/*
* winutils.c: miscellaneous Windows utilities for GUI apps
*/
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
#include "putty.h"
#include "misc.h"
#ifdef TESTMODE
/* Definitions to allow this module to be compiled standalone for testing
* split_into_argv(). */
#define smalloc malloc
#define srealloc realloc
#define sfree free
#endif
/*
* GetOpenFileName/GetSaveFileName tend to muck around with the process'
* working directory on at least some versions of Windows.
* Here's a wrapper that gives more control over this, and hides a little
* bit of other grottiness.
*/
struct filereq_tag {
TCHAR cwd[MAX_PATH];
};
/*
* `of' is expected to be initialised with most interesting fields, but
* this function does some administrivia. (assume `of' was memset to 0)
* save==1 -> GetSaveFileName; save==0 -> GetOpenFileName
* `state' is optional.
*/
BOOL request_file(filereq *state, OPENFILENAME *of, int preserve, int save)
{
TCHAR cwd[MAX_PATH]; /* process CWD */
BOOL ret;
/* Get process CWD */
if (preserve) {
DWORD r = GetCurrentDirectory(lenof(cwd), cwd);
if (r == 0 || r >= lenof(cwd))
/* Didn't work, oh well. Stop trying to be clever. */
preserve = 0;
}
/* Open the file requester, maybe setting lpstrInitialDir */
{
#ifdef OPENFILENAME_SIZE_VERSION_400
of->lStructSize = OPENFILENAME_SIZE_VERSION_400;
#else
of->lStructSize = sizeof(*of);
#endif
of->lpstrInitialDir = (state && state->cwd[0]) ? state->cwd : NULL;
/* Actually put up the requester. */
ret = save ? GetSaveFileName(of) : GetOpenFileName(of);
}
/* Get CWD left by requester */
if (state) {
DWORD r = GetCurrentDirectory(lenof(state->cwd), state->cwd);
if (r == 0 || r >= lenof(state->cwd))
/* Didn't work, oh well. */
state->cwd[0] = '\0';
}
/* Restore process CWD */
if (preserve)
/* If it fails, there's not much we can do. */
(void) SetCurrentDirectory(cwd);
return ret;
}
filereq *filereq_new(void)
{
filereq *ret = snew(filereq);
ret->cwd[0] = '\0';
return ret;
}
void filereq_free(filereq *state)
{
sfree(state);
}
/*
* Message box with optional context help.
*/
/* Callback function to launch context help. */
static VOID CALLBACK message_box_help_callback(LPHELPINFO lpHelpInfo)
{
const char *context = NULL;
#define CHECK_CTX(name) \
do { \
if (lpHelpInfo->dwContextId == WINHELP_CTXID_ ## name) \
context = WINHELP_CTX_ ## name; \
} while (0)
CHECK_CTX(errors_hostkey_absent);
CHECK_CTX(errors_hostkey_changed);
CHECK_CTX(errors_cantloadkey);
CHECK_CTX(option_cleanup);
CHECK_CTX(pgp_fingerprints);
#undef CHECK_CTX
if (context)
launch_help(hwnd, context);
}
int message_box(LPCTSTR text, LPCTSTR caption, DWORD style, DWORD helpctxid)
{
MSGBOXPARAMS mbox;
/*
* We use MessageBoxIndirect() because it allows us to specify a
* callback function for the Help button.
*/
mbox.cbSize = sizeof(mbox);
/* Assumes the globals `hinst' and `hwnd' have sensible values. */
mbox.hInstance = hinst;
mbox.hwndOwner = hwnd;
mbox.lpfnMsgBoxCallback = &message_box_help_callback;
mbox.dwLanguageId = LANG_NEUTRAL;
mbox.lpszText = text;
mbox.lpszCaption = caption;
mbox.dwContextHelpId = helpctxid;
mbox.dwStyle = style;
if (helpctxid != 0 && has_help()) mbox.dwStyle |= MB_HELP;
return MessageBoxIndirect(&mbox);
}
/*
* Display the fingerprints of the PGP Master Keys to the user.
*/
void pgp_fingerprints(void)
{
message_box("These are the fingerprints of the PuTTY PGP Master Keys. They can\n"
"be used to establish a trust path from this executable to another\n"
"one. See the manual for more information.\n"
"(Note: these fingerprints have nothing to do with SSH!)\n"
"\n"
"PuTTY Master Key (RSA), 1024-bit:\n"
" " PGP_RSA_MASTER_KEY_FP "\n"
"PuTTY Master Key (DSA), 1024-bit:\n"
" " PGP_DSA_MASTER_KEY_FP,
"PGP fingerprints", MB_ICONINFORMATION | MB_OK,
HELPCTXID(pgp_fingerprints));
}
/*
* Handy wrapper around GetDlgItemText which doesn't make you invent
* an arbitrary length limit on the output string. Returned string is
* dynamically allocated; caller must free.
*/
char *GetDlgItemText_alloc(HWND hwnd, int id)
{
char *ret = NULL;
int size = 0;
do {
size = size * 4 / 3 + 512;
ret = sresize(ret, size, char);
GetDlgItemText(hwnd, id, ret, size);
} while (!memchr(ret, '\0', size-1));
return ret;
}
/*
* Split a complete command line into argc/argv, attempting to do it
* exactly the same way the Visual Studio C library would do it (so
* that our console utilities, which receive argc and argv already
* broken apart by the C library, will have their command lines
* processed in the same way as the GUI utilities which get a whole
* command line and must call this function).
*
* Does not modify the input command line.
*
* The final parameter (argstart) is used to return a second array
* of char * pointers, the same length as argv, each one pointing
* at the start of the corresponding element of argv in the
* original command line. So if you get half way through processing
* your command line in argc/argv form and then decide you want to
* treat the rest as a raw string, you can. If you don't want to,
* `argstart' can be safely left NULL.
*/
void split_into_argv(char *cmdline, int *argc, char ***argv,
char ***argstart)
{
char *p;
char *outputline, *q;
char **outputargv, **outputargstart;
int outputargc;
/*
* These argument-breaking rules apply to Visual Studio 7, which
* is currently the compiler expected to be used for PuTTY. Visual
* Studio 10 has different rules, lacking the curious mod 3
* behaviour of consecutive quotes described below; I presume they
* fixed a bug. As and when we migrate to a newer compiler, we'll
* have to adjust this to match; however, for the moment we
* faithfully imitate in our GUI utilities what our CLI utilities
* can't be prevented from doing.
*
* When I investigated this, at first glance the rules appeared to
* be:
*
* - Single quotes are not special characters.
*
* - Double quotes are removed, but within them spaces cease
* to be special.
*
* - Backslashes are _only_ special when a sequence of them
* appear just before a double quote. In this situation,
* they are treated like C backslashes: so \" just gives a
* literal quote, \\" gives a literal backslash and then
* opens or closes a double-quoted segment, \\\" gives a
* literal backslash and then a literal quote, \\\\" gives
* two literal backslashes and then opens/closes a
* double-quoted segment, and so forth. Note that this
* behaviour is identical inside and outside double quotes.
*
* - Two successive double quotes become one literal double
* quote, but only _inside_ a double-quoted segment.
* Outside, they just form an empty double-quoted segment
* (which may cause an empty argument word).
*
* - That only leaves the interesting question of what happens
* when one or more backslashes precedes two or more double
* quotes, starting inside a double-quoted string. And the
* answer to that appears somewhat bizarre. Here I tabulate
* number of backslashes (across the top) against number of
* quotes (down the left), and indicate how many backslashes
* are output, how many quotes are output, and whether a
* quoted segment is open at the end of the sequence:
*
* backslashes
*
* 0 1 2 3 4
*
* 0 0,0,y | 1,0,y 2,0,y 3,0,y 4,0,y
* --------+-----------------------------
* 1 0,0,n | 0,1,y 1,0,n 1,1,y 2,0,n
* q 2 0,1,n | 0,1,n 1,1,n 1,1,n 2,1,n
* u 3 0,1,y | 0,2,n 1,1,y 1,2,n 2,1,y
* o 4 0,1,n | 0,2,y 1,1,n 1,2,y 2,1,n
* t 5 0,2,n | 0,2,n 1,2,n 1,2,n 2,2,n
* e 6 0,2,y | 0,3,n 1,2,y 1,3,n 2,2,y
* s 7 0,2,n | 0,3,y 1,2,n 1,3,y 2,2,n
* 8 0,3,n | 0,3,n 1,3,n 1,3,n 2,3,n
* 9 0,3,y | 0,4,n 1,3,y 1,4,n 2,3,y
* 10 0,3,n | 0,4,y 1,3,n 1,4,y 2,3,n
* 11 0,4,n | 0,4,n 1,4,n 1,4,n 2,4,n
*
*
* [Test fragment was of the form "a\\\"""b c" d.]
*
* There is very weird mod-3 behaviour going on here in the
* number of quotes, and it even applies when there aren't any
* backslashes! How ghastly.
*
* With a bit of thought, this extremely odd diagram suddenly
* coalesced itself into a coherent, if still ghastly, model of
* how things work:
*
* - As before, backslashes are only special when one or more
* of them appear contiguously before at least one double
* quote. In this situation the backslashes do exactly what
* you'd expect: each one quotes the next thing in front of
* it, so you end up with n/2 literal backslashes (if n is
* even) or (n-1)/2 literal backslashes and a literal quote
* (if n is odd). In the latter case the double quote
* character right after the backslashes is used up.
*
* - After that, any remaining double quotes are processed. A
* string of contiguous unescaped double quotes has a mod-3
* behaviour:
*
* * inside a quoted segment, a quote ends the segment.
* * _immediately_ after ending a quoted segment, a quote
* simply produces a literal quote.
* * otherwise, outside a quoted segment, a quote begins a
* quoted segment.
*
* So, for example, if we started inside a quoted segment
* then two contiguous quotes would close the segment and
* produce a literal quote; three would close the segment,
* produce a literal quote, and open a new segment. If we
* started outside a quoted segment, then two contiguous
* quotes would open and then close a segment, producing no
* output (but potentially creating a zero-length argument);
* but three quotes would open and close a segment and then
* produce a literal quote.
*/
/*
* First deal with the simplest of all special cases: if there
* aren't any arguments, return 0,NULL,NULL.
*/
while (*cmdline && isspace(*cmdline)) cmdline++;
if (!*cmdline) {
if (argc) *argc = 0;
if (argv) *argv = NULL;
if (argstart) *argstart = NULL;
return;
}
/*
* This will guaranteeably be big enough; we can realloc it
* down later.
*/
outputline = snewn(1+strlen(cmdline), char);
outputargv = snewn(strlen(cmdline)+1 / 2, char *);
outputargstart = snewn(strlen(cmdline)+1 / 2, char *);
p = cmdline; q = outputline; outputargc = 0;
while (*p) {
int quote;
/* Skip whitespace searching for start of argument. */
while (*p && isspace(*p)) p++;
if (!*p) break;
/* We have an argument; start it. */
outputargv[outputargc] = q;
outputargstart[outputargc] = p;
outputargc++;
quote = 0;
/* Copy data into the argument until it's finished. */
while (*p) {
if (!quote && isspace(*p))
break; /* argument is finished */
if (*p == '"' || *p == '\\') {
/*
* We have a sequence of zero or more backslashes
* followed by a sequence of zero or more quotes.
* Count up how many of each, and then deal with
* them as appropriate.
*/
int i, slashes = 0, quotes = 0;
while (*p == '\\') slashes++, p++;
while (*p == '"') quotes++, p++;
if (!quotes) {
/*
* Special case: if there are no quotes,
* slashes are not special at all, so just copy
* n slashes to the output string.
*/
while (slashes--) *q++ = '\\';
} else {
/* Slashes annihilate in pairs. */
while (slashes >= 2) slashes -= 2, *q++ = '\\';
/* One remaining slash takes out the first quote. */
if (slashes) quotes--, *q++ = '"';
if (quotes > 0) {
/* Outside a quote segment, a quote starts one. */
if (!quote) quotes--, quote = 1;
/* Now we produce (n+1)/3 literal quotes... */
for (i = 3; i <= quotes+1; i += 3) *q++ = '"';
/* ... and end in a quote segment iff 3 divides n. */
quote = (quotes % 3 == 0);
}
}
} else {
*q++ = *p++;
}
}
/* At the end of an argument, just append a trailing NUL. */
*q++ = '\0';
}
outputargv = sresize(outputargv, outputargc, char *);
outputargstart = sresize(outputargstart, outputargc, char *);
if (argc) *argc = outputargc;
if (argv) *argv = outputargv; else sfree(outputargv);
if (argstart) *argstart = outputargstart; else sfree(outputargstart);
}
#ifdef TESTMODE
const struct argv_test {
const char *cmdline;
const char *argv[10];
} argv_tests[] = {
/*
* We generate this set of tests by invoking ourself with
* `-generate'.
*/
{"ab c\" d", {"ab", "c d", NULL}},
{"a\"b c\" d", {"ab c", "d", NULL}},
{"a\"\"b c\" d", {"ab", "c d", NULL}},
{"a\"\"\"b c\" d", {"a\"b", "c d", NULL}},
{"a\"\"\"\"b c\" d", {"a\"b c", "d", NULL}},
{"a\"\"\"\"\"b c\" d", {"a\"b", "c d", NULL}},
{"a\"\"\"\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"a\"\"\"\"\"\"\"b c\" d", {"a\"\"b c", "d", NULL}},
{"a\"\"\"\"\"\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"a\\b c\" d", {"a\\b", "c d", NULL}},
{"a\\\"b c\" d", {"a\"b", "c d", NULL}},
{"a\\\"\"b c\" d", {"a\"b c", "d", NULL}},
{"a\\\"\"\"b c\" d", {"a\"b", "c d", NULL}},
{"a\\\"\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"a\\\"\"\"\"\"b c\" d", {"a\"\"b c", "d", NULL}},
{"a\\\"\"\"\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"a\\\"\"\"\"\"\"\"b c\" d", {"a\"\"\"b", "c d", NULL}},
{"a\\\"\"\"\"\"\"\"\"b c\" d", {"a\"\"\"b c", "d", NULL}},
{"a\\\\b c\" d", {"a\\\\b", "c d", NULL}},
{"a\\\\\"b c\" d", {"a\\b c", "d", NULL}},
{"a\\\\\"\"b c\" d", {"a\\b", "c d", NULL}},
{"a\\\\\"\"\"b c\" d", {"a\\\"b", "c d", NULL}},
{"a\\\\\"\"\"\"b c\" d", {"a\\\"b c", "d", NULL}},
{"a\\\\\"\"\"\"\"b c\" d", {"a\\\"b", "c d", NULL}},
{"a\\\\\"\"\"\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"a\\\\\"\"\"\"\"\"\"b c\" d", {"a\\\"\"b c", "d", NULL}},
{"a\\\\\"\"\"\"\"\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"a\\\\\\b c\" d", {"a\\\\\\b", "c d", NULL}},
{"a\\\\\\\"b c\" d", {"a\\\"b", "c d", NULL}},
{"a\\\\\\\"\"b c\" d", {"a\\\"b c", "d", NULL}},
{"a\\\\\\\"\"\"b c\" d", {"a\\\"b", "c d", NULL}},
{"a\\\\\\\"\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"a\\\\\\\"\"\"\"\"b c\" d", {"a\\\"\"b c", "d", NULL}},
{"a\\\\\\\"\"\"\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"a\\\\\\\"\"\"\"\"\"\"b c\" d", {"a\\\"\"\"b", "c d", NULL}},
{"a\\\\\\\"\"\"\"\"\"\"\"b c\" d", {"a\\\"\"\"b c", "d", NULL}},
{"a\\\\\\\\b c\" d", {"a\\\\\\\\b", "c d", NULL}},
{"a\\\\\\\\\"b c\" d", {"a\\\\b c", "d", NULL}},
{"a\\\\\\\\\"\"b c\" d", {"a\\\\b", "c d", NULL}},
{"a\\\\\\\\\"\"\"b c\" d", {"a\\\\\"b", "c d", NULL}},
{"a\\\\\\\\\"\"\"\"b c\" d", {"a\\\\\"b c", "d", NULL}},
{"a\\\\\\\\\"\"\"\"\"b c\" d", {"a\\\\\"b", "c d", NULL}},
{"a\\\\\\\\\"\"\"\"\"\"b c\" d", {"a\\\\\"\"b", "c d", NULL}},
{"a\\\\\\\\\"\"\"\"\"\"\"b c\" d", {"a\\\\\"\"b c", "d", NULL}},
{"a\\\\\\\\\"\"\"\"\"\"\"\"b c\" d", {"a\\\\\"\"b", "c d", NULL}},
{"\"ab c\" d", {"ab c", "d", NULL}},
{"\"a\"b c\" d", {"ab", "c d", NULL}},
{"\"a\"\"b c\" d", {"a\"b", "c d", NULL}},
{"\"a\"\"\"b c\" d", {"a\"b c", "d", NULL}},
{"\"a\"\"\"\"b c\" d", {"a\"b", "c d", NULL}},
{"\"a\"\"\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"\"a\"\"\"\"\"\"b c\" d", {"a\"\"b c", "d", NULL}},
{"\"a\"\"\"\"\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"\"a\"\"\"\"\"\"\"\"b c\" d", {"a\"\"\"b", "c d", NULL}},
{"\"a\\b c\" d", {"a\\b c", "d", NULL}},
{"\"a\\\"b c\" d", {"a\"b c", "d", NULL}},
{"\"a\\\"\"b c\" d", {"a\"b", "c d", NULL}},
{"\"a\\\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"\"a\\\"\"\"\"b c\" d", {"a\"\"b c", "d", NULL}},
{"\"a\\\"\"\"\"\"b c\" d", {"a\"\"b", "c d", NULL}},
{"\"a\\\"\"\"\"\"\"b c\" d", {"a\"\"\"b", "c d", NULL}},
{"\"a\\\"\"\"\"\"\"\"b c\" d", {"a\"\"\"b c", "d", NULL}},
{"\"a\\\"\"\"\"\"\"\"\"b c\" d", {"a\"\"\"b", "c d", NULL}},
{"\"a\\\\b c\" d", {"a\\\\b c", "d", NULL}},
{"\"a\\\\\"b c\" d", {"a\\b", "c d", NULL}},
{"\"a\\\\\"\"b c\" d", {"a\\\"b", "c d", NULL}},
{"\"a\\\\\"\"\"b c\" d", {"a\\\"b c", "d", NULL}},
{"\"a\\\\\"\"\"\"b c\" d", {"a\\\"b", "c d", NULL}},
{"\"a\\\\\"\"\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"\"a\\\\\"\"\"\"\"\"b c\" d", {"a\\\"\"b c", "d", NULL}},
{"\"a\\\\\"\"\"\"\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"\"a\\\\\"\"\"\"\"\"\"\"b c\" d", {"a\\\"\"\"b", "c d", NULL}},
{"\"a\\\\\\b c\" d", {"a\\\\\\b c", "d", NULL}},
{"\"a\\\\\\\"b c\" d", {"a\\\"b c", "d", NULL}},
{"\"a\\\\\\\"\"b c\" d", {"a\\\"b", "c d", NULL}},
{"\"a\\\\\\\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"\"a\\\\\\\"\"\"\"b c\" d", {"a\\\"\"b c", "d", NULL}},
{"\"a\\\\\\\"\"\"\"\"b c\" d", {"a\\\"\"b", "c d", NULL}},
{"\"a\\\\\\\"\"\"\"\"\"b c\" d", {"a\\\"\"\"b", "c d", NULL}},
{"\"a\\\\\\\"\"\"\"\"\"\"b c\" d", {"a\\\"\"\"b c", "d", NULL}},
{"\"a\\\\\\\"\"\"\"\"\"\"\"b c\" d", {"a\\\"\"\"b", "c d", NULL}},
{"\"a\\\\\\\\b c\" d", {"a\\\\\\\\b c", "d", NULL}},
{"\"a\\\\\\\\\"b c\" d", {"a\\\\b", "c d", NULL}},
{"\"a\\\\\\\\\"\"b c\" d", {"a\\\\\"b", "c d", NULL}},
{"\"a\\\\\\\\\"\"\"b c\" d", {"a\\\\\"b c", "d", NULL}},
{"\"a\\\\\\\\\"\"\"\"b c\" d", {"a\\\\\"b", "c d", NULL}},
{"\"a\\\\\\\\\"\"\"\"\"b c\" d", {"a\\\\\"\"b", "c d", NULL}},
{"\"a\\\\\\\\\"\"\"\"\"\"b c\" d", {"a\\\\\"\"b c", "d", NULL}},
{"\"a\\\\\\\\\"\"\"\"\"\"\"b c\" d", {"a\\\\\"\"b", "c d", NULL}},
{"\"a\\\\\\\\\"\"\"\"\"\"\"\"b c\" d", {"a\\\\\"\"\"b", "c d", NULL}},
};
int main(int argc, char **argv)
{
int i, j;
if (argc > 1) {
/*
* Generation of tests.
*
* Given `-splat <args>', we print out a C-style
* representation of each argument (in the form "a", "b",
* NULL), backslash-escaping each backslash and double
* quote.
*
* Given `-split <string>', we first doctor `string' by
* turning forward slashes into backslashes, single quotes
* into double quotes and underscores into spaces; and then
* we feed the resulting string to ourself with `-splat'.
*
* Given `-generate', we concoct a variety of fun test
* cases, encode them in quote-safe form (mapping \, " and
* space to /, ' and _ respectively) and feed each one to
* `-split'.
*/
if (!strcmp(argv[1], "-splat")) {
int i;
char *p;
for (i = 2; i < argc; i++) {
putchar('"');
for (p = argv[i]; *p; p++) {
if (*p == '\\' || *p == '"')
putchar('\\');
putchar(*p);
}
printf("\", ");
}
printf("NULL");
return 0;
}
if (!strcmp(argv[1], "-split") && argc > 2) {
char *str = malloc(20 + strlen(argv[0]) + strlen(argv[2]));
char *p, *q;
q = str + sprintf(str, "%s -splat ", argv[0]);
printf(" {\"");
for (p = argv[2]; *p; p++, q++) {
switch (*p) {
case '/': printf("\\\\"); *q = '\\'; break;
case '\'': printf("\\\""); *q = '"'; break;
case '_': printf(" "); *q = ' '; break;
default: putchar(*p); *q = *p; break;
}
}
*p = '\0';
printf("\", {");
fflush(stdout);
system(str);
printf("}},\n");
return 0;
}
if (!strcmp(argv[1], "-generate")) {
char *teststr, *p;
int i, initialquote, backslashes, quotes;
teststr = malloc(200 + strlen(argv[0]));
for (initialquote = 0; initialquote <= 1; initialquote++) {
for (backslashes = 0; backslashes < 5; backslashes++) {
for (quotes = 0; quotes < 9; quotes++) {
p = teststr + sprintf(teststr, "%s -split ", argv[0]);
if (initialquote) *p++ = '\'';
*p++ = 'a';
for (i = 0; i < backslashes; i++) *p++ = '/';
for (i = 0; i < quotes; i++) *p++ = '\'';
*p++ = 'b';
*p++ = '_';
*p++ = 'c';
*p++ = '\'';
*p++ = '_';
*p++ = 'd';
*p = '\0';
system(teststr);
}
}
}
return 0;
}
fprintf(stderr, "unrecognised option: \"%s\"\n", argv[1]);
return 1;
}
/*
* If we get here, we were invoked with no arguments, so just
* run the tests.
*/
for (i = 0; i < lenof(argv_tests); i++) {
int ac;
char **av;
split_into_argv(argv_tests[i].cmdline, &ac, &av);
for (j = 0; j < ac && argv_tests[i].argv[j]; j++) {
if (strcmp(av[j], argv_tests[i].argv[j])) {
printf("failed test %d (|%s|) arg %d: |%s| should be |%s|\n",
i, argv_tests[i].cmdline,
j, av[j], argv_tests[i].argv[j]);
}
#ifdef VERBOSE
else {
printf("test %d (|%s|) arg %d: |%s| == |%s|\n",
i, argv_tests[i].cmdline,
j, av[j], argv_tests[i].argv[j]);
}
#endif
}
if (j < ac)
printf("failed test %d (|%s|): %d args returned, should be %d\n",
i, argv_tests[i].cmdline, ac, j);
if (argv_tests[i].argv[j])
printf("failed test %d (|%s|): %d args returned, should be more\n",
i, argv_tests[i].cmdline, ac);
}
return 0;
}
#endif