#include <palacios/vmm_io.h>
-#ifndef CONFIG_DEBUG_PIT
+#ifndef V3_CONFIG_DEBUG_PIT
#undef PrintDebug
#define PrintDebug(fmt, args...)
#endif
*/
typedef enum {NOT_RUNNING, PENDING, RUNNING} channel_run_state_t;
typedef enum {NOT_WAITING, WAITING_LOBYTE, WAITING_HIBYTE} channel_access_state_t;
-typedef enum {LATCH_COUNT, LOBYTE_ONLY, HIBYTE_ONLY, LOBYTE_HIBYTE} channel_access_mode_t;
-typedef enum {IRQ_ON_TERM_CNT, ONE_SHOT, RATE_GEN, SQR_WAVE, SW_STROBE, HW_STROBE} channel_op_mode_t;
+typedef enum {LATCH_COUNT = 0, LOBYTE_ONLY = 1, HIBYTE_ONLY = 2, LOBYTE_HIBYTE = 3} channel_access_mode_t;
+typedef enum {IRQ_ON_TERM_CNT = 0, ONE_SHOT = 1, RATE_GEN = 2, SQR_WAVE = 3, SW_STROBE = 4, HW_STROBE = 5} channel_op_mode_t;
struct channel {
uint_t channel_cycles = 0;
uint_t output_changed = 0;
- // PrintDebug("8254 PIT: %d crystal tics\n", oscillations);
+ // PrintDebug("8254 PIT (channel %d): %d crystal tics\n",
+ // ch - pit->ch0, oscillations);
if (ch->run_state == PENDING) {
oscillations--;
ch->counter = ch->reload_value;
if (ch->counter > oscillations) {
ch->counter -= oscillations;
+ //PrintDebug("8254 PIT: Counter at %u after %u oscillations.\n",
+ // (unsigned int)ch->counter, oscillations);
return output_changed;
} else {
ushort_t reload_val = ch->reload_value;
- if (ch->op_mode == SW_STROBE) {
+ if ((ch->op_mode == SW_STROBE) || (ch->op_mode == IRQ_ON_TERM_CNT)) {
reload_val = 0xffff;
}
reload_val -= reload_val % 2;
}
- // TODO: Check this....
- // Is this correct???
if (reload_val == 0) {
- reload_val = 1;
+ // This means the value is being set to 0x10000
+ // but due to the tick after the reload, it wraps
+ // down to 0xffff
+ reload_val = 0xffff;
}
channel_cycles += oscillations / reload_val;
oscillations = oscillations % reload_val;
ch->counter = reload_val - oscillations;
+ // PrintDebug("8254 PIT: Counter reset to %u.\n",
+ // (unsigned int)ch->counter);
+
}
- // PrintDebug("8254 PIT: Channel Cycles: %d\n", channel_cycles);
+ //PrintDebug("8254 PIT: Channel %ld (mode = %u) Cycles: %d\n",
+ //(ch - &pit->ch_0), ch->op_mode, channel_cycles);
-
-
switch (ch->op_mode) {
case IRQ_ON_TERM_CNT:
- if ((channel_cycles > 0) && (ch->output_pin == 0)) {
- ch->output_pin = 1;
- output_changed = 1;
+ if (channel_cycles > 0) {
+ if (ch->output_pin == 0) {
+ ch->output_pin = 1;
+ output_changed = 1;
+ } else {
+ // PrintDebug("8254: Output not changed in TERM_CNT mode.\n");
+ }
}
break;
case ONE_SHOT:
- if ((channel_cycles > 0) && (ch->output_pin == 0)) {
- ch->output_pin = 1;
- output_changed = 1;
+ if (channel_cycles > 0) {
+ if ((ch->output_pin == 0)) {
+ ch->output_pin = 1;
+ output_changed = 1;
+ } else {
+ // PrintDebug("8254: Output not changed in ONE_SHOT mode.\n");
+ }
}
break;
case RATE_GEN:
output_changed = 1;
}
+
break;
case SW_STROBE:
state->pit_counter = state->pit_reload - cpu_cycles;
if (oscillations) {
- PrintDebug("8254 PIT: Handling %d crystal tics\n", oscillations);
- }
+ // PrintDebug("8254 PIT: Handling %d crystal tics\n", oscillations);
- if (handle_crystal_tics(state, &(state->ch_0), oscillations) == 1) {
- // raise interrupt
- // PrintDebug("8254 PIT: Injecting Timer interrupt to guest\n");
- v3_raise_irq(info->vm_info, 0);
- }
+ if (handle_crystal_tics(state, &(state->ch_0), oscillations) == 1) {
+ // raise interrupt
+ PrintDebug("8254 PIT: Injecting Timer interrupt to guest (run_state = %d)\n",
+ state->ch_0.run_state);
+ v3_raise_irq(info->vm_info, 0);
+ }
- //handle_crystal_tics(state, &(state->ch_1), oscillations);
- handle_crystal_tics(state, &(state->ch_2), oscillations);
+ //handle_crystal_tics(state, &(state->ch_1), oscillations);
+ handle_crystal_tics(state, &(state->ch_2), oscillations);
+ }
}
-
-
-
return;
}
}
static int handle_channel_cmd(struct channel * ch, struct pit_cmd_word cmd) {
- ch->op_mode = cmd.op_mode;
- ch->access_mode = cmd.access_mode;
+ if (cmd.op_mode != ch->op_mode) {
+ PrintDebug("8254 PIT: Changing channel from op mode %d to op mode %d.\n",
+ ch->op_mode, cmd.op_mode);
+ }
+ if (cmd.access_mode != 0) {
+ ch->op_mode = cmd.op_mode;
+ }
+ if (cmd.access_mode != ch->access_mode) {
+ PrintDebug("8254 PIT: Changing channel from access mode %d to access mode %d.\n",
+ ch->access_mode, cmd.access_mode);
+ }
+ ch->access_mode = cmd.access_mode;
switch (cmd.access_mode) {
case LATCH_COUNT:
return 0;
}
-#ifdef CONFIG_KEYED_STREAMS
-static int pit_checkpoint(struct vm_device *dev, v3_keyed_stream_t stream)
-{
- struct pit *p = (struct pit *) (dev->private_data);
+#ifdef V3_CONFIG_CHECKPOINT
- v3_keyed_stream_key_t ks;
+#include <palacios/vmm_sprintf.h>
- ks = v3_keyed_stream_open_key(stream,dev->name);
+#define KEY_MAX 128
+#define MAKE_KEY(x) snprintf(key,KEY_MAX,"PIT_CH%d_%s",i,x)
- if (!ks) {
- return -1;
- }
+static int pit_save(struct v3_chkpt_ctx * ctx, void * private_data) {
+ struct pit * pit_state = (struct pit *)private_data;
+ int i;
+ char key[KEY_MAX];
- STD_SAVE(stream,ks,p->pit_counter);
- STD_SAVE(stream,ks,p->pit_reload);
- STD_SAVE(stream,ks,p->ch_0);
- STD_SAVE(stream,ks,p->ch_1);
- STD_SAVE(stream,ks,p->ch_2);
- STD_SAVE(stream,ks,p->speaker);
+ V3_CHKPT_SAVE(ctx, "PIT_COUNTER", pit_state->pit_counter,savefailout);
+ V3_CHKPT_SAVE(ctx, "PIT_RELOAD", pit_state->pit_reload,savefailout);
- v3_keyed_stream_close_key(stream,ks);
+ for (i=0;i<3;i++) {
+ struct channel *c;
+ uint8_t pins;
+
+ if (i==0) {
+ c=&(pit_state->ch_0);
+ } else if (i==1) {
+ c=&(pit_state->ch_1);
+ } else {
+ c=&(pit_state->ch_2);
+ }
+
+ MAKE_KEY("ACCESS_MODE");
+ V3_CHKPT_SAVE(ctx, key, c->access_mode, savefailout);
+ MAKE_KEY("ACCESS_STATE");
+ V3_CHKPT_SAVE(ctx, key, c->access_state, savefailout);
+ MAKE_KEY("RUN_STATE");
+ V3_CHKPT_SAVE(ctx, key, c->run_state, savefailout);
+ MAKE_KEY("OP_MODE");
+ V3_CHKPT_SAVE(ctx, key, c->op_mode, savefailout);
+ MAKE_KEY("COUNTER");
+ V3_CHKPT_SAVE(ctx, key, c->counter, savefailout);
+ MAKE_KEY("RELOAD_VALUE");
+ V3_CHKPT_SAVE(ctx, key, c->reload_value, savefailout);
+ MAKE_KEY("LATCH_STATE");
+ V3_CHKPT_SAVE(ctx, key, c->latch_state, savefailout);
+ MAKE_KEY("READ_STATE");
+ V3_CHKPT_SAVE(ctx, key, c->read_state, savefailout);
+
+ pins = (c->output_pin) | (c->gate_input_pin << 1);
+ MAKE_KEY("PINS");
+ V3_CHKPT_SAVE(ctx, key, pins, savefailout);
+ }
+
+ V3_CHKPT_SAVE(ctx, "PIT_SPEAKER", pit_state->speaker,savefailout);
return 0;
-
+ savefailout:
+ PrintError("Failed to save pit\n");
+ return -1;
}
-static int pit_restore(struct vm_device *dev, v3_keyed_stream_t stream)
-{
- struct pit *p = (struct pit *) (dev->private_data);
-
- v3_keyed_stream_key_t ks;
-
- ks = v3_keyed_stream_open_key(stream,dev->name);
-
- if (!ks) {
- return -1;
+static int pit_load(struct v3_chkpt_ctx * ctx, void * private_data) {
+ struct pit * pit_state = (struct pit *)private_data;
+ int i;
+ char key[KEY_MAX];
+
+ V3_CHKPT_LOAD(ctx, "PIT_COUNTER", pit_state->pit_counter,loadfailout);
+ V3_CHKPT_LOAD(ctx, "PIT_RELOAD", pit_state->pit_reload,loadfailout);
+
+ for (i=0;i<3;i++) {
+ struct channel *c;
+ uint8_t pins;
+
+ if (i==0) {
+ c=&(pit_state->ch_0);
+ } else if (i==1) {
+ c=&(pit_state->ch_1);
+ } else {
+ c=&(pit_state->ch_2);
+ }
+
+ MAKE_KEY("ACCESS_MODE");
+ V3_CHKPT_LOAD(ctx, key, c->access_mode, loadfailout);
+ MAKE_KEY("ACCESS_STATE");
+ V3_CHKPT_LOAD(ctx, key, c->access_state, loadfailout);
+ MAKE_KEY("RUN_STATE");
+ V3_CHKPT_LOAD(ctx, key, c->run_state, loadfailout);
+ MAKE_KEY("OP_MODE");
+ V3_CHKPT_LOAD(ctx, key, c->op_mode, loadfailout);
+ MAKE_KEY("COUNTER");
+ V3_CHKPT_LOAD(ctx, key, c->counter, loadfailout);
+ MAKE_KEY("RELOAD_VALUE");
+ V3_CHKPT_LOAD(ctx, key, c->reload_value, loadfailout);
+ MAKE_KEY("LATCH_STATE");
+ V3_CHKPT_LOAD(ctx, key, c->latch_state, loadfailout);
+ MAKE_KEY("READ_STATE");
+ V3_CHKPT_LOAD(ctx, key, c->read_state, loadfailout);
+
+ pins = (c->output_pin) | (c->gate_input_pin << 1);
+ MAKE_KEY("PINS");
+ V3_CHKPT_LOAD(ctx, key, pins, loadfailout);
}
-
- STD_LOAD(stream,ks,p->pit_counter);
- STD_LOAD(stream,ks,p->pit_reload);
- STD_LOAD(stream,ks,p->ch_0);
- STD_LOAD(stream,ks,p->ch_1);
- STD_LOAD(stream,ks,p->ch_2);
- STD_LOAD(stream,ks,p->speaker);
-
- v3_keyed_stream_close_key(stream,ks);
- return 0;
+ V3_CHKPT_LOAD(ctx, "PIT_SPEAKER", pit_state->speaker,loadfailout);
+ return 0;
+ loadfailout:
+ PrintError("Failed to load pit\n");
+ return -1;
}
#endif
static struct v3_device_ops dev_ops = {
.free = (int (*)(void *))pit_free,
-#ifdef CONFIG_KEYED_STREAMS
- .checkpoint = pit_checkpoint,
- .restore = pit_restore,
+#ifdef V3_CONFIG_CHECKPOINT
+ .save = pit_save,
+ .load = pit_load,
#endif
};
pit_state = (struct pit *)V3_Malloc(sizeof(struct pit));
- V3_ASSERT(pit_state != NULL);
+ if (!pit_state) {
+ PrintError("Cannot allocate in init\n");
+ return -1;
+ }
+
pit_state->speaker = 0;
pit_state->vm = vm;
return -1;
}
-#ifdef CONFIG_DEBUG_PIT
+#ifdef V3_CONFIG_DEBUG_PIT
PrintDebug("8254 PIT: OSC_HZ=%d, reload_val=", OSC_HZ);
//PrintTrace(reload_val);
PrintDebug("\n");
init_channel(&(pit_state->ch_1));
init_channel(&(pit_state->ch_2));
-#ifdef CONFIG_DEBUG_PIT
+#ifdef V3_CONFIG_DEBUG_PIT
PrintDebug("8254 PIT: CPU MHZ=%d -- pit count=", cpu_khz / 1000);
//PrintTraceLL(pit_state->pit_counter);
PrintDebug("\n");