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putty-source/windows/winstore.c
Simon Tatham 3214563d8e Convert a lot of 'int' variables to 'bool'. 
My normal habit these days, in new code, is to treat int and bool as
_almost_ completely separate types. I'm still willing to use C's
implicit test for zero on an integer (e.g. 'if (!blob.len)' is fine,
no need to spell it out as blob.len != 0), but generally, if a
variable is going to be conceptually a boolean, I like to declare it
bool and assign to it using 'true' or 'false' rather than 0 or 1.

PuTTY is an exception, because it predates the C99 bool, and I've
stuck to its existing coding style even when adding new code to it.
But it's been annoying me more and more, so now that I've decided C99
bool is an acceptable thing to require from our toolchain in the first
place, here's a quite thorough trawl through the source doing
'boolification'. Many variables and function parameters are now typed
as bool rather than int; many assignments of 0 or 1 to those variables
are now spelled 'true' or 'false'.

I managed this thorough conversion with the help of a custom clang
plugin that I wrote to trawl the AST and apply heuristics to point out
where things might want changing. So I've even managed to do a decent
job on parts of the code I haven't looked at in years!

To make the plugin's work easier, I pushed platform front ends
generally in the direction of using standard 'bool' in preference to
platform-specific boolean types like Windows BOOL or GTK's gboolean;
I've left the platform booleans in places they _have_ to be for the
platform APIs to work right, but variables only used by my own code
have been converted wherever I found them.

In a few places there are int values that look very like booleans in
_most_ of the places they're used, but have a rarely-used third value,
or a distinction between different nonzero values that most users
don't care about. In these cases, I've _removed_ uses of 'true' and
'false' for the return values, to emphasise that there's something
more subtle going on than a simple boolean answer:
 - the 'multisel' field in dialog.h's list box structure, for which
   the GTK front end in particular recognises a difference between 1
   and 2 but nearly everything else treats as boolean
 - the 'urgent' parameter to plug_receive, where 1 vs 2 tells you
   something about the specific location of the urgent pointer, but
   most clients only care about 0 vs 'something nonzero'
 - the return value of wc_match, where -1 indicates a syntax error in
   the wildcard.
 - the return values from SSH-1 RSA-key loading functions, which use
   -1 for 'wrong passphrase' and 0 for all other failures (so any
   caller which already knows it's not loading an _encrypted private_
   key can treat them as boolean)
 - term->esc_query, and the 'query' parameter in toggle_mode in
   terminal.c, which _usually_ hold 0 for ESC[123h or 1 for ESC[?123h,
   but can also hold -1 for some other intervening character that we
   don't support.

In a few places there's an integer that I haven't turned into a bool
even though it really _can_ only take values 0 or 1 (and, as above,
tried to make the call sites consistent in not calling those values
true and false), on the grounds that I thought it would make it more
confusing to imply that the 0 value was in some sense 'negative' or
bad and the 1 positive or good:
 - the return value of plug_accepting uses the POSIXish convention of
   0=success and nonzero=error; I think if I made it bool then I'd
   also want to reverse its sense, and that's a job for a separate
   piece of work.
 - the 'screen' parameter to lineptr() in terminal.c, where 0 and 1
   represent the default and alternate screens. There's no obvious
   reason why one of those should be considered 'true' or 'positive'
   or 'success' - they're just indices - so I've left it as int.

ssh_scp_recv had particularly confusing semantics for its previous int
return value: its call sites used '<= 0' to check for error, but it
never actually returned a negative number, just 0 or 1. Now the
function and its call sites agree that it's a bool.

In a couple of places I've renamed variables called 'ret', because I
don't like that name any more - it's unclear whether it means the
return value (in preparation) for the _containing_ function or the
return value received from a subroutine call, and occasionally I've
accidentally used the same variable for both and introduced a bug. So
where one of those got in my way, I've renamed it to 'toret' or 'retd'
(the latter short for 'returned') in line with my usual modern
practice, but I haven't done a thorough job of finding all of them.

Finally, one amusing side effect of doing this is that I've had to
separate quite a few chained assignments. It used to be perfectly fine
to write 'a = b = c = TRUE' when a,b,c were int and TRUE was just a
the 'true' defined by stdbool.h, that idiom provokes a warning from
gcc: 'suggest parentheses around assignment used as truth value'!
2018-11-03 13:45:00 +00:00

900 lines
24 KiB
C
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/*
* winstore.c: Windows-specific implementation of the interface
* defined in storage.h.
*/
#include <stdio.h>
#include <stdlib.h>
#include <limits.h>
#include <assert.h>
#include "putty.h"
#include "storage.h"
#include <shlobj.h>
#ifndef CSIDL_APPDATA
#define CSIDL_APPDATA 0x001a
#endif
#ifndef CSIDL_LOCAL_APPDATA
#define CSIDL_LOCAL_APPDATA 0x001c
#endif
static const char *const reg_jumplist_key = PUTTY_REG_POS "\\Jumplist";
static const char *const reg_jumplist_value = "Recent sessions";
static const char *const puttystr = PUTTY_REG_POS "\\Sessions";
static const char hex[16] = "0123456789ABCDEF";
static bool tried_shgetfolderpath = false;
static HMODULE shell32_module = NULL;
DECL_WINDOWS_FUNCTION(static, HRESULT, SHGetFolderPathA,
(HWND, int, HANDLE, DWORD, LPSTR));
static void mungestr(const char *in, char *out)
{
bool candot = false;
while (*in) {
if (*in == ' ' || *in == '\\' || *in == '*' || *in == '?' ||
*in == '%' || *in < ' ' || *in > '~' || (*in == '.'
&& !candot)) {
*out++ = '%';
*out++ = hex[((unsigned char) *in) >> 4];
*out++ = hex[((unsigned char) *in) & 15];
} else
*out++ = *in;
in++;
candot = true;
}
*out = '\0';
return;
}
static void unmungestr(const char *in, char *out, int outlen)
{
while (*in) {
if (*in == '%' && in[1] && in[2]) {
int i, j;
i = in[1] - '0';
i -= (i > 9 ? 7 : 0);
j = in[2] - '0';
j -= (j > 9 ? 7 : 0);
*out++ = (i << 4) + j;
if (!--outlen)
return;
in += 3;
} else {
*out++ = *in++;
if (!--outlen)
return;
}
}
*out = '\0';
return;
}
struct settings_w {
HKEY sesskey;
};
settings_w *open_settings_w(const char *sessionname, char **errmsg)
{
HKEY subkey1, sesskey;
int ret;
char *p;
*errmsg = NULL;
if (!sessionname || !*sessionname)
sessionname = "Default Settings";
p = snewn(3 * strlen(sessionname) + 1, char);
mungestr(sessionname, p);
ret = RegCreateKey(HKEY_CURRENT_USER, puttystr, &subkey1);
if (ret != ERROR_SUCCESS) {
sfree(p);
*errmsg = dupprintf("Unable to create registry key\n"
"HKEY_CURRENT_USER\\%s", puttystr);
return NULL;
}
ret = RegCreateKey(subkey1, p, &sesskey);
RegCloseKey(subkey1);
if (ret != ERROR_SUCCESS) {
*errmsg = dupprintf("Unable to create registry key\n"
"HKEY_CURRENT_USER\\%s\\%s", puttystr, p);
sfree(p);
return NULL;
}
sfree(p);
settings_w *toret = snew(settings_w);
toret->sesskey = sesskey;
return toret;
}
void write_setting_s(settings_w *handle, const char *key, const char *value)
{
if (handle)
RegSetValueEx(handle->sesskey, key, 0, REG_SZ, (CONST BYTE *)value,
1 + strlen(value));
}
void write_setting_i(settings_w *handle, const char *key, int value)
{
if (handle)
RegSetValueEx(handle->sesskey, key, 0, REG_DWORD,
(CONST BYTE *) &value, sizeof(value));
}
void close_settings_w(settings_w *handle)
{
RegCloseKey(handle->sesskey);
sfree(handle);
}
struct settings_r {
HKEY sesskey;
};
settings_r *open_settings_r(const char *sessionname)
{
HKEY subkey1, sesskey;
char *p;
if (!sessionname || !*sessionname)
sessionname = "Default Settings";
p = snewn(3 * strlen(sessionname) + 1, char);
mungestr(sessionname, p);
if (RegOpenKey(HKEY_CURRENT_USER, puttystr, &subkey1) != ERROR_SUCCESS) {
sesskey = NULL;
} else {
if (RegOpenKey(subkey1, p, &sesskey) != ERROR_SUCCESS) {
sesskey = NULL;
}
RegCloseKey(subkey1);
}
sfree(p);
settings_r *toret = snew(settings_r);
toret->sesskey = sesskey;
return toret;
}
char *read_setting_s(settings_r *handle, const char *key)
{
DWORD type, allocsize, size;
char *ret;
if (!handle)
return NULL;
/* Find out the type and size of the data. */
if (RegQueryValueEx(handle->sesskey, key, 0,
&type, NULL, &size) != ERROR_SUCCESS ||
type != REG_SZ)
return NULL;
allocsize = size+1; /* allow for an extra NUL if needed */
ret = snewn(allocsize, char);
if (RegQueryValueEx(handle->sesskey, key, 0,
&type, (BYTE *)ret, &size) != ERROR_SUCCESS ||
type != REG_SZ) {
sfree(ret);
return NULL;
}
assert(size < allocsize);
ret[size] = '\0'; /* add an extra NUL in case RegQueryValueEx
* didn't supply one */
return ret;
}
int read_setting_i(settings_r *handle, const char *key, int defvalue)
{
DWORD type, val, size;
size = sizeof(val);
if (!handle ||
RegQueryValueEx(handle->sesskey, key, 0, &type,
(BYTE *) &val, &size) != ERROR_SUCCESS ||
size != sizeof(val) || type != REG_DWORD)
return defvalue;
else
return val;
}
FontSpec *read_setting_fontspec(settings_r *handle, const char *name)
{
char *settingname;
char *fontname;
FontSpec *ret;
int isbold, height, charset;
fontname = read_setting_s(handle, name);
if (!fontname)
return NULL;
settingname = dupcat(name, "IsBold", NULL);
isbold = read_setting_i(handle, settingname, -1);
sfree(settingname);
if (isbold == -1) {
sfree(fontname);
return NULL;
}
settingname = dupcat(name, "CharSet", NULL);
charset = read_setting_i(handle, settingname, -1);
sfree(settingname);
if (charset == -1) {
sfree(fontname);
return NULL;
}
settingname = dupcat(name, "Height", NULL);
height = read_setting_i(handle, settingname, INT_MIN);
sfree(settingname);
if (height == INT_MIN) {
sfree(fontname);
return NULL;
}
ret = fontspec_new(fontname, isbold, height, charset);
sfree(fontname);
return ret;
}
void write_setting_fontspec(settings_w *handle,
const char *name, FontSpec *font)
{
char *settingname;
write_setting_s(handle, name, font->name);
settingname = dupcat(name, "IsBold", NULL);
write_setting_i(handle, settingname, font->isbold);
sfree(settingname);
settingname = dupcat(name, "CharSet", NULL);
write_setting_i(handle, settingname, font->charset);
sfree(settingname);
settingname = dupcat(name, "Height", NULL);
write_setting_i(handle, settingname, font->height);
sfree(settingname);
}
Filename *read_setting_filename(settings_r *handle, const char *name)
{
char *tmp = read_setting_s(handle, name);
if (tmp) {
Filename *ret = filename_from_str(tmp);
sfree(tmp);
return ret;
} else
return NULL;
}
void write_setting_filename(settings_w *handle,
const char *name, Filename *result)
{
write_setting_s(handle, name, result->path);
}
void close_settings_r(settings_r *handle)
{
RegCloseKey(handle->sesskey);
sfree(handle);
}
void del_settings(const char *sessionname)
{
HKEY subkey1;
char *p;
if (RegOpenKey(HKEY_CURRENT_USER, puttystr, &subkey1) != ERROR_SUCCESS)
return;
p = snewn(3 * strlen(sessionname) + 1, char);
mungestr(sessionname, p);
RegDeleteKey(subkey1, p);
sfree(p);
RegCloseKey(subkey1);
remove_session_from_jumplist(sessionname);
}
struct settings_e {
HKEY key;
int i;
};
settings_e *enum_settings_start(void)
{
settings_e *ret;
HKEY key;
if (RegOpenKey(HKEY_CURRENT_USER, puttystr, &key) != ERROR_SUCCESS)
return NULL;
ret = snew(settings_e);
if (ret) {
ret->key = key;
ret->i = 0;
}
return ret;
}
char *enum_settings_next(settings_e *e, char *buffer, int buflen)
{
char *otherbuf;
otherbuf = snewn(3 * buflen, char);
if (RegEnumKey(e->key, e->i++, otherbuf, 3 * buflen) == ERROR_SUCCESS) {
unmungestr(otherbuf, buffer, buflen);
sfree(otherbuf);
return buffer;
} else {
sfree(otherbuf);
return NULL;
}
}
void enum_settings_finish(settings_e *e)
{
RegCloseKey(e->key);
sfree(e);
}
static void hostkey_regname(char *buffer, const char *hostname,
int port, const char *keytype)
{
int len;
strcpy(buffer, keytype);
strcat(buffer, "@");
len = strlen(buffer);
len += sprintf(buffer + len, "%d:", port);
mungestr(hostname, buffer + strlen(buffer));
}
int verify_host_key(const char *hostname, int port,
const char *keytype, const char *key)
{
char *otherstr, *regname;
int len;
HKEY rkey;
DWORD readlen;
DWORD type;
int ret, compare;
len = 1 + strlen(key);
/*
* Now read a saved key in from the registry and see what it
* says.
*/
regname = snewn(3 * (strlen(hostname) + strlen(keytype)) + 15, char);
hostkey_regname(regname, hostname, port, keytype);
if (RegOpenKey(HKEY_CURRENT_USER, PUTTY_REG_POS "\\SshHostKeys",
&rkey) != ERROR_SUCCESS) {
sfree(regname);
return 1; /* key does not exist in registry */
}
readlen = len;
otherstr = snewn(len, char);
ret = RegQueryValueEx(rkey, regname, NULL,
&type, (BYTE *)otherstr, &readlen);
if (ret != ERROR_SUCCESS && ret != ERROR_MORE_DATA &&
!strcmp(keytype, "rsa")) {
/*
* Key didn't exist. If the key type is RSA, we'll try
* another trick, which is to look up the _old_ key format
* under just the hostname and translate that.
*/
char *justhost = regname + 1 + strcspn(regname, ":");
char *oldstyle = snewn(len + 10, char); /* safety margin */
readlen = len;
ret = RegQueryValueEx(rkey, justhost, NULL, &type,
(BYTE *)oldstyle, &readlen);
if (ret == ERROR_SUCCESS && type == REG_SZ) {
/*
* The old format is two old-style bignums separated by
* a slash. An old-style bignum is made of groups of
* four hex digits: digits are ordered in sensible
* (most to least significant) order within each group,
* but groups are ordered in silly (least to most)
* order within the bignum. The new format is two
* ordinary C-format hex numbers (0xABCDEFG...XYZ, with
* A nonzero except in the special case 0x0, which
* doesn't appear anyway in RSA keys) separated by a
* comma. All hex digits are lowercase in both formats.
*/
char *p = otherstr;
char *q = oldstyle;
int i, j;
for (i = 0; i < 2; i++) {
int ndigits, nwords;
*p++ = '0';
*p++ = 'x';
ndigits = strcspn(q, "/"); /* find / or end of string */
nwords = ndigits / 4;
/* now trim ndigits to remove leading zeros */
while (q[(ndigits - 1) ^ 3] == '0' && ndigits > 1)
ndigits--;
/* now move digits over to new string */
for (j = 0; j < ndigits; j++)
p[ndigits - 1 - j] = q[j ^ 3];
p += ndigits;
q += nwords * 4;
if (*q) {
q++; /* eat the slash */
*p++ = ','; /* add a comma */
}
*p = '\0'; /* terminate the string */
}
/*
* Now _if_ this key matches, we'll enter it in the new
* format. If not, we'll assume something odd went
* wrong, and hyper-cautiously do nothing.
*/
if (!strcmp(otherstr, key))
RegSetValueEx(rkey, regname, 0, REG_SZ, (BYTE *)otherstr,
strlen(otherstr) + 1);
}
sfree(oldstyle);
}
RegCloseKey(rkey);
compare = strcmp(otherstr, key);
sfree(otherstr);
sfree(regname);
if (ret == ERROR_MORE_DATA ||
(ret == ERROR_SUCCESS && type == REG_SZ && compare))
return 2; /* key is different in registry */
else if (ret != ERROR_SUCCESS || type != REG_SZ)
return 1; /* key does not exist in registry */
else
return 0; /* key matched OK in registry */
}
bool have_ssh_host_key(const char *hostname, int port,
const char *keytype)
{
/*
* If we have a host key, verify_host_key will return 0 or 2.
* If we don't have one, it'll return 1.
*/
return verify_host_key(hostname, port, keytype, "") != 1;
}
void store_host_key(const char *hostname, int port,
const char *keytype, const char *key)
{
char *regname;
HKEY rkey;
regname = snewn(3 * (strlen(hostname) + strlen(keytype)) + 15, char);
hostkey_regname(regname, hostname, port, keytype);
if (RegCreateKey(HKEY_CURRENT_USER, PUTTY_REG_POS "\\SshHostKeys",
&rkey) == ERROR_SUCCESS) {
RegSetValueEx(rkey, regname, 0, REG_SZ, (BYTE *)key, strlen(key) + 1);
RegCloseKey(rkey);
} /* else key does not exist in registry */
sfree(regname);
}
/*
* Open (or delete) the random seed file.
*/
enum { DEL, OPEN_R, OPEN_W };
static bool try_random_seed(char const *path, int action, HANDLE *ret)
{
if (action == DEL) {
if (!DeleteFile(path) && GetLastError() != ERROR_FILE_NOT_FOUND) {
nonfatal("Unable to delete '%s': %s", path,
win_strerror(GetLastError()));
}
*ret = INVALID_HANDLE_VALUE;
return false; /* so we'll do the next ones too */
}
*ret = CreateFile(path,
action == OPEN_W ? GENERIC_WRITE : GENERIC_READ,
action == OPEN_W ? 0 : (FILE_SHARE_READ |
FILE_SHARE_WRITE),
NULL,
action == OPEN_W ? CREATE_ALWAYS : OPEN_EXISTING,
action == OPEN_W ? FILE_ATTRIBUTE_NORMAL : 0,
NULL);
return (*ret != INVALID_HANDLE_VALUE);
}
static HANDLE access_random_seed(int action)
{
HKEY rkey;
DWORD type, size;
HANDLE rethandle;
char seedpath[2 * MAX_PATH + 10] = "\0";
/*
* Iterate over a selection of possible random seed paths until
* we find one that works.
*
* We do this iteration separately for reading and writing,
* meaning that we will automatically migrate random seed files
* if a better location becomes available (by reading from the
* best location in which we actually find one, and then
* writing to the best location in which we can _create_ one).
*/
/*
* First, try the location specified by the user in the
* Registry, if any.
*/
size = sizeof(seedpath);
if (RegOpenKey(HKEY_CURRENT_USER, PUTTY_REG_POS, &rkey) ==
ERROR_SUCCESS) {
int ret = RegQueryValueEx(rkey, "RandSeedFile",
0, &type, (BYTE *)seedpath, &size);
if (ret != ERROR_SUCCESS || type != REG_SZ)
seedpath[0] = '\0';
RegCloseKey(rkey);
if (*seedpath && try_random_seed(seedpath, action, &rethandle))
return rethandle;
}
/*
* Next, try the user's local Application Data directory,
* followed by their non-local one. This is found using the
* SHGetFolderPath function, which won't be present on all
* versions of Windows.
*/
if (!tried_shgetfolderpath) {
/* This is likely only to bear fruit on systems with IE5+
* installed, or WinMe/2K+. There is some faffing with
* SHFOLDER.DLL we could do to try to find an equivalent
* on older versions of Windows if we cared enough.
* However, the invocation below requires IE5+ anyway,
* so stuff that. */
shell32_module = load_system32_dll("shell32.dll");
GET_WINDOWS_FUNCTION(shell32_module, SHGetFolderPathA);
tried_shgetfolderpath = true;
}
if (p_SHGetFolderPathA) {
if (SUCCEEDED(p_SHGetFolderPathA(NULL, CSIDL_LOCAL_APPDATA,
NULL, SHGFP_TYPE_CURRENT, seedpath))) {
strcat(seedpath, "\\PUTTY.RND");
if (try_random_seed(seedpath, action, &rethandle))
return rethandle;
}
if (SUCCEEDED(p_SHGetFolderPathA(NULL, CSIDL_APPDATA,
NULL, SHGFP_TYPE_CURRENT, seedpath))) {
strcat(seedpath, "\\PUTTY.RND");
if (try_random_seed(seedpath, action, &rethandle))
return rethandle;
}
}
/*
* Failing that, try %HOMEDRIVE%%HOMEPATH% as a guess at the
* user's home directory.
*/
{
int len, ret;
len =
GetEnvironmentVariable("HOMEDRIVE", seedpath,
sizeof(seedpath));
ret =
GetEnvironmentVariable("HOMEPATH", seedpath + len,
sizeof(seedpath) - len);
if (ret != 0) {
strcat(seedpath, "\\PUTTY.RND");
if (try_random_seed(seedpath, action, &rethandle))
return rethandle;
}
}
/*
* And finally, fall back to C:\WINDOWS.
*/
GetWindowsDirectory(seedpath, sizeof(seedpath));
strcat(seedpath, "\\PUTTY.RND");
if (try_random_seed(seedpath, action, &rethandle))
return rethandle;
/*
* If even that failed, give up.
*/
return INVALID_HANDLE_VALUE;
}
void read_random_seed(noise_consumer_t consumer)
{
HANDLE seedf = access_random_seed(OPEN_R);
if (seedf != INVALID_HANDLE_VALUE) {
while (1) {
char buf[1024];
DWORD len;
if (ReadFile(seedf, buf, sizeof(buf), &len, NULL) && len)
consumer(buf, len);
else
break;
}
CloseHandle(seedf);
}
}
void write_random_seed(void *data, int len)
{
HANDLE seedf = access_random_seed(OPEN_W);
if (seedf != INVALID_HANDLE_VALUE) {
DWORD lenwritten;
WriteFile(seedf, data, len, &lenwritten, NULL);
CloseHandle(seedf);
}
}
/*
* Internal function supporting the jump list registry code. All the
* functions to add, remove and read the list have substantially
* similar content, so this is a generalisation of all of them which
* transforms the list in the registry by prepending 'add' (if
* non-null), removing 'rem' from what's left (if non-null), and
* returning the resulting concatenated list of strings in 'out' (if
* non-null).
*/
static int transform_jumplist_registry
(const char *add, const char *rem, char **out)
{
int ret;
HKEY pjumplist_key;
DWORD type;
DWORD value_length;
char *old_value, *new_value;
char *piterator_old, *piterator_new, *piterator_tmp;
ret = RegCreateKeyEx(HKEY_CURRENT_USER, reg_jumplist_key, 0, NULL,
REG_OPTION_NON_VOLATILE, (KEY_READ | KEY_WRITE), NULL,
&pjumplist_key, NULL);
if (ret != ERROR_SUCCESS) {
return JUMPLISTREG_ERROR_KEYOPENCREATE_FAILURE;
}
/* Get current list of saved sessions in the registry. */
value_length = 200;
old_value = snewn(value_length, char);
ret = RegQueryValueEx(pjumplist_key, reg_jumplist_value, NULL, &type,
(BYTE *)old_value, &value_length);
/* When the passed buffer is too small, ERROR_MORE_DATA is
* returned and the required size is returned in the length
* argument. */
if (ret == ERROR_MORE_DATA) {
sfree(old_value);
old_value = snewn(value_length, char);
ret = RegQueryValueEx(pjumplist_key, reg_jumplist_value, NULL, &type,
(BYTE *)old_value, &value_length);
}
if (ret == ERROR_FILE_NOT_FOUND) {
/* Value doesn't exist yet. Start from an empty value. */
*old_value = '\0';
*(old_value + 1) = '\0';
} else if (ret != ERROR_SUCCESS) {
/* Some non-recoverable error occurred. */
sfree(old_value);
RegCloseKey(pjumplist_key);
return JUMPLISTREG_ERROR_VALUEREAD_FAILURE;
} else if (type != REG_MULTI_SZ) {
/* The value present in the registry has the wrong type: we
* try to delete it and start from an empty value. */
ret = RegDeleteValue(pjumplist_key, reg_jumplist_value);
if (ret != ERROR_SUCCESS) {
sfree(old_value);
RegCloseKey(pjumplist_key);
return JUMPLISTREG_ERROR_VALUEREAD_FAILURE;
}
*old_value = '\0';
*(old_value + 1) = '\0';
}
/* Check validity of registry data: REG_MULTI_SZ value must end
* with \0\0. */
piterator_tmp = old_value;
while (((piterator_tmp - old_value) < (value_length - 1)) &&
!(*piterator_tmp == '\0' && *(piterator_tmp+1) == '\0')) {
++piterator_tmp;
}
if ((piterator_tmp - old_value) >= (value_length-1)) {
/* Invalid value. Start from an empty value. */
*old_value = '\0';
*(old_value + 1) = '\0';
}
/*
* Modify the list, if we're modifying.
*/
if (add || rem) {
/* Walk through the existing list and construct the new list of
* saved sessions. */
new_value = snewn(value_length + (add ? strlen(add) + 1 : 0), char);
piterator_new = new_value;
piterator_old = old_value;
/* First add the new item to the beginning of the list. */
if (add) {
strcpy(piterator_new, add);
piterator_new += strlen(piterator_new) + 1;
}
/* Now add the existing list, taking care to leave out the removed
* item, if it was already in the existing list. */
while (*piterator_old != '\0') {
if (!rem || strcmp(piterator_old, rem) != 0) {
/* Check if this is a valid session, otherwise don't add. */
settings_r *psettings_tmp = open_settings_r(piterator_old);
if (psettings_tmp != NULL) {
close_settings_r(psettings_tmp);
strcpy(piterator_new, piterator_old);
piterator_new += strlen(piterator_new) + 1;
}
}
piterator_old += strlen(piterator_old) + 1;
}
*piterator_new = '\0';
++piterator_new;
/* Save the new list to the registry. */
ret = RegSetValueEx(pjumplist_key, reg_jumplist_value, 0, REG_MULTI_SZ,
(BYTE *)new_value, piterator_new - new_value);
sfree(old_value);
old_value = new_value;
} else
ret = ERROR_SUCCESS;
/*
* Either return or free the result.
*/
if (out && ret == ERROR_SUCCESS)
*out = old_value;
else
sfree(old_value);
/* Clean up and return. */
RegCloseKey(pjumplist_key);
if (ret != ERROR_SUCCESS) {
return JUMPLISTREG_ERROR_VALUEWRITE_FAILURE;
} else {
return JUMPLISTREG_OK;
}
}
/* Adds a new entry to the jumplist entries in the registry. */
int add_to_jumplist_registry(const char *item)
{
return transform_jumplist_registry(item, item, NULL);
}
/* Removes an item from the jumplist entries in the registry. */
int remove_from_jumplist_registry(const char *item)
{
return transform_jumplist_registry(NULL, item, NULL);
}
/* Returns the jumplist entries from the registry. Caller must free
* the returned pointer. */
char *get_jumplist_registry_entries (void)
{
char *list_value;
if (transform_jumplist_registry(NULL,NULL,&list_value) != JUMPLISTREG_OK) {
list_value = snewn(2, char);
*list_value = '\0';
*(list_value + 1) = '\0';
}
return list_value;
}
/*
* Recursively delete a registry key and everything under it.
*/
static void registry_recursive_remove(HKEY key)
{
DWORD i;
char name[MAX_PATH + 1];
HKEY subkey;
i = 0;
while (RegEnumKey(key, i, name, sizeof(name)) == ERROR_SUCCESS) {
if (RegOpenKey(key, name, &subkey) == ERROR_SUCCESS) {
registry_recursive_remove(subkey);
RegCloseKey(subkey);
}
RegDeleteKey(key, name);
}
}
void cleanup_all(void)
{
HKEY key;
int ret;
char name[MAX_PATH + 1];
/* ------------------------------------------------------------
* Wipe out the random seed file, in all of its possible
* locations.
*/
access_random_seed(DEL);
/* ------------------------------------------------------------
* Ask Windows to delete any jump list information associated
* with this installation of PuTTY.
*/
clear_jumplist();
/* ------------------------------------------------------------
* Destroy all registry information associated with PuTTY.
*/
/*
* Open the main PuTTY registry key and remove everything in it.
*/
if (RegOpenKey(HKEY_CURRENT_USER, PUTTY_REG_POS, &key) ==
ERROR_SUCCESS) {
registry_recursive_remove(key);
RegCloseKey(key);
}
/*
* Now open the parent key and remove the PuTTY main key. Once
* we've done that, see if the parent key has any other
* children.
*/
if (RegOpenKey(HKEY_CURRENT_USER, PUTTY_REG_PARENT,
&key) == ERROR_SUCCESS) {
RegDeleteKey(key, PUTTY_REG_PARENT_CHILD);
ret = RegEnumKey(key, 0, name, sizeof(name));
RegCloseKey(key);
/*
* If the parent key had no other children, we must delete
* it in its turn. That means opening the _grandparent_
* key.
*/
if (ret != ERROR_SUCCESS) {
if (RegOpenKey(HKEY_CURRENT_USER, PUTTY_REG_GPARENT,
&key) == ERROR_SUCCESS) {
RegDeleteKey(key, PUTTY_REG_GPARENT_CHILD);
RegCloseKey(key);
}
}
}
/*
* Now we're done.
*/
}
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