putty/putty.h

1307 строки
43 KiB
C
Исходник Обычный вид История

#ifndef PUTTY_PUTTY_H
#define PUTTY_PUTTY_H
#include <stddef.h> /* for wchar_t */
/*
* Global variables. Most modules declare these `extern', but
* window.c will do `#define PUTTY_DO_GLOBALS' before including this
* module, and so will get them properly defined.
*/
#ifndef GLOBAL
#ifdef PUTTY_DO_GLOBALS
#define GLOBAL
#else
#define GLOBAL extern
#endif
#endif
#ifndef DONE_TYPEDEFS
#define DONE_TYPEDEFS
typedef struct config_tag Config;
typedef struct backend_tag Backend;
typedef struct terminal_tag Terminal;
#endif
#include "puttyps.h"
#include "network.h"
#include "misc.h"
/*
* Fingerprints of the PGP master keys that can be used to establish a trust
* path between an executable and other files.
*/
#define PGP_RSA_MASTER_KEY_FP \
"8F 15 97 DA 25 30 AB 0D 88 D1 92 54 11 CF 0C 4C"
#define PGP_DSA_MASTER_KEY_FP \
"313C 3E76 4B74 C2C5 F2AE 83A8 4F5E 6DF5 6A93 B34E"
/* Three attribute types:
* The ATTRs (normal attributes) are stored with the characters in
* the main display arrays
*
* The TATTRs (temporary attributes) are generated on the fly, they
* can overlap with characters but not with normal attributes.
*
* The LATTRs (line attributes) are an entirely disjoint space of
* flags.
*
* The DATTRs (display attributes) are internal to terminal.c (but
* defined here because their values have to match the others
* here); they reuse the TATTR_* space but are always masked off
* before sending to the front end.
*
* ATTR_INVALID is an illegal colour combination.
*/
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
#define TATTR_ACTCURS 0x40000000UL /* active cursor (block) */
#define TATTR_PASCURS 0x20000000UL /* passive cursor (box) */
#define TATTR_RIGHTCURS 0x10000000UL /* cursor-on-RHS */
#define TATTR_COMBINING 0x80000000UL /* combining characters */
#define DATTR_STARTRUN 0x80000000UL /* start of redraw run */
#define TDATTR_MASK 0xF0000000UL
#define TATTR_MASK (TDATTR_MASK)
#define DATTR_MASK (TDATTR_MASK)
#define LATTR_NORM 0x00000000UL
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
#define LATTR_WIDE 0x00000001UL
#define LATTR_TOP 0x00000002UL
#define LATTR_BOT 0x00000003UL
#define LATTR_MODE 0x00000003UL
#define LATTR_WRAPPED 0x00000010UL /* this line wraps to next */
#define LATTR_WRAPPED2 0x00000020UL /* with WRAPPED: CJK wide character
wrapped to next line, so last
single-width cell is empty */
#define ATTR_INVALID 0x03FFFFU
/* Like Linux use the F000 page for direct to font. */
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
#define CSET_OEMCP 0x0000F000UL /* OEM Codepage DTF */
#define CSET_ACP 0x0000F100UL /* Ansi Codepage DTF */
/* These are internal use overlapping with the UTF-16 surrogates */
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
#define CSET_ASCII 0x0000D800UL /* normal ASCII charset ESC ( B */
#define CSET_LINEDRW 0x0000D900UL /* line drawing charset ESC ( 0 */
#define CSET_SCOACS 0x0000DA00UL /* SCO Alternate charset */
#define CSET_GBCHR 0x0000DB00UL /* UK variant charset ESC ( A */
#define CSET_MASK 0xFFFFFF00UL /* Character set mask */
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
#define DIRECT_CHAR(c) ((c&0xFFFFFC00)==0xD800)
#define DIRECT_FONT(c) ((c&0xFFFFFE00)==0xF000)
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
#define UCSERR (CSET_LINEDRW|'a') /* UCS Format error character. */
/*
* UCSWIDE is a special value used in the terminal data to signify
* the character cell containing the right-hand half of a CJK wide
* character. We use 0xDFFF because it's part of the surrogate
* range and hence won't be used for anything else (it's impossible
* to input it via UTF-8 because our UTF-8 decoder correctly
* rejects surrogates).
*/
#define UCSWIDE 0xDFFF
#define ATTR_NARROW 0x800000U
#define ATTR_WIDE 0x400000U
#define ATTR_BOLD 0x040000U
#define ATTR_UNDER 0x080000U
#define ATTR_REVERSE 0x100000U
#define ATTR_BLINK 0x200000U
#define ATTR_FGMASK 0x0001FFU
#define ATTR_BGMASK 0x03FE00U
#define ATTR_COLOURS 0x03FFFFU
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
#define ATTR_FGSHIFT 0
#define ATTR_BGSHIFT 9
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
/*
* The definitive list of colour numbers stored in terminal
* attribute words is kept here. It is:
*
* - 0-7 are ANSI colours (KRGYBMCW).
* - 8-15 are the bold versions of those colours.
* - 16-255 are the remains of the xterm 256-colour mode (a
* 216-colour cube with R at most significant and B at least,
* followed by a uniform series of grey shades running between
* black and white but not including either on grounds of
* redundancy).
* - 256 is default foreground
* - 257 is default bold foreground
* - 258 is default background
* - 259 is default bold background
* - 260 is cursor foreground
* - 261 is cursor background
*/
#define ATTR_DEFFG (256 << ATTR_FGSHIFT)
#define ATTR_DEFBG (258 << ATTR_BGSHIFT)
#define ATTR_DEFAULT (ATTR_DEFFG | ATTR_DEFBG)
struct sesslist {
int nsessions;
char **sessions;
char *buffer; /* so memory can be freed later */
};
struct unicode_data {
char **uni_tbl;
int dbcs_screenfont;
int font_codepage;
int line_codepage;
wchar_t unitab_scoacs[256];
wchar_t unitab_line[256];
wchar_t unitab_font[256];
wchar_t unitab_xterm[256];
wchar_t unitab_oemcp[256];
unsigned char unitab_ctrl[256];
};
#define LGXF_OVR 1 /* existing logfile overwrite */
#define LGXF_APN 0 /* existing logfile append */
#define LGXF_ASK -1 /* existing logfile ask */
#define LGTYP_NONE 0 /* logmode: no logging */
#define LGTYP_ASCII 1 /* logmode: pure ascii */
#define LGTYP_DEBUG 2 /* logmode: all chars of traffic */
#define LGTYP_PACKETS 3 /* logmode: SSH data packets */
#define LGTYP_SSHRAW 4 /* logmode: SSH raw data */
typedef enum {
/* Actual special commands. Originally Telnet, but some codes have
* been re-used for similar specials in other protocols. */
TS_AYT, TS_BRK, TS_SYNCH, TS_EC, TS_EL, TS_GA, TS_NOP, TS_ABORT,
TS_AO, TS_IP, TS_SUSP, TS_EOR, TS_EOF, TS_LECHO, TS_RECHO, TS_PING,
TS_EOL,
/* Special command for SSH. */
TS_REKEY,
/* POSIX-style signals. (not Telnet) */
TS_SIGABRT, TS_SIGALRM, TS_SIGFPE, TS_SIGHUP, TS_SIGILL,
TS_SIGINT, TS_SIGKILL, TS_SIGPIPE, TS_SIGQUIT, TS_SIGSEGV,
TS_SIGTERM, TS_SIGUSR1, TS_SIGUSR2,
/* Pseudo-specials used for constructing the specials menu. */
TS_SEP, /* Separator */
TS_SUBMENU, /* Start a new submenu with specified name */
TS_EXITMENU /* Exit current submenu or end of specials */
} Telnet_Special;
struct telnet_special {
const char *name;
int code;
};
typedef enum {
MBT_NOTHING,
MBT_LEFT, MBT_MIDDLE, MBT_RIGHT, /* `raw' button designations */
MBT_SELECT, MBT_EXTEND, MBT_PASTE, /* `cooked' button designations */
MBT_WHEEL_UP, MBT_WHEEL_DOWN /* mouse wheel */
} Mouse_Button;
typedef enum {
MA_NOTHING, MA_CLICK, MA_2CLK, MA_3CLK, MA_DRAG, MA_RELEASE
} Mouse_Action;
/* Keyboard modifiers -- keys the user is actually holding down */
#define PKM_SHIFT 0x01
#define PKM_CONTROL 0x02
#define PKM_META 0x04
#define PKM_ALT 0x08
/* Keyboard flags that aren't really modifiers */
#define PKF_CAPSLOCK 0x10
#define PKF_NUMLOCK 0x20
#define PKF_REPEAT 0x40
/* Stand-alone keysyms for function keys */
typedef enum {
PK_NULL, /* No symbol for this key */
/* Main keypad keys */
PK_ESCAPE, PK_TAB, PK_BACKSPACE, PK_RETURN, PK_COMPOSE,
/* Editing keys */
PK_HOME, PK_INSERT, PK_DELETE, PK_END, PK_PAGEUP, PK_PAGEDOWN,
/* Cursor keys */
PK_UP, PK_DOWN, PK_RIGHT, PK_LEFT, PK_REST,
/* Numeric keypad */ /* Real one looks like: */
PK_PF1, PK_PF2, PK_PF3, PK_PF4, /* PF1 PF2 PF3 PF4 */
PK_KPCOMMA, PK_KPMINUS, PK_KPDECIMAL, /* 7 8 9 - */
PK_KP0, PK_KP1, PK_KP2, PK_KP3, PK_KP4, /* 4 5 6 , */
PK_KP5, PK_KP6, PK_KP7, PK_KP8, PK_KP9, /* 1 2 3 en- */
PK_KPBIGPLUS, PK_KPENTER, /* 0 . ter */
/* Top row */
PK_F1, PK_F2, PK_F3, PK_F4, PK_F5,
PK_F6, PK_F7, PK_F8, PK_F9, PK_F10,
PK_F11, PK_F12, PK_F13, PK_F14, PK_F15,
PK_F16, PK_F17, PK_F18, PK_F19, PK_F20,
PK_PAUSE
} Key_Sym;
#define PK_ISEDITING(k) ((k) >= PK_HOME && (k) <= PK_PAGEDOWN)
#define PK_ISCURSOR(k) ((k) >= PK_UP && (k) <= PK_REST)
#define PK_ISKEYPAD(k) ((k) >= PK_PF1 && (k) <= PK_KPENTER)
#define PK_ISFKEY(k) ((k) >= PK_F1 && (k) <= PK_F20)
enum {
VT_XWINDOWS, VT_OEMANSI, VT_OEMONLY, VT_POORMAN, VT_UNICODE
};
enum {
/*
* SSH-2 key exchange algorithms
*/
KEX_WARN,
KEX_DHGROUP1,
KEX_DHGROUP14,
KEX_DHGEX,
KEX_RSA,
KEX_MAX
};
enum {
/*
* SSH ciphers (both SSH-1 and SSH-2)
*/
CIPHER_WARN, /* pseudo 'cipher' */
CIPHER_3DES,
CIPHER_BLOWFISH,
CIPHER_AES, /* (SSH-2 only) */
CIPHER_DES,
CIPHER_ARCFOUR,
CIPHER_MAX /* no. ciphers (inc warn) */
};
enum {
/*
* Several different bits of the PuTTY configuration seem to be
* three-way settings whose values are `always yes', `always
* no', and `decide by some more complex automated means'. This
* is true of line discipline options (local echo and line
* editing), proxy DNS, Close On Exit, and SSH server bug
* workarounds. Accordingly I supply a single enum here to deal
* with them all.
*/
FORCE_ON, FORCE_OFF, AUTO
};
enum {
/*
* Proxy types.
*/
PROXY_NONE, PROXY_SOCKS4, PROXY_SOCKS5,
PROXY_HTTP, PROXY_TELNET, PROXY_CMD
};
enum {
/*
* Line discipline options which the backend might try to control.
*/
LD_EDIT, /* local line editing */
LD_ECHO /* local echo */
};
enum {
/* Actions on remote window title query */
TITLE_NONE, TITLE_EMPTY, TITLE_REAL
};
enum {
/* Protocol back ends. (cfg.protocol) */
PROT_RAW, PROT_TELNET, PROT_RLOGIN, PROT_SSH,
/* PROT_SERIAL is supported on a subset of platforms, but it doesn't
* hurt to define it globally. */
PROT_SERIAL
};
enum {
/* Bell settings (cfg.beep) */
BELL_DISABLED, BELL_DEFAULT, BELL_VISUAL, BELL_WAVEFILE, BELL_PCSPEAKER
};
enum {
/* Taskbar flashing indication on bell (cfg.beep_ind) */
B_IND_DISABLED, B_IND_FLASH, B_IND_STEADY
};
enum {
/* Resize actions (cfg.resize_action) */
RESIZE_TERM, RESIZE_DISABLED, RESIZE_FONT, RESIZE_EITHER
};
enum {
/* Function key types (cfg.funky_type) */
FUNKY_TILDE,
FUNKY_LINUX,
FUNKY_XTERM,
FUNKY_VT400,
FUNKY_VT100P,
FUNKY_SCO
};
enum {
FQ_DEFAULT, FQ_ANTIALIASED, FQ_NONANTIALIASED, FQ_CLEARTYPE
};
enum {
SER_PAR_NONE, SER_PAR_ODD, SER_PAR_EVEN, SER_PAR_MARK, SER_PAR_SPACE
};
enum {
SER_FLOW_NONE, SER_FLOW_XONXOFF, SER_FLOW_RTSCTS, SER_FLOW_DSRDTR
};
/*
* Tables of string <-> enum value mappings used in settings.c.
* Defined here so that backends can export their GSS library tables
* to the cross-platform settings code.
*/
struct keyvalwhere {
/*
* Two fields which define a string and enum value to be
* equivalent to each other.
*/
char *s;
int v;
/*
* The next pair of fields are used by gprefs() in settings.c to
* arrange that when it reads a list of strings representing a
* preference list and translates it into the corresponding list
* of integers, strings not appearing in the list are entered in a
* configurable position rather than uniformly at the end.
*/
/*
* 'vrel' indicates which other value in the list to place this
* element relative to. It should be a value that has occurred in
* a 'v' field of some other element of the array, or -1 to
* indicate that we simply place relative to one or other end of
* the list.
*
* gprefs will try to process the elements in an order which makes
* this field work (i.e. so that the element referenced has been
* added before processing this one).
*/
int vrel;
/*
* 'where' indicates whether to place the new value before or
* after the one referred to by vrel. -1 means before; +1 means
* after.
*
* When vrel is -1, this also implicitly indicates which end of
* the array to use. So vrel=-1, where=-1 means to place _before_
* some end of the list (hence, at the last element); vrel=-1,
* where=+1 means to place _after_ an end (hence, at the first).
*/
int where;
};
#ifndef NO_GSSAPI
extern const int ngsslibs;
extern const char *const gsslibnames[]; /* for displaying in configuration */
extern const struct keyvalwhere gsslibkeywords[]; /* for settings.c */
#endif
extern const char *const ttymodes[];
enum {
/*
* Network address types. Used for specifying choice of IPv4/v6
* in config; also used in proxy.c to indicate whether a given
* host name has already been resolved or will be resolved at
* the proxy end.
*/
ADDRTYPE_UNSPEC, ADDRTYPE_IPV4, ADDRTYPE_IPV6, ADDRTYPE_NAME
};
struct backend_tag {
const char *(*init) (void *frontend_handle, void **backend_handle,
Config *cfg,
char *host, int port, char **realhost, int nodelay,
int keepalive);
void (*free) (void *handle);
/* back->reconfig() passes in a replacement configuration. */
void (*reconfig) (void *handle, Config *cfg);
/* back->send() returns the current amount of buffered data. */
int (*send) (void *handle, char *buf, int len);
/* back->sendbuffer() does the same thing but without attempting a send */
int (*sendbuffer) (void *handle);
void (*size) (void *handle, int width, int height);
void (*special) (void *handle, Telnet_Special code);
const struct telnet_special *(*get_specials) (void *handle);
int (*connected) (void *handle);
int (*exitcode) (void *handle);
/* If back->sendok() returns FALSE, data sent to it from the frontend
* may be lost. */
int (*sendok) (void *handle);
int (*ldisc) (void *handle, int);
void (*provide_ldisc) (void *handle, void *ldisc);
void (*provide_logctx) (void *handle, void *logctx);
/*
* back->unthrottle() tells the back end that the front end
* buffer is clearing.
*/
void (*unthrottle) (void *handle, int);
int (*cfg_info) (void *handle);
char *name;
int protocol;
int default_port;
};
extern Backend *backends[];
/*
* Suggested default protocol provided by the backend link module.
* The application is free to ignore this.
*/
extern const int be_default_protocol;
/*
* Name of this particular application, for use in the config box
* and other pieces of text.
*/
extern const char *const appname;
/*
* IMPORTANT POLICY POINT: everything in this structure which wants
* to be treated like an integer must be an actual, honest-to-
* goodness `int'. No enum-typed variables. This is because parts
* of the code will want to pass around `int *' pointers to them
* and we can't run the risk of porting to some system on which the
* enum comes out as a different size from int.
*/
struct config_tag {
/* Basic options */
char host[512];
int port;
int protocol;
int addressfamily;
int close_on_exit;
int warn_on_close;
int ping_interval; /* in seconds */
int tcp_nodelay;
int tcp_keepalives;
char loghost[512]; /* logical host being contacted, for host key check */
/* Proxy options */
char proxy_exclude_list[512];
int proxy_dns;
int even_proxy_localhost;
int proxy_type;
char proxy_host[512];
int proxy_port;
char proxy_username[128];
char proxy_password[128];
char proxy_telnet_command[512];
/* SSH options */
char remote_cmd[512];
char *remote_cmd_ptr; /* might point to a larger command
* but never for loading/saving */
char *remote_cmd_ptr2; /* might point to a larger command
* but never for loading/saving */
int nopty;
int compression;
int ssh_kexlist[KEX_MAX];
int ssh_rekey_time; /* in minutes */
char ssh_rekey_data[16];
int tryagent;
int agentfwd;
int change_username; /* allow username switching in SSH-2 */
int ssh_cipherlist[CIPHER_MAX];
Filename keyfile;
int sshprot; /* use v1 or v2 when both available */
int ssh2_des_cbc; /* "des-cbc" unrecommended SSH-2 cipher */
int ssh_no_userauth; /* bypass "ssh-userauth" (SSH-2 only) */
int ssh_show_banner; /* show USERAUTH_BANNERs (SSH-2 only) */
int try_tis_auth;
int try_ki_auth;
int try_gssapi_auth; /* attempt gssapi auth */
int gssapifwd; /* forward tgt via gss */
int ssh_gsslist[4]; /* preference order for local GSS libs */
Filename ssh_gss_custom;
int ssh_subsys; /* run a subsystem rather than a command */
int ssh_subsys2; /* fallback to go with remote_cmd_ptr2 */
int ssh_no_shell; /* avoid running a shell */
char ssh_nc_host[512]; /* host to connect to in `nc' mode */
int ssh_nc_port; /* port to connect to in `nc' mode */
/* Telnet options */
char termtype[32];
char termspeed[32];
char ttymodes[768]; /* MODE\tVvalue\0MODE\tA\0\0 */
char environmt[1024]; /* VAR\tvalue\0VAR\tvalue\0\0 */
char username[100];
int username_from_env;
char localusername[100];
int rfc_environ;
int passive_telnet;
/* Serial port options */
char serline[256];
int serspeed;
int serdatabits, serstopbits;
int serparity;
int serflow;
/* Keyboard options */
int bksp_is_delete;
int rxvt_homeend;
int funky_type;
int no_applic_c; /* totally disable app cursor keys */
int no_applic_k; /* totally disable app keypad */
int no_mouse_rep; /* totally disable mouse reporting */
int no_remote_resize; /* disable remote resizing */
int no_alt_screen; /* disable alternate screen */
int no_remote_wintitle; /* disable remote retitling */
int no_dbackspace; /* disable destructive backspace */
int no_remote_charset; /* disable remote charset config */
int remote_qtitle_action; /* remote win title query action */
int app_cursor;
int app_keypad;
int nethack_keypad;
int telnet_keyboard;
int telnet_newline;
int alt_f4; /* is it special? */
int alt_space; /* is it special? */
int alt_only; /* is it special? */
int localecho;
int localedit;
int alwaysontop;
int fullscreenonaltenter;
int scroll_on_key;
int scroll_on_disp;
int erase_to_scrollback;
int compose_key;
int ctrlaltkeys;
char wintitle[256]; /* initial window title */
/* Terminal options */
int savelines;
int dec_om;
int wrap_mode;
int lfhascr;
int cursor_type; /* 0=block 1=underline 2=vertical */
int blink_cur;
int beep;
int beep_ind;
int bellovl; /* bell overload protection active? */
int bellovl_n; /* number of bells to cause overload */
int bellovl_t; /* time interval for overload (seconds) */
int bellovl_s; /* period of silence to re-enable bell (s) */
Filename bell_wavefile;
int scrollbar;
int scrollbar_in_fullscreen;
int resize_action;
int bce;
int blinktext;
int win_name_always;
int width, height;
FontSpec font;
int font_quality;
Filename logfilename;
int logtype;
int logxfovr;
int logflush;
int logomitpass;
int logomitdata;
int hide_mouseptr;
int sunken_edge;
int window_border;
char answerback[256];
char printer[128];
int arabicshaping;
int bidi;
/* Colour options */
int ansi_colour;
int xterm_256_colour;
int system_colour;
int try_palette;
int bold_colour;
unsigned char colours[22][3];
/* Selection options */
int mouse_is_xterm;
int rect_select;
int rawcnp;
int rtf_paste;
int mouse_override;
short wordness[256];
/* translations */
int vtmode;
char line_codepage[128];
int cjk_ambig_wide;
int utf8_override;
int xlat_capslockcyr;
/* X11 forwarding */
int x11_forward;
char x11_display[128];
int x11_auth;
Filename xauthfile;
/* port forwarding */
int lport_acceptall; /* accept conns from hosts other than localhost */
int rport_acceptall; /* same for remote forwarded ports (SSH-2 only) */
/*
* The port forwarding string contains a number of
* NUL-terminated substrings, terminated in turn by an empty
* string (i.e. a second NUL immediately after the previous
* one). Each string can be of one of the following forms:
*
* [LR]localport\thost:port
* [LR]localaddr:localport\thost:port
* Dlocalport
* Dlocaladdr:localport
*/
char portfwd[1024];
/* SSH bug compatibility modes */
int sshbug_ignore1, sshbug_plainpw1, sshbug_rsa1,
sshbug_hmac2, sshbug_derivekey2, sshbug_rsapad2,
sshbug_pksessid2, sshbug_rekey2, sshbug_maxpkt2,
sshbug_ignore2;
/*
* ssh_simple means that we promise never to open any channel other
* than the main one, which means it can safely use a very large
* window in SSH-2.
*/
int ssh_simple;
/* Options for pterm. Should split out into platform-dependent part. */
int stamp_utmp;
int login_shell;
int scrollbar_on_left;
int shadowbold;
FontSpec boldfont;
FontSpec widefont;
FontSpec wideboldfont;
int shadowboldoffset;
int crhaslf;
char winclass[256];
};
/*
* Some global flags denoting the type of application.
*
* FLAG_VERBOSE is set when the user requests verbose details.
*
* FLAG_STDERR is set in command-line applications (which have a
* functioning stderr that it makes sense to write to) and not in
* GUI applications (which don't).
*
* FLAG_INTERACTIVE is set when a full interactive shell session is
* being run, _either_ because no remote command has been provided
* _or_ because the application is GUI and can't run non-
* interactively.
*
* These flags describe the type of _application_ - they wouldn't
* vary between individual sessions - and so it's OK to have this
* variable be GLOBAL.
*
* Note that additional flags may be defined in platform-specific
* headers. It's probably best if those ones start from 0x1000, to
* avoid collision.
*/
#define FLAG_VERBOSE 0x0001
#define FLAG_STDERR 0x0002
#define FLAG_INTERACTIVE 0x0004
GLOBAL int flags;
/*
* Likewise, these two variables are set up when the application
* initialises, and inform all default-settings accesses after
* that.
*/
GLOBAL int default_protocol;
GLOBAL int default_port;
/*
* This is set TRUE by cmdline.c iff a session is loaded with "-load".
*/
GLOBAL int loaded_session;
/*
* This is set to the name of the loaded session.
*/
GLOBAL char *cmdline_session_name;
struct RSAKey; /* be a little careful of scope */
/*
* Mechanism for getting text strings such as usernames and passwords
* from the front-end.
* The fields are mostly modelled after SSH's keyboard-interactive auth.
* FIXME We should probably mandate a character set/encoding (probably UTF-8).
*
* Since many of the pieces of text involved may be chosen by the server,
* the caller must take care to ensure that the server can't spoof locally-
* generated prompts such as key passphrase prompts. Some ground rules:
* - If the front-end needs to truncate a string, it should lop off the
* end.
* - The front-end should filter out any dangerous characters and
* generally not trust the strings. (But \n is required to behave
* vaguely sensibly, at least in `instruction', and ideally in
* `prompt[]' too.)
*/
typedef struct {
char *prompt;
int echo;
char *result; /* allocated/freed by caller */
size_t result_len;
} prompt_t;
typedef struct {
/*
* Indicates whether the information entered is to be used locally
* (for instance a key passphrase prompt), or is destined for the wire.
* This is a hint only; the front-end is at liberty not to use this
* information (so the caller should ensure that the supplied text is
* sufficient).
*/
int to_server;
char *name; /* Short description, perhaps for dialog box title */
int name_reqd; /* Display of `name' required or optional? */
char *instruction; /* Long description, maybe with embedded newlines */
int instr_reqd; /* Display of `instruction' required or optional? */
size_t n_prompts; /* May be zero (in which case display the foregoing,
* if any, and return success) */
prompt_t **prompts;
void *frontend;
void *data; /* slot for housekeeping data, managed by
* get_userpass_input(); initially NULL */
} prompts_t;
prompts_t *new_prompts(void *frontend);
void add_prompt(prompts_t *p, char *promptstr, int echo, size_t len);
/* Burn the evidence. (Assumes _all_ strings want free()ing.) */
void free_prompts(prompts_t *p);
/*
* Exports from the front end.
*/
void request_resize(void *frontend, int, int);
Re-engineering of terminal emulator, phase 1. The active terminal screen is no longer an array of `unsigned long' encoding 16-bit Unicode plus 16 attribute bits. Now it's an array of `termchar' structures, which currently have 32-bit Unicode and 32 attribute bits but which will probably expand further in future. To prevent bloat of the memory footprint, I've introduced a mostly RLE-like compression scheme for storing scrollback: each line is compressed into a compact (but hard to modify) form when it moves into the term->scrollback tree, and is temporarily decompressed when the user wants to scroll back over it. My initial tests suggest that this compression averages about 1/4 of the previous (32 bits per character cell) data size in typical output, which means this is an improvement even without counting the new ability to extend the information stored in each character cell. Another beneficial side effect is that the insane format in which Unicode was passed to front ends through do_text() has now been rendered sane. Testing is incomplete; this _may_ still have instabilities. Windows and Unix front ends both seem to work as far as I've looked, but I haven't yet looked very hard. The Mac front end I've edited (it seemed obvious how to change it) but I can't compile or test it. As an immediate functional effect, the terminal emulator now supports full 32-bit Unicode to whatever extent the host platform allows it to. For example, if you output a 4-or-more-byte UTF-8 character in Unix pterm, it will not display it properly, but it will correctly paste it back out in a UTF8_STRING selection. Windows is more restricted, sadly. [originally from svn r4609]
2004-10-13 15:50:16 +04:00
void do_text(Context, int, int, wchar_t *, int, unsigned long, int);
void do_cursor(Context, int, int, wchar_t *, int, unsigned long, int);
int char_width(Context ctx, int uc);
#ifdef OPTIMISE_SCROLL
void do_scroll(Context, int, int, int);
#endif
void set_title(void *frontend, char *);
void set_icon(void *frontend, char *);
void set_sbar(void *frontend, int, int, int);
Context get_ctx(void *frontend);
void free_ctx(Context);
void palette_set(void *frontend, int, int, int, int);
void palette_reset(void *frontend);
void write_aclip(void *frontend, char *, int, int);
void write_clip(void *frontend, wchar_t *, int *, int, int);
void get_clip(void *frontend, wchar_t **, int *);
void optimised_move(void *frontend, int, int, int);
void set_raw_mouse_mode(void *frontend, int);
void connection_fatal(void *frontend, char *, ...);
void fatalbox(char *, ...);
void modalfatalbox(char *, ...);
#ifdef macintosh
#pragma noreturn(fatalbox)
#pragma noreturn(modalfatalbox)
#endif
void do_beep(void *frontend, int);
void begin_session(void *frontend);
void sys_cursor(void *frontend, int x, int y);
void request_paste(void *frontend);
void frontend_keypress(void *frontend);
void ldisc_update(void *frontend, int echo, int edit);
/* It's the backend's responsibility to invoke this at the start of a
* connection, if necessary; it can also invoke it later if the set of
* special commands changes. It does not need to invoke it at session
* shutdown. */
void update_specials_menu(void *frontend);
int from_backend(void *frontend, int is_stderr, const char *data, int len);
int from_backend_untrusted(void *frontend, const char *data, int len);
void notify_remote_exit(void *frontend);
/* Get a sensible value for a tty mode. NULL return = don't set.
* Otherwise, returned value should be freed by caller. */
char *get_ttymode(void *frontend, const char *mode);
/*
* >0 = `got all results, carry on'
* 0 = `user cancelled' (FIXME distinguish "give up entirely" and "next auth"?)
* <0 = `please call back later with more in/inlen'
*/
int get_userpass_input(prompts_t *p, unsigned char *in, int inlen);
#define OPTIMISE_IS_SCROLL 1
void set_iconic(void *frontend, int iconic);
void move_window(void *frontend, int x, int y);
void set_zorder(void *frontend, int top);
void refresh_window(void *frontend);
void set_zoomed(void *frontend, int zoomed);
int is_iconic(void *frontend);
void get_window_pos(void *frontend, int *x, int *y);
void get_window_pixels(void *frontend, int *x, int *y);
char *get_window_title(void *frontend, int icon);
/* Hint from backend to frontend about time-consuming operations.
* Initial state is assumed to be BUSY_NOT. */
enum {
BUSY_NOT, /* Not busy, all user interaction OK */
BUSY_WAITING, /* Waiting for something; local event loops still running
so some local interaction (e.g. menus) OK, but network
stuff is suspended */
BUSY_CPU /* Locally busy (e.g. crypto); user interaction suspended */
};
void set_busy_status(void *frontend, int status);
void cleanup_exit(int);
/*
* Exports from noise.c.
*/
void noise_get_heavy(void (*func) (void *, int));
void noise_get_light(void (*func) (void *, int));
void noise_regular(void);
void noise_ultralight(unsigned long data);
void random_save_seed(void);
void random_destroy_seed(void);
/*
* Exports from settings.c.
*/
Backend *backend_from_name(const char *name);
Backend *backend_from_proto(int proto);
int get_remote_username(Config *cfg, char *user, size_t len);
char *save_settings(char *section, Config * cfg);
void save_open_settings(void *sesskey, Config *cfg);
void load_settings(char *section, Config * cfg);
void load_open_settings(void *sesskey, Config *cfg);
void get_sesslist(struct sesslist *, int allocate);
void do_defaults(char *, Config *);
void registry_cleanup(void);
/*
* Functions used by settings.c to provide platform-specific
* default settings.
*
* (The integer one is expected to return `def' if it has no clear
* opinion of its own. This is because there's no integer value
* which I can reliably set aside to indicate `nil'. The string
* function is perfectly all right returning NULL, of course. The
* Filename and FontSpec functions are _not allowed_ to fail to
* return, since these defaults _must_ be per-platform.)
*/
char *platform_default_s(const char *name);
int platform_default_i(const char *name, int def);
Filename platform_default_filename(const char *name);
FontSpec platform_default_fontspec(const char *name);
/*
* Exports from terminal.c.
*/
Terminal *term_init(Config *, struct unicode_data *, void *);
void term_free(Terminal *);
void term_size(Terminal *, int, int, int);
void term_paint(Terminal *, Context, int, int, int, int, int);
void term_scroll(Terminal *, int, int);
void term_scroll_to_selection(Terminal *, int);
void term_pwron(Terminal *, int);
void term_clrsb(Terminal *);
void term_mouse(Terminal *, Mouse_Button, Mouse_Button, Mouse_Action,
int,int,int,int,int);
void term_key(Terminal *, Key_Sym, wchar_t *, size_t, unsigned int,
unsigned int);
void term_deselect(Terminal *);
void term_update(Terminal *);
void term_invalidate(Terminal *);
void term_blink(Terminal *, int set_cursor);
void term_do_paste(Terminal *);
int term_paste_pending(Terminal *);
void term_paste(Terminal *);
void term_nopaste(Terminal *);
int term_ldisc(Terminal *, int option);
void term_copyall(Terminal *);
void term_reconfig(Terminal *, Config *);
void term_seen_key_event(Terminal *);
int term_data(Terminal *, int is_stderr, const char *data, int len);
int term_data_untrusted(Terminal *, const char *data, int len);
void term_provide_resize_fn(Terminal *term,
void (*resize_fn)(void *, int, int),
void *resize_ctx);
void term_provide_logctx(Terminal *term, void *logctx);
void term_set_focus(Terminal *term, int has_focus);
char *term_get_ttymode(Terminal *term, const char *mode);
int term_get_userpass_input(Terminal *term, prompts_t *p,
unsigned char *in, int inlen);
int format_arrow_key(char *buf, Terminal *term, int xkey, int ctrl);
/*
* Exports from logging.c.
*/
void *log_init(void *frontend, Config *cfg);
void log_free(void *logctx);
void log_reconfig(void *logctx, Config *cfg);
void logfopen(void *logctx);
void logfclose(void *logctx);
void logtraffic(void *logctx, unsigned char c, int logmode);
void logflush(void *logctx);
void log_eventlog(void *logctx, const char *string);
enum { PKT_INCOMING, PKT_OUTGOING };
enum { PKTLOG_EMIT, PKTLOG_BLANK, PKTLOG_OMIT };
struct logblank_t {
int offset;
int len;
int type;
};
void log_packet(void *logctx, int direction, int type,
char *texttype, const void *data, int len,
int n_blanks, const struct logblank_t *blanks,
const unsigned long *sequence);
/*
* Exports from testback.c
*/
extern Backend null_backend;
extern Backend loop_backend;
/*
* Exports from raw.c.
*/
extern Backend raw_backend;
/*
* Exports from rlogin.c.
*/
extern Backend rlogin_backend;
/*
* Exports from telnet.c.
*/
extern Backend telnet_backend;
/*
* Exports from ssh.c.
*/
extern Backend ssh_backend;
/*
* Exports from ldisc.c.
*/
void *ldisc_create(Config *, Terminal *, Backend *, void *, void *);
void ldisc_free(void *);
void ldisc_send(void *handle, char *buf, int len, int interactive);
/*
* Exports from ldiscucs.c.
*/
void lpage_send(void *, int codepage, char *buf, int len, int interactive);
void luni_send(void *, wchar_t * widebuf, int len, int interactive);
/*
* Exports from sshrand.c.
*/
void random_add_noise(void *noise, int length);
int random_byte(void);
void random_get_savedata(void **data, int *len);
extern int random_active;
/* The random number subsystem is activated if at least one other entity
* within the program expresses an interest in it. So each SSH session
* calls random_ref on startup and random_unref on shutdown. */
void random_ref(void);
void random_unref(void);
/*
* Exports from pinger.c.
*/
typedef struct pinger_tag *Pinger;
Pinger pinger_new(Config *cfg, Backend *back, void *backhandle);
void pinger_reconfig(Pinger, Config *oldcfg, Config *newcfg);
void pinger_free(Pinger);
/*
* Exports from misc.c.
*/
#include "misc.h"
int cfg_launchable(const Config *cfg);
char const *cfg_dest(const Config *cfg);
/*
* Exports from sercfg.c.
*/
void ser_setup_config_box(struct controlbox *b, int midsession,
int parity_mask, int flow_mask);
/*
* Exports from version.c.
*/
extern char ver[];
/*
* Exports from unicode.c.
*/
#ifndef CP_UTF8
#define CP_UTF8 65001
#endif
/* void init_ucs(void); -- this is now in platform-specific headers */
int is_dbcs_leadbyte(int codepage, char byte);
int mb_to_wc(int codepage, int flags, char *mbstr, int mblen,
wchar_t *wcstr, int wclen);
int wc_to_mb(int codepage, int flags, wchar_t *wcstr, int wclen,
char *mbstr, int mblen, char *defchr, int *defused,
struct unicode_data *ucsdata);
wchar_t xlat_uskbd2cyrllic(int ch);
int check_compose(int first, int second);
int decode_codepage(char *cp_name);
const char *cp_enumerate (int index);
const char *cp_name(int codepage);
void get_unitab(int codepage, wchar_t * unitab, int ftype);
/*
* Exports from wcwidth.c
*/
int mk_wcwidth(wchar_t ucs);
int mk_wcswidth(const wchar_t *pwcs, size_t n);
int mk_wcwidth_cjk(wchar_t ucs);
int mk_wcswidth_cjk(const wchar_t *pwcs, size_t n);
/*
* Exports from mscrypto.c
*/
#ifdef MSCRYPTOAPI
int crypto_startup();
void crypto_wrapup();
#endif
/*
* Exports from pageantc.c.
*
* agent_query returns 1 for here's-a-response, and 0 for query-in-
* progress. In the latter case there will be a call to `callback'
* at some future point, passing callback_ctx as the first
* parameter and the actual reply data as the second and third.
*
* The response may be a NULL pointer (in either of the synchronous
* or asynchronous cases), which indicates failure to receive a
* response.
*/
int agent_query(void *in, int inlen, void **out, int *outlen,
void (*callback)(void *, void *, int), void *callback_ctx);
int agent_exists(void);
/*
* Exports from wildcard.c
*/
const char *wc_error(int value);
int wc_match(const char *wildcard, const char *target);
int wc_unescape(char *output, const char *wildcard);
/*
* Exports from frontend (windlg.c etc)
*/
void logevent(void *frontend, const char *);
void pgp_fingerprints(void);
/*
* verify_ssh_host_key() can return one of three values:
*
* - +1 means `key was OK' (either already known or the user just
* approved it) `so continue with the connection'
*
* - 0 means `key was not OK, abandon the connection'
*
* - -1 means `I've initiated enquiries, please wait to be called
* back via the provided function with a result that's either 0
* or +1'.
*/
int verify_ssh_host_key(void *frontend, char *host, int port, char *keytype,
char *keystr, char *fingerprint,
void (*callback)(void *ctx, int result), void *ctx);
/*
* askalg has the same set of return values as verify_ssh_host_key.
*/
int askalg(void *frontend, const char *algtype, const char *algname,
void (*callback)(void *ctx, int result), void *ctx);
/*
* askappend can return four values:
*
* - 2 means overwrite the log file
* - 1 means append to the log file
* - 0 means cancel logging for this session
* - -1 means please wait.
*/
int askappend(void *frontend, Filename filename,
void (*callback)(void *ctx, int result), void *ctx);
/*
* Exports from console frontends (wincons.c, uxcons.c)
* that aren't equivalents to things in windlg.c et al.
*/
extern int console_batch_mode;
int console_get_userpass_input(prompts_t *p, unsigned char *in, int inlen);
void console_provide_logctx(void *logctx);
int is_interactive(void);
/*
* Exports from printing.c.
*/
typedef struct printer_enum_tag printer_enum;
typedef struct printer_job_tag printer_job;
printer_enum *printer_start_enum(int *nprinters);
char *printer_get_name(printer_enum *, int);
void printer_finish_enum(printer_enum *);
printer_job *printer_start_job(char *printer);
void printer_job_data(printer_job *, void *, int);
void printer_finish_job(printer_job *);
/*
* Exports from cmdline.c (and also cmdline_error(), which is
* defined differently in various places and required _by_
* cmdline.c).
*/
int cmdline_process_param(char *, char *, int, Config *);
void cmdline_run_saved(Config *);
void cmdline_cleanup(void);
int cmdline_get_passwd_input(prompts_t *p, unsigned char *in, int inlen);
#define TOOLTYPE_FILETRANSFER 1
#define TOOLTYPE_NONNETWORK 2
extern int cmdline_tooltype;
void cmdline_error(char *, ...);
/*
* Exports from config.c.
*/
struct controlbox;
void setup_config_box(struct controlbox *b, int midsession,
int protocol, int protcfginfo);
/*
* Exports from minibidi.c.
*/
typedef struct bidi_char {
wchar_t origwc, wc;
unsigned short index;
} bidi_char;
int do_bidi(bidi_char *line, int count);
int do_shape(bidi_char *line, bidi_char *to, int count);
int is_rtl(int c);
/*
* X11 auth mechanisms we know about.
*/
enum {
X11_NO_AUTH,
X11_MIT, /* MIT-MAGIC-COOKIE-1 */
X11_XDM, /* XDM-AUTHORIZATION-1 */
X11_NAUTHS
};
extern const char *const x11_authnames[]; /* declared in x11fwd.c */
/*
* Miscellaneous exports from the platform-specific code.
*/
Filename filename_from_str(const char *string);
const char *filename_to_str(const Filename *fn);
int filename_equal(Filename f1, Filename f2);
int filename_is_null(Filename fn);
char *get_username(void); /* return value needs freeing */
char *get_random_data(int bytes); /* used in cmdgen.c */
/*
* Exports and imports from timing.c.
*
* schedule_timer() asks the front end to schedule a callback to a
* timer function in a given number of ticks. The returned value is
* the time (in ticks since an arbitrary offset) at which the
* callback can be expected. This value will also be passed as the
* `now' parameter to the callback function. Hence, you can (for
* example) schedule an event at a particular time by calling
* schedule_timer() and storing the return value in your context
* structure as the time when that event is due. The first time a
* callback function gives you that value or more as `now', you do
* the thing.
*
* expire_timer_context() drops all current timers associated with
* a given value of ctx (for when you're about to free ctx).
*
* run_timers() is called from the front end when it has reason to
* think some timers have reached their moment, or when it simply
* needs to know how long to wait next. We pass it the time we
* think it is. It returns TRUE and places the time when the next
* timer needs to go off in `next', or alternatively it returns
* FALSE if there are no timers at all pending.
*
* timer_change_notify() must be supplied by the front end; it
* notifies the front end that a new timer has been added to the
* list which is sooner than any existing ones. It provides the
* time when that timer needs to go off.
*
* *** FRONT END IMPLEMENTORS NOTE:
*
* There's an important subtlety in the front-end implementation of
* the timer interface. When a front end is given a `next' value,
* either returned from run_timers() or via timer_change_notify(),
* it should ensure that it really passes _that value_ as the `now'
* parameter to its next run_timers call. It should _not_ simply
* call GETTICKCOUNT() to get the `now' parameter when invoking
* run_timers().
*
* The reason for this is that an OS's system clock might not agree
* exactly with the timing mechanisms it supplies to wait for a
* given interval. I'll illustrate this by the simple example of
* Unix Plink, which uses timeouts to select() in a way which for
* these purposes can simply be considered to be a wait() function.
* Suppose, for the sake of argument, that this wait() function
* tends to return early by 1%. Then a possible sequence of actions
* is:
*
* - run_timers() tells the front end that the next timer firing
* is 10000ms from now.
* - Front end calls wait(10000ms), but according to
* GETTICKCOUNT() it has only waited for 9900ms.
* - Front end calls run_timers() again, passing time T-100ms as
* `now'.
* - run_timers() does nothing, and says the next timer firing is
* still 100ms from now.
* - Front end calls wait(100ms), which only waits for 99ms.
* - Front end calls run_timers() yet again, passing time T-1ms.
* - run_timers() says there's still 1ms to wait.
* - Front end calls wait(1ms).
*
* If you're _lucky_ at this point, wait(1ms) will actually wait
* for 1ms and you'll only have woken the program up three times.
* If you're unlucky, wait(1ms) might do nothing at all due to
* being below some minimum threshold, and you might find your
* program spends the whole of the last millisecond tight-looping
* between wait() and run_timers().
*
* Instead, what you should do is to _save_ the precise `next'
* value provided by run_timers() or via timer_change_notify(), and
* use that precise value as the input to the next run_timers()
* call. So:
*
* - run_timers() tells the front end that the next timer firing
* is at time T, 10000ms from now.
* - Front end calls wait(10000ms).
* - Front end then immediately calls run_timers() and passes it
* time T, without stopping to check GETTICKCOUNT() at all.
*
* This guarantees that the program wakes up only as many times as
* there are actual timer actions to be taken, and that the timing
* mechanism will never send it into a tight loop.
*
* (It does also mean that the timer action in the above example
* will occur 100ms early, but this is not generally critical. And
* the hypothetical 1% error in wait() will be partially corrected
* for anyway when, _after_ run_timers() returns, you call
* GETTICKCOUNT() and compare the result with the returned `next'
* value to find out how long you have to make your next wait().)
*/
typedef void (*timer_fn_t)(void *ctx, long now);
long schedule_timer(int ticks, timer_fn_t fn, void *ctx);
void expire_timer_context(void *ctx);
int run_timers(long now, long *next);
void timer_change_notify(long next);
/*
* Define no-op macros for the jump list functions, on platforms that
* don't support them. (This is a bit of a hack, and it'd be nicer to
* localise even the calls to those functions into the Windows front
* end, but it'll do for the moment.)
*/
#ifndef JUMPLIST_SUPPORTED
#define add_session_to_jumplist(x) ((void)0)
#define remove_session_from_jumplist(x) ((void)0)
#endif
#endif