void
identifyDriver (
const char *type,
const DriverDefinition *definition,
int full
) {
{
char buffer[0X100];
STR_BEGIN(buffer, sizeof(buffer));
STR_PRINTF("%s %s Driver:", definition->name, type);
if (definition->version && *definition->version) {
STR_PRINTF(" version %s", definition->version);
}
if (full) {
STR_PRINTF(" [compiled on %s at %s]", definition->date, definition->time);
}
STR_END;
logMessage(LOG_NOTICE, "%s", buffer);
}
if (full) {
if (definition->developers && *definition->developers)
logMessage(LOG_INFO, " Developed by %s", definition->developers);
}
}
size_t
formatKeyName (KeyTable *table, char *buffer, size_t size, const KeyValue *value) {
const KeyNameEntry *kne = findKeyNameEntry(table, value);
size_t length;
STR_BEGIN(buffer, size);
if (kne) {
STR_PRINTF("%s", kne->name);
} else if (value->number != KTB_KEY_ANY) {
const KeyValue anyKey = {
.group = value->group,
.number = KTB_KEY_ANY
};
if ((kne = findKeyNameEntry(table, &anyKey))) {
STR_PRINTF("%s.%u", kne->name, value->number+1);
}
}
if (STR_LENGTH == 0) STR_PRINTF("?");
length = STR_LENGTH;
STR_END;
return length;
}
static int
putKeyName (ListGenerationData *lgd, const KeyValue *value) {
char name[0X100];
formatKeyName(lgd->keyTable, name, sizeof(name), value);
return putUtf8String(lgd, name);
}
size_t
formatCharacterDescription (char *buffer, size_t size, int column, int row) {
static char *const colours[] = {
strtext("black"),
strtext("blue"),
strtext("green"),
strtext("cyan"),
strtext("red"),
strtext("magenta"),
strtext("brown"),
strtext("light grey"),
strtext("dark grey"),
strtext("light blue"),
strtext("light green"),
strtext("light cyan"),
strtext("light red"),
strtext("light magenta"),
strtext("yellow"),
strtext("white")
};
size_t length;
ScreenCharacter character;
readScreen(column, row, 1, 1, &character);
STR_BEGIN(buffer, size);
{
uint32_t text = character.text;
STR_PRINTF("char %" PRIu32 " (U+%04" PRIX32 "): %s on %s",
text, text,
gettext(colours[character.attributes & 0X0F]),
gettext(colours[(character.attributes & 0X70) >> 4]));
}
if (character.attributes & SCR_ATTR_BLINK) {
STR_PRINTF(" %s", gettext("blink"));
}
#ifdef HAVE_ICU
{
char name[0X40];
UErrorCode error = U_ZERO_ERROR;
u_charName(character.text, U_EXTENDED_CHAR_NAME, name, sizeof(name), &error);
if (U_SUCCESS(error)) {
STR_PRINTF(" [%s]", name);
}
}
#endif /* HAVE_ICU */
length = STR_LENGTH;
STR_END;
return length;
}
static void
usbLogLineCoding_CDC_ACM (const USB_CDC_ACM_LineCoding *lineCoding) {
char log[0X80];
STR_BEGIN(log, sizeof(log));
STR_PRINTF("CDC ACM line coding:");
{ // baud (bits per second)
uint32_t baud = getLittleEndian32(lineCoding->dwDTERate);
STR_PRINTF(" Baud:%" PRIu32, baud);
}
{ // number of data bits
STR_PRINTF(" Data:%u", lineCoding->bDataBits);
}
{ // number of stop bits
const char *bits;
#define USB_CDC_ACM_STOP(value,name) \
case USB_CDC_ACM_STOP_##value: bits = #name; break;
switch (lineCoding->bCharFormat) {
USB_CDC_ACM_STOP(1 , 1 )
USB_CDC_ACM_STOP(1_5, 1.5)
USB_CDC_ACM_STOP(2 , 2 )
default: bits = "?"; break;
}
#undef USB_CDC_ACM_STOP
STR_PRINTF(" Stop:%s", bits);
}
{ // type of parity
const char *parity;
#define USB_CDC_ACM_PARITY(value,name) \
case USB_CDC_ACM_PARITY_##value: parity = #name; break;
switch (lineCoding->bParityType) {
USB_CDC_ACM_PARITY(NONE , none )
USB_CDC_ACM_PARITY(ODD , odd )
USB_CDC_ACM_PARITY(EVEN , even )
USB_CDC_ACM_PARITY(MARK , mark )
USB_CDC_ACM_PARITY(SPACE, space)
default: parity = "?"; break;
}
#undef USB_CDC_ACM_PARITY
STR_PRINTF(" Parity:%s", parity);
}
STR_END;
logMessage(LOG_CATEGORY(USB_IO), "%s", log);
}
size_t
formatInputError (char *buffer, size_t size, const char *file, const int *line, const char *format, va_list argp) {
size_t length;
STR_BEGIN(buffer, size);
if (file) STR_PRINTF("%s", file);
if (line) STR_PRINTF("[%d]", *line);
if (STR_LENGTH) STR_PRINTF(": ");
STR_VPRINTF(format, argp);
length = STR_LENGTH;
STR_END
return length;
}
static int
monitorKeyboard (KeyboardInstanceObject *kio) {
const char *deviceName = locatePathName(kio->kix->device.path);
if ((kio->kix->file.descriptor = open(kio->kix->device.path, O_RDONLY)) != -1) {
struct stat status;
if (fstat(kio->kix->file.descriptor, &status) != -1) {
if (S_ISCHR(status.st_mode)) {
{
char description[0X100];
STR_BEGIN(description, sizeof(description));
STR_PRINTF("%s:", deviceName);
{
struct input_id identity;
if (ioctl(kio->kix->file.descriptor, EVIOCGID, &identity) != -1) {
STR_PRINTF(" bus=%04X vnd=%04X prd=%04X ver=%04X",
identity.bustype, identity.vendor, identity.product, identity.version);
{
static const KeyboardType typeTable[] = {
#ifdef BUS_I8042
[BUS_I8042] = KBD_TYPE_PS2,
#endif /* BUS_I8042 */
#ifdef BUS_USB
[BUS_USB] = KBD_TYPE_USB,
#endif /* BUS_USB */
#ifdef BUS_BLUETOOTH
[BUS_BLUETOOTH] = KBD_TYPE_Bluetooth,
#endif /* BUS_BLUETOOTH */
};
if (identity.bustype < ARRAY_COUNT(typeTable)) {
kio->actualProperties.type = typeTable[identity.bustype];
}
}
kio->actualProperties.vendor = identity.vendor;
kio->actualProperties.product = identity.product;
} else if (errno != ENOTTY) {
logMessage(LOG_WARNING, "cannot get input device identity: %s: %s",
deviceName, strerror(errno));
}
}
static size_t
formatLogSpeechActionData (char *buffer, size_t size, const void *data) {
const LogSpeechActionData *lsa = data;
size_t length;
STR_BEGIN(buffer, size);
STR_PRINTF("%s speech %s: ", lsa->action, lsa->type);
if (lsa->name) {
STR_PRINTF("%s", lsa->name);
} else {
STR_PRINTF("%u", lsa->value);
}
length = STR_LENGTH;
STR_END;
return length;
}
static size_t
formatTitle_HelpScreen (char *buffer, size_t size) {
size_t length;
STR_BEGIN(buffer, size);
STR_PRINTF("%s", gettext("Help Screen"));
length = STR_LENGTH;
STR_END
return length;
}
static size_t
formatCommand (char *buffer, size_t size, int command) {
size_t length;
STR_BEGIN(buffer, size);
STR_PRINTF("%06X (", command);
{
size_t length = describeCommand(command, STR_NEXT, STR_LEFT,
CDO_IncludeName | CDO_IncludeOperand);
STR_ADJUST(length);
}
STR_PRINTF(")");
length = STR_LENGTH;
STR_END;
return length;
}
static size_t
formatLogTransformedCommandData (char *buffer, size_t size, const void *data) {
const LogTransformedCommandData *cmd = data;
size_t length;
STR_BEGIN(buffer, size);
STR_PRINTF("command: ");
{
size_t sublength = formatCommand(STR_NEXT, STR_LEFT, cmd->oldCommand);
STR_ADJUST(sublength);
}
STR_PRINTF(" -> ");
{
size_t sublength = formatCommand(STR_NEXT, STR_LEFT, cmd->newCommand);
STR_ADJUST(sublength);
}
length = STR_LENGTH;
STR_END
return length;
}
static size_t
usbFormatLogSetupPacket (char *buffer, size_t size, const void *data) {
const UsbSetupPacket *setup = data;
size_t length;
STR_BEGIN(buffer, size);
STR_PRINTF("setup packet: Typ:%02X Req:%02X Val:%04X Idx:%04X Len:%04X",
setup->bRequestType, setup->bRequest,
getLittleEndian16(setup->wValue),
getLittleEndian16(setup->wIndex),
getLittleEndian16(setup->wLength));
length = STR_LENGTH;
STR_END;
return length;
}
static size_t
formatCommandModifiers (char *buffer, size_t size, int command, const CommandModifierEntry *modifiers) {
const CommandModifierEntry *modifier = modifiers;
size_t length;
STR_BEGIN(buffer, size);
while (modifier->name) {
if (command & modifier->bit) {
STR_PRINTF(" + %s", modifier->name);
}
modifier += 1;
}
length = STR_LENGTH;
STR_END;
return length;
}
static size_t
usbFormatURB (char *buffer, size_t size, const void *data) {
const UsbFormatUrbData *fud = data;
const struct usbdevfs_urb *urb = fud->urb;
size_t length;
STR_BEGIN(buffer, size);
STR_PRINTF("%s URB:", fud->action);
STR_PRINTF(" Adr:%p", urb);
STR_PRINTF(" Ept:%02X", urb->endpoint);
STR_PRINTF(" Typ:%u", urb->type);
{
static const char *const types[] = {
[USBDEVFS_URB_TYPE_CONTROL] = "ctl",
[USBDEVFS_URB_TYPE_BULK] = "blk",
[USBDEVFS_URB_TYPE_INTERRUPT] = "int",
[USBDEVFS_URB_TYPE_ISO] = "iso"
};
if (urb->type < ARRAY_COUNT(types)) {
const char *type = types[urb->type];
if (type) STR_PRINTF("(%s)", type);
}
}
STR_PRINTF(" Flg:%02X", urb->flags);
{
typedef struct {
unsigned char bit;
const char *name;
} UrbFlagEntry;
static const UrbFlagEntry urbFlagTable[] = {
#ifdef USBDEVFS_URB_SHORT_NOT_OK
{ .bit = USBDEVFS_URB_SHORT_NOT_OK,
.name = "spd"
},
#endif /* USBDEVFS_URB_SHORT_NOT_OK */
#ifdef USBDEVFS_URB_ISO_ASAP
{ .bit = USBDEVFS_URB_ISO_ASAP,
.name = "isa"
},
#endif /* USBDEVFS_URB_ISO_ASAP */
#ifdef USBDEVFS_URB_BULK_CONTINUATION
{ .bit = USBDEVFS_URB_BULK_CONTINUATION,
static int
insertKey_ScreenScreen (ScreenKey key) {
char *sequence;
char buffer[0X10];
setScreenKeyModifiers(&key, 0);
wchar_t character = key & SCR_KEY_CHAR_MASK;
if (isSpecialKey(key)) {
const unsigned char flags = getAuxiliaryData()[1];
#define KEY(key,string) case (key): sequence = (string); break
#define CURSOR_KEY(key,string1,string2) KEY((key), ((flags & 0X01)? (string1): (string2)))
switch (character) {
KEY(SCR_KEY_ENTER, "\r");
KEY(SCR_KEY_TAB, "\t");
KEY(SCR_KEY_BACKSPACE, "\x7f");
KEY(SCR_KEY_ESCAPE, "\x1b");
CURSOR_KEY(SCR_KEY_CURSOR_LEFT , "\x1bOD", "\x1b[D");
CURSOR_KEY(SCR_KEY_CURSOR_RIGHT, "\x1bOC", "\x1b[C");
CURSOR_KEY(SCR_KEY_CURSOR_UP , "\x1bOA", "\x1b[A");
CURSOR_KEY(SCR_KEY_CURSOR_DOWN , "\x1bOB", "\x1b[B");
KEY(SCR_KEY_PAGE_UP, "\x1b[5~");
KEY(SCR_KEY_PAGE_DOWN, "\x1b[6~");
KEY(SCR_KEY_HOME, "\x1b[1~");
KEY(SCR_KEY_END, "\x1b[4~");
KEY(SCR_KEY_INSERT, "\x1b[2~");
KEY(SCR_KEY_DELETE, "\x1b[3~");
KEY(SCR_KEY_FUNCTION+0, "\x1bOP");
KEY(SCR_KEY_FUNCTION+1, "\x1bOQ");
KEY(SCR_KEY_FUNCTION+2, "\x1bOR");
KEY(SCR_KEY_FUNCTION+3, "\x1bOS");
KEY(SCR_KEY_FUNCTION+4, "\x1b[15~");
KEY(SCR_KEY_FUNCTION+5, "\x1b[17~");
KEY(SCR_KEY_FUNCTION+6, "\x1b[18~");
KEY(SCR_KEY_FUNCTION+7, "\x1b[19~");
KEY(SCR_KEY_FUNCTION+8, "\x1b[20~");
KEY(SCR_KEY_FUNCTION+9, "\x1b[21~");
KEY(SCR_KEY_FUNCTION+10, "\x1b[23~");
KEY(SCR_KEY_FUNCTION+11, "\x1b[24~");
KEY(SCR_KEY_FUNCTION+12, "\x1b[25~");
KEY(SCR_KEY_FUNCTION+13, "\x1b[26~");
KEY(SCR_KEY_FUNCTION+14, "\x1b[28~");
KEY(SCR_KEY_FUNCTION+15, "\x1b[29~");
KEY(SCR_KEY_FUNCTION+16, "\x1b[31~");
KEY(SCR_KEY_FUNCTION+17, "\x1b[32~");
KEY(SCR_KEY_FUNCTION+18, "\x1b[33~");
KEY(SCR_KEY_FUNCTION+19, "\x1b[34~");
default:
logMessage(LOG_WARNING, "unsuported key: %04X", key);
return 0;
}
#undef CURSOR_KEY
#undef KEY
} else {
int byte = convertWcharToChar(character);
if (byte == EOF) {
logMessage(LOG_WARNING, "character not supported in local character set: 0X%04X", key);
return 0;
}
STR_BEGIN(buffer, sizeof(buffer));
if (key & SCR_KEY_ALT_LEFT) STR_PRINTF("%c", ESC);
STR_PRINTF("\\%03o", byte);
STR_END;
sequence = buffer;
}
logBytes(LOG_CATEGORY(SCREEN_DRIVER), "insert bytes", sequence, strlen(sequence));
return doScreenCommand("stuff", sequence, NULL);
}
void
formatAddress (char *buffer, size_t bufferSize, const void *address, int addressSize) {
#ifdef AF_INET
const struct sockaddr *sa = address;
switch (sa->sa_family) {
#ifndef __MINGW32__
case AF_LOCAL: {
const struct sockaddr_un *local = address;
if (addressSize <= sizeof(sa_family_t)) {
snprintf(buffer, bufferSize, "local <unnamed>");
} else {
snprintf(buffer, bufferSize, "local %s", local->sun_path);
}
break;
}
#endif /* __MINGW32__ */
case AF_INET: {
const struct sockaddr_in *inet = address;
snprintf(buffer, bufferSize, "inet %s:%d", inet_ntoa(inet->sin_addr), ntohs(inet->sin_port));
break;
}
default:
#if defined(HAVE_GETNAMEINFO) && !defined(WINDOWS)
{
char host[NI_MAXHOST];
char service[NI_MAXSERV];
int err;
if (!(err = getnameinfo(address, addressSize,
host, sizeof(host), service, sizeof(service),
NI_NUMERICHOST | NI_NUMERICSERV))) {
snprintf(buffer, bufferSize, "af=%d %s:%s", sa->sa_family, host, service);
break;
}
if (err != EAI_FAMILY) {
#ifdef HAVE_GAI_STRERROR
snprintf(buffer, bufferSize, "reverse lookup error for address family %d: %s",
sa->sa_family,
#ifdef EAI_SYSTEM
(err == EAI_SYSTEM)? strerror(errno):
#endif /* EAI_SYSTEM */
gai_strerror(err));
#else /* HAVE_GAI_STRERROR */
snprintf(buffer, bufferSize, "reverse lookup error %d for address family %d.",
err, sa->sa_family);
#endif /* HAVE_GAI_STRERROR */
break;
}
}
#endif /* GETNAMEINFO */
{
STR_BEGIN(buffer, bufferSize);
STR_PRINTF("address family %d:", sa->sa_family);
{
const unsigned char *byte = address;
const unsigned char *end = byte + addressSize;
while (byte < end) STR_PRINTF(" %02X", *byte++);
}
STR_END
}
break;
}
#else /* AF_INET */
snprintf(buffer, bufferSize, "unknown");
#endif /* AF_INET */
}
void
logData (int level, LogDataFormatter *formatLogData, const void *data) {
const char *prefix = NULL;
if (level & LOG_FLG_CATEGORY) {
int category = level & LOG_MSK_CATEGORY;
if (!logCategoryFlags[category]) return;
level = categoryLogLevel;
{
const LogCategoryEntry *ctg = &logCategoryTable[category];
prefix = ctg->prefix;
}
}
{
int write = level <= systemLogLevel;
int print = level <= stderrLogLevel;
if (write || print) {
int oldErrno = errno;
char record[0X1000];
STR_BEGIN(record, sizeof(record));
if (prefix) STR_PRINTF("%s: ", prefix);
{
size_t sublength = formatLogData(STR_NEXT, STR_LEFT, data);
STR_ADJUST(sublength);
}
STR_END
if (write) {
writeLogRecord(record);
#if defined(WINDOWS)
if (windowsEventLog != INVALID_HANDLE_VALUE) {
const char *strings[] = {record};
ReportEvent(windowsEventLog, toWindowsEventType(level), 0, 0, NULL,
ARRAY_COUNT(strings), 0, strings, NULL);
}
#elif defined(__MSDOS__)
#elif defined(__ANDROID__)
__android_log_write(toAndroidLogPriority(level), PACKAGE_TARNAME, record);
#elif defined(HAVE_SYSLOG_H)
if (syslogOpened) syslog(level, "%s", record);
#endif /* write system log */
}
if (print) {
FILE *stream = stderr;
lockStream(stream);
if (logPrefixStack) {
const char *prefix = logPrefixStack->prefix;
if (*prefix) {
fputs(prefix, stream);
fputs(": ", stream);
}
}
fputs(record, stream);
fputc('\n', stream);
flushStream(stream);
unlockStream(stream);
}
errno = oldErrno;
}
}
size_t
describeCommand (int command, char *buffer, size_t size, CommandDescriptionOption options) {
size_t length;
STR_BEGIN(buffer, size);
unsigned int arg = BRL_ARG_GET(command);
unsigned int arg1 = BRL_CODE_GET(ARG, command);
unsigned int arg2 = BRL_CODE_GET(EXT, command);
const CommandEntry *cmd = getCommandEntry(command);
if (!cmd) {
STR_PRINTF("%s: %06X", gettext("unknown command"), command);
} else {
if (options & CDO_IncludeName) {
STR_PRINTF("%s: ", cmd->name);
}
if (cmd->isToggle && (command & BRL_FLG_TOGGLE_MASK)) {
const char *text = gettext(cmd->description);
size_t length = strlen(text);
char buffer[length + 1];
char *delimiter;
strcpy(buffer, text);
delimiter = strchr(buffer, '/');
if (delimiter) {
char *source;
char *target;
if (command & BRL_FLG_TOGGLE_ON) {
target = delimiter;
if (!(source = strchr(target, ' '))) source = target + strlen(target);
} else if (command & BRL_FLG_TOGGLE_OFF) {
{
char oldDelimiter = *delimiter;
*delimiter = 0;
target = strrchr(buffer, ' ');
*delimiter = oldDelimiter;
}
target = target? (target + 1): buffer;
source = delimiter + 1;
} else {
goto toggleReady;
}
memmove(target, source, (strlen(source) + 1));
}
toggleReady:
STR_PRINTF("%s", buffer);
} else {
STR_PRINTF("%s", gettext(cmd->description));
}
if (options & CDO_IncludeOperand) {
if (cmd->isCharacter) {
STR_PRINTF(" [U+%04X]", arg);
}
if (cmd->isBraille) {
int none = 1;
STR_PRINTF(" [");
{
static const int dots[] = {
BRL_DOTC,
BRL_DOT1, BRL_DOT2, BRL_DOT3, BRL_DOT4,
BRL_DOT5, BRL_DOT6, BRL_DOT7, BRL_DOT8,
0
};
const int *dot = dots;
while (*dot) {
if (command & *dot) {
none = 0;
if (dot == dots) {
STR_PRINTF("C");
} else {
unsigned int number = dot - dots;
STR_PRINTF("%u", number);
}
}
dot += 1;
}
}
if (none) STR_PRINTF("%s", gettext("space"));
STR_PRINTF("]");
}
if (cmd->isKeyboard) {
STR_PRINTF(" [\\X%02X]", arg1);
}
if (cmd->isColumn && !cmd->isRouting && (
(arg == BRL_MSK_ARG) /* key event processing */
||
((options & CDO_DefaultOperand) && !arg) /* key table listing */
)) {
STR_PRINTF(" %s", gettext("at cursor"));
} else if (cmd->isColumn || cmd->isRow || cmd->isOffset) {
STR_PRINTF(" #%u", arg - (cmd->code & BRL_MSK_ARG) + 1);
} else if (cmd->isRange) {
STR_PRINTF(" #%u-%u", arg1, arg2);
}
if (cmd->isInput) {
size_t length = formatCommandModifiers(STR_NEXT, STR_LEFT, command, commandModifierTable_input);
STR_ADJUST(length);
}
if (cmd->isCharacter) {
size_t length = formatCommandModifiers(STR_NEXT, STR_LEFT, command, commandModifierTable_character);
STR_ADJUST(length);
}
if (cmd->isKeyboard) {
size_t length = formatCommandModifiers(STR_NEXT, STR_LEFT, command, commandModifierTable_keyboard);
STR_ADJUST(length);
}
}
if (cmd->isMotion) {
if (cmd->isRow) {
if (command & BRL_FLG_LINE_TOLEFT) {
STR_PRINTF(", %s", gettext("left margin"));
}
if (command & BRL_FLG_LINE_SCALED) {
STR_PRINTF(", %s", gettext("normalized position"));
}
}
if (command & BRL_FLG_MOTION_ROUTE) {
STR_PRINTF(", %s", gettext("drag cursor"));
}
}
}
length = STR_LENGTH;
STR_END;
return length;
}
size_t
formatBrailleTime (char *buffer, size_t size, const TimeFormattingData *fmt) {
size_t length;
char time[0X40];
STR_BEGIN(buffer, size);
{
const char *hourFormat = "%02" PRIu8;
const char *minuteFormat = "%02" PRIu8;
const char *secondFormat = "%02" PRIu8;
char separator;
switch (prefs.timeSeparator) {
default:
case tsColon:
separator = ':';
break;
case tsDot:
separator = '.';
break;
}
switch (prefs.timeFormat) {
default:
case tf24Hour:
break;
case tf12Hour:
hourFormat = "%" PRIu8;
break;
}
STR_BEGIN(time, sizeof(time));
STR_PRINTF(hourFormat, fmt->components.hour);
STR_PRINTF("%c", separator);
STR_PRINTF(minuteFormat, fmt->components.minute);
if (prefs.showSeconds) {
STR_PRINTF("%c", separator);
STR_PRINTF(secondFormat, fmt->components.second);
}
if (fmt->meridian) STR_PRINTF("%s", fmt->meridian);
STR_END
}
if (prefs.datePosition == dpNone) {
STR_PRINTF("%s", time);
} else {
char date[0X40];
{
const char *yearFormat = "%04" PRIu16;
const char *monthFormat = "%02" PRIu8;
const char *dayFormat = "%02" PRIu8;
uint16_t year = fmt->components.year;
uint8_t month = fmt->components.month + 1;
uint8_t day = fmt->components.day + 1;
char separator;
switch (prefs.dateSeparator) {
default:
case dsDash:
separator = '-';
break;
case dsSlash:
separator = '/';
break;
case dsDot:
separator = '.';
break;
}
STR_BEGIN(date, sizeof(date));
switch (prefs.dateFormat) {
default:
case dfYearMonthDay:
STR_PRINTF(yearFormat, year);
STR_PRINTF("%c", separator);
STR_PRINTF(monthFormat, month);
STR_PRINTF("%c", separator);
STR_PRINTF(dayFormat, day);
break;
case dfMonthDayYear:
STR_PRINTF(monthFormat, month);
STR_PRINTF("%c", separator);
STR_PRINTF(dayFormat, day);
STR_PRINTF("%c", separator);
STR_PRINTF(yearFormat, year);
break;
case dfDayMonthYear:
STR_PRINTF(dayFormat, day);
STR_PRINTF("%c", separator);
STR_PRINTF(monthFormat, month);
STR_PRINTF("%c", separator);
STR_PRINTF(yearFormat, year);
break;
}
STR_END
switch (prefs.datePosition) {
case dpBeforeTime:
STR_PRINTF("%s %s", date, time);
break;
case dpAfterTime:
STR_PRINTF("%s %s", time, date);
break;
default:
STR_PRINTF("%s", date);
break;
}
}
}
length = STR_LENGTH;
STR_END
return length;
}
