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|
/*
* QEMU PCI bus manager
*
* Copyright (c) 2004 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "hw/hw.h"
#include "hw/pci/pci.h"
#include "hw/pci/pci_bridge.h"
#include "hw/pci/pci_bus.h"
#include "hw/pci/pci_host.h"
#include "monitor/monitor.h"
#include "net/net.h"
#include "sysemu/sysemu.h"
#include "hw/loader.h"
#include "qemu/error-report.h"
#include "qemu/range.h"
#include "qmp-commands.h"
#include "trace.h"
#include "hw/pci/msi.h"
#include "hw/pci/msix.h"
#include "exec/address-spaces.h"
#include "hw/hotplug.h"
//#define DEBUG_PCI
#ifdef DEBUG_PCI
# define PCI_DPRINTF(format, ...) printf(format, ## __VA_ARGS__)
#else
# define PCI_DPRINTF(format, ...) do { } while (0)
#endif
static void pcibus_dev_print(Monitor *mon, DeviceState *dev, int indent);
static char *pcibus_get_dev_path(DeviceState *dev);
static char *pcibus_get_fw_dev_path(DeviceState *dev);
static void pcibus_reset(BusState *qbus);
static Property pci_props[] = {
DEFINE_PROP_PCI_DEVFN("addr", PCIDevice, devfn, -1),
DEFINE_PROP_STRING("romfile", PCIDevice, romfile),
DEFINE_PROP_UINT32("rombar", PCIDevice, rom_bar, 1),
DEFINE_PROP_BIT("multifunction", PCIDevice, cap_present,
QEMU_PCI_CAP_MULTIFUNCTION_BITNR, false),
DEFINE_PROP_BIT("command_serr_enable", PCIDevice, cap_present,
QEMU_PCI_CAP_SERR_BITNR, true),
DEFINE_PROP_END_OF_LIST()
};
static const VMStateDescription vmstate_pcibus = {
.name = "PCIBUS",
.version_id = 1,
.minimum_version_id = 1,
.fields = (VMStateField[]) {
VMSTATE_INT32_EQUAL(nirq, PCIBus),
VMSTATE_VARRAY_INT32(irq_count, PCIBus,
nirq, 0, vmstate_info_int32,
int32_t),
VMSTATE_END_OF_LIST()
}
};
static void pci_bus_realize(BusState *qbus, Error **errp)
{
PCIBus *bus = PCI_BUS(qbus);
vmstate_register(NULL, -1, &vmstate_pcibus, bus);
}
static void pci_bus_unrealize(BusState *qbus, Error **errp)
{
PCIBus *bus = PCI_BUS(qbus);
vmstate_unregister(NULL, &vmstate_pcibus, bus);
}
static bool pcibus_is_root(PCIBus *bus)
{
return !bus->parent_dev;
}
static int pcibus_num(PCIBus *bus)
{
if (pcibus_is_root(bus)) {
return 0; /* pci host bridge */
}
return bus->parent_dev->config[PCI_SECONDARY_BUS];
}
static uint16_t pcibus_numa_node(PCIBus *bus)
{
return NUMA_NODE_UNASSIGNED;
}
static void pci_bus_class_init(ObjectClass *klass, void *data)
{
BusClass *k = BUS_CLASS(klass);
PCIBusClass *pbc = PCI_BUS_CLASS(klass);
k->print_dev = pcibus_dev_print;
k->get_dev_path = pcibus_get_dev_path;
k->get_fw_dev_path = pcibus_get_fw_dev_path;
k->realize = pci_bus_realize;
k->unrealize = pci_bus_unrealize;
k->reset = pcibus_reset;
pbc->is_root = pcibus_is_root;
pbc->bus_num = pcibus_num;
pbc->numa_node = pcibus_numa_node;
}
static const TypeInfo pci_bus_info = {
.name = TYPE_PCI_BUS,
.parent = TYPE_BUS,
.instance_size = sizeof(PCIBus),
.class_size = sizeof(PCIBusClass),
.class_init = pci_bus_class_init,
};
static const TypeInfo pcie_bus_info = {
.name = TYPE_PCIE_BUS,
.parent = TYPE_PCI_BUS,
};
static PCIBus *pci_find_bus_nr(PCIBus *bus, int bus_num);
static void pci_update_mappings(PCIDevice *d);
static void pci_irq_handler(void *opaque, int irq_num, int level);
static void pci_add_option_rom(PCIDevice *pdev, bool is_default_rom, Error **);
static void pci_del_option_rom(PCIDevice *pdev);
static uint16_t pci_default_sub_vendor_id = PCI_SUBVENDOR_ID_REDHAT_QUMRANET;
static uint16_t pci_default_sub_device_id = PCI_SUBDEVICE_ID_QEMU;
static QLIST_HEAD(, PCIHostState) pci_host_bridges;
int pci_bar(PCIDevice *d, int reg)
{
uint8_t type;
if (reg != PCI_ROM_SLOT)
return PCI_BASE_ADDRESS_0 + reg * 4;
type = d->config[PCI_HEADER_TYPE] & ~PCI_HEADER_TYPE_MULTI_FUNCTION;
return type == PCI_HEADER_TYPE_BRIDGE ? PCI_ROM_ADDRESS1 : PCI_ROM_ADDRESS;
}
static inline int pci_irq_state(PCIDevice *d, int irq_num)
{
return (d->irq_state >> irq_num) & 0x1;
}
static inline void pci_set_irq_state(PCIDevice *d, int irq_num, int level)
{
d->irq_state &= ~(0x1 << irq_num);
d->irq_state |= level << irq_num;
}
static void pci_change_irq_level(PCIDevice *pci_dev, int irq_num, int change)
{
PCIBus *bus;
for (;;) {
bus = pci_dev->bus;
irq_num = bus->map_irq(pci_dev, irq_num);
if (bus->set_irq)
break;
pci_dev = bus->parent_dev;
}
bus->irq_count[irq_num] += change;
bus->set_irq(bus->irq_opaque, irq_num, bus->irq_count[irq_num] != 0);
}
int pci_bus_get_irq_level(PCIBus *bus, int irq_num)
{
assert(irq_num >= 0);
assert(irq_num < bus->nirq);
return !!bus->irq_count[irq_num];
}
/* Update interrupt status bit in config space on interrupt
* state change. */
static void pci_update_irq_status(PCIDevice *dev)
{
if (dev->irq_state) {
dev->config[PCI_STATUS] |= PCI_STATUS_INTERRUPT;
} else {
dev->config[PCI_STATUS] &= ~PCI_STATUS_INTERRUPT;
}
}
void pci_device_deassert_intx(PCIDevice *dev)
{
int i;
for (i = 0; i < PCI_NUM_PINS; ++i) {
pci_irq_handler(dev, i, 0);
}
}
static void pci_do_device_reset(PCIDevice *dev)
{
int r;
pci_device_deassert_intx(dev);
assert(dev->irq_state == 0);
/* Clear all writable bits */
pci_word_test_and_clear_mask(dev->config + PCI_COMMAND,
pci_get_word(dev->wmask + PCI_COMMAND) |
pci_get_word(dev->w1cmask + PCI_COMMAND));
pci_word_test_and_clear_mask(dev->config + PCI_STATUS,
pci_get_word(dev->wmask + PCI_STATUS) |
pci_get_word(dev->w1cmask + PCI_STATUS));
dev->config[PCI_CACHE_LINE_SIZE] = 0x0;
dev->config[PCI_INTERRUPT_LINE] = 0x0;
for (r = 0; r < PCI_NUM_REGIONS; ++r) {
PCIIORegion *region = &dev->io_regions[r];
if (!region->size) {
continue;
}
if (!(region->type & PCI_BASE_ADDRESS_SPACE_IO) &&
region->type & PCI_BASE_ADDRESS_MEM_TYPE_64) {
pci_set_quad(dev->config + pci_bar(dev, r), region->type);
} else {
pci_set_long(dev->config + pci_bar(dev, r), region->type);
}
}
pci_update_mappings(dev);
msi_reset(dev);
msix_reset(dev);
}
/*
* This function is called on #RST and FLR.
* FLR if PCI_EXP_DEVCTL_BCR_FLR is set
*/
void pci_device_reset(PCIDevice *dev)
{
qdev_reset_all(&dev->qdev);
pci_do_device_reset(dev);
}
/*
* Trigger pci bus reset under a given bus.
* Called via qbus_reset_all on RST# assert, after the devices
* have been reset qdev_reset_all-ed already.
*/
static void pcibus_reset(BusState *qbus)
{
PCIBus *bus = DO_UPCAST(PCIBus, qbus, qbus);
int i;
for (i = 0; i < ARRAY_SIZE(bus->devices); ++i) {
if (bus->devices[i]) {
pci_do_device_reset(bus->devices[i]);
}
}
for (i = 0; i < bus->nirq; i++) {
assert(bus->irq_count[i] == 0);
}
}
static void pci_host_bus_register(PCIBus *bus, DeviceState *parent)
{
PCIHostState *host_bridge = PCI_HOST_BRIDGE(parent);
QLIST_INSERT_HEAD(&pci_host_bridges, host_bridge, next);
}
PCIBus *pci_find_primary_bus(void)
{
PCIBus *primary_bus = NULL;
PCIHostState *host;
QLIST_FOREACH(host, &pci_host_bridges, next) {
if (primary_bus) {
/* We have multiple root buses, refuse to select a primary */
return NULL;
}
primary_bus = host->bus;
}
return primary_bus;
}
PCIBus *pci_device_root_bus(const PCIDevice *d)
{
PCIBus *bus = d->bus;
while (!pci_bus_is_root(bus)) {
d = bus->parent_dev;
assert(d != NULL);
bus = d->bus;
}
return bus;
}
const char *pci_root_bus_path(PCIDevice *dev)
{
PCIBus *rootbus = pci_device_root_bus(dev);
PCIHostState *host_bridge = PCI_HOST_BRIDGE(rootbus->qbus.parent);
PCIHostBridgeClass *hc = PCI_HOST_BRIDGE_GET_CLASS(host_bridge);
assert(host_bridge->bus == rootbus);
if (hc->root_bus_path) {
return (*hc->root_bus_path)(host_bridge, rootbus);
}
return rootbus->qbus.name;
}
static void pci_bus_init(PCIBus *bus, DeviceState *parent,
const char *name,
MemoryRegion *address_space_mem,
MemoryRegion *address_space_io,
uint8_t devfn_min)
{
assert(PCI_FUNC(devfn_min) == 0);
bus->devfn_min = devfn_min;
bus->address_space_mem = address_space_mem;
bus->address_space_io = address_space_io;
/* host bridge */
QLIST_INIT(&bus->child);
pci_host_bus_register(bus, parent);
}
bool pci_bus_is_express(PCIBus *bus)
{
return object_dynamic_cast(OBJECT(bus), TYPE_PCIE_BUS);
}
bool pci_bus_is_root(PCIBus *bus)
{
return PCI_BUS_GET_CLASS(bus)->is_root(bus);
}
void pci_bus_new_inplace(PCIBus *bus, size_t bus_size, DeviceState *parent,
const char *name,
MemoryRegion *address_space_mem,
MemoryRegion *address_space_io,
uint8_t devfn_min, const char *typename)
{
qbus_create_inplace(bus, bus_size, typename, parent, name);
pci_bus_init(bus, parent, name, address_space_mem,
address_space_io, devfn_min);
}
PCIBus *pci_bus_new(DeviceState *parent, const char *name,
MemoryRegion *address_space_mem,
MemoryRegion *address_space_io,
uint8_t devfn_min, const char *typename)
{
PCIBus *bus;
bus = PCI_BUS(qbus_create(typename, parent, name));
pci_bus_init(bus, parent, name, address_space_mem,
address_space_io, devfn_min);
return bus;
}
void pci_bus_irqs(PCIBus *bus, pci_set_irq_fn set_irq, pci_map_irq_fn map_irq,
void *irq_opaque, int nirq)
{
bus->set_irq = set_irq;
bus->map_irq = map_irq;
bus->irq_opaque = irq_opaque;
bus->nirq = nirq;
bus->irq_count = g_malloc0(nirq * sizeof(bus->irq_count[0]));
}
PCIBus *pci_register_bus(DeviceState *parent, const char *name,
pci_set_irq_fn set_irq, pci_map_irq_fn map_irq,
void *irq_opaque,
MemoryRegion *address_space_mem,
MemoryRegion *address_space_io,
uint8_t devfn_min, int nirq, const char *typename)
{
PCIBus *bus;
bus = pci_bus_new(parent, name, address_space_mem,
address_space_io, devfn_min, typename);
pci_bus_irqs(bus, set_irq, map_irq, irq_opaque, nirq);
return bus;
}
int pci_bus_num(PCIBus *s)
{
return PCI_BUS_GET_CLASS(s)->bus_num(s);
}
int pci_bus_numa_node(PCIBus *bus)
{
return PCI_BUS_GET_CLASS(bus)->numa_node(bus);
}
static int get_pci_config_device(QEMUFile *f, void *pv, size_t size)
{
PCIDevice *s = container_of(pv, PCIDevice, config);
PCIDeviceClass *pc = PCI_DEVICE_GET_CLASS(s);
uint8_t *config;
int i;
assert(size == pci_config_size(s));
config = g_malloc(size);
qemu_get_buffer(f, config, size);
for (i = 0; i < size; ++i) {
if ((config[i] ^ s->config[i]) &
s->cmask[i] & ~s->wmask[i] & ~s->w1cmask[i]) {
error_report("%s: Bad config data: i=0x%x read: %x device: %x "
"cmask: %x wmask: %x w1cmask:%x", __func__,
i, config[i], s->config[i],
s->cmask[i], s->wmask[i], s->w1cmask[i]);
g_free(config);
return -EINVAL;
}
}
memcpy(s->config, config, size);
pci_update_mappings(s);
if (pc->is_bridge) {
PCIBridge *b = PCI_BRIDGE(s);
pci_bridge_update_mappings(b);
}
memory_region_set_enabled(&s->bus_master_enable_region,
pci_get_word(s->config + PCI_COMMAND)
& PCI_COMMAND_MASTER);
g_free(config);
return 0;
}
/* just put buffer */
static void put_pci_config_device(QEMUFile *f, void *pv, size_t size)
{
const uint8_t **v = pv;
assert(size == pci_config_size(container_of(pv, PCIDevice, config)));
qemu_put_buffer(f, *v, size);
}
static VMStateInfo vmstate_info_pci_config = {
.name = "pci config",
.get = get_pci_config_device,
.put = put_pci_config_device,
};
static int get_pci_irq_state(QEMUFile *f, void *pv, size_t size)
{
PCIDevice *s = container_of(pv, PCIDevice, irq_state);
uint32_t irq_state[PCI_NUM_PINS];
int i;
for (i = 0; i < PCI_NUM_PINS; ++i) {
irq_state[i] = qemu_get_be32(f);
if (irq_state[i] != 0x1 && irq_state[i] != 0) {
fprintf(stderr, "irq state %d: must be 0 or 1.\n",
irq_state[i]);
return -EINVAL;
}
}
for (i = 0; i < PCI_NUM_PINS; ++i) {
pci_set_irq_state(s, i, irq_state[i]);
}
return 0;
}
static void put_pci_irq_state(QEMUFile *f, void *pv, size_t size)
{
int i;
PCIDevice *s = container_of(pv, PCIDevice, irq_state);
for (i = 0; i < PCI_NUM_PINS; ++i) {
qemu_put_be32(f, pci_irq_state(s, i));
}
}
static VMStateInfo vmstate_info_pci_irq_state = {
.name = "pci irq state",
.get = get_pci_irq_state,
.put = put_pci_irq_state,
};
const VMStateDescription vmstate_pci_device = {
.name = "PCIDevice",
.version_id = 2,
.minimum_version_id = 1,
.fields = (VMStateField[]) {
VMSTATE_INT32_POSITIVE_LE(version_id, PCIDevice),
VMSTATE_BUFFER_UNSAFE_INFO(config, PCIDevice, 0,
vmstate_info_pci_config,
PCI_CONFIG_SPACE_SIZE),
VMSTATE_BUFFER_UNSAFE_INFO(irq_state, PCIDevice, 2,
vmstate_info_pci_irq_state,
PCI_NUM_PINS * sizeof(int32_t)),
VMSTATE_END_OF_LIST()
}
};
const VMStateDescription vmstate_pcie_device = {
.name = "PCIEDevice",
.version_id = 2,
.minimum_version_id = 1,
.fields = (VMStateField[]) {
VMSTATE_INT32_POSITIVE_LE(version_id, PCIDevice),
VMSTATE_BUFFER_UNSAFE_INFO(config, PCIDevice, 0,
vmstate_info_pci_config,
PCIE_CONFIG_SPACE_SIZE),
VMSTATE_BUFFER_UNSAFE_INFO(irq_state, PCIDevice, 2,
vmstate_info_pci_irq_state,
PCI_NUM_PINS * sizeof(int32_t)),
VMSTATE_END_OF_LIST()
}
};
static inline const VMStateDescription *pci_get_vmstate(PCIDevice *s)
{
return pci_is_express(s) ? &vmstate_pcie_device : &vmstate_pci_device;
}
void pci_device_save(PCIDevice *s, QEMUFile *f)
{
/* Clear interrupt status bit: it is implicit
* in irq_state which we are saving.
* This makes us compatible with old devices
* which never set or clear this bit. */
s->config[PCI_STATUS] &= ~PCI_STATUS_INTERRUPT;
vmstate_save_state(f, pci_get_vmstate(s), s, NULL);
/* Restore the interrupt status bit. */
pci_update_irq_status(s);
}
int pci_device_load(PCIDevice *s, QEMUFile *f)
{
int ret;
ret = vmstate_load_state(f, pci_get_vmstate(s), s, s->version_id);
/* Restore the interrupt status bit. */
pci_update_irq_status(s);
return ret;
}
static void pci_set_default_subsystem_id(PCIDevice *pci_dev)
{
pci_set_word(pci_dev->config + PCI_SUBSYSTEM_VENDOR_ID,
pci_default_sub_vendor_id);
pci_set_word(pci_dev->config + PCI_SUBSYSTEM_ID,
pci_default_sub_device_id);
}
/*
* Parse [[<domain>:]<bus>:]<slot>, return -1 on error if funcp == NULL
* [[<domain>:]<bus>:]<slot>.<func>, return -1 on error
*/
static int pci_parse_devaddr(const char *addr, int *domp, int *busp,
unsigned int *slotp, unsigned int *funcp)
{
const char *p;
char *e;
unsigned long val;
unsigned long dom = 0, bus = 0;
unsigned int slot = 0;
unsigned int func = 0;
p = addr;
val = strtoul(p, &e, 16);
if (e == p)
return -1;
if (*e == ':') {
bus = val;
p = e + 1;
val = strtoul(p, &e, 16);
if (e == p)
return -1;
if (*e == ':') {
dom = bus;
bus = val;
p = e + 1;
val = strtoul(p, &e, 16);
if (e == p)
return -1;
}
}
slot = val;
if (funcp != NULL) {
if (*e != '.')
return -1;
p = e + 1;
val = strtoul(p, &e, 16);
if (e == p)
return -1;
func = val;
}
/* if funcp == NULL func is 0 */
if (dom > 0xffff || bus > 0xff || slot > 0x1f || func > 7)
return -1;
if (*e)
return -1;
*domp = dom;
*busp = bus;
*slotp = slot;
if (funcp != NULL)
*funcp = func;
return 0;
}
static PCIBus *pci_get_bus_devfn(int *devfnp, PCIBus *root,
const char *devaddr)
{
int dom, bus;
unsigned slot;
if (!root) {
fprintf(stderr, "No primary PCI bus\n");
return NULL;
}
assert(!root->parent_dev);
if (!devaddr) {
*devfnp = -1;
return pci_find_bus_nr(root, 0);
}
if (pci_parse_devaddr(devaddr, &dom, &bus, &slot, NULL) < 0) {
return NULL;
}
if (dom != 0) {
fprintf(stderr, "No support for non-zero PCI domains\n");
return NULL;
}
*devfnp = PCI_DEVFN(slot, 0);
return pci_find_bus_nr(root, bus);
}
static void pci_init_cmask(PCIDevice *dev)
{
pci_set_word(dev->cmask + PCI_VENDOR_ID, 0xffff);
pci_set_word(dev->cmask + PCI_DEVICE_ID, 0xffff);
dev->cmask[PCI_STATUS] = PCI_STATUS_CAP_LIST;
dev->cmask[PCI_REVISION_ID] = 0xff;
dev->cmask[PCI_CLASS_PROG] = 0xff;
pci_set_word(dev->cmask + PCI_CLASS_DEVICE, 0xffff);
dev->cmask[PCI_HEADER_TYPE] = 0xff;
dev->cmask[PCI_CAPABILITY_LIST] = 0xff;
}
static void pci_init_wmask(PCIDevice *dev)
{
int config_size = pci_config_size(dev);
dev->wmask[PCI_CACHE_LINE_SIZE] = 0xff;
dev->wmask[PCI_INTERRUPT_LINE] = 0xff;
pci_set_word(dev->wmask + PCI_COMMAND,
PCI_COMMAND_IO | PCI_COMMAND_MEMORY | PCI_COMMAND_MASTER |
PCI_COMMAND_INTX_DISABLE);
if (dev->cap_present & QEMU_PCI_CAP_SERR) {
pci_word_test_and_set_mask(dev->wmask + PCI_COMMAND, PCI_COMMAND_SERR);
}
memset(dev->wmask + PCI_CONFIG_HEADER_SIZE, 0xff,
config_size - PCI_CONFIG_HEADER_SIZE);
}
static void pci_init_w1cmask(PCIDevice *dev)
{
/*
* Note: It's okay to set w1cmask even for readonly bits as
* long as their value is hardwired to 0.
*/
pci_set_word(dev->w1cmask + PCI_STATUS,
PCI_STATUS_PARITY | PCI_STATUS_SIG_TARGET_ABORT |
PCI_STATUS_REC_TARGET_ABORT | PCI_STATUS_REC_MASTER_ABORT |
PCI_STATUS_SIG_SYSTEM_ERROR | PCI_STATUS_DETECTED_PARITY);
}
static void pci_init_mask_bridge(PCIDevice *d)
{
/* PCI_PRIMARY_BUS, PCI_SECONDARY_BUS, PCI_SUBORDINATE_BUS and
PCI_SEC_LETENCY_TIMER */
memset(d->wmask + PCI_PRIMARY_BUS, 0xff, 4);
/* base and limit */
d->wmask[PCI_IO_BASE] = PCI_IO_RANGE_MASK & 0xff;
d->wmask[PCI_IO_LIMIT] = PCI_IO_RANGE_MASK & 0xff;
pci_set_word(d->wmask + PCI_MEMORY_BASE,
PCI_MEMORY_RANGE_MASK & 0xffff);
pci_set_word(d->wmask + PCI_MEMORY_LIMIT,
PCI_MEMORY_RANGE_MASK & 0xffff);
pci_set_word(d->wmask + PCI_PREF_MEMORY_BASE,
PCI_PREF_RANGE_MASK & 0xffff);
pci_set_word(d->wmask + PCI_PREF_MEMORY_LIMIT,
PCI_PREF_RANGE_MASK & 0xffff);
/* PCI_PREF_BASE_UPPER32 and PCI_PREF_LIMIT_UPPER32 */
memset(d->wmask + PCI_PREF_BASE_UPPER32, 0xff, 8);
/* Supported memory and i/o types */
d->config[PCI_IO_BASE] |= PCI_IO_RANGE_TYPE_16;
d->config[PCI_IO_LIMIT] |= PCI_IO_RANGE_TYPE_16;
pci_word_test_and_set_mask(d->config + PCI_PREF_MEMORY_BASE,
PCI_PREF_RANGE_TYPE_64);
pci_word_test_and_set_mask(d->config + PCI_PREF_MEMORY_LIMIT,
PCI_PREF_RANGE_TYPE_64);
/*
* TODO: Bridges default to 10-bit VGA decoding but we currently only
* implement 16-bit decoding (no alias support).
*/
pci_set_word(d->wmask + PCI_BRIDGE_CONTROL,
PCI_BRIDGE_CTL_PARITY |
PCI_BRIDGE_CTL_SERR |
PCI_BRIDGE_CTL_ISA |
PCI_BRIDGE_CTL_VGA |
PCI_BRIDGE_CTL_VGA_16BIT |
PCI_BRIDGE_CTL_MASTER_ABORT |
PCI_BRIDGE_CTL_BUS_RESET |
PCI_BRIDGE_CTL_FAST_BACK |
PCI_BRIDGE_CTL_DISCARD |
PCI_BRIDGE_CTL_SEC_DISCARD |
PCI_BRIDGE_CTL_DISCARD_SERR);
/* Below does not do anything as we never set this bit, put here for
* completeness. */
pci_set_word(d->w1cmask + PCI_BRIDGE_CONTROL,
PCI_BRIDGE_CTL_DISCARD_STATUS);
d->cmask[PCI_IO_BASE] |= PCI_IO_RANGE_TYPE_MASK;
d->cmask[PCI_IO_LIMIT] |= PCI_IO_RANGE_TYPE_MASK;
pci_word_test_and_set_mask(d->cmask + PCI_PREF_MEMORY_BASE,
PCI_PREF_RANGE_TYPE_MASK);
pci_word_test_and_set_mask(d->cmask + PCI_PREF_MEMORY_LIMIT,
PCI_PREF_RANGE_TYPE_MASK);
}
static void pci_init_multifunction(PCIBus *bus, PCIDevice *dev, Error **errp)
{
uint8_t slot = PCI_SLOT(dev->devfn);
uint8_t func;
if (dev->cap_present & QEMU_PCI_CAP_MULTIFUNCTION) {
dev->config[PCI_HEADER_TYPE] |= PCI_HEADER_TYPE_MULTI_FUNCTION;
}
/*
* multifunction bit is interpreted in two ways as follows.
* - all functions must set the bit to 1.
* Example: Intel X53
* - function 0 must set the bit, but the rest function (> 0)
* is allowed to leave the bit to 0.
* Example: PIIX3(also in qemu), PIIX4(also in qemu), ICH10,
*
* So OS (at least Linux) checks the bit of only function 0,
* and doesn't see the bit of function > 0.
*
* The below check allows both interpretation.
*/
if (PCI_FUNC(dev->devfn)) {
PCIDevice *f0 = bus->devices[PCI_DEVFN(slot, 0)];
if (f0 && !(f0->cap_present & QEMU_PCI_CAP_MULTIFUNCTION)) {
/* function 0 should set multifunction bit */
error_setg(errp, "PCI: single function device can't be populated "
"in function %x.%x", slot, PCI_FUNC(dev->devfn));
return;
}
return;
}
if (dev->cap_present & QEMU_PCI_CAP_MULTIFUNCTION) {
return;
}
/* function 0 indicates single function, so function > 0 must be NULL */
for (func = 1; func < PCI_FUNC_MAX; ++func) {
if (bus->devices[PCI_DEVFN(slot, func)]) {
error_setg(errp, "PCI: %x.0 indicates single function, "
"but %x.%x is already populated.",
slot, slot, func);
return;
}
}
}
static void pci_config_alloc(PCIDevice *pci_dev)
{
int config_size = pci_config_size(pci_dev);
pci_dev->config = g_malloc0(config_size);
pci_dev->cmask = g_malloc0(config_size);
pci_dev->wmask = g_malloc0(config_size);
pci_dev->w1cmask = g_malloc0(config_size);
pci_dev->used = g_malloc0(config_size);
}
static void pci_config_free(PCIDevice *pci_dev)
{
g_free(pci_dev->config);
g_free(pci_dev->cmask);
g_free(pci_dev->wmask);
g_free(pci_dev->w1cmask);
g_free(pci_dev->used);
}
static void do_pci_unregister_device(PCIDevice *pci_dev)
{
pci_dev->bus->devices[pci_dev->devfn] = NULL;
pci_config_free(pci_dev);
address_space_destroy(&pci_dev->bus_master_as);
}
/* -1 for devfn means auto assign */
static PCIDevice *do_pci_register_device(PCIDevice *pci_dev, PCIBus *bus,
const char *name, int devfn,
Error **errp)
{
PCIDeviceClass *pc = PCI_DEVICE_GET_CLASS(pci_dev);
PCIConfigReadFunc *config_read = pc->config_read;
PCIConfigWriteFunc *config_write = pc->config_write;
Error *local_err = NULL;
AddressSpace *dma_as;
if (devfn < 0) {
for(devfn = bus->devfn_min ; devfn < ARRAY_SIZE(bus->devices);
devfn += PCI_FUNC_MAX) {
if (!bus->devices[devfn])
goto found;
}
error_setg(errp, "PCI: no slot/function available for %s, all in use",
name);
return NULL;
found: ;
} else if (bus->devices[devfn]) {
error_setg(errp, "PCI: slot %d function %d not available for %s,"
" in use by %s",
PCI_SLOT(devfn), PCI_FUNC(devfn), name,
bus->devices[devfn]->name);
return NULL;
}
pci_dev->bus = bus;
pci_dev->devfn = devfn;
dma_as = pci_device_iommu_address_space(pci_dev);
memory_region_init_alias(&pci_dev->bus_master_enable_region,
OBJECT(pci_dev), "bus master",
dma_as->root, 0, memory_region_size(dma_as->root));
memory_region_set_enabled(&pci_dev->bus_master_enable_region, false);
address_space_init(&pci_dev->bus_master_as, &pci_dev->bus_master_enable_region,
name);
pstrcpy(pci_dev->name, sizeof(pci_dev->name), name);
pci_dev->irq_state = 0;
pci_config_alloc(pci_dev);
pci_config_set_vendor_id(pci_dev->config, pc->vendor_id);
pci_config_set_device_id(pci_dev->config, pc->device_id);
pci_config_set_revision(pci_dev->config, pc->revision);
pci_config_set_class(pci_dev->config, pc->class_id);
if (!pc->is_bridge) {
if (pc->subsystem_vendor_id || pc->subsystem_id) {
pci_set_word(pci_dev->config + PCI_SUBSYSTEM_VENDOR_ID,
pc->subsystem_vendor_id);
pci_set_word(pci_dev->config + PCI_SUBSYSTEM_ID,
pc->subsystem_id);
} else {
pci_set_default_subsystem_id(pci_dev);
}
} else {
/* subsystem_vendor_id/subsystem_id are only for header type 0 */
assert(!pc->subsystem_vendor_id);
assert(!pc->subsystem_id);
}
pci_init_cmask(pci_dev);
pci_init_wmask(pci_dev);
pci_init_w1cmask(pci_dev);
if (pc->is_bridge) {
pci_init_mask_bridge(pci_dev);
}
pci_init_multifunction(bus, pci_dev, &local_err);
if (local_err) {
error_propagate(errp, local_err);
do_pci_unregister_device(pci_dev);
return NULL;
}
if (!config_read)
config_read = pci_default_read_config;
if (!config_write)
config_write = pci_default_write_config;
pci_dev->config_read = config_read;
pci_dev->config_write = config_write;
bus->devices[devfn] = pci_dev;
pci_dev->version_id = 2; /* Current pci device vmstate version */
return pci_dev;
}
static void pci_unregister_io_regions(PCIDevice *pci_dev)
{
PCIIORegion *r;
int i;
for(i = 0; i < PCI_NUM_REGIONS; i++) {
r = &pci_dev->io_regions[i];
if (!r->size || r->addr == PCI_BAR_UNMAPPED)
continue;
memory_region_del_subregion(r->address_space, r->memory);
}
pci_unregister_vga(pci_dev);
}
static void pci_qdev_unrealize(DeviceState *dev, Error **errp)
{
PCIDevice *pci_dev = PCI_DEVICE(dev);
PCIDeviceClass *pc = PCI_DEVICE_GET_CLASS(pci_dev);
pci_unregister_io_regions(pci_dev);
pci_del_option_rom(pci_dev);
if (pc->exit) {
pc->exit(pci_dev);
}
do_pci_unregister_device(pci_dev);
}
void pci_register_bar(PCIDevice *pci_dev, int region_num,
uint8_t type, MemoryRegion *memory)
{
PCIIORegion *r;
uint32_t addr;
uint64_t wmask;
pcibus_t size = memory_region_size(memory);
assert(region_num >= 0);
assert(region_num < PCI_NUM_REGIONS);
if (size & (size-1)) {
fprintf(stderr, "ERROR: PCI region size must be pow2 "
"type=0x%x, size=0x%"FMT_PCIBUS"\n", type, size);
exit(1);
}
r = &pci_dev->io_regions[region_num];
r->addr = PCI_BAR_UNMAPPED;
r->size = size;
r->type = type;
r->memory = NULL;
wmask = ~(size - 1);
addr = pci_bar(pci_dev, region_num);
if (region_num == PCI_ROM_SLOT) {
/* ROM enable bit is writable */
wmask |= PCI_ROM_ADDRESS_ENABLE;
}
pci_set_long(pci_dev->config + addr, type);
if (!(r->type & PCI_BASE_ADDRESS_SPACE_IO) &&
r->type & PCI_BASE_ADDRESS_MEM_TYPE_64) {
pci_set_quad(pci_dev->wmask + addr, wmask);
pci_set_quad(pci_dev->cmask + addr, ~0ULL);
} else {
pci_set_long(pci_dev->wmask + addr, wmask & 0xffffffff);
pci_set_long(pci_dev->cmask + addr, 0xffffffff);
}
pci_dev->io_regions[region_num].memory = memory;
pci_dev->io_regions[region_num].address_space
= type & PCI_BASE_ADDRESS_SPACE_IO
? pci_dev->bus->address_space_io
: pci_dev->bus->address_space_mem;
}
static void pci_update_vga(PCIDevice *pci_dev)
{
uint16_t cmd;
if (!pci_dev->has_vga) {
return;
}
cmd = pci_get_word(pci_dev->config + PCI_COMMAND);
memory_region_set_enabled(pci_dev->vga_regions[QEMU_PCI_VGA_MEM],
cmd & PCI_COMMAND_MEMORY);
memory_region_set_enabled(pci_dev->vga_regions[QEMU_PCI_VGA_IO_LO],
cmd & PCI_COMMAND_IO);
memory_region_set_enabled(pci_dev->vga_regions[QEMU_PCI_VGA_IO_HI],
cmd & PCI_COMMAND_IO);
}
void pci_register_vga(PCIDevice *pci_dev, MemoryRegion *mem,
MemoryRegion *io_lo, MemoryRegion *io_hi)
{
assert(!pci_dev->has_vga);
assert(memory_region_size(mem) == QEMU_PCI_VGA_MEM_SIZE);
pci_dev->vga_regions[QEMU_PCI_VGA_MEM] = mem;
memory_region_add_subregion_overlap(pci_dev->bus->address_space_mem,
QEMU_PCI_VGA_MEM_BASE, mem, 1);
assert(memory_region_size(io_lo) == QEMU_PCI_VGA_IO_LO_SIZE);
pci_dev->vga_regions[QEMU_PCI_VGA_IO_LO] = io_lo;
memory_region_add_subregion_overlap(pci_dev->bus->address_space_io,
QEMU_PCI_VGA_IO_LO_BASE, io_lo, 1);
assert(memory_region_size(io_hi) == QEMU_PCI_VGA_IO_HI_SIZE);
pci_dev->vga_regions[QEMU_PCI_VGA_IO_HI] = io_hi;
memory_region_add_subregion_overlap(pci_dev->bus->address_space_io,
QEMU_PCI_VGA_IO_HI_BASE, io_hi, 1);
pci_dev->has_vga = true;
pci_update_vga(pci_dev);
}
void pci_unregister_vga(PCIDevice *pci_dev)
{
if (!pci_dev->has_vga) {
return;
}
memory_region_del_subregion(pci_dev->bus->address_space_mem,
pci_dev->vga_regions[QEMU_PCI_VGA_MEM]);
memory_region_del_subregion(pci_dev->bus->address_space_io,
pci_dev->vga_regions[QEMU_PCI_VGA_IO_LO]);
memory_region_del_subregion(pci_dev->bus->address_space_io,
pci_dev->vga_regions[QEMU_PCI_VGA_IO_HI]);
pci_dev->has_vga = false;
}
pcibus_t pci_get_bar_addr(PCIDevice *pci_dev, int region_num)
{
return pci_dev->io_regions[region_num].addr;
}
static pcibus_t pci_bar_address(PCIDevice *d,
int reg, uint8_t type, pcibus_t size)
{
pcibus_t new_addr, last_addr;
int bar = pci_bar(d, reg);
uint16_t cmd = pci_get_word(d->config + PCI_COMMAND);
if (type & PCI_BASE_ADDRESS_SPACE_IO) {
if (!(cmd & PCI_COMMAND_IO)) {
return PCI_BAR_UNMAPPED;
}
new_addr = pci_get_long(d->config + bar) & ~(size - 1);
last_addr = new_addr + size - 1;
/* Check if 32 bit BAR wraps around explicitly.
* TODO: make priorities correct and remove this work around.
*/
if (last_addr <= new_addr || new_addr == 0 || last_addr >= UINT32_MAX) {
return PCI_BAR_UNMAPPED;
}
return new_addr;
}
if (!(cmd & PCI_COMMAND_MEMORY)) {
return PCI_BAR_UNMAPPED;
}
if (type & PCI_BASE_ADDRESS_MEM_TYPE_64) {
new_addr = pci_get_quad(d->config + bar);
} else {
new_addr = pci_get_long(d->config + bar);
}
/* the ROM slot has a specific enable bit */
if (reg == PCI_ROM_SLOT && !(new_addr & PCI_ROM_ADDRESS_ENABLE)) {
return PCI_BAR_UNMAPPED;
}
new_addr &= ~(size - 1);
last_addr = new_addr + size - 1;
/* NOTE: we do not support wrapping */
/* XXX: as we cannot support really dynamic
mappings, we handle specific values as invalid
mappings. */
if (last_addr <= new_addr || new_addr == 0 ||
last_addr == PCI_BAR_UNMAPPED) {
return PCI_BAR_UNMAPPED;
}
/* Now pcibus_t is 64bit.
* Check if 32 bit BAR wraps around explicitly.
* Without this, PC ide doesn't work well.
* TODO: remove this work around.
*/
if (!(type & PCI_BASE_ADDRESS_MEM_TYPE_64) && last_addr >= UINT32_MAX) {
return PCI_BAR_UNMAPPED;
}
/*
* OS is allowed to set BAR beyond its addressable
* bits. For example, 32 bit OS can set 64bit bar
* to >4G. Check it. TODO: we might need to support
* it in the future for e.g. PAE.
*/
if (last_addr >= HWADDR_MAX) {
return PCI_BAR_UNMAPPED;
}
return new_addr;
}
static void pci_update_mappings(PCIDevice *d)
{
PCIIORegion *r;
int i;
pcibus_t new_addr;
for(i = 0; i < PCI_NUM_REGIONS; i++) {
r = &d->io_regions[i];
/* this region isn't registered */
if (!r->size)
continue;
new_addr = pci_bar_address(d, i, r->type, r->size);
/* This bar isn't changed */
if (new_addr == r->addr)
continue;
/* now do the real mapping */
if (r->addr != PCI_BAR_UNMAPPED) {
trace_pci_update_mappings_del(d, pci_bus_num(d->bus),
PCI_FUNC(d->devfn),
PCI_SLOT(d->devfn),
i, r->addr, r->size);
memory_region_del_subregion(r->address_space, r->memory);
}
r->addr = new_addr;
if (r->addr != PCI_BAR_UNMAPPED) {
trace_pci_update_mappings_add(d, pci_bus_num(d->bus),
PCI_FUNC(d->devfn),
PCI_SLOT(d->devfn),
i, r->addr, r->size);
memory_region_add_subregion_overlap(r->address_space,
r->addr, r->memory, 1);
}
}
pci_update_vga(d);
}
static inline int pci_irq_disabled(PCIDevice *d)
{
return pci_get_word(d->config + PCI_COMMAND) & PCI_COMMAND_INTX_DISABLE;
}
/* Called after interrupt disabled field update in config space,
* assert/deassert interrupts if necessary.
* Gets original interrupt disable bit value (before update). */
static void pci_update_irq_disabled(PCIDevice *d, int was_irq_disabled)
{
int i, disabled = pci_irq_disabled(d);
if (disabled == was_irq_disabled)
return;
for (i = 0; i < PCI_NUM_PINS; ++i) {
int state = pci_irq_state(d, i);
pci_change_irq_level(d, i, disabled ? -state : state);
}
}
uint32_t pci_default_read_config(PCIDevice *d,
uint32_t address, int len)
{
uint32_t val = 0;
memcpy(&val, d->config + address, len);
return le32_to_cpu(val);
}
void pci_default_write_config(PCIDevice *d, uint32_t addr, uint32_t val_in, int l)
{
int i, was_irq_disabled = pci_irq_disabled(d);
uint32_t val = val_in;
for (i = 0; i < l; val >>= 8, ++i) {
uint8_t wmask = d->wmask[addr + i];
uint8_t w1cmask = d->w1cmask[addr + i];
assert(!(wmask & w1cmask));
d->config[addr + i] = (d->config[addr + i] & ~wmask) | (val & wmask);
d->config[addr + i] &= ~(val & w1cmask); /* W1C: Write 1 to Clear */
}
if (ranges_overlap(addr, l, PCI_BASE_ADDRESS_0, 24) ||
ranges_overlap(addr, l, PCI_ROM_ADDRESS, 4) ||
ranges_overlap(addr, l, PCI_ROM_ADDRESS1, 4) ||
range_covers_byte(addr, l, PCI_COMMAND))
pci_update_mappings(d);
if (range_covers_byte(addr, l, PCI_COMMAND)) {
pci_update_irq_disabled(d, was_irq_disabled);
memory_region_set_enabled(&d->bus_master_enable_region,
pci_get_word(d->config + PCI_COMMAND)
& PCI_COMMAND_MASTER);
}
msi_write_config(d, addr, val_in, l);
msix_write_config(d, addr, val_in, l);
}
/***********************************************************/
/* generic PCI irq support */
/* 0 <= irq_num <= 3. level must be 0 or 1 */
static void pci_irq_handler(void *opaque, int irq_num, int level)
{
PCIDevice *pci_dev = opaque;
int change;
change = level - pci_irq_state(pci_dev, irq_num);
if (!change)
return;
pci_set_irq_state(pci_dev, irq_num, level);
pci_update_irq_status(pci_dev);
if (pci_irq_disabled(pci_dev))
return;
pci_change_irq_level(pci_dev, irq_num, change);
}
static inline int pci_intx(PCIDevice *pci_dev)
{
return pci_get_byte(pci_dev->config + PCI_INTERRUPT_PIN) - 1;
}
qemu_irq pci_allocate_irq(PCIDevice *pci_dev)
{
int intx = pci_intx(pci_dev);
return qemu_allocate_irq(pci_irq_handler, pci_dev, intx);
}
void pci_set_irq(PCIDevice *pci_dev, int level)
{
int intx = pci_intx(pci_dev);
pci_irq_handler(pci_dev, intx, level);
}
/* Special hooks used by device assignment */
void pci_bus_set_route_irq_fn(PCIBus *bus, pci_route_irq_fn route_intx_to_irq)
{
assert(pci_bus_is_root(bus));
bus->route_intx_to_irq = route_intx_to_irq;
}
PCIINTxRoute pci_device_route_intx_to_irq(PCIDevice *dev, int pin)
{
PCIBus *bus;
do {
bus = dev->bus;
pin = bus->map_irq(dev, pin);
dev = bus->parent_dev;
} while (dev);
if (!bus->route_intx_to_irq) {
error_report("PCI: Bug - unimplemented PCI INTx routing (%s)",
object_get_typename(OBJECT(bus->qbus.parent)));
return (PCIINTxRoute) { PCI_INTX_DISABLED, -1 };
}
return bus->route_intx_to_irq(bus->irq_opaque, pin);
}
bool pci_intx_route_changed(PCIINTxRoute *old, PCIINTxRoute *new)
{
return old->mode != new->mode || old->irq != new->irq;
}
void pci_bus_fire_intx_routing_notifier(PCIBus *bus)
{
PCIDevice *dev;
PCIBus *sec;
int i;
for (i = 0; i < ARRAY_SIZE(bus->devices); ++i) {
dev = bus->devices[i];
if (dev && dev->intx_routing_notifier) {
dev->intx_routing_notifier(dev);
}
}
QLIST_FOREACH(sec, &bus->child, sibling) {
pci_bus_fire_intx_routing_notifier(sec);
}
}
void pci_device_set_intx_routing_notifier(PCIDevice *dev,
PCIINTxRoutingNotifier notifier)
{
dev->intx_routing_notifier = notifier;
}
/*
* PCI-to-PCI bridge specification
* 9.1: Interrupt routing. Table 9-1
*
* the PCI Express Base Specification, Revision 2.1
* 2.2.8.1: INTx interrutp signaling - Rules
* the Implementation Note
* Table 2-20
*/
/*
* 0 <= pin <= 3 0 = INTA, 1 = INTB, 2 = INTC, 3 = INTD
* 0-origin unlike PCI interrupt pin register.
*/
int pci_swizzle_map_irq_fn(PCIDevice *pci_dev, int pin)
{
return (pin + PCI_SLOT(pci_dev->devfn)) % PCI_NUM_PINS;
}
/***********************************************************/
/* monitor info on PCI */
typedef struct {
uint16_t class;
const char *desc;
const char *fw_name;
uint16_t fw_ign_bits;
} pci_class_desc;
static const pci_class_desc pci_class_descriptions[] =
{
{ 0x0001, "VGA controller", "display"},
{ 0x0100, "SCSI controller", "scsi"},
{ 0x0101, "IDE controller", "ide"},
{ 0x0102, "Floppy controller", "fdc"},
{ 0x0103, "IPI controller", "ipi"},
{ 0x0104, "RAID controller", "raid"},
{ 0x0106, "SATA controller"},
{ 0x0107, "SAS controller"},
{ 0x0180, "Storage controller"},
{ 0x0200, "Ethernet controller", "ethernet"},
{ 0x0201, "Token Ring controller", "token-ring"},
{ 0x0202, "FDDI controller", "fddi"},
{ 0x0203, "ATM controller", "atm"},
{ 0x0280, "Network controller"},
{ 0x0300, "VGA controller", "display", 0x00ff},
{ 0x0301, "XGA controller"},
{ 0x0302, "3D controller"},
{ 0x0380, "Display controller"},
{ 0x0400, "Video controller", "video"},
{ 0x0401, "Audio controller", "sound"},
{ 0x0402, "Phone"},
{ 0x0403, "Audio controller", "sound"},
{ 0x0480, "Multimedia controller"},
{ 0x0500, "RAM controller", "memory"},
{ 0x0501, "Flash controller", "flash"},
{ 0x0580, "Memory controller"},
{ 0x0600, "Host bridge", "host"},
{ 0x0601, "ISA bridge", "isa"},
{ 0x0602, "EISA bridge", "eisa"},
{ 0x0603, "MC bridge", "mca"},
{ 0x0604, "PCI bridge", "pci-bridge"},
{ 0x0605, "PCMCIA bridge", "pcmcia"},
{ 0x0606, "NUBUS bridge", "nubus"},
{ 0x0607, "CARDBUS bridge", "cardbus"},
{ 0x0608, "RACEWAY bridge"},
{ 0x0680, "Bridge"},
{ 0x0700, "Serial port", "serial"},
{ 0x0701, "Parallel port", "parallel"},
{ 0x0800, "Interrupt controller", "interrupt-controller"},
{ 0x0801, "DMA controller", "dma-controller"},
{ 0x0802, "Timer", "timer"},
{ 0x0803, "RTC", "rtc"},
{ 0x0900, "Keyboard", "keyboard"},
{ 0x0901, "Pen", "pen"},
{ 0x0902, "Mouse", "mouse"},
{ 0x0A00, "Dock station", "dock", 0x00ff},
{ 0x0B00, "i386 cpu", "cpu", 0x00ff},
{ 0x0c00, "Fireware contorller", "fireware"},
{ 0x0c01, "Access bus controller", "access-bus"},
{ 0x0c02, "SSA controller", "ssa"},
{ 0x0c03, "USB controller", "usb"},
{ 0x0c04, "Fibre channel controller", "fibre-channel"},
{ 0x0c05, "SMBus"},
{ 0, NULL}
};
static void pci_for_each_device_under_bus(PCIBus *bus,
void (*fn)(PCIBus *b, PCIDevice *d,
void *opaque),
void *opaque)
{
PCIDevice *d;
int devfn;
for(devfn = 0; devfn < ARRAY_SIZE(bus->devices); devfn++) {
d = bus->devices[devfn];
if (d) {
fn(bus, d, opaque);
}
}
}
void pci_for_each_device(PCIBus *bus, int bus_num,
void (*fn)(PCIBus *b, PCIDevice *d, void *opaque),
void *opaque)
{
bus = pci_find_bus_nr(bus, bus_num);
if (bus) {
pci_for_each_device_under_bus(bus, fn, opaque);
}
}
static const pci_class_desc *get_class_desc(int class)
{
const pci_class_desc *desc;
desc = pci_class_descriptions;
while (desc->desc && class != desc->class) {
desc++;
}
return desc;
}
static PciDeviceInfoList *qmp_query_pci_devices(PCIBus *bus, int bus_num);
static PciMemoryRegionList *qmp_query_pci_regions(const PCIDevice *dev)
{
PciMemoryRegionList *head = NULL, *cur_item = NULL;
int i;
for (i = 0; i < PCI_NUM_REGIONS; i++) {
const PCIIORegion *r = &dev->io_regions[i];
PciMemoryRegionList *region;
if (!r->size) {
continue;
}
region = g_malloc0(sizeof(*region));
region->value = g_malloc0(sizeof(*region->value));
if (r->type & PCI_BASE_ADDRESS_SPACE_IO) {
region->value->type = g_strdup("io");
} else {
region->value->type = g_strdup("memory");
region->value->has_prefetch = true;
region->value->prefetch = !!(r->type & PCI_BASE_ADDRESS_MEM_PREFETCH);
region->value->has_mem_type_64 = true;
region->value->mem_type_64 = !!(r->type & PCI_BASE_ADDRESS_MEM_TYPE_64);
}
region->value->bar = i;
region->value->address = r->addr;
region->value->size = r->size;
/* XXX: waiting for the qapi to support GSList */
if (!cur_item) {
head = cur_item = region;
} else {
cur_item->next = region;
cur_item = region;
}
}
return head;
}
static PciBridgeInfo *qmp_query_pci_bridge(PCIDevice *dev, PCIBus *bus,
int bus_num)
{
PciBridgeInfo *info;
PciMemoryRange *range;
info = g_new0(PciBridgeInfo, 1);
info->bus = g_new0(PciBusInfo, 1);
info->bus->number = dev->config[PCI_PRIMARY_BUS];
info->bus->secondary = dev->config[PCI_SECONDARY_BUS];
info->bus->subordinate = dev->config[PCI_SUBORDINATE_BUS];
range = info->bus->io_range = g_new0(PciMemoryRange, 1);
range->base = pci_bridge_get_base(dev, PCI_BASE_ADDRESS_SPACE_IO);
range->limit = pci_bridge_get_limit(dev, PCI_BASE_ADDRESS_SPACE_IO);
range = info->bus->memory_range = g_new0(PciMemoryRange, 1);
range->base = pci_bridge_get_base(dev, PCI_BASE_ADDRESS_SPACE_MEMORY);
range->limit = pci_bridge_get_limit(dev, PCI_BASE_ADDRESS_SPACE_MEMORY);
range = info->bus->prefetchable_range = g_new0(PciMemoryRange, 1);
range->base = pci_bridge_get_base(dev, PCI_BASE_ADDRESS_MEM_PREFETCH);
range->limit = pci_bridge_get_limit(dev, PCI_BASE_ADDRESS_MEM_PREFETCH);
if (dev->config[PCI_SECONDARY_BUS] != 0) {
PCIBus *child_bus = pci_find_bus_nr(bus, dev->config[PCI_SECONDARY_BUS]);
if (child_bus) {
info->has_devices = true;
info->devices = qmp_query_pci_devices(child_bus, dev->config[PCI_SECONDARY_BUS]);
}
}
return info;
}
static PciDeviceInfo *qmp_query_pci_device(PCIDevice *dev, PCIBus *bus,
int bus_num)
{
const pci_class_desc *desc;
PciDeviceInfo *info;
uint8_t type;
int class;
info = g_new0(PciDeviceInfo, 1);
info->bus = bus_num;
info->slot = PCI_SLOT(dev->devfn);
info->function = PCI_FUNC(dev->devfn);
info->class_info = g_new0(PciDeviceClass, 1);
class = pci_get_word(dev->config + PCI_CLASS_DEVICE);
info->class_info->q_class = class;
desc = get_class_desc(class);
if (desc->desc) {
info->class_info->has_desc = true;
info->class_info->desc = g_strdup(desc->desc);
}
info->id = g_new0(PciDeviceId, 1);
info->id->vendor = pci_get_word(dev->config + PCI_VENDOR_ID);
info->id->device = pci_get_word(dev->config + PCI_DEVICE_ID);
info->regions = qmp_query_pci_regions(dev);
info->qdev_id = g_strdup(dev->qdev.id ? dev->qdev.id : "");
if (dev->config[PCI_INTERRUPT_PIN] != 0) {
info->has_irq = true;
info->irq = dev->config[PCI_INTERRUPT_LINE];
}
type = dev->config[PCI_HEADER_TYPE] & ~PCI_HEADER_TYPE_MULTI_FUNCTION;
if (type == PCI_HEADER_TYPE_BRIDGE) {
info->has_pci_bridge = true;
info->pci_bridge = qmp_query_pci_bridge(dev, bus, bus_num);
}
return info;
}
static PciDeviceInfoList *qmp_query_pci_devices(PCIBus *bus, int bus_num)
{
PciDeviceInfoList *info, *head = NULL, *cur_item = NULL;
PCIDevice *dev;
int devfn;
for (devfn = 0; devfn < ARRAY_SIZE(bus->devices); devfn++) {
dev = bus->devices[devfn];
if (dev) {
info = g_malloc0(sizeof(*info));
info->value = qmp_query_pci_device(dev, bus, bus_num);
/* XXX: waiting for the qapi to support GSList */
if (!cur_item) {
head = cur_item = info;
} else {
cur_item->next = info;
cur_item = info;
}
}
}
return head;
}
static PciInfo *qmp_query_pci_bus(PCIBus *bus, int bus_num)
{
PciInfo *info = NULL;
bus = pci_find_bus_nr(bus, bus_num);
if (bus) {
info = g_malloc0(sizeof(*info));
info->bus = bus_num;
info->devices = qmp_query_pci_devices(bus, bus_num);
}
return info;
}
PciInfoList *qmp_query_pci(Error **errp)
{
PciInfoList *info, *head = NULL, *cur_item = NULL;
PCIHostState *host_bridge;
QLIST_FOREACH(host_bridge, &pci_host_bridges, next) {
info = g_malloc0(sizeof(*info));
info->value = qmp_query_pci_bus(host_bridge->bus,
pci_bus_num(host_bridge->bus));
/* XXX: waiting for the qapi to support GSList */
if (!cur_item) {
head = cur_item = info;
} else {
cur_item->next = info;
cur_item = info;
}
}
return head;
}
static const char * const pci_nic_models[] = {
"ne2k_pci",
"i82551",
"i82557b",
"i82559er",
"rtl8139",
"e1000",
"pcnet",
"virtio",
NULL
};
static const char * const pci_nic_names[] = {
"ne2k_pci",
"i82551",
"i82557b",
"i82559er",
"rtl8139",
"e1000",
"pcnet",
"virtio-net-pci",
NULL
};
/* Initialize a PCI NIC. */
PCIDevice *pci_nic_init_nofail(NICInfo *nd, PCIBus *rootbus,
const char *default_model,
const char *default_devaddr)
{
const char *devaddr = nd->devaddr ? nd->devaddr : default_devaddr;
Error *err = NULL;
PCIBus *bus;
PCIDevice *pci_dev;
DeviceState *dev;
int devfn;
int i;
if (qemu_show_nic_models(nd->model, pci_nic_models)) {
exit(0);
}
i = qemu_find_nic_model(nd, pci_nic_models, default_model);
if (i < 0) {
exit(1);
}
bus = pci_get_bus_devfn(&devfn, rootbus, devaddr);
if (!bus) {
error_report("Invalid PCI device address %s for device %s",
devaddr, pci_nic_names[i]);
exit(1);
}
pci_dev = pci_create(bus, devfn, pci_nic_names[i]);
dev = &pci_dev->qdev;
qdev_set_nic_properties(dev, nd);
object_property_set_bool(OBJECT(dev), true, "realized", &err);
if (err) {
error_report_err(err);
object_unparent(OBJECT(dev));
exit(1);
}
return pci_dev;
}
PCIDevice *pci_vga_init(PCIBus *bus)
{
switch (vga_interface_type) {
case VGA_CIRRUS:
return pci_create_simple(bus, -1, "cirrus-vga");
case VGA_QXL:
return pci_create_simple(bus, -1, "qxl-vga");
case VGA_STD:
return pci_create_simple(bus, -1, "VGA");
case VGA_VMWARE:
return pci_create_simple(bus, -1, "vmware-svga");
case VGA_VIRTIO:
return pci_create_simple(bus, -1, "virtio-vga");
case VGA_NONE:
default: /* Other non-PCI types. Checking for unsupported types is already
done in vl.c. */
return NULL;
}
}
/* Whether a given bus number is in range of the secondary
* bus of the given bridge device. */
static bool pci_secondary_bus_in_range(PCIDevice *dev, int bus_num)
{
return !(pci_get_word(dev->config + PCI_BRIDGE_CONTROL) &
PCI_BRIDGE_CTL_BUS_RESET) /* Don't walk the bus if it's reset. */ &&
dev->config[PCI_SECONDARY_BUS] <= bus_num &&
bus_num <= dev->config[PCI_SUBORDINATE_BUS];
}
/* Whether a given bus number is in a range of a root bus */
static bool pci_root_bus_in_range(PCIBus *bus, int bus_num)
{
int i;
for (i = 0; i < ARRAY_SIZE(bus->devices); ++i) {
PCIDevice *dev = bus->devices[i];
if (dev && PCI_DEVICE_GET_CLASS(dev)->is_bridge) {
if (pci_secondary_bus_in_range(dev, bus_num)) {
return true;
}
}
}
return false;
}
static PCIBus *pci_find_bus_nr(PCIBus *bus, int bus_num)
{
PCIBus *sec;
if (!bus) {
return NULL;
}
if (pci_bus_num(bus) == bus_num) {
return bus;
}
/* Consider all bus numbers in range for the host pci bridge. */
if (!pci_bus_is_root(bus) &&
!pci_secondary_bus_in_range(bus->parent_dev, bus_num)) {
return NULL;
}
/* try child bus */
for (; bus; bus = sec) {
QLIST_FOREACH(sec, &bus->child, sibling) {
if (pci_bus_num(sec) == bus_num) {
return sec;
}
/* PXB buses assumed to be children of bus 0 */
if (pci_bus_is_root(sec)) {
if (pci_root_bus_in_range(sec, bus_num)) {
break;
}
} else {
if (pci_secondary_bus_in_range(sec->parent_dev, bus_num)) {
break;
}
}
}
}
return NULL;
}
void pci_for_each_bus_depth_first(PCIBus *bus,
void *(*begin)(PCIBus *bus, void *parent_state),
void (*end)(PCIBus *bus, void *state),
void *parent_state)
{
PCIBus *sec;
void *state;
if (!bus) {
return;
}
if (begin) {
state = begin(bus, parent_state);
} else {
state = parent_state;
}
QLIST_FOREACH(sec, &bus->child, sibling) {
pci_for_each_bus_depth_first(sec, begin, end, state);
}
if (end) {
end(bus, state);
}
}
PCIDevice *pci_find_device(PCIBus *bus, int bus_num, uint8_t devfn)
{
bus = pci_find_bus_nr(bus, bus_num);
if (!bus)
return NULL;
return bus->devices[devfn];
}
static void pci_qdev_realize(DeviceState *qdev, Error **errp)
{
PCIDevice *pci_dev = (PCIDevice *)qdev;
PCIDeviceClass *pc = PCI_DEVICE_GET_CLASS(pci_dev);
Error *local_err = NULL;
PCIBus *bus;
bool is_default_rom;
/* initialize cap_present for pci_is_express() and pci_config_size() */
if (pc->is_express) {
pci_dev->cap_present |= QEMU_PCI_CAP_EXPRESS;
}
bus = PCI_BUS(qdev_get_parent_bus(qdev));
pci_dev = do_pci_register_device(pci_dev, bus,
object_get_typename(OBJECT(qdev)),
pci_dev->devfn, errp);
if (pci_dev == NULL)
return;
if (pc->realize) {
pc->realize(pci_dev, &local_err);
if (local_err) {
error_propagate(errp, local_err);
do_pci_unregister_device(pci_dev);
return;
}
}
/* rom loading */
is_default_rom = false;
if (pci_dev->romfile == NULL && pc->romfile != NULL) {
pci_dev->romfile = g_strdup(pc->romfile);
is_default_rom = true;
}
pci_add_option_rom(pci_dev, is_default_rom, &local_err);
if (local_err) {
error_propagate(errp, local_err);
pci_qdev_unrealize(DEVICE(pci_dev), NULL);
return;
}
}
static void pci_default_realize(PCIDevice *dev, Error **errp)
{
PCIDeviceClass *pc = PCI_DEVICE_GET_CLASS(dev);
if (pc->init) {
if (pc->init(dev) < 0) {
error_setg(errp, "Device initialization failed");
return;
}
}
}
PCIDevice *pci_create_multifunction(PCIBus *bus, int devfn, bool multifunction,
const char *name)
{
DeviceState *dev;
dev = qdev_create(&bus->qbus, name);
qdev_prop_set_int32(dev, "addr", devfn);
qdev_prop_set_bit(dev, "multifunction", multifunction);
return PCI_DEVICE(dev);
}
PCIDevice *pci_create_simple_multifunction(PCIBus *bus, int devfn,
bool multifunction,
const char *name)
{
PCIDevice *dev = pci_create_multifunction(bus, devfn, multifunction, name);
qdev_init_nofail(&dev->qdev);
return dev;
}
PCIDevice *pci_create(PCIBus *bus, int devfn, const char *name)
{
return pci_create_multifunction(bus, devfn, false, name);
}
PCIDevice *pci_create_simple(PCIBus *bus, int devfn, const char *name)
{
return pci_create_simple_multifunction(bus, devfn, false, name);
}
static uint8_t pci_find_space(PCIDevice *pdev, uint8_t size)
{
int offset = PCI_CONFIG_HEADER_SIZE;
int i;
for (i = PCI_CONFIG_HEADER_SIZE; i < PCI_CONFIG_SPACE_SIZE; ++i) {
if (pdev->used[i])
offset = i + 1;
else if (i - offset + 1 == size)
return offset;
}
return 0;
}
static uint8_t pci_find_capability_list(PCIDevice *pdev, uint8_t cap_id,
uint8_t *prev_p)
{
uint8_t next, prev;
if (!(pdev->config[PCI_STATUS] & PCI_STATUS_CAP_LIST))
return 0;
for (prev = PCI_CAPABILITY_LIST; (next = pdev->config[prev]);
prev = next + PCI_CAP_LIST_NEXT)
if (pdev->config[next + PCI_CAP_LIST_ID] == cap_id)
break;
if (prev_p)
*prev_p = prev;
return next;
}
static uint8_t pci_find_capability_at_offset(PCIDevice *pdev, uint8_t offset)
{
uint8_t next, prev, found = 0;
if (!(pdev->used[offset])) {
return 0;
}
assert(pdev->config[PCI_STATUS] & PCI_STATUS_CAP_LIST);
for (prev = PCI_CAPABILITY_LIST; (next = pdev->config[prev]);
prev = next + PCI_CAP_LIST_NEXT) {
if (next <= offset && next > found) {
found = next;
}
}
return found;
}
/* Patch the PCI vendor and device ids in a PCI rom image if necessary.
This is needed for an option rom which is used for more than one device. */
static void pci_patch_ids(PCIDevice *pdev, uint8_t *ptr, int size)
{
uint16_t vendor_id;
uint16_t device_id;
uint16_t rom_vendor_id;
uint16_t rom_device_id;
uint16_t rom_magic;
uint16_t pcir_offset;
uint8_t checksum;
/* Words in rom data are little endian (like in PCI configuration),
so they can be read / written with pci_get_word / pci_set_word. */
/* Only a valid rom will be patched. */
rom_magic = pci_get_word(ptr);
if (rom_magic != 0xaa55) {
PCI_DPRINTF("Bad ROM magic %04x\n", rom_magic);
return;
}
pcir_offset = pci_get_word(ptr + 0x18);
if (pcir_offset + 8 >= size || memcmp(ptr + pcir_offset, "PCIR", 4)) {
PCI_DPRINTF("Bad PCIR offset 0x%x or signature\n", pcir_offset);
return;
}
vendor_id = pci_get_word(pdev->config + PCI_VENDOR_ID);
device_id = pci_get_word(pdev->config + PCI_DEVICE_ID);
rom_vendor_id = pci_get_word(ptr + pcir_offset + 4);
rom_device_id = pci_get_word(ptr + pcir_offset + 6);
PCI_DPRINTF("%s: ROM id %04x%04x / PCI id %04x%04x\n", pdev->romfile,
vendor_id, device_id, rom_vendor_id, rom_device_id);
checksum = ptr[6];
if (vendor_id != rom_vendor_id) {
/* Patch vendor id and checksum (at offset 6 for etherboot roms). */
checksum += (uint8_t)rom_vendor_id + (uint8_t)(rom_vendor_id >> 8);
checksum -= (uint8_t)vendor_id + (uint8_t)(vendor_id >> 8);
PCI_DPRINTF("ROM checksum %02x / %02x\n", ptr[6], checksum);
ptr[6] = checksum;
pci_set_word(ptr + pcir_offset + 4, vendor_id);
}
if (device_id != rom_device_id) {
/* Patch device id and checksum (at offset 6 for etherboot roms). */
checksum += (uint8_t)rom_device_id + (uint8_t)(rom_device_id >> 8);
checksum -= (uint8_t)device_id + (uint8_t)(device_id >> 8);
PCI_DPRINTF("ROM checksum %02x / %02x\n", ptr[6], checksum);
ptr[6] = checksum;
pci_set_word(ptr + pcir_offset + 6, device_id);
}
}
/* Add an option rom for the device */
static void pci_add_option_rom(PCIDevice *pdev, bool is_default_rom,
Error **errp)
{
int size;
char *path;
void *ptr;
char name[32];
const VMStateDescription *vmsd;
if (!pdev->romfile)
return;
if (strlen(pdev->romfile) == 0)
return;
if (!pdev->rom_bar) {
/*
* Load rom via fw_cfg instead of creating a rom bar,
* for 0.11 compatibility.
*/
int class = pci_get_word(pdev->config + PCI_CLASS_DEVICE);
/*
* Hot-plugged devices can't use the option ROM
* if the rom bar is disabled.
*/
if (DEVICE(pdev)->hotplugged) {
error_setg(errp, "Hot-plugged device without ROM bar"
" can't have an option ROM");
return;
}
if (class == 0x0300) {
rom_add_vga(pdev->romfile);
} else {
rom_add_option(pdev->romfile, -1);
}
return;
}
path = qemu_find_file(QEMU_FILE_TYPE_BIOS, pdev->romfile);
if (path == NULL) {
path = g_strdup(pdev->romfile);
}
size = get_image_size(path);
if (size < 0) {
error_setg(errp, "failed to find romfile \"%s\"", pdev->romfile);
g_free(path);
return;
} else if (size == 0) {
error_setg(errp, "romfile \"%s\" is empty", pdev->romfile);
g_free(path);
return;
}
if (size & (size - 1)) {
size = 1 << qemu_fls(size);
}
vmsd = qdev_get_vmsd(DEVICE(pdev));
if (vmsd) {
snprintf(name, sizeof(name), "%s.rom", vmsd->name);
} else {
snprintf(name, sizeof(name), "%s.rom", object_get_typename(OBJECT(pdev)));
}
pdev->has_rom = true;
memory_region_init_ram(&pdev->rom, OBJECT(pdev), name, size, &error_abort);
vmstate_register_ram(&pdev->rom, &pdev->qdev);
ptr = memory_region_get_ram_ptr(&pdev->rom);
load_image(path, ptr);
g_free(path);
if (is_default_rom) {
/* Only the default rom images will be patched (if needed). */
pci_patch_ids(pdev, ptr, size);
}
pci_register_bar(pdev, PCI_ROM_SLOT, 0, &pdev->rom);
}
static void pci_del_option_rom(PCIDevice *pdev)
{
if (!pdev->has_rom)
return;
vmstate_unregister_ram(&pdev->rom, &pdev->qdev);
pdev->has_rom = false;
}
/*
* if offset = 0,
* Find and reserve space and add capability to the linked list
* in pci config space
*/
int pci_add_capability(PCIDevice *pdev, uint8_t cap_id,
uint8_t offset, uint8_t size)
{
int ret;
Error *local_err = NULL;
ret = pci_add_capability2(pdev, cap_id, offset, size, &local_err);
if (local_err) {
assert(ret < 0);
error_report_err(local_err);
} else {
/* success implies a positive offset in config space */
assert(ret > 0);
}
return ret;
}
int pci_add_capability2(PCIDevice *pdev, uint8_t cap_id,
uint8_t offset, uint8_t size,
Error **errp)
{
uint8_t *config;
int i, overlapping_cap;
if (!offset) {
offset = pci_find_space(pdev, size);
if (!offset) {
error_setg(errp, "out of PCI config space");
return -ENOSPC;
}
} else {
/* Verify that capabilities don't overlap. Note: device assignment
* depends on this check to verify that the device is not broken.
* Should never trigger for emulated devices, but it's helpful
* for debugging these. */
for (i = offset; i < offset + size; i++) {
overlapping_cap = pci_find_capability_at_offset(pdev, i);
if (overlapping_cap) {
error_setg(errp, "%s:%02x:%02x.%x "
"Attempt to add PCI capability %x at offset "
"%x overlaps existing capability %x at offset %x",
pci_root_bus_path(pdev), pci_bus_num(pdev->bus),
PCI_SLOT(pdev->devfn), PCI_FUNC(pdev->devfn),
cap_id, offset, overlapping_cap, i);
return -EINVAL;
}
}
}
config = pdev->config + offset;
config[PCI_CAP_LIST_ID] = cap_id;
config[PCI_CAP_LIST_NEXT] = pdev->config[PCI_CAPABILITY_LIST];
pdev->config[PCI_CAPABILITY_LIST] = offset;
pdev->config[PCI_STATUS] |= PCI_STATUS_CAP_LIST;
memset(pdev->used + offset, 0xFF, QEMU_ALIGN_UP(size, 4));
/* Make capability read-only by default */
memset(pdev->wmask + offset, 0, size);
/* Check capability by default */
memset(pdev->cmask + offset, 0xFF, size);
return offset;
}
/* Unlink capability from the pci config space. */
void pci_del_capability(PCIDevice *pdev, uint8_t cap_id, uint8_t size)
{
uint8_t prev, offset = pci_find_capability_list(pdev, cap_id, &prev);
if (!offset)
return;
pdev->config[prev] = pdev->config[offset + PCI_CAP_LIST_NEXT];
/* Make capability writable again */
memset(pdev->wmask + offset, 0xff, size);
memset(pdev->w1cmask + offset, 0, size);
/* Clear cmask as device-specific registers can't be checked */
memset(pdev->cmask + offset, 0, size);
memset(pdev->used + offset, 0, QEMU_ALIGN_UP(size, 4));
if (!pdev->config[PCI_CAPABILITY_LIST])
pdev->config[PCI_STATUS] &= ~PCI_STATUS_CAP_LIST;
}
uint8_t pci_find_capability(PCIDevice *pdev, uint8_t cap_id)
{
return pci_find_capability_list(pdev, cap_id, NULL);
}
static void pcibus_dev_print(Monitor *mon, DeviceState *dev, int indent)
{
PCIDevice *d = (PCIDevice *)dev;
const pci_class_desc *desc;
char ctxt[64];
PCIIORegion *r;
int i, class;
class = pci_get_word(d->config + PCI_CLASS_DEVICE);
desc = pci_class_descriptions;
while (desc->desc && class != desc->class)
desc++;
if (desc->desc) {
snprintf(ctxt, sizeof(ctxt), "%s", desc->desc);
} else {
snprintf(ctxt, sizeof(ctxt), "Class %04x", class);
}
monitor_printf(mon, "%*sclass %s, addr %02x:%02x.%x, "
"pci id %04x:%04x (sub %04x:%04x)\n",
indent, "", ctxt, pci_bus_num(d->bus),
PCI_SLOT(d->devfn), PCI_FUNC(d->devfn),
pci_get_word(d->config + PCI_VENDOR_ID),
pci_get_word(d->config + PCI_DEVICE_ID),
pci_get_word(d->config + PCI_SUBSYSTEM_VENDOR_ID),
pci_get_word(d->config + PCI_SUBSYSTEM_ID));
for (i = 0; i < PCI_NUM_REGIONS; i++) {
r = &d->io_regions[i];
if (!r->size)
continue;
monitor_printf(mon, "%*sbar %d: %s at 0x%"FMT_PCIBUS
" [0x%"FMT_PCIBUS"]\n",
indent, "",
i, r->type & PCI_BASE_ADDRESS_SPACE_IO ? "i/o" : "mem",
r->addr, r->addr + r->size - 1);
}
}
static char *pci_dev_fw_name(DeviceState *dev, char *buf, int len)
{
PCIDevice *d = (PCIDevice *)dev;
const char *name = NULL;
const pci_class_desc *desc = pci_class_descriptions;
int class = pci_get_word(d->config + PCI_CLASS_DEVICE);
while (desc->desc &&
(class & ~desc->fw_ign_bits) !=
(desc->class & ~desc->fw_ign_bits)) {
desc++;
}
if (desc->desc) {
name = desc->fw_name;
}
if (name) {
pstrcpy(buf, len, name);
} else {
snprintf(buf, len, "pci%04x,%04x",
pci_get_word(d->config + PCI_VENDOR_ID),
pci_get_word(d->config + PCI_DEVICE_ID));
}
return buf;
}
static char *pcibus_get_fw_dev_path(DeviceState *dev)
{
PCIDevice *d = (PCIDevice *)dev;
char path[50], name[33];
int off;
off = snprintf(path, sizeof(path), "%s@%x",
pci_dev_fw_name(dev, name, sizeof name),
PCI_SLOT(d->devfn));
if (PCI_FUNC(d->devfn))
snprintf(path + off, sizeof(path) + off, ",%x", PCI_FUNC(d->devfn));
return g_strdup(path);
}
static char *pcibus_get_dev_path(DeviceState *dev)
{
PCIDevice *d = container_of(dev, PCIDevice, qdev);
PCIDevice *t;
int slot_depth;
/* Path format: Domain:00:Slot.Function:Slot.Function....:Slot.Function.
* 00 is added here to make this format compatible with
* domain:Bus:Slot.Func for systems without nested PCI bridges.
* Slot.Function list specifies the slot and function numbers for all
* devices on the path from root to the specific device. */
const char *root_bus_path;
int root_bus_len;
char slot[] = ":SS.F";
int slot_len = sizeof slot - 1 /* For '\0' */;
int path_len;
char *path, *p;
int s;
root_bus_path = pci_root_bus_path(d);
root_bus_len = strlen(root_bus_path);
/* Calculate # of slots on path between device and root. */;
slot_depth = 0;
for (t = d; t; t = t->bus->parent_dev) {
++slot_depth;
}
path_len = root_bus_len + slot_len * slot_depth;
/* Allocate memory, fill in the terminating null byte. */
path = g_malloc(path_len + 1 /* For '\0' */);
path[path_len] = '\0';
memcpy(path, root_bus_path, root_bus_len);
/* Fill in slot numbers. We walk up from device to root, so need to print
* them in the reverse order, last to first. */
p = path + path_len;
for (t = d; t; t = t->bus->parent_dev) {
p -= slot_len;
s = snprintf(slot, sizeof slot, ":%02x.%x",
PCI_SLOT(t->devfn), PCI_FUNC(t->devfn));
assert(s == slot_len);
memcpy(p, slot, slot_len);
}
return path;
}
static int pci_qdev_find_recursive(PCIBus *bus,
const char *id, PCIDevice **pdev)
{
DeviceState *qdev = qdev_find_recursive(&bus->qbus, id);
if (!qdev) {
return -ENODEV;
}
/* roughly check if given qdev is pci device */
if (object_dynamic_cast(OBJECT(qdev), TYPE_PCI_DEVICE)) {
*pdev = PCI_DEVICE(qdev);
return 0;
}
return -EINVAL;
}
int pci_qdev_find_device(const char *id, PCIDevice **pdev)
{
PCIHostState *host_bridge;
int rc = -ENODEV;
QLIST_FOREACH(host_bridge, &pci_host_bridges, next) {
int tmp = pci_qdev_find_recursive(host_bridge->bus, id, pdev);
if (!tmp) {
rc = 0;
break;
}
if (tmp != -ENODEV) {
rc = tmp;
}
}
return rc;
}
MemoryRegion *pci_address_space(PCIDevice *dev)
{
return dev->bus->address_space_mem;
}
MemoryRegion *pci_address_space_io(PCIDevice *dev)
{
return dev->bus->address_space_io;
}
static void pci_device_class_init(ObjectClass *klass, void *data)
{
DeviceClass *k = DEVICE_CLASS(klass);
PCIDeviceClass *pc = PCI_DEVICE_CLASS(klass);
k->realize = pci_qdev_realize;
k->unrealize = pci_qdev_unrealize;
k->bus_type = TYPE_PCI_BUS;
k->props = pci_props;
pc->realize = pci_default_realize;
}
AddressSpace *pci_device_iommu_address_space(PCIDevice *dev)
{
PCIBus *bus = PCI_BUS(dev->bus);
if (bus->iommu_fn) {
return bus->iommu_fn(bus, bus->iommu_opaque, dev->devfn);
}
if (bus->parent_dev) {
/** We are ignoring the bus master DMA bit of the bridge
* as it would complicate things such as VFIO for no good reason */
return pci_device_iommu_address_space(bus->parent_dev);
}
return &address_space_memory;
}
void pci_setup_iommu(PCIBus *bus, PCIIOMMUFunc fn, void *opaque)
{
bus->iommu_fn = fn;
bus->iommu_opaque = opaque;
}
static void pci_dev_get_w64(PCIBus *b, PCIDevice *dev, void *opaque)
{
Range *range = opaque;
PCIDeviceClass *pc = PCI_DEVICE_GET_CLASS(dev);
uint16_t cmd = pci_get_word(dev->config + PCI_COMMAND);
int i;
if (!(cmd & PCI_COMMAND_MEMORY)) {
return;
}
if (pc->is_bridge) {
pcibus_t base = pci_bridge_get_base(dev, PCI_BASE_ADDRESS_MEM_PREFETCH);
pcibus_t limit = pci_bridge_get_limit(dev, PCI_BASE_ADDRESS_MEM_PREFETCH);
base = MAX(base, 0x1ULL << 32);
if (limit >= base) {
Range pref_range;
pref_range.begin = base;
pref_range.end = limit + 1;
range_extend(range, &pref_range);
}
}
for (i = 0; i < PCI_NUM_REGIONS; ++i) {
PCIIORegion *r = &dev->io_regions[i];
Range region_range;
if (!r->size ||
(r->type & PCI_BASE_ADDRESS_SPACE_IO) ||
!(r->type & PCI_BASE_ADDRESS_MEM_TYPE_64)) {
continue;
}
region_range.begin = pci_bar_address(dev, i, r->type, r->size);
region_range.end = region_range.begin + r->size;
if (region_range.begin == PCI_BAR_UNMAPPED) {
continue;
}
region_range.begin = MAX(region_range.begin, 0x1ULL << 32);
if (region_range.end - 1 >= region_range.begin) {
range_extend(range, ®ion_range);
}
}
}
void pci_bus_get_w64_range(PCIBus *bus, Range *range)
{
range->begin = range->end = 0;
pci_for_each_device_under_bus(bus, pci_dev_get_w64, range);
}
static const TypeInfo pci_device_type_info = {
.name = TYPE_PCI_DEVICE,
.parent = TYPE_DEVICE,
.instance_size = sizeof(PCIDevice),
.abstract = true,
.class_size = sizeof(PCIDeviceClass),
.class_init = pci_device_class_init,
};
static void pci_register_types(void)
{
type_register_static(&pci_bus_info);
type_register_static(&pcie_bus_info);
type_register_static(&pci_device_type_info);
}
type_init(pci_register_types)
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