#include <hal/acpi/acpi.h>
#include <hal/apic.h>
#include <hal/pci.h>
-#include <lunaix/mm/kalloc.h>
+#include <lunaix/fs/twifs.h>
+#include <lunaix/mm/valloc.h>
#include <lunaix/spike.h>
#include <lunaix/syslog.h>
pci_reg_t intr = pci_read_cspace(base, 0x3c);
pci_reg_t class = pci_read_cspace(base, 0x8);
- struct pci_device* device = lxmalloc(sizeof(struct pci_device));
+ struct pci_device* device = vzalloc(sizeof(struct pci_device));
*device = (struct pci_device){ .cspace_base = base,
.class_info = class,
.device_info = reg1,
.intr_info = intr };
pci_probe_msi_info(device);
+ pci_probe_bar_info(device);
llist_append(&pci_devices, &device->dev_chain);
}
{
// 暴力扫描所有PCI设备
// XXX: 尽管最多会有256条PCI总线,但就目前而言,只考虑bus #0就足够了
- for (int bus = 0; bus < 1; bus++) {
+ for (int bus = 0; bus < 256; bus++) {
for (int dev = 0; dev < 32; dev++) {
pci_probe_device(bus, dev, 0);
}
}
}
+void
+pci_probe_bar_info(struct pci_device* device)
+{
+ uint32_t bar;
+ struct pci_base_addr* ba;
+ for (size_t i = 0; i < 6; i++) {
+ ba = &device->bar[i];
+ ba->size = pci_bar_sizing(device, &bar, i + 1);
+ if (PCI_BAR_MMIO(bar)) {
+ ba->start = PCI_BAR_ADDR_MM(bar);
+ ba->type |= PCI_BAR_CACHEABLE(bar) ? BAR_TYPE_CACHABLE : 0;
+ ba->type |= BAR_TYPE_MMIO;
+ } else {
+ ba->start = PCI_BAR_ADDR_IO(bar);
+ }
+ }
+}
+
void
pci_probe_msi_info(struct pci_device* device)
{
}
}
-#define PCI_PRINT_BAR_LISTING
+void
+__pci_read_cspace(struct twimap* map)
+{
+ struct pci_device* pcidev = (struct pci_device*)(map->data);
+
+ for (size_t i = 0; i < 256; i += sizeof(pci_reg_t)) {
+ *(pci_reg_t*)(map->buffer + i) =
+ pci_read_cspace(pcidev->cspace_base, i);
+ }
+
+ map->size_acc = 256;
+}
void
-pci_print_device()
+__pci_read_revid(struct twimap* map)
{
+ int class = twimap_data(map, struct pci_device*)->class_info;
+ twimap_printf(map, "0x%x", PCI_DEV_REV(class));
+}
+
+void
+__pci_read_class(struct twimap* map)
+{
+ int class = twimap_data(map, struct pci_device*)->class_info;
+ twimap_printf(map, "0x%x", PCI_DEV_CLASS(class));
+}
+
+void
+__pci_bar_read(struct twimap* map)
+{
+ struct pci_device* pcidev = twimap_data(map, struct pci_device*);
+ int bar_index = twimap_index(map, int);
+
+ struct pci_base_addr* bar = &pcidev->bar[bar_index];
+
+ if (!bar->start && !bar->size) {
+ twimap_printf(map, "[%d] not present \n", bar_index);
+ return;
+ }
+
+ twimap_printf(
+ map, "[%d] base=%.8p, size=%.8p, ", bar_index, bar->start, bar->size);
+
+ if ((bar->type & BAR_TYPE_MMIO)) {
+ twimap_printf(map, "mmio");
+ if ((bar->type & BAR_TYPE_CACHABLE)) {
+ twimap_printf(map, ", prefetchable");
+ }
+ } else {
+ twimap_printf(map, "io");
+ }
+
+ twimap_printf(map, "\n");
+}
+
+int
+__pci_bar_gonext(struct twimap* map)
+{
+ if (twimap_index(map, int) >= 5) {
+ return 0;
+ }
+ map->index += 1;
+ return 1;
+}
+
+void
+pci_build_fsmapping()
+{
+ struct twifs_node *pci_class = twifs_dir_node(NULL, "pci"), *pci_dev;
struct pci_device *pos, *n;
+ struct twimap* map;
llist_for_each(pos, n, &pci_devices, dev_chain)
{
- kprintf(KINFO "(B%xh:D%xh:F%xh) Dev %x:%x, Class 0x%x\n",
- PCI_BUS_NUM(pos->cspace_base),
- PCI_SLOT_NUM(pos->cspace_base),
- PCI_FUNCT_NUM(pos->cspace_base),
- PCI_DEV_VENDOR(pos->device_info),
- PCI_DEV_DEVID(pos->device_info),
- PCI_DEV_CLASS(pos->class_info));
-
- kprintf(KINFO "\t IRQ: %d, INT#x: %d\n",
- PCI_INTR_IRQ(pos->intr_info),
- PCI_INTR_PIN(pos->intr_info));
-#ifdef PCI_PRINT_BAR_LISTING
- pci_reg_t bar;
- for (size_t i = 1; i <= 6; i++) {
- size_t size = pci_bar_sizing(pos, &bar, i);
- if (!bar)
- continue;
- if (PCI_BAR_MMIO(bar)) {
- kprintf(KINFO "\t BAR#%d (MMIO) %p [%d]\n",
- i,
- PCI_BAR_ADDR_MM(bar),
- size);
- } else {
- kprintf(KINFO "\t BAR#%d (I/O) %p [%d]\n",
- i,
- PCI_BAR_ADDR_IO(bar),
- size);
- }
- }
-#endif
- if (pos->msi_loc) {
- kprintf(KINFO "\t MSI supported (@%xh)\n", pos->msi_loc);
- }
+ pci_dev = twifs_dir_node(pci_class,
+ "%.2d:%.2d:%.2d.%.4x:%.4x",
+ PCI_BUS_NUM(pos->cspace_base),
+ PCI_SLOT_NUM(pos->cspace_base),
+ PCI_FUNCT_NUM(pos->cspace_base),
+ PCI_DEV_VENDOR(pos->device_info),
+ PCI_DEV_DEVID(pos->device_info));
+
+ map = twifs_mapping(pci_dev, pos, "config");
+ map->read = __pci_read_cspace;
+
+ map = twifs_mapping(pci_dev, pos, "revision");
+ map->read = __pci_read_revid;
+
+ map = twifs_mapping(pci_dev, pos, "class");
+ map->read = __pci_read_class;
+
+ map = twifs_mapping(pci_dev, pos, "io_bases");
+ map->read = __pci_bar_read;
+ map->go_next = __pci_bar_gonext;
}
}
pci_write_cspace(
device->cspace_base, PCI_MSI_ADDR(device->msi_loc), msi_addr);
- pci_write_cspace(
- device->cspace_base, PCI_MSI_DATA(device->msi_loc), msi_data & 0xffff);
pci_reg_t reg1 = pci_read_cspace(device->cspace_base, device->msi_loc);
+ pci_reg_t msg_ctl = reg1 >> 16;
+
+ int offset = !!(msg_ctl & MSI_CAP_64BIT) * 4;
+ pci_write_cspace(device->cspace_base,
+ PCI_MSI_DATA(device->msi_loc, offset),
+ msi_data & 0xffff);
+
+ if ((msg_ctl & MSI_CAP_MASK)) {
+ pci_write_cspace(
+ device->cspace_base, PCI_MSI_MASK(device->msi_loc, offset), 0);
+ }
// manipulate the MSI_CTRL to allow device using MSI to request service.
- reg1 = ((((reg1 >> 16) & ~0x70) | 0x1) << 16) | (reg1 & 0xffff);
+ reg1 = (reg1 & 0xff8fffff) | 0x10000;
pci_write_cspace(device->cspace_base, device->msi_loc, reg1);
}
}
// Otherwise, fallback to use legacy PCI 3.0 method.
pci_probe();
+
+ pci_build_fsmapping();
}
\ No newline at end of file
git://scm.lunaixsky.com / lunaix-os.git / blobdiff