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|
/*
* Status and system control registers for ARM RealView/Versatile boards.
*
* Copyright (c) 2006-2007 CodeSourcery.
* Written by Paul Brook
*
* This code is licensed under the GPL.
*/
#include "hw/hw.h"
#include "qemu/timer.h"
#include "qemu/bitops.h"
#include "hw/sysbus.h"
#include "hw/arm/primecell.h"
#include "sysemu/sysemu.h"
#define LOCK_VALUE 0xa05f
#define TYPE_ARM_SYSCTL "realview_sysctl"
#define ARM_SYSCTL(obj) \
OBJECT_CHECK(arm_sysctl_state, (obj), TYPE_ARM_SYSCTL)
typedef struct {
SysBusDevice parent_obj;
MemoryRegion iomem;
qemu_irq pl110_mux_ctrl;
uint32_t sys_id;
uint32_t leds;
uint16_t lockval;
uint32_t cfgdata1;
uint32_t cfgdata2;
uint32_t flags;
uint32_t nvflags;
uint32_t resetlevel;
uint32_t proc_id;
uint32_t sys_mci;
uint32_t sys_cfgdata;
uint32_t sys_cfgctrl;
uint32_t sys_cfgstat;
uint32_t sys_clcd;
uint32_t mb_clock[6];
uint32_t *db_clock;
uint32_t db_num_vsensors;
uint32_t *db_voltage;
uint32_t db_num_clocks;
uint32_t *db_clock_reset;
} arm_sysctl_state;
static const VMStateDescription vmstate_arm_sysctl = {
.name = "realview_sysctl",
.version_id = 4,
.minimum_version_id = 1,
.fields = (VMStateField[]) {
VMSTATE_UINT32(leds, arm_sysctl_state),
VMSTATE_UINT16(lockval, arm_sysctl_state),
VMSTATE_UINT32(cfgdata1, arm_sysctl_state),
VMSTATE_UINT32(cfgdata2, arm_sysctl_state),
VMSTATE_UINT32(flags, arm_sysctl_state),
VMSTATE_UINT32(nvflags, arm_sysctl_state),
VMSTATE_UINT32(resetlevel, arm_sysctl_state),
VMSTATE_UINT32_V(sys_mci, arm_sysctl_state, 2),
VMSTATE_UINT32_V(sys_cfgdata, arm_sysctl_state, 2),
VMSTATE_UINT32_V(sys_cfgctrl, arm_sysctl_state, 2),
VMSTATE_UINT32_V(sys_cfgstat, arm_sysctl_state, 2),
VMSTATE_UINT32_V(sys_clcd, arm_sysctl_state, 3),
VMSTATE_UINT32_ARRAY_V(mb_clock, arm_sysctl_state, 6, 4),
VMSTATE_VARRAY_UINT32(db_clock, arm_sysctl_state, db_num_clocks,
4, vmstate_info_uint32, uint32_t),
VMSTATE_END_OF_LIST()
}
};
/* The PB926 actually uses a different format for
* its SYS_ID register. Fortunately the bits which are
* board type on later boards are distinct.
*/
#define BOARD_ID_PB926 0x100
#define BOARD_ID_EB 0x140
#define BOARD_ID_PBA8 0x178
#define BOARD_ID_PBX 0x182
#define BOARD_ID_VEXPRESS 0x190
static int board_id(arm_sysctl_state *s)
{
/* Extract the board ID field from the SYS_ID register value */
return (s->sys_id >> 16) & 0xfff;
}
static void arm_sysctl_reset(DeviceState *d)
{
arm_sysctl_state *s = ARM_SYSCTL(d);
int i;
s->leds = 0;
s->lockval = 0;
s->cfgdata1 = 0;
s->cfgdata2 = 0;
s->flags = 0;
s->resetlevel = 0;
/* Motherboard oscillators (in Hz) */
s->mb_clock[0] = 50000000; /* Static memory clock: 50MHz */
s->mb_clock[1] = 23750000; /* motherboard CLCD clock: 23.75MHz */
s->mb_clock[2] = 24000000; /* IO FPGA peripheral clock: 24MHz */
s->mb_clock[3] = 24000000; /* IO FPGA reserved clock: 24MHz */
s->mb_clock[4] = 24000000; /* System bus global clock: 24MHz */
s->mb_clock[5] = 24000000; /* IO FPGA reserved clock: 24MHz */
/* Daughterboard oscillators: reset from property values */
for (i = 0; i < s->db_num_clocks; i++) {
s->db_clock[i] = s->db_clock_reset[i];
}
if (board_id(s) == BOARD_ID_VEXPRESS) {
/* On VExpress this register will RAZ/WI */
s->sys_clcd = 0;
} else {
/* All others: CLCDID 0x1f, indicating VGA */
s->sys_clcd = 0x1f00;
}
}
static uint64_t arm_sysctl_read(void *opaque, hwaddr offset,
unsigned size)
{
arm_sysctl_state *s = (arm_sysctl_state *)opaque;
switch (offset) {
case 0x00: /* ID */
return s->sys_id;
case 0x04: /* SW */
/* General purpose hardware switches.
We don't have a useful way of exposing these to the user. */
return 0;
case 0x08: /* LED */
return s->leds;
case 0x20: /* LOCK */
return s->lockval;
case 0x0c: /* OSC0 */
case 0x10: /* OSC1 */
case 0x14: /* OSC2 */
case 0x18: /* OSC3 */
case 0x1c: /* OSC4 */
case 0x24: /* 100HZ */
/* ??? Implement these. */
return 0;
case 0x28: /* CFGDATA1 */
return s->cfgdata1;
case 0x2c: /* CFGDATA2 */
return s->cfgdata2;
case 0x30: /* FLAGS */
return s->flags;
case 0x38: /* NVFLAGS */
return s->nvflags;
case 0x40: /* RESETCTL */
if (board_id(s) == BOARD_ID_VEXPRESS) {
/* reserved: RAZ/WI */
return 0;
}
return s->resetlevel;
case 0x44: /* PCICTL */
return 1;
case 0x48: /* MCI */
return s->sys_mci;
case 0x4c: /* FLASH */
return 0;
case 0x50: /* CLCD */
return s->sys_clcd;
case 0x54: /* CLCDSER */
return 0;
case 0x58: /* BOOTCS */
return 0;
case 0x5c: /* 24MHz */
return muldiv64(qemu_get_clock_ns(vm_clock), 24000000, get_ticks_per_sec());
case 0x60: /* MISC */
return 0;
case 0x84: /* PROCID0 */
return s->proc_id;
case 0x88: /* PROCID1 */
return 0xff000000;
case 0x64: /* DMAPSR0 */
case 0x68: /* DMAPSR1 */
case 0x6c: /* DMAPSR2 */
case 0x70: /* IOSEL */
case 0x74: /* PLDCTL */
case 0x80: /* BUSID */
case 0x8c: /* OSCRESET0 */
case 0x90: /* OSCRESET1 */
case 0x94: /* OSCRESET2 */
case 0x98: /* OSCRESET3 */
case 0x9c: /* OSCRESET4 */
case 0xc0: /* SYS_TEST_OSC0 */
case 0xc4: /* SYS_TEST_OSC1 */
case 0xc8: /* SYS_TEST_OSC2 */
case 0xcc: /* SYS_TEST_OSC3 */
case 0xd0: /* SYS_TEST_OSC4 */
return 0;
case 0xa0: /* SYS_CFGDATA */
if (board_id(s) != BOARD_ID_VEXPRESS) {
goto bad_reg;
}
return s->sys_cfgdata;
case 0xa4: /* SYS_CFGCTRL */
if (board_id(s) != BOARD_ID_VEXPRESS) {
goto bad_reg;
}
return s->sys_cfgctrl;
case 0xa8: /* SYS_CFGSTAT */
if (board_id(s) != BOARD_ID_VEXPRESS) {
goto bad_reg;
}
return s->sys_cfgstat;
default:
bad_reg:
qemu_log_mask(LOG_GUEST_ERROR,
"arm_sysctl_read: Bad register offset 0x%x\n",
(int)offset);
return 0;
}
}
/* SYS_CFGCTRL functions */
#define SYS_CFG_OSC 1
#define SYS_CFG_VOLT 2
#define SYS_CFG_AMP 3
#define SYS_CFG_TEMP 4
#define SYS_CFG_RESET 5
#define SYS_CFG_SCC 6
#define SYS_CFG_MUXFPGA 7
#define SYS_CFG_SHUTDOWN 8
#define SYS_CFG_REBOOT 9
#define SYS_CFG_DVIMODE 11
#define SYS_CFG_POWER 12
#define SYS_CFG_ENERGY 13
/* SYS_CFGCTRL site field values */
#define SYS_CFG_SITE_MB 0
#define SYS_CFG_SITE_DB1 1
#define SYS_CFG_SITE_DB2 2
/**
* vexpress_cfgctrl_read:
* @s: arm_sysctl_state pointer
* @dcc, @function, @site, @position, @device: split out values from
* SYS_CFGCTRL register
* @val: pointer to where to put the read data on success
*
* Handle a VExpress SYS_CFGCTRL register read. On success, return true and
* write the read value to *val. On failure, return false (and val may
* or may not be written to).
*/
static bool vexpress_cfgctrl_read(arm_sysctl_state *s, unsigned int dcc,
unsigned int function, unsigned int site,
unsigned int position, unsigned int device,
uint32_t *val)
{
/* We don't support anything other than DCC 0, board stack position 0
* or sites other than motherboard/daughterboard:
*/
if (dcc != 0 || position != 0 ||
(site != SYS_CFG_SITE_MB && site != SYS_CFG_SITE_DB1)) {
goto cfgctrl_unimp;
}
switch (function) {
case SYS_CFG_VOLT:
if (site == SYS_CFG_SITE_DB1 && device < s->db_num_vsensors) {
*val = s->db_voltage[device];
return true;
}
if (site == SYS_CFG_SITE_MB && device == 0) {
/* There is only one motherboard voltage sensor:
* VIO : 3.3V : bus voltage between mother and daughterboard
*/
*val = 3300000;
return true;
}
break;
case SYS_CFG_OSC:
if (site == SYS_CFG_SITE_MB && device < sizeof(s->mb_clock)) {
/* motherboard clock */
*val = s->mb_clock[device];
return true;
}
if (site == SYS_CFG_SITE_DB1 && device < s->db_num_clocks) {
/* daughterboard clock */
*val = s->db_clock[device];
return true;
}
break;
default:
break;
}
cfgctrl_unimp:
qemu_log_mask(LOG_UNIMP,
"arm_sysctl: Unimplemented SYS_CFGCTRL read of function "
"0x%x DCC 0x%x site 0x%x position 0x%x device 0x%x\n",
function, dcc, site, position, device);
return false;
}
/**
* vexpress_cfgctrl_write:
* @s: arm_sysctl_state pointer
* @dcc, @function, @site, @position, @device: split out values from
* SYS_CFGCTRL register
* @val: data to write
*
* Handle a VExpress SYS_CFGCTRL register write. On success, return true.
* On failure, return false.
*/
static bool vexpress_cfgctrl_write(arm_sysctl_state *s, unsigned int dcc,
unsigned int function, unsigned int site,
unsigned int position, unsigned int device,
uint32_t val)
{
/* We don't support anything other than DCC 0, board stack position 0
* or sites other than motherboard/daughterboard:
*/
if (dcc != 0 || position != 0 ||
(site != SYS_CFG_SITE_MB && site != SYS_CFG_SITE_DB1)) {
goto cfgctrl_unimp;
}
switch (function) {
case SYS_CFG_OSC:
if (site == SYS_CFG_SITE_MB && device < sizeof(s->mb_clock)) {
/* motherboard clock */
s->mb_clock[device] = val;
return true;
}
if (site == SYS_CFG_SITE_DB1 && device < s->db_num_clocks) {
/* daughterboard clock */
s->db_clock[device] = val;
return true;
}
break;
case SYS_CFG_MUXFPGA:
if (site == SYS_CFG_SITE_MB && device == 0) {
/* Select whether video output comes from motherboard
* or daughterboard: log and ignore as QEMU doesn't
* support this.
*/
qemu_log_mask(LOG_UNIMP, "arm_sysctl: selection of video output "
"not supported, ignoring\n");
return true;
}
break;
case SYS_CFG_SHUTDOWN:
if (site == SYS_CFG_SITE_MB && device == 0) {
qemu_system_shutdown_request();
return true;
}
break;
case SYS_CFG_REBOOT:
if (site == SYS_CFG_SITE_MB && device == 0) {
qemu_system_reset_request();
return true;
}
break;
case SYS_CFG_DVIMODE:
if (site == SYS_CFG_SITE_MB && device == 0) {
/* Selecting DVI mode is meaningless for QEMU: we will
* always display the output correctly according to the
* pixel height/width programmed into the CLCD controller.
*/
return true;
}
default:
break;
}
cfgctrl_unimp:
qemu_log_mask(LOG_UNIMP,
"arm_sysctl: Unimplemented SYS_CFGCTRL write of function "
"0x%x DCC 0x%x site 0x%x position 0x%x device 0x%x\n",
function, dcc, site, position, device);
return false;
}
static void arm_sysctl_write(void *opaque, hwaddr offset,
uint64_t val, unsigned size)
{
arm_sysctl_state *s = (arm_sysctl_state *)opaque;
switch (offset) {
case 0x08: /* LED */
s->leds = val;
break;
case 0x0c: /* OSC0 */
case 0x10: /* OSC1 */
case 0x14: /* OSC2 */
case 0x18: /* OSC3 */
case 0x1c: /* OSC4 */
/* ??? */
break;
case 0x20: /* LOCK */
if (val == LOCK_VALUE)
s->lockval = val;
else
s->lockval = val & 0x7fff;
break;
case 0x28: /* CFGDATA1 */
/* ??? Need to implement this. */
s->cfgdata1 = val;
break;
case 0x2c: /* CFGDATA2 */
/* ??? Need to implement this. */
s->cfgdata2 = val;
break;
case 0x30: /* FLAGSSET */
s->flags |= val;
break;
case 0x34: /* FLAGSCLR */
s->flags &= ~val;
break;
case 0x38: /* NVFLAGSSET */
s->nvflags |= val;
break;
case 0x3c: /* NVFLAGSCLR */
s->nvflags &= ~val;
break;
case 0x40: /* RESETCTL */
switch (board_id(s)) {
case BOARD_ID_PB926:
if (s->lockval == LOCK_VALUE) {
s->resetlevel = val;
if (val & 0x100) {
qemu_system_reset_request();
}
}
break;
case BOARD_ID_PBX:
case BOARD_ID_PBA8:
if (s->lockval == LOCK_VALUE) {
s->resetlevel = val;
if (val & 0x04) {
qemu_system_reset_request();
}
}
break;
case BOARD_ID_VEXPRESS:
case BOARD_ID_EB:
default:
/* reserved: RAZ/WI */
break;
}
break;
case 0x44: /* PCICTL */
/* nothing to do. */
break;
case 0x4c: /* FLASH */
break;
case 0x50: /* CLCD */
switch (board_id(s)) {
case BOARD_ID_PB926:
/* On 926 bits 13:8 are R/O, bits 1:0 control
* the mux that defines how to interpret the PL110
* graphics format, and other bits are r/w but we
* don't implement them to do anything.
*/
s->sys_clcd &= 0x3f00;
s->sys_clcd |= val & ~0x3f00;
qemu_set_irq(s->pl110_mux_ctrl, val & 3);
break;
case BOARD_ID_EB:
/* The EB is the same except that there is no mux since
* the EB has a PL111.
*/
s->sys_clcd &= 0x3f00;
s->sys_clcd |= val & ~0x3f00;
break;
case BOARD_ID_PBA8:
case BOARD_ID_PBX:
/* On PBA8 and PBX bit 7 is r/w and all other bits
* are either r/o or RAZ/WI.
*/
s->sys_clcd &= (1 << 7);
s->sys_clcd |= val & ~(1 << 7);
break;
case BOARD_ID_VEXPRESS:
default:
/* On VExpress this register is unimplemented and will RAZ/WI */
break;
}
break;
case 0x54: /* CLCDSER */
case 0x64: /* DMAPSR0 */
case 0x68: /* DMAPSR1 */
case 0x6c: /* DMAPSR2 */
case 0x70: /* IOSEL */
case 0x74: /* PLDCTL */
case 0x80: /* BUSID */
case 0x84: /* PROCID0 */
case 0x88: /* PROCID1 */
case 0x8c: /* OSCRESET0 */
case 0x90: /* OSCRESET1 */
case 0x94: /* OSCRESET2 */
case 0x98: /* OSCRESET3 */
case 0x9c: /* OSCRESET4 */
break;
case 0xa0: /* SYS_CFGDATA */
if (board_id(s) != BOARD_ID_VEXPRESS) {
goto bad_reg;
}
s->sys_cfgdata = val;
return;
case 0xa4: /* SYS_CFGCTRL */
if (board_id(s) != BOARD_ID_VEXPRESS) {
goto bad_reg;
}
/* Undefined bits [19:18] are RAZ/WI, and writing to
* the start bit just triggers the action; it always reads
* as zero.
*/
s->sys_cfgctrl = val & ~((3 << 18) | (1 << 31));
if (val & (1 << 31)) {
/* Start bit set -- actually do something */
unsigned int dcc = extract32(s->sys_cfgctrl, 26, 4);
unsigned int function = extract32(s->sys_cfgctrl, 20, 6);
unsigned int site = extract32(s->sys_cfgctrl, 16, 2);
unsigned int position = extract32(s->sys_cfgctrl, 12, 4);
unsigned int device = extract32(s->sys_cfgctrl, 0, 12);
s->sys_cfgstat = 1; /* complete */
if (s->sys_cfgctrl & (1 << 30)) {
if (!vexpress_cfgctrl_write(s, dcc, function, site, position,
device, s->sys_cfgdata)) {
s->sys_cfgstat |= 2; /* error */
}
} else {
uint32_t val;
if (!vexpress_cfgctrl_read(s, dcc, function, site, position,
device, &val)) {
s->sys_cfgstat |= 2; /* error */
} else {
s->sys_cfgdata = val;
}
}
}
s->sys_cfgctrl &= ~(1 << 31);
return;
case 0xa8: /* SYS_CFGSTAT */
if (board_id(s) != BOARD_ID_VEXPRESS) {
goto bad_reg;
}
s->sys_cfgstat = val & 3;
return;
default:
bad_reg:
qemu_log_mask(LOG_GUEST_ERROR,
"arm_sysctl_write: Bad register offset 0x%x\n",
(int)offset);
return;
}
}
static const MemoryRegionOps arm_sysctl_ops = {
.read = arm_sysctl_read,
.write = arm_sysctl_write,
.endianness = DEVICE_NATIVE_ENDIAN,
};
static void arm_sysctl_gpio_set(void *opaque, int line, int level)
{
arm_sysctl_state *s = (arm_sysctl_state *)opaque;
switch (line) {
case ARM_SYSCTL_GPIO_MMC_WPROT:
{
/* For PB926 and EB write-protect is bit 2 of SYS_MCI;
* for all later boards it is bit 1.
*/
int bit = 2;
if ((board_id(s) == BOARD_ID_PB926) || (board_id(s) == BOARD_ID_EB)) {
bit = 4;
}
s->sys_mci &= ~bit;
if (level) {
s->sys_mci |= bit;
}
break;
}
case ARM_SYSCTL_GPIO_MMC_CARDIN:
s->sys_mci &= ~1;
if (level) {
s->sys_mci |= 1;
}
break;
}
}
static void arm_sysctl_init(Object *obj)
{
DeviceState *dev = DEVICE(obj);
SysBusDevice *sd = SYS_BUS_DEVICE(obj);
arm_sysctl_state *s = ARM_SYSCTL(obj);
memory_region_init_io(&s->iomem, OBJECT(dev), &arm_sysctl_ops, s,
"arm-sysctl", 0x1000);
sysbus_init_mmio(sd, &s->iomem);
qdev_init_gpio_in(dev, arm_sysctl_gpio_set, 2);
qdev_init_gpio_out(dev, &s->pl110_mux_ctrl, 1);
}
static void arm_sysctl_realize(DeviceState *d, Error **errp)
{
arm_sysctl_state *s = ARM_SYSCTL(d);
s->db_clock = g_new0(uint32_t, s->db_num_clocks);
}
static void arm_sysctl_finalize(Object *obj)
{
arm_sysctl_state *s = ARM_SYSCTL(obj);
g_free(s->db_voltage);
g_free(s->db_clock);
g_free(s->db_clock_reset);
}
static Property arm_sysctl_properties[] = {
DEFINE_PROP_UINT32("sys_id", arm_sysctl_state, sys_id, 0),
DEFINE_PROP_UINT32("proc_id", arm_sysctl_state, proc_id, 0),
/* Daughterboard power supply voltages (as reported via SYS_CFG) */
DEFINE_PROP_ARRAY("db-voltage", arm_sysctl_state, db_num_vsensors,
db_voltage, qdev_prop_uint32, uint32_t),
/* Daughterboard clock reset values (as reported via SYS_CFG) */
DEFINE_PROP_ARRAY("db-clock", arm_sysctl_state, db_num_clocks,
db_clock_reset, qdev_prop_uint32, uint32_t),
DEFINE_PROP_END_OF_LIST(),
};
static void arm_sysctl_class_init(ObjectClass *klass, void *data)
{
DeviceClass *dc = DEVICE_CLASS(klass);
dc->realize = arm_sysctl_realize;
dc->reset = arm_sysctl_reset;
dc->vmsd = &vmstate_arm_sysctl;
dc->props = arm_sysctl_properties;
}
static const TypeInfo arm_sysctl_info = {
.name = TYPE_ARM_SYSCTL,
.parent = TYPE_SYS_BUS_DEVICE,
.instance_size = sizeof(arm_sysctl_state),
.instance_init = arm_sysctl_init,
.instance_finalize = arm_sysctl_finalize,
.class_init = arm_sysctl_class_init,
};
static void arm_sysctl_register_types(void)
{
type_register_static(&arm_sysctl_info);
}
type_init(arm_sysctl_register_types)
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