCodePtr argument points to an integer variable provided by the generic layer. If an error
occurs, the function should set the variable to a POSIX error code that identifies the error that
occurred.
The function should read data from the input device encapsulated by the channel and store it at buf. On
success, the function should return a nonnegative integer indicating how many bytes were read from the
input device and stored at buf. On error, the function should return -1. If an error occurs after some
data has been read from the device, that data is lost.
If inputProc can determine that the input device has some data available but less than requested by the
bufSize argument, the function should only attempt to read as much data as is available and return
without blocking. If the input device has no data available whatsoever and the channel is in nonblocking
mode, the function should return an EAGAIN error. If the input device has no data available whatsoever
and the channel is in blocking mode, the function should block for the shortest possible time until at
least one byte of data can be read from the device; then, it should return as much data as it can read
without blocking.
This value can be retrieved with Tcl_ChannelInputProc, which returns a pointer to the function.
OUTPUTPROC
The outputProc field contains the address of a function called by the generic layer to transfer data from
an internal buffer to the output device. OutputProc must match the following prototype:
typedef int Tcl_DriverOutputProc(
ClientData instanceData,
const char *buf,
int toWrite,
int *errorCodePtr);
InstanceData is the same as the value passed to Tcl_CreateChannel when the channel was created. The buf
argument contains an array of bytes to be written to the device, and the toWrite argument indicates how
many bytes are to be written from the buf argument.
The errorCodePtr argument points to an integer variable provided by the generic layer. If an error
occurs, the function should set this variable to a POSIX error code that identifies the error.
The function should write the data at buf to the output device encapsulated by the channel. On success,
the function should return a nonnegative integer indicating how many bytes were written to the output
device. The return value is normally the same as toWrite, but may be less in some cases such as if the
output operation is interrupted by a signal. If an error occurs the function should return -1. In case
of error, some data may have been written to the device.
If the channel is nonblocking and the output device is unable to absorb any data whatsoever, the function
should return -1 with an EAGAIN error without writing any data.
This value can be retrieved with Tcl_ChannelOutputProc, which returns a pointer to the function.
SEEKPROC AND WIDESEEKPROC
The seekProc field contains the address of a function called by the generic layer to move the access
point at which subsequent input or output operations will be applied. SeekProc must match the following
prototype:
typedef int Tcl_DriverSeekProc(
ClientData instanceData,
long offset,
int seekMode,
int *errorCodePtr);
The instanceData argument is the same as the value given to Tcl_CreateChannel when this channel was
created. Offset and seekMode have the same meaning as for the Tcl_Seek procedure (described in the
manual entry for Tcl_OpenFileChannel).
The errorCodePtr argument points to an integer variable provided by the generic layer for returning errno
values from the function. The function should set this variable to a POSIX error code if an error
occurs. The function should store an EINVAL error code if the channel type does not implement seeking.
The return value is the new access point or -1 in case of error. If an error occurred, the function
should not move the access point.
If there is a non-NULL seekProc field, the wideSeekProc field may contain the address of an alternative
function to use which handles wide (i.e. larger than 32-bit) offsets, so allowing seeks within files
larger than 2GB. The wideSeekProc will be called in preference to the seekProc, but both must be defined
if the wideSeekProc is defined. WideSeekProc must match the following prototype:
typedef Tcl_WideInt Tcl_DriverWideSeekProc(
ClientData instanceData,
Tcl_WideInt offset,
int seekMode,
int *errorCodePtr);
The arguments and return values mean the same thing as with seekProc above, except that the type of
offsets and the return type are different.
The seekProc value can be retrieved with Tcl_ChannelSeekProc, which returns a pointer to the function,
and similarly the wideSeekProc can be retrieved with Tcl_ChannelWideSeekProc.
SETOPTIONPROC
The setOptionProc field contains the address of a function called by the generic layer to set a channel
type specific option on a channel. setOptionProc must match the following prototype:
typedef int Tcl_DriverSetOptionProc(
ClientData instanceData,
Tcl_Interp *interp,
const char *optionName,
const char *newValue);
optionName is the name of an option to set, and newValue is the new value for that option, as a string.
The instanceData is the same as the value given to Tcl_CreateChannel when this channel was created. The
function should do whatever channel type specific action is required to implement the new value of the
option.
Some options are handled by the generic code and this function is never called to set them, e.g.
-blockmode. Other options are specific to each channel type and the setOptionProc procedure of the
channel driver will get called to implement them. The setOptionProc field can be NULL, which indicates
that this channel type supports no type specific options.
If the option value is successfully modified to the new value, the function returns TCL_OK. It should
call Tcl_BadChannelOption which itself returns TCL_ERROR if the optionName is unrecognized. If newValue
specifies a value for the option that is not supported or if a system call error occurs, the function
should leave an error message in the result field of interp if interp is not NULL. The function should
also call Tcl_SetErrno to store an appropriate POSIX error code.
This value can be retrieved with Tcl_ChannelSetOptionProc, which returns a pointer to the function.
GETOPTIONPROC
The getOptionProc field contains the address of a function called by the generic layer to get the value
of a channel type specific option on a channel. getOptionProc must match the following prototype:
typedef int Tcl_DriverGetOptionProc(
ClientData instanceData,
Tcl_Interp *interp,
const char *optionName,
Tcl_DString *optionValue);
OptionName is the name of an option supported by this type of channel. If the option name is not NULL,
the function stores its current value, as a string, in the Tcl dynamic string optionValue. If optionName
is NULL, the function stores in optionValue an alternating list of all supported options and their
current values. On success, the function returns TCL_OK. It should call Tcl_BadChannelOption which
itself returns TCL_ERROR if the optionName is unrecognized. If a system call error occurs, the function
should leave an error message in the result of interp if interp is not NULL. The function should also
call Tcl_SetErrno to store an appropriate POSIX error code.
Some options are handled by the generic code and this function is never called to retrieve their value,
e.g. -blockmode. Other options are specific to each channel type and the getOptionProc procedure of the
channel driver will get called to implement them. The getOptionProc field can be NULL, which indicates
that this channel type supports no type specific options.
This value can be retrieved with Tcl_ChannelGetOptionProc, which returns a pointer to the function.
WATCHPROC
The watchProc field contains the address of a function called by the generic layer to initialize the
event notification mechanism to notice events of interest on this channel. WatchProc should match the
following prototype:
typedef void Tcl_DriverWatchProc(
ClientData instanceData,
int mask);
The instanceData is the same as the value passed to Tcl_CreateChannel when this channel was created. The
mask argument is an OR-ed combination of TCL_READABLE, TCL_WRITABLE and TCL_EXCEPTION; it indicates
events the caller is interested in noticing on this channel.
The function should initialize device type specific mechanisms to notice when an event of interest is
present on the channel. When one or more of the designated events occurs on the channel, the channel
driver is responsible for calling Tcl_NotifyChannel to inform the generic channel module. The driver
should take care not to starve other channel drivers or sources of callbacks by invoking
Tcl_NotifyChannel too frequently. Fairness can be insured by using the Tcl event queue to allow the
channel event to be scheduled in sequence with other events. See the description of Tcl_QueueEvent for
details on how to queue an event.
This value can be retrieved with Tcl_ChannelWatchProc, which returns a pointer to the function.
GETHANDLEPROC
The getHandleProc field contains the address of a function called by the generic layer to retrieve a
device-specific handle from the channel. GetHandleProc should match the following prototype:
typedef int Tcl_DriverGetHandleProc(
ClientData instanceData,
int direction,
ClientData *handlePtr);
InstanceData is the same as the value passed to Tcl_CreateChannel when this channel was created. The
direction argument is either TCL_READABLE to retrieve the handle used for input, or TCL_WRITABLE to
retrieve the handle used for output.
If the channel implementation has device-specific handles, the function should retrieve the appropriate
handle associated with the channel, according the direction argument. The handle should be stored in the
location referred to by handlePtr, and TCL_OK should be returned. If the channel is not open for the
specified direction, or if the channel implementation does not use device handles, the function should
return TCL_ERROR.
This value can be retrieved with Tcl_ChannelGetHandleProc, which returns a pointer to the function.
FLUSHPROC
The flushProc field is currently reserved for future use. It should be set to NULL. FlushProc should
match the following prototype:
typedef int Tcl_DriverFlushProc(
ClientData instanceData);
This value can be retrieved with Tcl_ChannelFlushProc, which returns a pointer to the function.
HANDLERPROC
The handlerProc field contains the address of a function called by the generic layer to notify the
channel that an event occurred. It should be defined for stacked channel drivers that wish to be
notified of events that occur on the underlying (stacked) channel. HandlerProc should match the
following prototype:
typedef int Tcl_DriverHandlerProc(
ClientData instanceData,
int interestMask);
InstanceData is the same as the value passed to Tcl_CreateChannel when this channel was created. The
interestMask is an OR-ed combination of TCL_READABLE or TCL_WRITABLE; it indicates what type of event
occurred on this channel.
This value can be retrieved with Tcl_ChannelHandlerProc, which returns a pointer to the function.
THREADACTIONPROC
The threadActionProc field contains the address of the function called by the generic layer when a
channel is created, closed, or going to move to a different thread, i.e. whenever thread-specific driver
state might have to initialized or updated. It can be NULL. The action TCL_CHANNEL_THREAD_REMOVE is used
to notify the driver that it should update or remove any thread-specific data it might be maintaining for
the channel.
The action TCL_CHANNEL_THREAD_INSERT is used to notify the driver that it should update or initialize any
thread-specific data it might be maintaining using the calling thread as the associate. See
Tcl_CutChannel and Tcl_SpliceChannel for more detail.
typedef void Tcl_DriverThreadActionProc(
ClientData instanceData,
int action);
InstanceData is the same as the value passed to Tcl_CreateChannel when this channel was created.
These values can be retrieved with Tcl_ChannelThreadActionProc, which returns a pointer to the function.
TRUNCATEPROC
The truncateProc field contains the address of the function called by the generic layer when a channel is
truncated to some length. It can be NULL.
typedef int Tcl_DriverTruncateProc(
ClientData instanceData,
Tcl_WideInt length);
InstanceData is the same as the value passed to Tcl_CreateChannel when this channel was created, and
length is the new length of the underlying file, which should not be negative. The result should be 0 on
success or an errno code (suitable for use with Tcl_SetErrno) on failure.
These values can be retrieved with Tcl_ChannelTruncateProc, which returns a pointer to the function.
TCL_BADCHANNELOPTION
This procedure generates a “bad option” error message in an (optional) interpreter. It is used by
channel drivers when an invalid Set/Get option is requested. Its purpose is to concatenate the generic
options list to the specific ones and factorize the generic options error message string.
It always returns TCL_ERROR
An error message is generated in interp's result object to indicate that a command was invoked with a bad
option. The message has the form
bad option "blah": should be one of
<...generic options...>+<...specific options...>
so you get for instance:
bad option "-blah": should be one of -blocking,
-buffering, -buffersize, -eofchar, -translation,
-peername, or -sockname
when called with optionList equal to “peername sockname”
“blah” is the optionName argument and “<specific options>” is a space separated list of specific option
words. The function takes good care of inserting minus signs before each option, commas after, and an
“or” before the last option.
OLD CHANNEL TYPES
The original (8.3.1 and below) Tcl_ChannelType structure contains the following fields:
typedef struct Tcl_ChannelType {
char *typeName;
Tcl_DriverBlockModeProc *blockModeProc;
Tcl_DriverCloseProc *closeProc;
Tcl_DriverInputProc *inputProc;
Tcl_DriverOutputProc *outputProc;
Tcl_DriverSeekProc *seekProc;
Tcl_DriverSetOptionProc *setOptionProc;
Tcl_DriverGetOptionProc *getOptionProc;
Tcl_DriverWatchProc *watchProc;
Tcl_DriverGetHandleProc *getHandleProc;
Tcl_DriverClose2Proc *close2Proc;
} Tcl_ChannelType;
It is still possible to create channel with the above structure. The internal channel code will
determine the version. It is imperative to use the new Tcl_ChannelType structure if you are creating a
stacked channel driver, due to problems with the earlier stacked channel implementation (in 8.2.0 to
8.3.1).
Prior to 8.4.0 (i.e. during the later releases of 8.3 and early part of the 8.4 development cycle) the
Tcl_ChannelType structure contained the following fields:
typedef struct Tcl_ChannelType {
char *typeName;
Tcl_ChannelTypeVersion version;
Tcl_DriverCloseProc *closeProc;
Tcl_DriverInputProc *inputProc;
Tcl_DriverOutputProc *outputProc;
Tcl_DriverSeekProc *seekProc;
Tcl_DriverSetOptionProc *setOptionProc;
Tcl_DriverGetOptionProc *getOptionProc;
Tcl_DriverWatchProc *watchProc;
Tcl_DriverGetHandleProc *getHandleProc;
Tcl_DriverClose2Proc *close2Proc;
Tcl_DriverBlockModeProc *blockModeProc;
Tcl_DriverFlushProc *flushProc;
Tcl_DriverHandlerProc *handlerProc;
Tcl_DriverTruncateProc *truncateProc;
} Tcl_ChannelType;
When the above structure is registered as a channel type, the version field should always be
TCL_CHANNEL_VERSION_2.
SEE ALSO
Tcl_Close(3tcl), Tcl_OpenFileChannel(3tcl), Tcl_SetErrno(3tcl), Tcl_QueueEvent(3tcl),
Tcl_StackChannel(3tcl), Tcl_GetStdChannel(3tcl)
KEYWORDS
blocking, channel driver, channel registration, channel type, nonblocking