/usr/include/brlapi.h is in libbrlapi-dev 5.0-2ubuntu2.
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/*
* libbrlapi - A library providing access to braille terminals for applications.
*
* Copyright (C) 2002-2014 by
* Samuel Thibault <Samuel.Thibault@ens-lyon.org>
* Sébastien Hinderer <Sebastien.Hinderer@ens-lyon.org>
*
* libbrlapi comes with ABSOLUTELY NO WARRANTY.
*
* This is free software, placed under the terms of the
* GNU Lesser General Public License, as published by the Free Software
* Foundation; either version 2.1 of the License, or (at your option) any
* later version. Please see the file LICENSE-LGPL for details.
*
* Web Page: http://mielke.cc/brltty/
*
* This software is maintained by Dave Mielke <dave@mielke.cc>.
*/
/** \file
* \brief Types, defines and functions prototypes for \e BrlAPI's library
*/
#ifndef BRLAPI_INCLUDED
#define BRLAPI_INCLUDED
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/* #undef BRLAPI_WIN32 */
/** \defgroup brlapi_version Version of the BrlAPI library
* @{ */
/** Library version. */
#define BRLAPI_RELEASE "0.6.1"
/** Library major version. */
#define BRLAPI_MAJOR 0
/** Library minor version. */
#define BRLAPI_MINOR 6
/** Library revision. */
#define BRLAPI_REVISION 1
/** @} */
/* Types are defined there */
#include <sys/types.h>
#ifdef BRLAPI_WIN32
#include <windows.h>
#define BRLAPI_STDCALL __stdcall
#else /* BRLAPI_WIN32 */
#define BRLAPI_STDCALL
#endif /* BRLAPI_WIN32 */
#ifdef _MSC_VER
typedef __int64 uint64_t;
typedef __int32 uint32_t;
#define UINT64_C(x) (x ## Ui64)
#define PRIx64 "I64x"
typedef signed int ssize_t;
#else /* _MSC_VER */
/* this is for uint*_t */
#include <stdint.h>
/* NULL is defined there */
#include <unistd.h>
#include <inttypes.h> /* For PRIx64 */
#endif /* _MSC_VER */
#include <wchar.h>
/** \defgroup brlapi_handles BrlAPI handles
*
* Each function provided by BrlAPI comes in two versions.
*
* 1. A version whose name is prefixed by brlapi_ for clients opening only
* one simultaneous connection with BrlAPI (most frequen case)
*
* 2. A version whose name is prefixed by brlapi__ for use by clients
* wishing to open more than one connection to BrlAPI.
*
* A function called brlapi__foo is used in exactly the same way as its
* brlapi_foo counterpart, except that it takes an additional argument
* (the first one), which is a handle letting the client refer to a given
* connection in a similar manner to what file descriptors do.
*
* In case you want to check that your code is not erroneously using brlapi_foo
* functions, define BRLAPI_NO_SINGLE_SESSION before including <brlapi.h>: that
* will disable the declaration of all single session functions.
*
* @{ */
/** Type for BrlAPI hanles */
typedef struct brlapi_handle_t brlapi_handle_t;
/** Returns the size of an object of type brlapi_handle_t in bytes */
size_t BRLAPI_STDCALL brlapi_getHandleSize(void);
/** @} */
/** \defgroup brlapi_connection Connecting to BrlAPI
*
* Before calling any other function of the library, calling
* brlapi_openConnection() is needed to establish a connection to
* \e BrlAPI 's server.
* When the connection is not needed any more, brlapi_closeConnection() must be
* called to close the connection.
*
* @{ */
/** Default port number on which connections to \e BrlAPI can be established */
#define BRLAPI_SOCKETPORTNUM 4101
#define BRLAPI_SOCKETPORT "4101"
/** Default unix path on which connections to \e BrlAPI can be established */
#define BRLAPI_SOCKETPATH "/var/lib/BrlAPI"
/** \e brltty 's settings directory
*
* This is where authorization key and driver-dependent key names are found
* for instance. */
#define BRLAPI_ETCDIR "/etc"
/** Default name of the file containing \e BrlAPI 's authorization key
*
* This name is relative to BRLAPI_ETCDIR */
#define BRLAPI_AUTHKEYFILE "brlapi.key"
/** Default authorization setting */
#define BRLAPI_DEFAUTH BRLAPI_ETCDIR "/" BRLAPI_AUTHKEYFILE
#ifdef __MINGW32__
typedef HANDLE brlapi_fileDescriptor;
#else /* __MINGW32__ */
typedef int brlapi_fileDescriptor;
#endif /* __MINGW32__ */
/** \brief Settings structure for \e BrlAPI connection
*
* This structure holds every parameter needed to connect to \e BrlAPI: which
* file the authorization key can be found in and which computer to connect to.
*
* \par Examples:
* \code
* brlapi_connectionSettings_t settings;
*
* settings.auth="/etc/brlapi.key";
* settings.host="foo";
* \endcode
*
* \e libbrlapi will read authorization key from file \p /etc/brlapi.key
* and connect to the machine called "foo", on the default TCP port.
*
* \code
* settings.host="10.1.0.2";
* \endcode
*
* lets directly enter an IP address instead of a machine name.
*
* \code
* settings.host=":1";
* \endcode
*
* lets \e libbrlapi connect to the local computer, on port BRLAPI_SOCKETPORTNUM+1
*
* \sa brlapi_openConnection()
*/
typedef struct {
/** For security reasons, \e libbrlapi has to get authorized to connect to the
* \e BrlAPI server. This can be done via a secret key, for instance. This is
* the path to the file which holds it; it will hence have to be readable by
* the application.
*
* Setting \c NULL defaults it to local installation setup or to the content
* of the BRLAPI_AUTH environment variable, if it exists. */
char *auth;
/** This tells where the \e BrlAPI server resides: it might be listening on
* another computer, on any TCP port. It should look like "foo:1", which
* means TCP port number BRLAPI_SOCKETPORTNUM+1 on computer called "foo".
* \note Please check that resolving this name works before complaining
*
* Settings \c NULL defaults it to localhost, using the local installation's
* default TCP port, or to the content of the BRLAPI_HOST environment
* variable, if it exists. */
char *host;
} brlapi_connectionSettings_t;
/* BRLAPI_SETTINGS_INITIALIZER */
/** Allows to initialize a structure of type \e brlapi_connectionSettings_t *
* with default values. */
#define BRLAPI_SETTINGS_INITIALIZER { NULL, NULL }
/* brlapi_openConnection */
/** Open a socket and connect it to \e BrlAPI 's server
*
* This function first loads an authorization key as specified in settings.
* It then creates a TCP socket and connects it to the specified machine, on
* the specified port. It writes the authorization key on the socket and
* waits for acknowledgement.
*
* \return the file descriptor, or -1 on error
*
* \note The file descriptor is returned in case the client wants to
* communicate with the server without using \e libbrlapi functions. If it uses
* them however, it won't have to pass the file descriptor later, since the
* library keeps a copy of it. But that also means that
* brlapi_openConnection() may be called several times, but \e libbrlapi
* functions will always work with the last call's descriptor
*
* \par Example:
* \code
* if (brlapi_openConnection(&settings,&settings)<0) {
* fprintf(stderr,"couldn't connect to BrlAPI at %s: %s\n",
* settings.host, brlapi_strerror(&brlapi_error));
* exit(1);
* }
* \endcode
*
* \par Errors:
* \e BrlAPI might not be on this TCP port, the host name might not be
* resolvable, the authorization may fail,...
*
* \param desiredSettings this gives the desired connection parameters, as described
* in brlapi_connectionSettings_t. If \c NULL, defaults values are used, so that it is
* generally a good idea to give \c NULL as default, and only fill a
* brlapi_connectionSettings_t structure when the user gave parameters to the program
* for instance;
* \param actualSettings if not \c NULL, parameters which were actually used are
* stored here, if the application ever needs them.
*
* \sa
* brlapi_connectionSettings_t
* brlapi_writePacket()
* brlapi_readPacketHeader()
* brlapi_readPacketContent()
* brlapi_readPacket()
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
brlapi_fileDescriptor BRLAPI_STDCALL brlapi_openConnection(const brlapi_connectionSettings_t *desiredSettings, brlapi_connectionSettings_t *actualSettings);
#endif /* BRLAPI_NO_SINGLE_SESSION */
brlapi_fileDescriptor BRLAPI_STDCALL brlapi__openConnection(brlapi_handle_t *handle, const brlapi_connectionSettings_t *desiredSettings, brlapi_connectionSettings_t *actualSettings);
/* brlapi_closeConnection */
/** Cleanly close the socket
*
* This function locks until a closing acknowledgement is received from the
* server. The socket is then freed, so the file descriptor
* brlapi_openConnection() gave has no meaning any more
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
void BRLAPI_STDCALL brlapi_closeConnection(void);
#endif /* BRLAPI_NO_SINGLE_SESSION */
void BRLAPI_STDCALL brlapi__closeConnection(brlapi_handle_t *handle);
/** @} */
/** \defgroup brlapi_info Getting Terminal information
* \brief How to get information about the connected Terminal
*
* Before using Raw mode or key codes, the application should always check the
* type of the connected terminal, to be sure it is really the one it expects.
*
* One should also check for display size, so as to adjust further displaying
* on it.
* @{
*/
/** Maximum name length for names embeded in BrlAPI packets, not counting any
* termination \\0 character */
#define BRLAPI_MAXNAMELENGTH 31
/* brlapi_getDriverName */
/** Return the complete name of the driver used by \e brltty
*
* This function fills its argument with the whole name of the braille
* terminal if available, terminated with a '\\0'.
*
* \param buffer is the buffer given by the application;
* \param size is the maximum size for the name buffer.
*
* \return -1 on error, or a positive value giving the size of the needed
* buffer, if the supplied one is to small (same as snprintf()).
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_getDriverName(char *buffer, size_t size);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__getDriverName(brlapi_handle_t *handle, char *buffer, size_t size);
/* brlapi_getDisplaySize */
/** Return the size of the braille display */
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_getDisplaySize(unsigned int *x, unsigned int *y);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__getDisplaySize(brlapi_handle_t *handle, unsigned int *x, unsigned int *y);
/** @} */
/** \defgroup brlapi_tty Entering & leaving tty mode
* \brief How to take control of ttys for direct braille display / read
*
* Before being able to write on the braille display, the application must tell
* the server which tty it will handle.
*
* The application must also specify how braille keys will be delivered to it.
* Two ways are possible: key codes and commands:
*
* - key codes are specific to each braille driver, since the raw key code, as
* defined in the driver will be given for each key press.
* Using them leads to building highly driver-dependent applications, which
* can yet sometimes be useful to mimic existing proprietary applications
* for instance.
* - commands means that applications will get exactly the same values as
* \e brltty. This allows driver-independent clients, which will hopefully
* be nice to use with a lot of different terminals.
* \sa brlapi_readKey()
* @{
*/
/* brlapi_enterTtyMode */
/** Ask for some tty, with some key mechanism
*
* \param tty
* - If tty>=0 then take control of the specified tty.
* - If tty==::BRLAPI_TTY_DEFAULT then take control of the default tty.
*
* \param driver tells how the application wants brlapi_readKey() to return
* key presses. NULL or "" means BRLTTY commands are required,
* whereas a driver name means that raw key codes returned by this
* driver are expected.
*
* WINDOWPATH and WINDOWID should be propagated when running remote applications
* via ssh, for instance, along with BRLAPI_HOST and the authorization key (see
* SendEnv in ssh_config(5) and AcceptEnv in sshd_config(5))
*
* \return the used tty number on success, -1 on error
*
* \sa brlapi_leaveTtyMode() brlapi_readKey()
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_enterTtyMode(int tty, const char *driver);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__enterTtyMode(brlapi_handle_t *handle, int tty, const char *driver);
/** Select the default tty.
*
* The library takes the following steps:
* -# Try to get the tty number from the \c WINDOWID environment variable (for the \c xterm case).
* -# Try to get the tty number from the \c CONTROLVT environment variable.
* -# Read \c /proc/self/stat (on \c Linux).
*
* \sa brlapi_enterTtyMode()
*/
#define BRLAPI_TTY_DEFAULT -1
/* brlapi_enterTtyModeWithPath */
/** Ask for some tty specified by its path in the tty tree, with some key mechanism
*
* \param ttys points on the array of ttys representing the tty path to be got.
* Can be NULL if nttys is 0.
* \param count gives the number of elements in ttys.
* \param driver has the same meaning as in brlapi_enterTtyMode()
*
* Providing nttys == 0 means to get the root.
*
* \sa brlapi_enterTtyMode()
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_enterTtyModeWithPath(int *ttys, int count, const char *driver);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__enterTtyModeWithPath(brlapi_handle_t *handle, int *ttys, int count, const char *driver);
/* brlapi_leaveTtyMode */
/** Stop controlling the tty
*
* \return 0 on success, -1 on error.
*
* \sa brlapi_enterTtyMode()
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_leaveTtyMode(void);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__leaveTtyMode(brlapi_handle_t *handle);
/* brlapi_setFocus */
/** Tell the current tty to brltty
*
* This is intended for focus tellers, such as brltty, xbrlapi, screen, ...
* brlapi_enterTtyMode() must have been called beforehand to tell where this focus
* applies in the tty tree.
*
* \return 0 on success, -1 on error.
*
* \sa brlapi_enterTtyMode() brlapi_leaveTtyMode()
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_setFocus(int tty);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__setFocus(brlapi_handle_t *handle, int tty);
/** @} */
/** \defgroup brlapi_write Writing on the braille display
* \brief Write text to the braille display
*
* After brlapi_enterTtyMode() has been called, the application can
* call one of these functions to write things on the braille display.
*
* \note Be sure to call brlapi_enterTtyMode() \e before calling brlapi_write(), or
* else you'll get an error. This is particularly not always trivial when
* writing multithreaded applications.
*
* \note Dots are coded as described in ISO/TR 11548-1: a dot pattern is coded
* by a byte in which bit 0 is set iff dot 1 is up, bit 1 is set iff dot 2 is
* up, ... bit 7 is set iff dot 8 is up. This also corresponds to the low-order
* byte of the coding of unicode's braille row U+2800.
*
* \note Text is translated by the server one to one, by just using a simple
* wchar_t to pattern table, i.e. no contraction/expansion is performed, because
* the client would then have no way to know how wide the output would be and
* thus the quantity of text to feed. If contraction/expansion is desired, the
* client should perform it itself (e.g. thanks to liblouis or gnome-braille)
* and send the resulting dot patterns. This is actually exactly the same
* problem as font rendering on a graphical display: for better control,
* nowadays all font rasterization is performed on the client side, and mere
* pixmaps are sent to the X server.
*
* @{ */
/* brlapi_writeText */
/** Write the given \\0-terminated string to the braille display
*
* If the string is too long, it is truncated. If it's too short,
* it is padded with spaces. The text is assumed to be in the current
* locale charset, or latin1 if locales have not been initialized.
* To initialize locales, use setlocale(3).
*
* \param cursor gives the cursor position; if equal to ::BRLAPI_CURSOR_OFF, no cursor is shown at
* all; if cursor==::BRLAPI_CURSOR_LEAVE, the cursor is left where it is
*
* \param text points to the string to be displayed.
*
* \return 0 on success, -1 on error.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_writeText(int cursor, const char *text);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__writeText(brlapi_handle_t *handle, int cursor, const char *text);
/* brlapi_writeWText */
/** Write the given \\0-terminated unicode string to the braille display
*
* If the string is too long, it is truncated. If it's too short,
* it is padded with spaces.
*
* \param cursor gives the cursor position; if equal to ::BRLAPI_CURSOR_OFF, no cursor is shown at
* all; if cursor==::BRLAPI_CURSOR_LEAVE, the cursor is left where it is
*
* \param text points to the string to be displayed.
*
* \return 0 on success, -1 on error.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_writeWText(int cursor, const wchar_t *text);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__writeWText(brlapi_handle_t *handle, int cursor, const wchar_t *text);
/* brlapi_writeDots */
/** Write the given dots array to the display
*
* \param dots points on an array of dot information, one per character. Its
* size must hence be the same as what brlapi_getDisplaySize() returns.
*
* \return 0 on success, -1 on error.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_writeDots(const unsigned char *dots);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__writeDots(brlapi_handle_t *handle, const unsigned char *dots);
/* brlapi_writeArguments_t */
/** Structure containing arguments to be given to brlapi_write() */
typedef struct {
int displayNumber /** Display number ::BRLAPI_DISPLAY_DEFAULT == unspecified */;
unsigned int regionBegin /** Region of display to update, 1st character of display is 1 */;
unsigned int regionSize /** Number of characters held in text, andMask and orMask. */;
char *text /** Text to display, must hold as many characters as the region fields expresses. */;
int textSize /** Size of text in bytes. If -1, strlen() is used for computing it. */;
unsigned char *andMask /** And attributes; applied first */;
unsigned char *orMask /** Or attributes; applied \e after ANDing */;
int cursor /** ::BRLAPI_CURSOR_LEAVE == don't touch, ::BRLAPI_CURSOR_OFF == turn off, 1 = 1st char of display, ... */;
char *charset /** Text charset. NULL means it is assumed to be 8bits, and the same as the server's. "" means current locale's charset. If no locale was selected, defaults to NULL's meaning. */;
} brlapi_writeArguments_t;
/** Write to the default display on the braille device.
*
* \sa brlapi_write() brlapi_writeArguments_t
*/
#define BRLAPI_DISPLAY_DEFAULT -1
/** Do not change the cursor's state or position.
*
* \sa brlapi_writeText() brlapi_write() brlapi_writeArguments_t
*/
#define BRLAPI_CURSOR_LEAVE -1
/** Do not display the cursor.
*
* \sa brlapi_writeText() brlapi_write() brlapi_writeArguments_t
*/
#define BRLAPI_CURSOR_OFF 0
/* BRLAPI_WRITEARGUMENTS_INITIALIZER */
/** Allows to initialize a structure of type \e brlapi_writeArguments_t *
* with default values:
* displayNumber = ::BRLAPI_DISPLAY_DEFAULT; (unspecified)
* regionBegin = regionSize = 0; (update the whole display, DEPRECATED and will
* be forbidden in next release. You must always express the region you wish to
* update)
* text = andMask = orMask = NULL; (no text, no attribute)
* cursor = ::BRLAPI_CURSOR_LEAVE; (don't touch cursor)
*/
#define BRLAPI_WRITEARGUMENTS_INITIALIZER { BRLAPI_DISPLAY_DEFAULT, 0, 0, NULL, -1, NULL, NULL, BRLAPI_CURSOR_LEAVE, NULL }
/* brlapi_write */
/** Update a specific region of the braille display and apply and/or masks
*
* \param arguments gives information necessary for the update
*
* regionBegin and regionSize must be filled for specifying which part of the
* display will be updated, as well as the size (in characters, not bytes) of
* the text, andMask and orMask members.
*
* If given, the "text" field holds the text that will be displayed in the
* region. The char string must hold exactly as many characters as the region
* fields express. For multibyte text, this is the number of \e multibyte
* caracters. Notably, combining and double-width caracters count for 1.
*
* The actual length of the text in \e bytes may be specified thanks to
* textSize. If -1 is given, it will be computed thanks to strlen(), so "text"
* must then be a NUL-terminated string.
*
* The "andMask" and "orMask" masks, if present, are then applied on top of
* the text, one byte per character. This hence permits the superimposing of
* attributes over the text. For instance, setting an andMask mask full of
* BRLAPI_DOTS(1,1,1,1,1,1,0,0) will only keep (logical AND) dots 1-6,
* hence dropping dots 7 and 8. On the contrary, setting an orMask full of
* BRLAPI_DOT7|BRLAPI_DOT8 will add (logical OR) dots 7 and 8.
*
* The "charset" field, if present, specifies the charset of the "text" field.
* If it is "", the current locale's charset (if any) is assumed. Else, the
* 8-bit charset of the server is assumed.
*
* A special invocation is with an unmodified initialized structure: this clears
* the client's whole display, letting the display of other applications on
* the same tty or of applications "under" the tty appear. See Concurrency
* management section of the BrlAPI documentation for more details.
*
* \return 0 on success, -1 on error.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_write(const brlapi_writeArguments_t *arguments);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__write(brlapi_handle_t *handle, const brlapi_writeArguments_t *arguments);
/** @} */
#include "brlapi_keycodes.h"
/** \defgroup brlapi_keys Reading key presses
* \brief How to read key presses from the braille terminal
*
* Once brlapi_enterTtyMode() has been called, the application can call brlapi_readKey() to
* read key presses. Either key codes (see \ref brlapi_keycodes) or commands will be returned, depending
* on parameters given to brlapi_enterTtyMode().
*
* Key presses are buffered, so that calling brlapi_readKey() in non-blocking
* mode from time to time should suffice.
*
* @{
*/
/* brlapi_expandedKeyCode_t */
/** Structure holding the components of a key code as returned by brlapi_expandKeyCode() */
typedef struct {
unsigned int type /** the type value */;
unsigned int command /** the command value */;
unsigned int argument /** the argument value */;
unsigned int flags /** the flags value */;
} brlapi_expandedKeyCode_t;
/* brlapi_expandKeyCode */
/** Expand the components of a key code
*
* \param code the key code to be expanded
* \param expansion pointer to the structure that receives the components
*
* \return 0 on success, -1 on error
*/
int BRLAPI_STDCALL brlapi_expandKeyCode (brlapi_keyCode_t code, brlapi_expandedKeyCode_t *expansion);
/* brlapi_describedKeyCode_t */
/** Structure holding the components of a key code as returned by brlapi_describeKeyCode() */
typedef struct {
const char *type /** the type name */;
const char *command /** the command name */;
unsigned int argument /** the argument value */;
unsigned int flags /** the flag count */;
const char *flag[64 - BRLAPI_KEY_FLAGS_SHIFT] /** the flag names */;
brlapi_expandedKeyCode_t values /** the actual values of the components */;
} brlapi_describedKeyCode_t;
/* brlapi_describeKeyCode */
/** Describe the components of a key code.
*
* \param code the keycode to be described
* \param description pointer to the structure that receives the description
*
* \return 0 on success, -1 on error
*/
int BRLAPI_STDCALL brlapi_describeKeyCode (brlapi_keyCode_t code, brlapi_describedKeyCode_t *description);
/** Unicode braille row */
#define BRLAPI_UC_ROW 0x2800UL
/* brlapi_readKey */
/** Read a key from the braille keyboard
*
* This function returns one key press's code.
*
* If NULL or "" was given to brlapi_enterTtyMode(), a \e brltty command is returned,
* as described in the documentation for ::brlapi_keyCode_t . It is hence pretty
* driver-independent, and should be used by default when no other option is
* possible.
*
* By default, all commands but those which restart drivers and switch
* virtual terminals are returned to the application and not to brltty.
* If the application doesn't want to see some command events,
* it should call brlapi_ignoreKeys()
*
* If some driver name was given to brlapi_enterTtyMode(), a raw keycode is returned,
* as specified by the terminal driver, usually in <brltty/brldefs-xy> where xy
* is the driver's code. It generally corresponds to the very code that the
* terminal tells to the driver.
* This should only be used by applications which are dedicated to a particular
* braille terminal. Hence, checking the terminal type thanks to a call to
* brlapi_getDriverName() before getting tty control is a pretty good idea.
*
* By default, all the keypresses will be passed to the client, none will go
* through brltty, so the application will have to handle console switching
* itself for instance.
*
* \param wait tells whether the call should block until a key is pressed (1)
* or should only probe key presses (0);
* \param code holds the key code if a key press is indeed read.
*
* \return -1 on error or signal interrupt and *code is then undefined, 0 if
* block was 0 and no key was pressed so far, or 1 and *code holds the key code.
*
* Programming hints:
*
* If your application is only driven by braille command keypresses, you can
* just call brlapi_readKey(1, &code) so that it keeps blocking, waiting for
* keypresses.
*
* Else, you'll probably want to use the file descriptor returned by
* brlapi_openConnection() in your "big polling loop". For instance:
*
* - in a \c select() loop, just add it to the \c readfds and \c exceptfds file
* descriptor sets;
* - in a gtk or atspi application, use
* \c g_io_add_watch(fileDescriptor, \c G_IO_IN|G_IO_ERR|G_IO_HUP, \c f, \c data)
* for adding a callback called \c f;
* - in an Xt/Xaw/motif-based application, use
* \c XtAppAddInput(app_context, \c fileDescriptor, \c XtInputReadMask|XtInputExceptMask, \c f, \c data)
* - etc.
*
* and then, when you detect inbound trafic on the file descriptor, do something
* like this:
*
* while (brlapi_readKey(0, &code) {
* // process keycode code
* // ...
* }
*
* The \c while loop is needed for processing \e all pending key presses, else
* some of them may be left in libbrlapi's internal key buffer and you wouldn't
* get them immediately.
*
* \note If the read is interrupted by a signal, brlapi_readKey() will return
* -1, brlapi_errno will be BRLAPI_ERROR_LIBCERR and errno will be EINTR.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_readKey(int wait, brlapi_keyCode_t *code);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__readKey(brlapi_handle_t *handle, int wait, brlapi_keyCode_t *code);
/** types of key ranges */
typedef enum {
brlapi_rangeType_all, /**< all keys, code must be 0 */
brlapi_rangeType_type, /**< all keys of a given type */
brlapi_rangeType_command, /**< all keys of a given command block, i.e. matching the key type and command parts */
brlapi_rangeType_key, /**< a given key with any flags */
brlapi_rangeType_code, /**< a given key code */
} brlapi_rangeType_t;
/* brlapi_ignoreKeys */
/** Ignore some key presses from the braille keyboard
*
* This function asks the server to give the provided keys to \e brltty, rather
* than returning them to the application via brlapi_readKey().
*
* \param type type of keys to be ignored
* \param keys array of keys to be ignored
* \param count number of keys
*
* \note The given codes should be \e brltty commands (NULL or "" was given to
* brlapi_enterTtyMode())
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_ignoreKeys(brlapi_rangeType_t type, const brlapi_keyCode_t keys[], unsigned int count);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__ignoreKeys(brlapi_handle_t *handle, brlapi_rangeType_t type, const brlapi_keyCode_t keys[], unsigned int count);
/* brlapi_acceptKeys */
/** Accept some key presses from the braille keyboard
*
* This function asks the server to give the provided keys to the application,
* and not give them to \e brltty.
*
* \param type type of keys to be ignored
* \param keys array of keys to be ignored
* \param count number of keys
*
* \note The given codes should be \e brltty commands (NULL or "" was given to
* brlapi_enterTtyMode())
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_acceptKeys(brlapi_rangeType_t type, const brlapi_keyCode_t keys[], unsigned int count);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__acceptKeys(brlapi_handle_t *handle, brlapi_rangeType_t type, const brlapi_keyCode_t keys[], unsigned int count);
/* brlapi_ignoreAllKeys */
/** Ignore all key presses from the braille keyboard
*
* This function asks the server to give all keys to \e brltty, rather than
* returning them to the application via brlapi_readKey().
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_ignoreAllKeys(void);
#define brlapi_ignoreAllKeys() brlapi_ignoreKeys(brlapi_rangeType_all, NULL, 0)
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__ignoreAllKeys(brlapi_handle_t *handle);
#define brlapi__ignoreAllKeys(handle) brlapi__ignoreKeys(handle, brlapi_rangeType_all, NULL, 0)
/* brlapi_acceptAllKeys */
/** Accept all key presses from the braille keyboard
*
* This function asks the server to give all keys to the application, and not
* give them to \e brltty.
*
* Warning: after calling this function, make sure to call brlapi_ignoreKeys()
* for ignoring important keys like BRL_CMD_SWITCHVT_PREV/NEXT and such.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_acceptAllKeys(void);
#define brlapi_acceptAllKeys() brlapi_acceptKeys(brlapi_rangeType_all, NULL, 0)
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__acceptAllKeys(brlapi_handle_t *handle);
#define brlapi__acceptAllKeys(handle) brlapi__acceptKeys(handle, brlapi_rangeType_all, NULL, 0)
/** Type for raw keycode ranges
*
* Denotes the set of keycodes between \e first and \e last (inclusive)
*/
typedef struct {
brlapi_keyCode_t first; /**< first key of the range */
brlapi_keyCode_t last; /**< last key of the range */
} brlapi_range_t;
/* brlapi_ignoreKeyRanges */
/** Ignore some key presses from the braille keyboard
*
* This function asks the server to give the provided key ranges to \e brltty,
* rather than returning them to the application via brlapi_readKey().
*
* \param ranges key ranges, which are inclusive
* \param count number of ranges
*
* \note The given codes should be raw keycodes (i.e. some driver name was given
* to brlapi_enterTtyMode()) */
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_ignoreKeyRanges(brlapi_range_t ranges[], unsigned int count);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__ignoreKeyRanges(brlapi_handle_t *handle, brlapi_range_t ranges[], unsigned int count);
/* brlapi_acceptKeyRanges */
/** Accept some key presses from the braille keyboard
*
* This function asks the server to return the provided key ranges (inclusive)
* to the application, and not give them to \e brltty.
*
* \param ranges key ranges, which are inclusive
* \param count number of ranges
*
* \note The given codes should be raw keycodes (i.e. some driver name was given
* to brlapi_enterTtyMode()) */
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_acceptKeyRanges(brlapi_range_t ranges[], unsigned int count);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__acceptKeyRanges(brlapi_handle_t *handle, brlapi_range_t ranges[], unsigned int count);
/** @} */
/** \defgroup brlapi_driverspecific Driver-Specific modes
* \brief Raw and Suspend Modes mechanism
*
* If the application wants to directly talk to the braille terminal, it should
* use Raw Mode. In this special mode, the driver gives the whole control of the
* terminal to it: \e brltty doesn't work any more.
*
* For this, it simply has to call brlapi_enterRawMode(), then brlapi_sendRaw()
* and brlapi_recvRaw(), and finally give control back thanks to
* brlapi_leaveRawMode().
*
* Special care of the terminal should be taken, since one might completely
* trash the terminal's data, or even lock it! The application should always
* check for terminal's type thanks to brlapi_getDriverName().
*
* The client can also make brltty close the driver by using brlapi_suspendDriver(),
* and resume it again with brlapi_resumeDriver(). This should not be used if
* possible: raw mode should be sufficient for any use. If not, please ask for
* features :)
*
* @{
*/
/* brlapi_enterRawMode */
/** Switch to Raw mode
* \param driver Specifies the name of the driver for which the raw
* communication will be established.
* \return 0 on success, -1 on error */
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_enterRawMode(const char *driver);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__enterRawMode(brlapi_handle_t *handle, const char *driver);
/* brlapi_leaveRawMode */
/** Leave Raw mode
* \return 0 on success, -1 on error */
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_leaveRawMode(void);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__leaveRawMode(brlapi_handle_t *handle);
/* brlapi_sendRaw */
/** Send Raw data
*
* \param buffer points on the data;
* \param size holds the packet size.
* \return size on success, -1 on error */
#ifndef BRLAPI_NO_SINGLE_SESSION
ssize_t BRLAPI_STDCALL brlapi_sendRaw(const void *buffer, size_t size);
#endif /* BRLAPI_NO_SINGLE_SESSION */
ssize_t BRLAPI_STDCALL brlapi__sendRaw(brlapi_handle_t *handle, const void *buffer, size_t size);
/* brlapi_recvRaw */
/** Get Raw data
*
* \param buffer points on a buffer where the function will store the received
* data;
* \param size holds the buffer size.
* \return its size, -1 on error or signal interruption */
#ifndef BRLAPI_NO_SINGLE_SESSION
ssize_t BRLAPI_STDCALL brlapi_recvRaw(void *buffer, size_t size);
#endif /* BRLAPI_NO_SINGLE_SESSION */
ssize_t BRLAPI_STDCALL brlapi__recvRaw(brlapi_handle_t *handle, void *buffer, size_t size);
/* brlapi_suspendDriver */
/** Suspend braille driver
* \param driver Specifies the name of the driver which will be suspended.
* \return -1 on error
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_suspendDriver(const char *driver);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__suspendDriver(brlapi_handle_t *handle, const char *driver);
/* brlapi_resumeDriver */
/** Resume braille driver
* \return -1 on error
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_resumeDriver(void);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__resumeDriver(brlapi_handle_t *handle);
/** @} */
/** \defgroup brlapi_error Error handling
* \brief How to handle errors
*
* When a function fails, ::brlapi_errno will hold an error
* code to explain why it failed. It should always be reported somehow.
*
* Although most errors are reported that way, some (called exceptions)
* are reported asynchronously for efficiency reasons, because they always
* just report a programming error. The affected functions are: brlapi_setFocus,
* brlapi_write* and brlapi_sendRaw. When they happen, the next call to
* brlapi_something will close the connection and call the \e exception
* handler. If the exception handler returns, the brlapi_something function will
* return an end-of-file error.
*
* The default exception handler (brlapi_defaultExceptionHandler()) dumps
* the guilty packet before abort()ing. It can be replaced by calling
* brlapi_setExceptionHandler(). For instance, the Java and Python bindings use
* this for raising a Java or Python exception that may be caught.
*
* @{ */
/* Error codes */
#define BRLAPI_ERROR_SUCCESS 0 /**< Success */
#define BRLAPI_ERROR_NOMEM 1 /**< Not enough memory */
#define BRLAPI_ERROR_TTYBUSY 2 /**< A connection is already running in this tty */
#define BRLAPI_ERROR_DEVICEBUSY 3 /**< A connection is already using RAW or suspend mode */
#define BRLAPI_ERROR_UNKNOWN_INSTRUCTION 4 /**< Not implemented in protocol */
#define BRLAPI_ERROR_ILLEGAL_INSTRUCTION 5 /**< Forbiden in current mode */
#define BRLAPI_ERROR_INVALID_PARAMETER 6 /**< Out of range or have no sense */
#define BRLAPI_ERROR_INVALID_PACKET 7 /**< Invalid size */
#define BRLAPI_ERROR_CONNREFUSED 8 /**< Connection refused */
#define BRLAPI_ERROR_OPNOTSUPP 9 /**< Operation not supported */
#define BRLAPI_ERROR_GAIERR 10 /**< Getaddrinfo error */
#define BRLAPI_ERROR_LIBCERR 11 /**< Libc error */
#define BRLAPI_ERROR_UNKNOWNTTY 12 /**< Couldn't find out the tty number */
#define BRLAPI_ERROR_PROTOCOL_VERSION 13 /**< Bad protocol version */
#define BRLAPI_ERROR_EOF 14 /**< Unexpected end of file */
#define BRLAPI_ERROR_EMPTYKEY 15 /**< Key file empty */
#define BRLAPI_ERROR_DRIVERERROR 16 /**< Packet returned by driver too large */
#define BRLAPI_ERROR_AUTHENTICATION 17 /**< Authentication failed */
/* brlapi_errlist */
/** Error message list
*
* These are the string constants used by brlapi_perror().
*/
extern const char *brlapi_errlist[];
/* brlapi_nerr */
/** Number of error messages */
extern const int brlapi_nerr;
/* brlapi_perror */
/** Print a BrlAPI error message
*
* brlapi_perror() reads ::brlapi_error, and acts just like perror().
*/
void BRLAPI_STDCALL brlapi_perror(const char *s);
/* brlapi_error_t */
/** All information that is needed to describe brlapi errors */
typedef struct {
int brlerrno;
int libcerrno;
int gaierrno;
const char *errfun;
} brlapi_error_t;
/** Get per-thread error location
*
* In multithreaded software, ::brlapi_error is thread-specific, so api.h
* cheats about the brlapi_error token and actually calls
* brlapi_error_location().
*
* This gets the thread specific location of global variable ::brlapi_error
*/
brlapi_error_t * BRLAPI_STDCALL brlapi_error_location(void);
/** Global variable brlapi_error
*
* ::brlapi_error is a global left-value containing the last error information.
* Its errno field is not reset to BRLAPI_ERROR_SUCCESS on success.
*
* This information may be copied in brlapi_error_t variables for later use
* with the brlapi_strerror function.
*/
extern brlapi_error_t brlapi_error;
/** Shorthand for brlapi_error.errno */
extern int brlapi_errno;
/** Shorthand for brlapi_error.libcerrno */
extern int brlapi_libcerrno;
/** Shorthand for brlapi_error.gaierrno */
extern int brlapi_gaierrno;
/** Shorthand for brlapi_error.errfun */
extern const char *brlapi_errfun;
/** Cheat about the brlapi_error C token */
#define brlapi_error (*brlapi_error_location())
/** Cheat about the brlapi_errno C token */
#define brlapi_errno (brlapi_error.brlerrno)
/** Cheat about the brlapi_libcerrno C token */
#define brlapi_libcerrno (brlapi_error.libcerrno)
/** Cheat about the brlapi_gaierrno C token */
#define brlapi_gaierrno (brlapi_error.gaierrno)
/** Cheat about the brlapi_errfun C token */
#define brlapi_errfun (brlapi_error.errfun)
/* brlapi_strerror */
/** Get plain error message
*
* brlapi_strerror() returns the plain error message corresponding to its
* argument.
*/
const char * BRLAPI_STDCALL brlapi_strerror(const brlapi_error_t *error);
/** Type for packet type. Only unsigned can cross networks, 32bits */
typedef uint32_t brlapi_packetType_t;
/* brlapi_getPacketTypeName */
/** Get plain packet type
*
* brlapi_getPacketTypeName() returns the plain packet type name corresponding to
* its argument.
*/
const char * BRLAPI_STDCALL brlapi_getPacketTypeName(brlapi_packetType_t type);
/* brlapi_exceptionHandler_t */
/** Types for exception handlers
*
* Types of exception handlers which are to be given to
* brlapi_setExceptionHandler() and brlapi__setExceptionHandler().
*
* \param handle is the handle corresponding to the guilty connection;
* \param error is a BRLAPI_ERROR_ error code;
* \param type is the type of the guilty packet;
* \param packet points to the content of the guilty packet (might be a little bit truncated);
* \param size gives the guilty packet's size.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
typedef void (BRLAPI_STDCALL *brlapi_exceptionHandler_t)(int error, brlapi_packetType_t type, const void *packet, size_t size);
#endif /* BRLAPI_NO_SINGLE_SESSION */
typedef void (BRLAPI_STDCALL *brlapi__exceptionHandler_t)(brlapi_handle_t *handle, int error, brlapi_packetType_t type, const void *packet, size_t size);
/* brlapi_strexception */
/** Describes an exception
*
* brlapi_strexception() puts a text describing the given exception in buffer.
*
* The beginning of the guilty packet is dumped as a sequence of hex bytes.
*
* \return the size of the text describing the exception, following
* snprintf()'s semantics.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_strexception(char *buffer, size_t bufferSize, int error, brlapi_packetType_t type, const void *packet, size_t packetSize);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__strexception(brlapi_handle_t *handle, char *buffer, size_t bufferSize, int error, brlapi_packetType_t type, const void *packet, size_t packetSize);
/* brlapi_setExceptionHandler */
/** Set a new exception handler
*
* brlapi_setExceptionHandler() replaces the previous exception handler with
* the handler parameter. The previous exception handler is returned to make
* chaining error handlers possible.
*
* The default handler just prints the exception and abort()s.
*/
#ifndef BRLAPI_NO_SINGLE_SESSION
brlapi_exceptionHandler_t BRLAPI_STDCALL brlapi_setExceptionHandler(brlapi_exceptionHandler_t handler);
#endif /* BRLAPI_NO_SINGLE_SESSION */
brlapi__exceptionHandler_t BRLAPI_STDCALL brlapi__setExceptionHandler(brlapi_handle_t *handle, brlapi__exceptionHandler_t handler);
#ifndef BRLAPI_NO_SINGLE_SESSION
void BRLAPI_STDCALL brlapi_defaultExceptionHandler(int error, brlapi_packetType_t type, const void *packet, size_t size);
#endif /* BRLAPI_NO_SINGLE_SESSION */
void BRLAPI_STDCALL brlapi__defaultExceptionHandler(brlapi_handle_t *handle, int error, brlapi_packetType_t type, const void *packet, size_t size);
/** @} */
/* Windows-specific tricks - don't look at this */
#ifdef BRLAPI_WIN32
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_writeTextWin(int cursor, const void *str, int wide);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__writeTextWin(brlapi_handle_t *handle, int cursor, const void *str, int wide);
#ifndef BRLAPI_NO_SINGLE_SESSION
int BRLAPI_STDCALL brlapi_writeWin(const brlapi_writeArguments_t *s, int wide);
#endif /* BRLAPI_NO_SINGLE_SESSION */
int BRLAPI_STDCALL brlapi__writeWin(brlapi_handle_t *handle, const brlapi_writeArguments_t *s, int wide);
#ifdef UNICODE
#ifndef BRLAPI_NO_SINGLE_SESSION
#define brlapi_writeText(cursor, str) brlapi_writeTextWin(cursor, str, 1)
#endif /* BRLAPI_NO_SINGLE_SESSION */
#define brlapi__writeText(handle, cursor, str) brlapi__writeTextWin(handle, cursor, str, 1)
#ifndef BRLAPI_NO_SINGLE_SESSION
#define brlapi_write(s) brlapi_writeWin(s, 1)
#endif /* BRLAPI_NO_SINGLE_SESSION */
#define brlapi__write(handle, s) brlapi__writeWin(handle, s, 1)
#else /* UNICODE */
#ifndef BRLAPI_NO_SINGLE_SESSION
#define brlapi_writeText(cursor, str) brlapi_writeTextWin(cursor, str, 0)
#endif /* BRLAPI_NO_SINGLE_SESSION */
#define brlapi__writeText(handle, cursor, str) brlapi__writeTextWin(handle, cursor, str, 0)
#ifndef BRLAPI_NO_SINGLE_SESSION
#define brlapi_write(s) brlapi_writeWin(s, 0)
#endif /* BRLAPI_NO_SINGLE_SESSION */
#define brlapi__write(handle, s) brlapi__writeWin(handle, s, 0)
#endif /* UNICODE */
#endif /* BRLAPI_WIN32 */
#ifndef BRLAPI_NO_DEPRECATED
/** \defgroup brlapi_deprecated Deprecated names
*
* With version 0.5.0, BrlAPI is now provided through including <brlapi.h> and
* got a big renaming pass. Old names are still available through macros, but
* they are deprecated since they will get dropped in the next release. This
* documentation is for you to know the new names.
*
* For checking that you have completely switched to new names, just define
* BRLAPI_NO_DEPRECATED: that will disable compatibility macros.
*
* @{ */
#define brlapi_settings_t brlapi_connectionSettings_t
/** brlapi_writeStruct, replaced by brlapi_writeArguments_t */
typedef struct {
int displayNumber;
unsigned int regionBegin;
unsigned int regionSize;
char *text;
int textSize;
unsigned char *attrAnd;
unsigned char *attrOr;
int cursor;
char *charset;
} brlapi_writeStruct;
#define BRLAPI_WRITESTRUCT_INITIALIZER BRLAPI_WRITEARGUMENTS_INITIALIZER
#define brl_keycode_t brlapi_keyCode_t
#define brl_type_t brlapi_packetType_t
#define BRLCOMMANDS NULL
#define BRL_KEYCODE_MAX BRLAPI_KEY_MAX
#ifndef BRLAPI_NO_SINGLE_SESSION
#define brlapi_initializeConnection brlapi_openConnection
#define brlapi_getTty brlapi_enterTtyMode
#define brlapi_getTtyPath brlapi_enterTtyModeWithPath
#define brlapi_leaveTty brlapi_leaveTtyMode
#define brlapi_unignoreKeyRange brlapi_acceptKeyRange
#define brlapi_unignoreKeySet brlapi_acceptKeySet
#define brlapi_getRaw brlapi_enterRawMode
#define brlapi_leaveRaw brlapi_leaveRawMode
#define brlapi_suspend brlapi_suspendDriver
#define brlapi_resume brlapi_resumeDriver
#endif /* BRLAPI_NO_SINGLE_SESSION */
#define BRLERR_SUCCESS BRLAPI_ERROR_SUCCESS
#define BRLERR_NOMEM BRLAPI_ERROR_NOMEM
#define BRLERR_TTYBUSY BRLAPI_ERROR_TTYBUSY
#define BRLERR_DEVICEBUSY BRLAPI_ERROR_DEVICEBUSY
#define BRLERR_UNKNOWN_INSTRUCTION BRLAPI_ERROR_UNKNOWN_INSTRUCTION
#define BRLERR_ILLEGAL_INSTRUCTION BRLAPI_ERROR_ILLEGAL_INSTRUCTION
#define BRLERR_INVALID_PARAMETER BRLAPI_ERROR_INVALID_PARAMETER
#define BRLERR_INVALID_PACKET BRLAPI_ERROR_INVALID_PACKET
#define BRLERR_CONNREFUSED BRLAPI_ERROR_CONNREFUSED
#define BRLERR_OPNOTSUPP BRLAPI_ERROR_OPNOTSUPP
#define BRLERR_GAIERR BRLAPI_ERROR_GAIERR
#define BRLERR_LIBCERR BRLAPI_ERROR_LIBCERR
#define BRLERR_UNKNOWNTTY BRLAPI_ERROR_UNKNOWNTTY
#define BRLERR_PROTOCOL_VERSION BRLAPI_ERROR_PROTOCOL_VERSION
#define BRLERR_EOF BRLAPI_ERROR_EOF
#define BRLERR_EMPTYKEY BRLAPI_ERROR_EMPTYKEY
#define BRLERR_DRIVERERROR BRLAPI_ERROR_DRIVERERROR
/** @} */
#endif /* BRLAPI_NO_DEPRECATED */
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* BRLAPI_INCLUDED */
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