-/* Northwestern University */
-/* (c) 2008, Peter Dinda <pdinda@cs.northwestern.edu> */
-
-#include <devices/nvram.h>
+/*
+ * This file is part of the Palacios Virtual Machine Monitor developed
+ * by the V3VEE Project with funding from the United States National
+ * Science Foundation and the Department of Energy.
+ *
+ * The V3VEE Project is a joint project between Northwestern University
+ * and the University of New Mexico. You can find out more at
+ * http://www.v3vee.org
+ *
+ * Copyright (c) 2008, Peter Dinda <pdinda@northwestern.edu>
+ * Copyright (c) 2008, The V3VEE Project <http://www.v3vee.org>
+ * All rights reserved.
+ *
+ * Author: Peter Dinda <pdinda@northwestern.edu>
+ *
+ * This is free software. You are permitted to use,
+ * redistribute, and modify it as specified in the file "V3VEE_LICENSE".
+ */
+
+
+#include <palacios/vmm_dev_mgr.h>
#include <palacios/vmm.h>
#include <palacios/vmm_types.h>
+#include <palacios/vmm_lock.h>
+
+#include <devices/ide.h>
+#include <palacios/vmm_intr.h>
+#include <palacios/vmm_host_events.h>
+#include <palacios/vm_guest.h>
-#ifndef DEBUG_NVRAM
+#ifndef CONFIG_DEBUG_NVRAM
#undef PrintDebug
#define PrintDebug(fmt, args...)
#endif
#define NVRAM_REG_SHUTDOWN_STATUS 0x0f
#define NVRAM_IBM_HD_DATA 0x12
+#define NVRAM_IDE_TRANSLATION 0x39
#define NVRAM_REG_FLOPPY_TYPE 0x10
#define NVRAM_REG_EQUIPMENT_BYTE 0x14
#define NVRAM_REG_AMI_BIG_MEMORY_HIGH 0x35
#define NVRAM_REG_AMI_BIG_MEMORY_LOW 0x34
-
#define NVRAM_REG_CSUM_HIGH 0x2e
#define NVRAM_REG_CSUM_LOW 0x2f
#define NVRAM_REG_IBM_CENTURY_BYTE 0x32
struct nvram_internal {
- nvram_state_t dev_state;
- uchar_t thereg;
- uchar_t mem_state[NVRAM_REG_MAX];
+ nvram_state_t dev_state;
+ uchar_t thereg;
+ uchar_t mem_state[NVRAM_REG_MAX];
+ uchar_t reg_map[NVRAM_REG_MAX / 8];
+
+ struct vm_device * ide;
- uint_t us; //microseconds - for clock update - zeroed every second
- uint_t pus; //microseconds - for periodic interrupt - cleared every period
+ v3_lock_t nvram_lock;
+
+ uint_t us; //microseconds - for clock update - zeroed every second
+ uint_t pus; //microseconds - for periodic interrupt - cleared every period
};
struct rtc_stata {
- uint_t rate: 4; // clock rate = 65536Hz / 2 rate (0110=1024 Hz)
- uint_t basis: 3; // time base, 010 = 32,768 Hz
- uint_t uip: 1; // 1=update in progress
+ uint_t rate: 4; // clock rate = 65536Hz / 2 rate (0110=1024 Hz)
+ uint_t basis: 3; // time base, 010 = 32,768 Hz
+ uint_t uip: 1; // 1=update in progress
} __attribute__((__packed__)) __attribute__((__aligned__ (1))) ;
struct rtc_statb {
- uint_t sum: 1; // 1=summer (daylight savings)
- uint_t h24: 1; // 1=24h clock
- uint_t dm: 1; // 1=date/time is in bcd, 0=binary
- uint_t rec: 1; // 1=rectangular signal
- uint_t ui: 1; // 1=update interrupt
- uint_t ai: 1; // 1=alarm interrupt
- uint_t pi: 1; // 1=periodic interrupt
- uint_t set: 1; // 1=blocked update
+ uint_t sum: 1; // 1=summer (daylight savings)
+ uint_t h24: 1; // 1=24h clock
+ uint_t dm: 1; // 1=date/time is in bcd, 0=binary
+ uint_t rec: 1; // 1=rectangular signal
+ uint_t ui: 1; // 1=update interrupt
+ uint_t ai: 1; // 1=alarm interrupt
+ uint_t pi: 1; // 1=periodic interrupt
+ uint_t set: 1; // 1=blocked update
} __attribute__((__packed__)) __attribute__((__aligned__ (1))) ;
struct rtc_statc {
- uint_t res: 4; // reserved
- uint_t uf: 1; // 1=source of interrupt is update
- uint_t af: 1; // 1=source of interrupt is alarm interrupt
- uint_t pf: 1; // 1=source of interrupt is periodic interrupt
- uint_t irq: 1; // 1=interrupt requested
+ uint_t res: 4; // reserved
+ uint_t uf: 1; // 1=source of interrupt is update
+ uint_t af: 1; // 1=source of interrupt is alarm interrupt
+ uint_t pf: 1; // 1=source of interrupt is periodic interrupt
+ uint_t irq: 1; // 1=interrupt requested
} __attribute__((__packed__)) __attribute__((__aligned__ (1))) ;
struct rtc_statd {
- uint_t res: 7; // reserved
- uint_t val: 1; // 1=cmos ram data is OK
+ uint_t res: 7; // reserved
+ uint_t val: 1; // 1=cmos ram data is OK
} __attribute__((__packed__)) __attribute__((__aligned__ (1))) ;
-struct vm_device * thedev = NULL;
-
-static struct vm_device * demultiplex_timer_interrupt(uint_t period_us)
-{
- // hack
- return thedev;
-}
-
struct bcd_num {
- uchar_t bot : 4;
- uchar_t top : 4;
-} ;
-
-static uchar_t add_to(uchar_t * left, uchar_t * right, uchar_t bcd)
-{
- uchar_t temp;
+ uchar_t bot : 4;
+ uchar_t top : 4;
+};
- if (bcd) {
- struct bcd_num * bl = (struct bcd_num *)left;
- struct bcd_num * br = (struct bcd_num *)right;
- uchar_t carry = 0;
- bl->bot += br->bot;
- carry = bl->bot / 0xa;
- bl->bot %= 0xa;
- bl->top += carry + br->top;
- carry = bl->top / 0xa;
- bl->top %= 0xa;
+static void set_reg_num(struct nvram_internal * nvram, uint8_t reg_num) {
+ int major = (reg_num / 8);
+ int minor = reg_num % 8;
- return carry;
- } else {
- temp = *left;
- *left += *right;
+ nvram->reg_map[major] |= (0x1 << minor);
+}
- if (*left < temp) {
- return 1;
- } else {
- return 0;
- }
- }
-
+static int is_reg_set(struct nvram_internal * nvram, uint8_t reg_num) {
+ int major = (reg_num / 8);
+ int minor = reg_num % 8;
+
+ return (nvram->reg_map[major] & (0x1 << minor)) ? 1 : 0;
}
-static uchar_t days_in_month(struct vm_device *dev, uchar_t month, uchar_t bcd)
-{
- // This completely ignores Julian / Gregorian stuff right now
-
- if (bcd) {
-
- switch (month)
- {
- case 0x1: //jan
- case 0x3: //march
- case 0x5: //may
- case 0x7: //july
- case 0x8: //aug
- case 0x10: //oct
- case 0x12: //dec
- return 0x31;
- break;
- case 0x4: //april
- case 0x6: //june
- case 0x9: //sept
- case 0x11: //nov
- return 0x30;
- break;
- case 0x2: //feb
- return 0x28;
- break;
- default:
- return 0x30;
- }
-
- } else {
-
- switch (month)
- {
- case 1: //jan
- case 3: //march
- case 5: //may
- case 7: //july
- case 8: //aug
- case 10: //oct
- case 12: //dec
- return 31;
- break;
- case 4: //april
- case 6: //june
- case 9: //sept
- case 11: //nov
- return 30;
- break;
- case 2: //feb
- return 28;
- break;
- default:
- return 30;
- }
- }
+static void set_memory(struct nvram_internal * nvram, uint8_t reg, uint8_t val) {
+ set_reg_num(nvram, reg);
+ nvram->mem_state[reg] = val;
}
+static int get_memory(struct nvram_internal * nvram, uint8_t reg, uint8_t * val) {
-static void update_time(struct vm_device *dev, uint_t period_us)
-{
- struct nvram_internal * data = (struct nvram_internal *) (dev->private_data);
- struct rtc_stata * stata = (struct rtc_stata *) &((data->mem_state[NVRAM_REG_STAT_A]));
- struct rtc_statb * statb = (struct rtc_statb *) &((data->mem_state[NVRAM_REG_STAT_B]));
- struct rtc_statc * statc = (struct rtc_statc *) &((data->mem_state[NVRAM_REG_STAT_C]));
- //struct rtc_statd *statd = (struct rtc_statd *) &((data->mem_state[NVRAM_REG_STAT_D]));
- uchar_t * sec = (uchar_t *) &(data->mem_state[NVRAM_REG_SEC]);
- uchar_t * min = (uchar_t *) &(data->mem_state[NVRAM_REG_MIN]);
- uchar_t * hour = (uchar_t *) &(data->mem_state[NVRAM_REG_HOUR]);
- uchar_t * weekday = (uchar_t *) &(data->mem_state[NVRAM_REG_WEEK_DAY]);
- uchar_t * monthday = (uchar_t *) &(data->mem_state[NVRAM_REG_MONTH_DAY]);
- uchar_t * month = (uchar_t *) &(data->mem_state[NVRAM_REG_MONTH]);
- uchar_t * year = (uchar_t *) &(data->mem_state[NVRAM_REG_YEAR]);
- uchar_t * cent = (uchar_t *) &(data->mem_state[NVRAM_REG_IBM_CENTURY_BYTE]);
- uchar_t * seca = (uchar_t *) &(data->mem_state[NVRAM_REG_SEC_ALARM]);
- uchar_t * mina = (uchar_t *) &(data->mem_state[NVRAM_REG_MIN_ALARM]);
- uchar_t * houra = (uchar_t *) &(data->mem_state[NVRAM_REG_HOUR_ALARM]);
- uchar_t hour24;
-
- uchar_t bcd = (statb->dm == 1);
- uchar_t carry = 0;
- uchar_t nextday = 0;
- uint_t periodic_period;
-
- //PrintDebug("nvram: sizeof(struct rtc_stata)=%d\n", sizeof(struct rtc_stata));
-
-
- //PrintDebug("nvram: update_time\n",statb->pi);
-
- // We will set these flags on exit
- statc->irq = 0;
- statc->pf = 0;
- statc->af = 0;
- statc->uf = 0;
-
- // We will reset us after one second
- data->us += period_us;
- // We will reset pus after one periodic_period
- data->pus += period_us;
-
- if (data->us > 1000000) {
- carry = 1;
- carry = add_to(sec, &carry, bcd);
-
- if (carry) {
- PrintDebug("nvram: somehow managed to get a carry in second update\n");
+ if (!is_reg_set(nvram, reg)) {
+ *val = 0;
+ return -1;
}
- if ( (bcd && (*sec == 0x60)) ||
- ((!bcd) && (*sec == 60))) {
-
- *sec = 0;
+ *val = nvram->mem_state[reg];
+ return 0;
+}
- carry = 1;
- carry = add_to(min, &carry, bcd);
- if (carry) {
- PrintDebug("nvram: somehow managed to get a carry in minute update\n");
- }
- if ( (bcd && (*min == 0x60)) ||
- ((!bcd) && (*min == 60))) {
+static uchar_t add_to(uchar_t * left, uchar_t * right, uchar_t bcd) {
+ uchar_t temp;
- *min = 0;
- hour24 = *hour;
+ if (bcd) {
+ struct bcd_num * bl = (struct bcd_num *)left;
+ struct bcd_num * br = (struct bcd_num *)right;
+ uchar_t carry = 0;
- if (!(statb->h24)) {
+ bl->bot += br->bot;
+ carry = bl->bot / 0xa;
+ bl->bot %= 0xa;
- if (hour24 & 0x80) {
- hour24 &= 0x8f;
- uchar_t temp = ((bcd) ? 0x12 : 12);
- add_to(&hour24, &temp, bcd);
- }
- }
+ bl->top += carry + br->top;
+ carry = bl->top / 0xa;
+ bl->top %= 0xa;
- carry = 1;
- carry = add_to(&hour24, &carry, bcd);
- if (carry) {
- PrintDebug("nvram: somehow managed to get a carry in hour update\n");
- }
+ return carry;
+ } else {
+ temp = *left;
+ *left += *right;
- if ( (bcd && (hour24 == 0x24)) ||
- ((!bcd) && (hour24 == 24))) {
- carry = 1;
- nextday = 1;
- hour24 = 0;
+ if (*left < temp) {
+ return 1;
} else {
- carry = 0;
+ return 0;
}
+ }
+}
- if (statb->h24) {
- *hour = hour24;
- } else {
- if ( (bcd && (hour24 < 0x12)) ||
- ((!bcd) && (hour24 < 12))) {
- *hour = hour24;
+static uchar_t days_in_month(uchar_t month, uchar_t bcd) {
+ // This completely ignores Julian / Gregorian stuff right now
+
+ if (bcd) {
+
+ switch (month)
+ {
+ case 0x1: //jan
+ case 0x3: //march
+ case 0x5: //may
+ case 0x7: //july
+ case 0x8: //aug
+ case 0x10: //oct
+ case 0x12: //dec
+ return 0x31;
+ break;
+ case 0x4: //april
+ case 0x6: //june
+ case 0x9: //sept
+ case 0x11: //nov
+ return 0x30;
+ break;
+ case 0x2: //feb
+ return 0x28;
+ break;
+ default:
+ return 0x30;
+ }
+
+ } else {
- } else {
+ switch (month)
+ {
+ case 1: //jan
+ case 3: //march
+ case 5: //may
+ case 7: //july
+ case 8: //aug
+ case 10: //oct
+ case 12: //dec
+ return 31;
+ break;
+ case 4: //april
+ case 6: //june
+ case 9: //sept
+ case 11: //nov
+ return 30;
+ break;
+ case 2: //feb
+ return 28;
+ break;
+ default:
+ return 30;
+ }
+ }
+}
- if (!bcd) {
- *hour = (hour24 - 12) | 0x80;
- } else {
- *hour = hour24;
- struct bcd_num * n = (struct bcd_num *)hour;
- if (n->bot < 0x2) {
- n->top--;
- n->bot += 0xa;
- }
+static void update_time( struct vm_device * dev, uint_t period_us) {
+ struct nvram_internal * data = (struct nvram_internal *) (dev->private_data);
+ struct rtc_stata * stata = (struct rtc_stata *) &((data->mem_state[NVRAM_REG_STAT_A]));
+ struct rtc_statb * statb = (struct rtc_statb *) &((data->mem_state[NVRAM_REG_STAT_B]));
+ struct rtc_statc * statc = (struct rtc_statc *) &((data->mem_state[NVRAM_REG_STAT_C]));
+ //struct rtc_statd *statd = (struct rtc_statd *) &((data->mem_state[NVRAM_REG_STAT_D]));
+ uchar_t * sec = (uchar_t *) &(data->mem_state[NVRAM_REG_SEC]);
+ uchar_t * min = (uchar_t *) &(data->mem_state[NVRAM_REG_MIN]);
+ uchar_t * hour = (uchar_t *) &(data->mem_state[NVRAM_REG_HOUR]);
+ uchar_t * weekday = (uchar_t *) &(data->mem_state[NVRAM_REG_WEEK_DAY]);
+ uchar_t * monthday = (uchar_t *) &(data->mem_state[NVRAM_REG_MONTH_DAY]);
+ uchar_t * month = (uchar_t *) &(data->mem_state[NVRAM_REG_MONTH]);
+ uchar_t * year = (uchar_t *) &(data->mem_state[NVRAM_REG_YEAR]);
+ uchar_t * cent = (uchar_t *) &(data->mem_state[NVRAM_REG_IBM_CENTURY_BYTE]);
+ uchar_t * seca = (uchar_t *) &(data->mem_state[NVRAM_REG_SEC_ALARM]);
+ uchar_t * mina = (uchar_t *) &(data->mem_state[NVRAM_REG_MIN_ALARM]);
+ uchar_t * houra = (uchar_t *) &(data->mem_state[NVRAM_REG_HOUR_ALARM]);
+ uchar_t hour24;
+
+ uchar_t bcd = (statb->dm == 1);
+ uchar_t carry = 0;
+ uchar_t nextday = 0;
+ uint_t periodic_period;
- n->bot -= 0x2;
- n->top -= 0x1;
- }
- }
- }
+ //PrintDebug("nvram: sizeof(struct rtc_stata)=%d\n", sizeof(struct rtc_stata));
- // now see if we need to carry into the days and further
- if (nextday) {
- carry = 1;
- add_to(weekday, &carry, bcd);
- *weekday %= 0x7; // same regardless of bcd
+ //PrintDebug("nvram: update_time\n",statb->pi);
+
+ // We will set these flags on exit
+ statc->irq = 0;
+ statc->pf = 0;
+ statc->af = 0;
+ statc->uf = 0;
+
+ // We will reset us after one second
+ data->us += period_us;
+ // We will reset pus after one periodic_period
+ data->pus += period_us;
+
+ if (data->us > 1000000) {
+ carry = 1;
+ carry = add_to(sec, &carry, bcd);
- if ((*monthday) != days_in_month(dev, *month, bcd)) {
- add_to(monthday, &carry, bcd);
- } else {
- *monthday = 0x1;
+ if (carry) {
+ PrintDebug("nvram: somehow managed to get a carry in second update\n");
+ }
+
+ if ( (bcd && (*sec == 0x60)) ||
+ ((!bcd) && (*sec == 60))) {
+
+ *sec = 0;
carry = 1;
- add_to(month, &carry, bcd);
+ carry = add_to(min, &carry, bcd);
+ if (carry) {
+ PrintDebug("nvram: somehow managed to get a carry in minute update\n");
+ }
+
+ if ( (bcd && (*min == 0x60)) ||
+ ((!bcd) && (*min == 60))) {
+
+ *min = 0;
+ hour24 = *hour;
- if ( (bcd && (*month == 0x13)) ||
- ((!bcd) && (*month == 13))) {
- *month = 1; // same for both
+ if (!(statb->h24)) {
- carry = 1;
- carry = add_to(year, &carry, bcd);
+ if (hour24 & 0x80) {
+ hour24 &= 0x8f;
+ uchar_t temp = ((bcd) ? 0x12 : 12);
+ add_to(&hour24, &temp, bcd);
+ }
+ }
- if ( (bcd && carry) ||
- ((!bcd) && (*year == 100))) {
- *year = 0;
carry = 1;
- add_to(cent, &carry, bcd);
- }
+ carry = add_to(&hour24, &carry, bcd);
+ if (carry) {
+ PrintDebug("nvram: somehow managed to get a carry in hour update\n");
+ }
+
+ if ( (bcd && (hour24 == 0x24)) ||
+ ((!bcd) && (hour24 == 24))) {
+ carry = 1;
+ nextday = 1;
+ hour24 = 0;
+ } else {
+ carry = 0;
+ }
+
+
+ if (statb->h24) {
+ *hour = hour24;
+ } else {
+ if ( (bcd && (hour24 < 0x12)) ||
+ ((!bcd) && (hour24 < 12))) {
+ *hour = hour24;
+
+ } else {
+
+ if (!bcd) {
+ *hour = (hour24 - 12) | 0x80;
+ } else {
+ *hour = hour24;
+ struct bcd_num * n = (struct bcd_num *)hour;
+
+ if (n->bot < 0x2) {
+ n->top--;
+ n->bot += 0xa;
+ }
+
+ n->bot -= 0x2;
+ n->top -= 0x1;
+ }
+ }
+ }
+
+ // now see if we need to carry into the days and further
+ if (nextday) {
+ carry = 1;
+ add_to(weekday, &carry, bcd);
+
+ *weekday %= 0x7; // same regardless of bcd
+
+ if ((*monthday) != days_in_month(*month, bcd)) {
+ add_to(monthday, &carry, bcd);
+ } else {
+ *monthday = 0x1;
+
+ carry = 1;
+ add_to(month, &carry, bcd);
+
+ if ( (bcd && (*month == 0x13)) ||
+ ((!bcd) && (*month == 13))) {
+ *month = 1; // same for both
+
+ carry = 1;
+ carry = add_to(year, &carry, bcd);
+
+ if ( (bcd && carry) ||
+ ((!bcd) && (*year == 100))) {
+ *year = 0;
+ carry = 1;
+ add_to(cent, &carry, bcd);
+ }
+ }
+ }
+ }
}
- }
}
- }
- }
- data->us -= 1000000;
- // OK, now check for the alarm, if it is set to interrupt
- if (statb->ai) {
- if ((*sec == *seca) && (*min == *mina) && (*hour == *houra)) {
- statc->af = 1;
- PrintDebug("nvram: interrupt on alarm\n");
- }
+ data->us -= 1000000;
+ // OK, now check for the alarm, if it is set to interrupt
+ if (statb->ai) {
+ if ((*sec == *seca) && (*min == *mina) && (*hour == *houra)) {
+ statc->af = 1;
+ PrintDebug("nvram: interrupt on alarm\n");
+ }
+ }
}
- }
-
- if (statb->pi) {
- periodic_period = 1000000 / (65536 / (0x1 << stata->rate));
- if (data->pus >= periodic_period) {
- statc->pf = 1;
- data->pus -= periodic_period;
- PrintDebug("nvram: interrupt on periodic\n");
+
+ if (statb->pi) {
+ periodic_period = 1000000 / (65536 / (0x1 << stata->rate));
+ if (data->pus >= periodic_period) {
+ statc->pf = 1;
+ data->pus -= periodic_period;
+ PrintDebug("nvram: interrupt on periodic\n");
+ }
}
- }
- if (statb->ui) {
- statc->uf = 1;
- PrintDebug("nvram: interrupt on update\n");
- }
+ if (statb->ui) {
+ statc->uf = 1;
+ PrintDebug("nvram: interrupt on update\n");
+ }
- statc->irq = (statc->pf || statc->af || statc->uf);
+ statc->irq = (statc->pf || statc->af || statc->uf);
- //PrintDebug("nvram: time is now: YMDHMS: 0x%x:0x%x:0x%x:0x%x:0x%x,0x%x bcd=%d\n", *year, *month, *monthday, *hour, *min, *sec,bcd);
+ //PrintDebug("nvram: time is now: YMDHMS: 0x%x:0x%x:0x%x:0x%x:0x%x,0x%x bcd=%d\n", *year, *month, *monthday, *hour, *min, *sec,bcd);
- // Interrupt associated VM, if needed
- if (statc->irq) {
- PrintDebug("nvram: injecting interrupt\n");
- dev->vm->vm_ops.raise_irq(dev->vm, NVRAM_RTC_IRQ);
- }
+ // Interrupt associated VM, if needed
+ if (statc->irq) {
+ PrintDebug("nvram: injecting interrupt\n");
+ v3_raise_irq(dev->vm, NVRAM_RTC_IRQ);
+ }
}
+static int handle_timer_event(struct v3_vm_info * vm,
+ struct v3_timer_event * evt,
+ void * priv_data) {
+ struct vm_device * dev = (struct vm_device *)priv_data;
-void deliver_timer_interrupt_to_vmm(uint_t period_us)
-{
- struct vm_device * dev = demultiplex_timer_interrupt(period_us);
-
- if (dev) {
- update_time(dev, period_us);
- }
+ if (dev) {
+ struct nvram_internal * data = (struct nvram_internal *) (dev->private_data);
+
+ addr_t irq_state = v3_lock_irqsave(data->nvram_lock);
+ update_time(dev, evt->period_us);
+ v3_unlock_irqrestore(data->nvram_lock, irq_state);
+ }
+ return 0;
}
-static int set_nvram_defaults(struct vm_device * dev)
-{
- struct nvram_internal * nvram_state = (struct nvram_internal *)dev->private_data;
+static void set_memory_size(struct nvram_internal * nvram, addr_t bytes) {
+ // 1. Conventional Mem: 0-640k in K
+ // 2. Extended Mem: 0-16MB in K
+ // 3. Big Mem: 0-4G in 64K
- //
- // 2 1.44 MB floppy drives
- //
-#if 1
- nvram_state->mem_state[NVRAM_REG_FLOPPY_TYPE] = 0x44;
-#else
- nvram_state->mem_state[NVRAM_REG_FLOPPY_TYPE] = 0x00;
-#endif
+ if (bytes > 640 * 1024) {
+ set_memory(nvram, NVRAM_REG_BASE_MEMORY_HIGH, 0x02);
+ set_memory(nvram, NVRAM_REG_BASE_MEMORY_LOW, 0x80);
- //
- // For old boot sequence style, do floppy first
- //
- nvram_state->mem_state[NVRAM_REG_BOOTSEQ_OLD] = 0x10;
+ // nvram->mem_state[NVRAM_REG_BASE_MEMORY_HIGH] = 0x02;
+ // nvram->mem_state[NVRAM_REG_BASE_MEMORY_LOW] = 0x80;
+ } else {
+ uint16_t memk = bytes * 1024;
+ set_memory(nvram, NVRAM_REG_BASE_MEMORY_HIGH, (memk >> 8) & 0x00ff);
+ set_memory(nvram, NVRAM_REG_BASE_MEMORY_LOW, memk & 0x00ff);
-#if 0
- // For new boot sequence style, do floppy, cd, then hd
- nvram_state->mem_state[NVRAM_REG_BOOTSEQ_NEW_FIRST] = 0x31;
- nvram_state->mem_state[NVRAM_REG_BOOTSEQ_NEW_SECOND] = 0x20;
-#endif
+ return;
+ }
+
+ if (bytes > (16 * 1024 * 1024)) {
+ // Set extended memory to 15 MB
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_HIGH, 0x3C);
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_LOW, 0x00);
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_2ND_HIGH, 0x3C);
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_2ND_LOW, 0x00);
+ } else {
+ uint16_t memk = bytes * 1024;
+
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_HIGH, (memk >> 8) & 0x00ff);
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_LOW, memk & 0x00ff);
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_2ND_HIGH, (memk >> 8) & 0x00ff);
+ set_memory(nvram, NVRAM_REG_EXT_MEMORY_2ND_LOW, memk & 0x00ff);
- // For new boot sequence style, do cd, hd, floppy
- nvram_state->mem_state[NVRAM_REG_BOOTSEQ_NEW_FIRST] = 0x23;
- nvram_state->mem_state[NVRAM_REG_BOOTSEQ_NEW_SECOND] = 0x10;
-
+ return;
+ }
- // Set equipment byte to note 2 floppies, vga display, keyboard,math,floppy
- nvram_state->mem_state[NVRAM_REG_EQUIPMENT_BYTE] = 0x4f;
- //nvram_state->mem_state[NVRAM_REG_EQUIPMENT_BYTE] = 0xf;
+ {
+ // Set the extended memory beyond 16 MB in 64k chunks
+ uint16_t mem_chunks = (bytes - (1024 * 1024 * 16)) / (1024 * 64);
- // Set conventional memory to 640K
- nvram_state->mem_state[NVRAM_REG_BASE_MEMORY_HIGH] = 0x02;
- nvram_state->mem_state[NVRAM_REG_BASE_MEMORY_LOW] = 0x80;
+ set_memory(nvram, NVRAM_REG_AMI_BIG_MEMORY_HIGH, (mem_chunks >> 8) & 0x00ff);
+ set_memory(nvram, NVRAM_REG_AMI_BIG_MEMORY_LOW, mem_chunks & 0x00ff);
+ }
- // Set extended memory to 15 MB
- nvram_state->mem_state[NVRAM_REG_EXT_MEMORY_HIGH] = 0x3C;
- nvram_state->mem_state[NVRAM_REG_EXT_MEMORY_LOW] = 0x00;
- nvram_state->mem_state[NVRAM_REG_EXT_MEMORY_2ND_HIGH]= 0x3C;
- nvram_state->mem_state[NVRAM_REG_EXT_MEMORY_2ND_LOW]= 0x00;
+ return;
+}
- // Set the extended memory beyond 16 MB to 128-16 MB
- nvram_state->mem_state[NVRAM_REG_AMI_BIG_MEMORY_HIGH] = 0x7;
- nvram_state->mem_state[NVRAM_REG_AMI_BIG_MEMORY_LOW] = 0x00;
- //nvram_state->mem_state[NVRAM_REG_AMI_BIG_MEMORY_HIGH]= 0x00;
- //nvram_state->mem_state[NVRAM_REG_AMI_BIG_MEMORY_LOW]= 0x00;
-
- // This is the harddisk type.... Set accordingly...
- nvram_state->mem_state[NVRAM_IBM_HD_DATA] = 0x20;
+static void init_harddrives(struct nvram_internal * nvram) {
+ uint8_t hd_data = 0;
+ uint32_t cyls;
+ uint32_t sects;
+ uint32_t heads;
+ int i = 0;
+ int info_base_reg = 0x1b;
+ int type_reg = 0x19;
- // Set the shutdown status gently
- // soft reset
- nvram_state->mem_state[NVRAM_REG_SHUTDOWN_STATUS] = 0x0;
+ // 0x19 == first drive type
+ // 0x1a == second drive type
+ // 0x1b == first drive geometry base
+ // 0x24 == second drive geometry base
- // RTC status A
- // 00100110 = no update in progress, base=32768 Hz, rate = 1024 Hz
- nvram_state->mem_state[NVRAM_REG_STAT_A] = 0x26;
+ // It looks like the BIOS only tracks the disks on the first channel at 0x12?
+ for (i = 0; i < 2; i++) {
+ if (v3_ide_get_geometry(nvram->ide, 0, i, &cyls, &heads, §s) == 0) {
- // RTC status B
- // 00000100 = not setting, no interrupts, blocked rect signal, bcd mode, 24 hour, normal time
- nvram_state->mem_state[NVRAM_REG_STAT_B] = 0x06;
+ int info_reg = info_base_reg + (i * 9);
+ set_memory(nvram, type_reg + i, 0x2f);
- // RTC status C
- // No IRQ requested, result not do to any source
- nvram_state->mem_state[NVRAM_REG_STAT_C] = 0x00;
+ set_memory(nvram, info_reg, cyls & 0xff);
+ set_memory(nvram, info_reg + 1, (cyls >> 8) & 0xff);
+ set_memory(nvram, info_reg + 2, heads & 0xff);
- // RTC status D
- // Battery is OK
- nvram_state->mem_state[NVRAM_REG_STAT_D] = 0x80;
+ // Write precomp cylinder (1 and 2)
+ set_memory(nvram, info_reg + 3, 0xff);
+ set_memory(nvram, info_reg + 4, 0xff);
+ // harddrive control byte
+ set_memory(nvram, info_reg + 5, 0xc0 | ((heads > 8) << 3));
- // january 1, 2008, 00:00:00
- nvram_state->mem_state[NVRAM_REG_MONTH] = 0x1;
- nvram_state->mem_state[NVRAM_REG_MONTH_DAY] = 0x1;
- nvram_state->mem_state[NVRAM_REG_WEEK_DAY] = 0x1;
- nvram_state->mem_state[NVRAM_REG_YEAR] = 0x08;
+ set_memory(nvram, info_reg + 6, cyls & 0xff);
+ set_memory(nvram, info_reg + 7, (cyls >> 8) & 0xff);
- nvram_state->us = 0;
- nvram_state->pus = 0;
+ set_memory(nvram, info_reg + 8, sects & 0xff);
+
+ hd_data |= (0xf0 >> (i * 4));
+ }
+ }
- return 0;
+ set_memory(nvram, NVRAM_IBM_HD_DATA, hd_data);
+
+ {
+#define TRANSLATE_NONE 0x0
+#define TRANSLATE_LBA 0x1
+#define TRANSLATE_LARGE 0x2
+#define TRANSLATE_RECHS 0x3
+ // We're going to do LBA translation for everything...
+ uint8_t trans = 0;
+
+ for (i = 0; i < 4; i++) {
+ int chan_num = i / 2;
+ int drive_num = i % 2;
+ uint32_t tmp[3];
+
+ if (v3_ide_get_geometry(nvram->ide, chan_num, drive_num, &tmp[0], &tmp[1], &tmp[2]) == 0) {
+ trans |= TRANSLATE_LBA << (i * 2);
+ }
+ }
+ set_memory(nvram, NVRAM_IDE_TRANSLATION, trans);
+ }
}
+static int init_nvram_state(struct v3_vm_info * vm, struct vm_device * dev) {
-int nvram_reset_device(struct vm_device * dev)
-{
- struct nvram_internal * data = (struct nvram_internal *) dev->private_data;
+ struct nvram_internal * nvram = (struct nvram_internal *)dev->private_data;
- PrintDebug("nvram: reset device\n");
+ memset(nvram->mem_state, 0, NVRAM_REG_MAX);
+ memset(nvram->reg_map, 0, NVRAM_REG_MAX / 8);
-
- data->dev_state = NVRAM_READY;
- data->thereg = 0;
+ v3_lock_init(&(nvram->nvram_lock));
+
+ //
+ // 2 1.44 MB floppy drives
+ //
+#if 1
+ set_memory(nvram, NVRAM_REG_FLOPPY_TYPE, 0x44);
+#else
+ set_memory(nvram, NVRAM_REG_FLOPPY_TYPE, 0x00);
+#endif
+
+ //
+ // For old boot sequence style, do floppy first
+ //
+ set_memory(nvram, NVRAM_REG_BOOTSEQ_OLD, 0x10);
+
+#if 0
+ // For new boot sequence style, do floppy, cd, then hd
+ set_memory(nvram, NVRAM_REG_BOOTSEQ_NEW_FIRST, 0x31);
+ set_memory(nvram, NVRAM_REG_BOOTSEQ_NEW_SECOND, 0x20);
+#endif
+
+ // For new boot sequence style, do cd, hd, floppy
+ set_memory(nvram, NVRAM_REG_BOOTSEQ_NEW_FIRST, 0x23);
+ set_memory(nvram, NVRAM_REG_BOOTSEQ_NEW_SECOND, 0x10);
+
+
+ // Set equipment byte to note 2 floppies, vga display, keyboard,math,floppy
+ set_memory(nvram, NVRAM_REG_EQUIPMENT_BYTE, 0x4f);
+ // set_memory(nvram, NVRAM_REG_EQUIPMENT_BYTE, 0xf);
- return 0;
-}
+ // Set the shutdown status gently
+ // soft reset
+ set_memory(nvram, NVRAM_REG_SHUTDOWN_STATUS, 0x0);
+ // RTC status A
+ // 00100110 = no update in progress, base=32768 Hz, rate = 1024 Hz
+ set_memory(nvram, NVRAM_REG_STAT_A, 0x26);
+ // RTC status B
+ // 00000100 = not setting, no interrupts, blocked rect signal, bcd mode, 24 hour, normal time
+ set_memory(nvram, NVRAM_REG_STAT_B, 0x06);
-int nvram_start_device(struct vm_device *dev)
-{
- PrintDebug("nvram: start device\n");
- return 0;
-}
+ // RTC status C
+ // No IRQ requested, result not do to any source
+ set_memory(nvram, NVRAM_REG_STAT_C, 0x00);
+
+ // RTC status D
+ // Battery is OK
+ set_memory(nvram, NVRAM_REG_STAT_D, 0x80);
+
+
+ // january 1, 2008, 00:00:00
+ set_memory(nvram, NVRAM_REG_SEC, 0x00);
+ set_memory(nvram, NVRAM_REG_SEC_ALARM, 0x00);
+ set_memory(nvram, NVRAM_REG_MIN, 0x00);
+ set_memory(nvram, NVRAM_REG_MIN_ALARM, 0x00);
+ set_memory(nvram, NVRAM_REG_HOUR, 0x00);
+ set_memory(nvram, NVRAM_REG_HOUR_ALARM, 0x00);
+
+ set_memory(nvram, NVRAM_REG_MONTH, 0x01);
+ set_memory(nvram, NVRAM_REG_MONTH_DAY, 0x1);
+ set_memory(nvram, NVRAM_REG_WEEK_DAY, 0x1);
+ set_memory(nvram, NVRAM_REG_YEAR, 0x08);
-int nvram_stop_device(struct vm_device *dev)
-{
- PrintDebug("nvram: stop device\n");
- return 0;
+ set_memory(nvram, NVRAM_REG_DIAGNOSTIC_STATUS, 0x00);
+
+ nvram->us = 0;
+ nvram->pus = 0;
+
+ set_memory_size(nvram, vm->mem_size);
+ init_harddrives(nvram);
+
+ nvram->dev_state = NVRAM_READY;
+ nvram->thereg = 0;
+
+ return 0;
}
-int nvram_write_reg_port(ushort_t port,
- void * src,
- uint_t length,
- struct vm_device * dev)
-{
- struct nvram_internal * data = (struct nvram_internal *)dev->private_data;
+static int nvram_reset_device(struct vm_device * dev) {
+
+ return 0;
+}
+
+
- memcpy(&(data->thereg), src, 1);
- PrintDebug("Writing To NVRAM reg: 0x%x\n", data->thereg);
- return 1;
+static int nvram_start_device(struct vm_device * dev) {
+ PrintDebug("nvram: start device\n");
+ return 0;
}
-int nvram_read_data_port(ushort_t port,
- void * dst,
- uint_t length,
- struct vm_device * dev)
-{
- struct nvram_internal * data = (struct nvram_internal *) dev->private_data;
+static int nvram_stop_device(struct vm_device * dev) {
+ PrintDebug("nvram: stop device\n");
+ return 0;
+}
- memcpy(dst, &(data->mem_state[data->thereg]), 1);
- PrintDebug("nvram_read_data_port(0x%x)=0x%x\n", data->thereg, data->mem_state[data->thereg]);
- // hack
- if (data->thereg == NVRAM_REG_STAT_A) {
- data->mem_state[data->thereg] ^= 0x80; // toggle Update in progess
- }
+static int nvram_write_reg_port(struct guest_info * core, ushort_t port,
+ void * src, uint_t length, struct vm_device * dev) {
+ struct nvram_internal * data = (struct nvram_internal *)dev->private_data;
+
+ memcpy(&(data->thereg), src, 1);
+ PrintDebug("Writing To NVRAM reg: 0x%x\n", data->thereg);
- return 1;
+ return 1;
}
-int nvram_write_data_port(ushort_t port,
- void * src,
- uint_t length,
- struct vm_device * dev)
-{
- struct nvram_internal * data = (struct nvram_internal *)dev->private_data;
+static int nvram_read_data_port(struct guest_info * core, ushort_t port,
+ void * dst, uint_t length, struct vm_device * dev) {
+
+ struct nvram_internal * data = (struct nvram_internal *)dev->private_data;
+
+ addr_t irq_state = v3_lock_irqsave(data->nvram_lock);
+
+ if (get_memory(data, data->thereg, (uint8_t *)dst) == -1) {
+ PrintError("Register %d (0x%x) Not set\n", data->thereg, data->thereg);
+
+ v3_unlock_irqrestore(data->nvram_lock, irq_state);
+
+ return -1;
+ }
+
+ PrintDebug("nvram_read_data_port(0x%x) = 0x%x\n", data->thereg, *(uint8_t *)dst);
- memcpy(&(data->mem_state[data->thereg]), src, 1);
+ // hack
+ if (data->thereg == NVRAM_REG_STAT_A) {
+ data->mem_state[data->thereg] ^= 0x80; // toggle Update in progess
+ }
- PrintDebug("nvram_write_data_port(0x%x)=0x%x\n", data->thereg, data->mem_state[data->thereg]);
+ v3_unlock_irqrestore(data->nvram_lock, irq_state);
- return 1;
+ return 1;
}
+static int nvram_write_data_port(struct guest_info * core, ushort_t port,
+ void * src, uint_t length, struct vm_device * dev) {
-int nvram_init_device(struct vm_device * dev) {
-
- struct nvram_internal * data = (struct nvram_internal *) dev->private_data;
+ struct nvram_internal * data = (struct nvram_internal *)dev->private_data;
- PrintDebug("nvram: init_device\n");
+ addr_t irq_state = v3_lock_irqsave(data->nvram_lock);
- memset(data->mem_state, 0, NVRAM_REG_MAX);
+ set_memory(data, data->thereg, *(uint8_t *)src);
- // Would read state here
- set_nvram_defaults(dev);
+ v3_unlock_irqrestore(data->nvram_lock, irq_state);
- nvram_reset_device(dev);
+ PrintDebug("nvram_write_data_port(0x%x) = 0x%x\n",
+ data->thereg, data->mem_state[data->thereg]);
- // hook ports
- dev_hook_io(dev, NVRAM_REG_PORT, NULL, &nvram_write_reg_port);
- dev_hook_io(dev, NVRAM_DATA_PORT, &nvram_read_data_port, &nvram_write_data_port);
-
- return 0;
+ return 1;
}
-int nvram_deinit_device(struct vm_device *dev)
-{
- dev_unhook_io(dev, NVRAM_REG_PORT);
- dev_unhook_io(dev, NVRAM_DATA_PORT);
- nvram_reset_device(dev);
- return 0;
+static int nvram_free(struct vm_device * dev) {
+ v3_dev_unhook_io(dev, NVRAM_REG_PORT);
+ v3_dev_unhook_io(dev, NVRAM_DATA_PORT);
+
+ return 0;
}
-static struct vm_device_ops dev_ops = {
- .init = nvram_init_device,
- .deinit = nvram_deinit_device,
- .reset = nvram_reset_device,
- .start = nvram_start_device,
- .stop = nvram_stop_device,
+static struct v3_device_ops dev_ops = {
+ .free = nvram_free,
+ .reset = nvram_reset_device,
+ .start = nvram_start_device,
+ .stop = nvram_stop_device,
};
-struct vm_device * create_nvram() {
- struct nvram_internal * nvram_state = (struct nvram_internal *)V3_Malloc(sizeof(struct nvram_internal) + 1000);
- PrintDebug("nvram: internal at %x\n",nvram_state);
+static int nvram_init(struct v3_vm_info * vm, v3_cfg_tree_t * cfg) {
+ struct nvram_internal * nvram_state = NULL;
+ struct vm_device * ide = v3_find_dev(vm, v3_cfg_val(cfg, "storage"));
+ char * dev_id = v3_cfg_val(cfg, "ID");
+
+ if (!ide) {
+ PrintError("Could not find IDE device\n");
+ return -1;
+ }
+
+ PrintDebug("nvram: init_device\n");
+ nvram_state = (struct nvram_internal *)V3_Malloc(sizeof(struct nvram_internal) + 1000);
- struct vm_device * device = create_device("NVRAM", &dev_ops, nvram_state);
+ PrintDebug("nvram: internal at %p\n", (void *)nvram_state);
- if (thedev != NULL) {
- PrintDebug("nvram: warning! overwriting thedev\n");
- }
+ nvram_state->ide = ide;
- thedev = device;
+ struct vm_device * dev = v3_allocate_device(dev_id, &dev_ops, nvram_state);
- return device;
+
+ if (v3_attach_device(vm, dev) == -1) {
+ PrintError("Could not attach device %s\n", dev_id);
+ return -1;
+ }
+
+ init_nvram_state(vm, dev);
+
+ // hook ports
+ v3_dev_hook_io(dev, NVRAM_REG_PORT, NULL, &nvram_write_reg_port);
+ v3_dev_hook_io(dev, NVRAM_DATA_PORT, &nvram_read_data_port, &nvram_write_data_port);
+
+ v3_hook_host_event(vm, HOST_TIMER_EVT, V3_HOST_EVENT_HANDLER(handle_timer_event), dev);
+
+ return 0;
}
+
+device_register("NVRAM", nvram_init)