X-Git-Url: https://scm.lunaixsky.com/lunaix-os.git/blobdiff_plain/423c98c95abf756e6982c51fd7757dcb67f3f9ea..88d981e8325ea91ca6ca21cdba3c73308fe84541:/lunaix-os/hal/pci.c diff --git a/lunaix-os/hal/pci.c b/lunaix-os/hal/pci.c index 90011c6..4bf4c56 100644 --- a/lunaix-os/hal/pci.c +++ b/lunaix-os/hal/pci.c @@ -1,5 +1,18 @@ +/** + * @file pci.c + * @author Lunaixsky (zelong56@gmail.com) + * @brief A software implementation of PCI Local Bus Specification Revision 3.0 + * @version 0.1 + * @date 2022-06-28 + * + * @copyright Copyright (c) 2022 + * + */ +#include +#include #include #include +#include #include LOG_MODULE("PCI") @@ -23,7 +36,10 @@ pci_probe_device(int bus, int dev, int funct) pci_reg_t hdr_type = pci_read_cspace(base, 0xc); hdr_type = (hdr_type >> 16) & 0xff; - if ((hdr_type & 0x80)) { + // 防止堆栈溢出 + // QEMU的ICH9/Q35实现似乎有点问题,对于多功能设备的每一个功能的header type + // 都将第七位置位。而virtualbox 就没有这个毛病。 + if ((hdr_type & 0x80) && funct == 0) { hdr_type = hdr_type & ~0x80; // 探测多用途设备(multi-function device) for (int i = 1; i < 7; i++) { @@ -31,7 +47,7 @@ pci_probe_device(int bus, int dev, int funct) } } - if (hdr_type != 0) { + if (hdr_type != PCI_TDEV) { // XXX: 目前忽略所有桥接设备,比如PCI-PCI桥接器,或者是CardBus桥接器 return; } @@ -65,6 +81,9 @@ pci_probe() void pci_probe_msi_info(struct pci_device* device) { + // Note that Virtualbox have to use ICH9 chipset for MSI support. + // Qemu seems ok with default PIIX3, Bochs is pending to test... + // See https://www.virtualbox.org/manual/ch03.html (section 3.5.1) pci_reg_t status = pci_read_cspace(device->cspace_base, PCI_REG_STATUS_CMD) >> 16; @@ -87,6 +106,8 @@ pci_probe_msi_info(struct pci_device* device) } } +#define PCI_PRINT_BAR_LISTING + void pci_print_device() { @@ -104,13 +125,72 @@ pci_print_device() 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); } } } +size_t +pci_bar_sizing(struct pci_device* dev, uint32_t* bar_out, uint32_t bar_num) +{ + pci_reg_t bar = pci_read_cspace(dev->cspace_base, PCI_REG_BAR(bar_num)); + if (!bar) { + *bar_out = 0; + return 0; + } + + pci_write_cspace(dev->cspace_base, PCI_REG_BAR(bar_num), 0xffffffff); + pci_reg_t sized = + pci_read_cspace(dev->cspace_base, PCI_REG_BAR(bar_num)) & ~0x1; + if (PCI_BAR_MMIO(bar)) { + sized = PCI_BAR_ADDR_MM(sized); + } + *bar_out = bar; + pci_write_cspace(dev->cspace_base, PCI_REG_BAR(bar_num), bar); + return ~sized + 1; +} + +void +pci_setup_msi(struct pci_device* device, int vector) +{ + // Dest: APIC#0, Physical Destination, No redirection + uint32_t msi_addr = (__APIC_BASE_PADDR); + + // Edge trigger, Fixed delivery + uint32_t msi_data = vector; + + 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); + + // manipulate the MSI_CTRL to allow device using MSI to request service. + reg1 = ((((reg1 >> 16) & ~0x70) | 0x1) << 16) | (reg1 & 0xffff); + pci_write_cspace(device->cspace_base, device->msi_loc, reg1); +} + struct pci_device* pci_get_device_by_id(uint16_t vendorId, uint16_t deviceId) { @@ -144,5 +224,12 @@ void pci_init() { llist_init_head(&pci_devices); + acpi_context* acpi = acpi_get_context(); + assert_msg(acpi, "ACPI not initialized."); + if (acpi->mcfg.alloc_num) { + // PCIe Enhanced Configuration Mechanism is supported. + // TODO: support PCIe addressing mechanism + } + // Otherwise, fallback to use legacy PCI 3.0 method. pci_probe(); } \ No newline at end of file