/* This function is called by the `serialattention()' trap before
returning. */
static void disk_attention_callback(void)
{
machine_bus_attention_callback_set(NULL);
/* Next step is waiting for end of loading, to turn true drive emulation
on. */
machine_bus_eof_callback_set(disk_eof_callback);
}
static void advance_hasdisk(void)
{
char *tmp;
int traps;
switch (check("READY.", AUTOSTART_WAIT_BLINK)) {
case YES:
if (autostart_program_name)
log_message(autostart_log, "Loading program '%s'",
autostart_program_name);
else
log_message(autostart_log, "Loading program '*'");
orig_drive_true_emulation_state = get_true_drive_emulation_state();
if (handle_drive_true_emulation) {
resources_get_int("VirtualDevices", &traps);
if (traps) {
if (orig_drive_true_emulation_state)
log_message(autostart_log,
"Turning true drive emulation off.");
set_true_drive_emulation_mode(0);
} else {
if (!orig_drive_true_emulation_state)
log_message(autostart_log,
"Turning true drive emulation on.");
set_true_drive_emulation_mode(1);
}
} else {
traps = 1;
}
if (autostart_program_name)
tmp = lib_msprintf("LOAD\"%s\",8,1:\r", autostart_program_name);
else
tmp = lib_stralloc("LOAD\"*\",8,1:\r");
kbdbuf_feed(tmp);
lib_free(tmp);
if (!traps) {
if (autostart_run_mode == AUTOSTART_MODE_RUN)
kbdbuf_feed(AutostartRunCommand);
autostartmode = AUTOSTART_DONE;
} else {
autostartmode = AUTOSTART_LOADINGDISK;
machine_bus_attention_callback_set(disk_attention_callback);
}
deallocate_program_name();
break;
case NO:
orig_drive_true_emulation_state = get_true_drive_emulation_state();
autostart_disable();
break;
case NOT_YET:
break;
}
}
/* This function is called by the `serialattention()' trap before
returning. */
static void disk_attention_callback(void)
{
if (autostart_run_mode == AUTOSTART_MODE_RUN)
kbdbuf_feed(AutostartRunCommand);
machine_bus_attention_callback_set(NULL);
/* Next step is waiting for end of loading, to turn true drive emulation
on. */
machine_bus_eof_callback_set(disk_eof_callback);
}
static void advance_hasdisk(void)
{
char *tmp;
int traps;
switch (check("READY.", AUTOSTART_WAIT_BLINK)) {
case YES:
if (autostart_program_name)
log_message(autostart_log, "Loading program '%s'",
autostart_program_name);
else
log_message(autostart_log, "Loading program '*'");
orig_drive_true_emulation_state = get_true_drive_emulation_state();
if (handle_drive_true_emulation_overridden) {
resources_get_int("VirtualDevices", &traps);
if (traps) {
if (orig_drive_true_emulation_state)
log_message(autostart_log,
"Turning true drive emulation off.");
set_true_drive_emulation_mode(0);
} else {
if (!orig_drive_true_emulation_state)
log_message(autostart_log,
"Turning true drive emulation on.");
set_true_drive_emulation_mode(1);
}
} else {
if (!orig_drive_true_emulation_state) {
traps = 1;
} else {
traps = 0;
}
}
tmp = lib_msprintf("LOAD\"%s\",8%s:\r",
autostart_program_name ?
autostart_program_name : "*",
autostart_basic_load ? "" : ",1");
kbdbuf_feed(tmp);
lib_free(tmp);
if (!traps) {
if (AutostartWarp) {
autostartmode = AUTOSTART_WAITSEARCHINGFOR;
} else {
/* be most compatible if warp is disabled */
if (autostart_run_mode == AUTOSTART_MODE_RUN) {
kbdbuf_feed(AutostartRunCommand);
}
autostart_done();
}
} else {
autostartmode = AUTOSTART_LOADINGDISK;
machine_bus_attention_callback_set(disk_attention_callback);
}
deallocate_program_name();
break;
case NO:
orig_drive_true_emulation_state = get_true_drive_emulation_state();
disable_warp_if_was_requested();
autostart_disable();
break;
case NOT_YET:
break;
}
}
static void advance_hasdisk(void)
{
char *tmp, *temp_name;
int traps;
switch (check("READY.", AUTOSTART_WAIT_BLINK)) {
case YES:
/* autostart_program_name may be petscii or ascii at this point,
ANDing the charcodes with 0x7f here is a cheap way to prevent
illegal characters in the printed message */
if (autostart_program_name) {
temp_name = tmp = lib_stralloc(autostart_program_name);
while (*tmp) {
*tmp++ &= 0x7f;
}
log_message(autostart_log, "Loading program '%s'", temp_name);
lib_free(temp_name);
} else {
log_message(autostart_log, "Loading program '*'");
}
orig_drive_true_emulation_state = get_true_drive_emulation_state();
if (handle_drive_true_emulation_overridden) {
resources_get_int("VirtualDevices", &traps);
if (traps) {
if (orig_drive_true_emulation_state) {
log_message(autostart_log,
"Turning true drive emulation off.");
}
set_true_drive_emulation_mode(0);
} else {
if (!orig_drive_true_emulation_state) {
log_message(autostart_log,
"Turning true drive emulation on.");
}
set_true_drive_emulation_mode(1);
}
} else {
if (!orig_drive_true_emulation_state) {
traps = 1;
} else {
traps = 0;
}
}
tmp = lib_msprintf("LOAD\"%s\",8%s:\r",
autostart_program_name ?
autostart_program_name : "*",
autostart_basic_load ? "" : ",1");
DBG(("advance_hasdisk '%s'", tmp));
kbdbuf_feed(tmp);
lib_free(tmp);
if (!traps) {
if (AutostartWarp) {
autostartmode = AUTOSTART_WAITSEARCHINGFOR;
} else {
/* be most compatible if warp is disabled */
autostart_finish();
autostart_done();
}
} else {
autostartmode = AUTOSTART_LOADINGDISK;
machine_bus_attention_callback_set(disk_attention_callback);
}
deallocate_program_name();
break;
case NO:
orig_drive_true_emulation_state = get_true_drive_emulation_state();
disable_warp_if_was_requested();
autostart_disable();
break;
case NOT_YET:
break;
}
}