2 * Virtual hardware watchdog.
4 * Copyright (C) 2009 Red Hat Inc.
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License
8 * as published by the Free Software Foundation; either version 2
9 * of the License, or (at your option) any later version.
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, see <http://www.gnu.org/licenses/>.
19 * By Richard W.M. Jones (rjones@redhat.com).
24 #include "qemu-common.h"
25 #include "qemu-timer.h"
31 /*#define I6300ESB_DEBUG 1*/
34 #define i6300esb_debug(fs,...) \
35 fprintf(stderr,"i6300esb: %s: "fs,__func__,##__VA_ARGS__)
37 #define i6300esb_debug(fs,...)
40 #ifndef PCI_DEVICE_ID_INTEL_ESB_9
41 #define PCI_DEVICE_ID_INTEL_ESB_9 0x25ab
44 /* PCI configuration registers */
45 #define ESB_CONFIG_REG 0x60 /* Config register */
46 #define ESB_LOCK_REG 0x68 /* WDT lock register */
48 /* Memory mapped registers (offset from base address) */
49 #define ESB_TIMER1_REG 0x00 /* Timer1 value after each reset */
50 #define ESB_TIMER2_REG 0x04 /* Timer2 value after each reset */
51 #define ESB_GINTSR_REG 0x08 /* General Interrupt Status Register */
52 #define ESB_RELOAD_REG 0x0c /* Reload register */
54 /* Lock register bits */
55 #define ESB_WDT_FUNC (0x01 << 2) /* Watchdog functionality */
56 #define ESB_WDT_ENABLE (0x01 << 1) /* Enable WDT */
57 #define ESB_WDT_LOCK (0x01 << 0) /* Lock (nowayout) */
59 /* Config register bits */
60 #define ESB_WDT_REBOOT (0x01 << 5) /* Enable reboot on timeout */
61 #define ESB_WDT_FREQ (0x01 << 2) /* Decrement frequency */
62 #define ESB_WDT_INTTYPE (0x11 << 0) /* Interrupt type on timer1 timeout */
64 /* Reload register bits */
65 #define ESB_WDT_RELOAD (0x01 << 8) /* prevent timeout */
68 #define ESB_UNLOCK1 0x80 /* Step 1 to unlock reset registers */
69 #define ESB_UNLOCK2 0x86 /* Step 2 to unlock reset registers */
75 int reboot_enabled
; /* "Reboot" on timer expiry. The real action
76 * performed depends on the -watchdog-action
77 * param passed on QEMU command line.
79 int clock_scale
; /* Clock scale. */
80 #define CLOCK_SCALE_1KHZ 0
81 #define CLOCK_SCALE_1MHZ 1
83 int int_type
; /* Interrupt type generated. */
84 #define INT_TYPE_IRQ 0 /* APIC 1, INT 10 */
85 #define INT_TYPE_SMI 2
86 #define INT_TYPE_DISABLED 3
88 int free_run
; /* If true, reload timer on expiry. */
89 int locked
; /* If true, enabled field cannot be changed. */
90 int enabled
; /* If true, watchdog is enabled. */
92 QEMUTimer
*timer
; /* The actual watchdog timer. */
94 uint32_t timer1_preload
; /* Values preloaded into timer1, timer2. */
95 uint32_t timer2_preload
;
96 int stage
; /* Stage (1 or 2). */
98 int unlock_state
; /* Guest writes 0x80, 0x86 to unlock the
99 * registers, and we transition through
100 * states 0 -> 1 -> 2 when this happens.
103 int previous_reboot_flag
; /* If the watchdog caused the previous
104 * reboot, this flag will be set.
108 typedef struct I6300State I6300State
;
110 /* This function is called when the watchdog has either been enabled
111 * (hence it starts counting down) or has been keep-alived.
113 static void i6300esb_restart_timer(I6300State
*d
, int stage
)
123 timeout
= d
->timer1_preload
;
125 timeout
= d
->timer2_preload
;
127 if (d
->clock_scale
== CLOCK_SCALE_1KHZ
)
132 /* Get the timeout in units of ticks_per_sec. */
133 timeout
= get_ticks_per_sec() * timeout
/ 33000000;
135 i6300esb_debug("stage %d, timeout %" PRIi64
"\n", d
->stage
, timeout
);
137 qemu_mod_timer(d
->timer
, qemu_get_clock(vm_clock
) + timeout
);
140 /* This is called when the guest disables the watchdog. */
141 static void i6300esb_disable_timer(I6300State
*d
)
143 i6300esb_debug("timer disabled\n");
145 qemu_del_timer(d
->timer
);
148 static void i6300esb_reset(I6300State
*d
)
150 /* XXX We should probably reset other parts of the state here,
151 * but we should also reset our state on general machine reset
152 * too. For now just disable the timer so it doesn't fire
153 * again after the reboot.
155 i6300esb_disable_timer(d
);
158 /* This function is called when the watchdog expires. Note that
159 * the hardware has two timers, and so expiry happens in two stages.
160 * If d->stage == 1 then we perform the first stage action (usually,
161 * sending an interrupt) and then restart the timer again for the
162 * second stage. If the second stage expires then the watchdog
163 * really has run out.
165 static void i6300esb_timer_expired(void *vp
)
167 I6300State
*d
= (I6300State
*) vp
;
169 i6300esb_debug("stage %d\n", d
->stage
);
172 /* What to do at the end of stage 1? */
173 switch (d
->int_type
) {
175 fprintf(stderr
, "i6300esb_timer_expired: I would send APIC 1 INT 10 here if I knew how (XXX)\n");
178 fprintf(stderr
, "i6300esb_timer_expired: I would send SMI here if I knew how (XXX)\n");
182 /* Start the second stage. */
183 i6300esb_restart_timer(d
, 2);
185 /* Second stage expired, reboot for real. */
186 if (d
->reboot_enabled
) {
187 d
->previous_reboot_flag
= 1;
188 watchdog_perform_action(); /* This reboots, exits, etc */
192 /* In "free running mode" we start stage 1 again. */
194 i6300esb_restart_timer(d
, 1);
198 static void i6300esb_config_write(PCIDevice
*dev
, uint32_t addr
,
199 uint32_t data
, int len
)
201 I6300State
*d
= DO_UPCAST(I6300State
, dev
, dev
);
204 i6300esb_debug("addr = %x, data = %x, len = %d\n", addr
, data
, len
);
206 if (addr
== ESB_CONFIG_REG
&& len
== 2) {
207 d
->reboot_enabled
= (data
& ESB_WDT_REBOOT
) == 0;
209 (data
& ESB_WDT_FREQ
) != 0 ? CLOCK_SCALE_1MHZ
: CLOCK_SCALE_1KHZ
;
210 d
->int_type
= (data
& ESB_WDT_INTTYPE
);
211 } else if (addr
== ESB_LOCK_REG
&& len
== 1) {
213 d
->locked
= (data
& ESB_WDT_LOCK
) != 0;
214 d
->free_run
= (data
& ESB_WDT_FUNC
) != 0;
216 d
->enabled
= (data
& ESB_WDT_ENABLE
) != 0;
217 if (!old
&& d
->enabled
) /* Enabled transitioned from 0 -> 1 */
218 i6300esb_restart_timer(d
, 1);
219 else if (!d
->enabled
)
220 i6300esb_disable_timer(d
);
223 pci_default_write_config(dev
, addr
, data
, len
);
227 static uint32_t i6300esb_config_read(PCIDevice
*dev
, uint32_t addr
, int len
)
229 I6300State
*d
= DO_UPCAST(I6300State
, dev
, dev
);
232 i6300esb_debug ("addr = %x, len = %d\n", addr
, len
);
234 if (addr
== ESB_CONFIG_REG
&& len
== 2) {
236 (d
->reboot_enabled
? 0 : ESB_WDT_REBOOT
) |
237 (d
->clock_scale
== CLOCK_SCALE_1MHZ
? ESB_WDT_FREQ
: 0) |
240 } else if (addr
== ESB_LOCK_REG
&& len
== 1) {
242 (d
->free_run
? ESB_WDT_FUNC
: 0) |
243 (d
->locked
? ESB_WDT_LOCK
: 0) |
244 (d
->enabled
? ESB_WDT_ENABLE
: 0);
247 return pci_default_read_config(dev
, addr
, len
);
251 static uint32_t i6300esb_mem_readb(void *vp
, target_phys_addr_t addr
)
253 i6300esb_debug ("addr = %x\n", (int) addr
);
258 static uint32_t i6300esb_mem_readw(void *vp
, target_phys_addr_t addr
)
261 I6300State
*d
= (I6300State
*) vp
;
263 i6300esb_debug("addr = %x\n", (int) addr
);
266 /* The previous reboot flag is really bit 9, but there is
267 * a bug in the Linux driver where it thinks it's bit 12.
270 data
= d
->previous_reboot_flag
? 0x1200 : 0;
276 static uint32_t i6300esb_mem_readl(void *vp
, target_phys_addr_t addr
)
278 i6300esb_debug("addr = %x\n", (int) addr
);
283 static void i6300esb_mem_writeb(void *vp
, target_phys_addr_t addr
, uint32_t val
)
285 I6300State
*d
= (I6300State
*) vp
;
287 i6300esb_debug("addr = %x, val = %x\n", (int) addr
, val
);
289 if (addr
== 0xc && val
== 0x80)
291 else if (addr
== 0xc && val
== 0x86 && d
->unlock_state
== 1)
295 static void i6300esb_mem_writew(void *vp
, target_phys_addr_t addr
, uint32_t val
)
297 I6300State
*d
= (I6300State
*) vp
;
299 i6300esb_debug("addr = %x, val = %x\n", (int) addr
, val
);
301 if (addr
== 0xc && val
== 0x80)
303 else if (addr
== 0xc && val
== 0x86 && d
->unlock_state
== 1)
306 if (d
->unlock_state
== 2) {
308 if ((val
& 0x100) != 0)
309 /* This is the "ping" from the userspace watchdog in
312 i6300esb_restart_timer(d
, 1);
314 /* Setting bit 9 resets the previous reboot flag.
315 * There's a bug in the Linux driver where it sets
318 if ((val
& 0x200) != 0 || (val
& 0x1000) != 0) {
319 d
->previous_reboot_flag
= 0;
328 static void i6300esb_mem_writel(void *vp
, target_phys_addr_t addr
, uint32_t val
)
330 I6300State
*d
= (I6300State
*) vp
;
332 i6300esb_debug ("addr = %x, val = %x\n", (int) addr
, val
);
334 if (addr
== 0xc && val
== 0x80)
336 else if (addr
== 0xc && val
== 0x86 && d
->unlock_state
== 1)
339 if (d
->unlock_state
== 2) {
341 d
->timer1_preload
= val
& 0xfffff;
343 d
->timer2_preload
= val
& 0xfffff;
350 static void i6300esb_map(PCIDevice
*dev
, int region_num
,
351 uint32_t addr
, uint32_t size
, int type
)
353 static CPUReadMemoryFunc
* const mem_read
[3] = {
358 static CPUWriteMemoryFunc
* const mem_write
[3] = {
363 I6300State
*d
= DO_UPCAST(I6300State
, dev
, dev
);
366 i6300esb_debug("addr = %x, size = %x, type = %d\n", addr
, size
, type
);
368 io_mem
= cpu_register_io_memory(mem_read
, mem_write
, d
);
369 cpu_register_physical_memory (addr
, 0x10, io_mem
);
370 /* qemu_register_coalesced_mmio (addr, 0x10); ? */
373 static void i6300esb_save(QEMUFile
*f
, void *vp
)
375 I6300State
*d
= (I6300State
*) vp
;
377 pci_device_save(&d
->dev
, f
);
378 qemu_put_be32(f
, d
->reboot_enabled
);
379 qemu_put_be32(f
, d
->clock_scale
);
380 qemu_put_be32(f
, d
->int_type
);
381 qemu_put_be32(f
, d
->free_run
);
382 qemu_put_be32(f
, d
->locked
);
383 qemu_put_be32(f
, d
->enabled
);
384 qemu_put_timer(f
, d
->timer
);
385 qemu_put_be32(f
, d
->timer1_preload
);
386 qemu_put_be32(f
, d
->timer2_preload
);
387 qemu_put_be32(f
, d
->stage
);
388 qemu_put_be32(f
, d
->unlock_state
);
389 qemu_put_be32(f
, d
->previous_reboot_flag
);
392 static int i6300esb_load(QEMUFile
*f
, void *vp
, int version
)
394 I6300State
*d
= (I6300State
*) vp
;
396 if (version
!= sizeof (I6300State
))
399 pci_device_load(&d
->dev
, f
);
400 d
->reboot_enabled
= qemu_get_be32(f
);
401 d
->clock_scale
= qemu_get_be32(f
);
402 d
->int_type
= qemu_get_be32(f
);
403 d
->free_run
= qemu_get_be32(f
);
404 d
->locked
= qemu_get_be32(f
);
405 d
->enabled
= qemu_get_be32(f
);
406 qemu_get_timer(f
, d
->timer
);
407 d
->timer1_preload
= qemu_get_be32(f
);
408 d
->timer2_preload
= qemu_get_be32(f
);
409 d
->stage
= qemu_get_be32(f
);
410 d
->unlock_state
= qemu_get_be32(f
);
411 d
->previous_reboot_flag
= qemu_get_be32(f
);
416 static int i6300esb_init(PCIDevice
*dev
)
418 I6300State
*d
= DO_UPCAST(I6300State
, dev
, dev
);
421 d
->reboot_enabled
= 1;
422 d
->clock_scale
= CLOCK_SCALE_1KHZ
;
423 d
->int_type
= INT_TYPE_IRQ
;
427 d
->timer
= qemu_new_timer(vm_clock
, i6300esb_timer_expired
, d
);
428 d
->timer1_preload
= 0xfffff;
429 d
->timer2_preload
= 0xfffff;
432 d
->previous_reboot_flag
= 0;
434 pci_conf
= d
->dev
.config
;
435 pci_config_set_vendor_id(pci_conf
, PCI_VENDOR_ID_INTEL
);
436 pci_config_set_device_id(pci_conf
, PCI_DEVICE_ID_INTEL_ESB_9
);
437 pci_config_set_class(pci_conf
, PCI_CLASS_SYSTEM_OTHER
);
438 pci_conf
[0x0e] = 0x00;
440 pci_register_bar(&d
->dev
, 0, 0x10,
441 PCI_ADDRESS_SPACE_MEM
, i6300esb_map
);
443 register_savevm("i6300esb_wdt", -1, sizeof(I6300State
),
444 i6300esb_save
, i6300esb_load
, d
);
449 static WatchdogTimerModel model
= {
450 .wdt_name
= "i6300esb",
451 .wdt_description
= "Intel 6300ESB",
454 static PCIDeviceInfo i6300esb_info
= {
455 .qdev
.name
= "i6300esb",
456 .qdev
.size
= sizeof(I6300State
),
457 .config_read
= i6300esb_config_read
,
458 .config_write
= i6300esb_config_write
,
459 .init
= i6300esb_init
,
462 static void i6300esb_register_devices(void)
464 watchdog_add_model(&model
);
465 pci_qdev_register(&i6300esb_info
);
468 device_init(i6300esb_register_devices
);