#include "msi.h" #include "pci.h" #include #include /** * @brief 生成msi消息 * * @param msi_desc msi描述符 * @return struct msi_msg_t* msi消息指针(在描述符内) */ extern struct msi_msg_t *msi_arch_get_msg(struct msi_desc_t *msi_desc); /** * @brief 读取msix的capability list * * @param msi_desc msi描述符 * @param cap_off capability list的offset * @return struct pci_msix_cap_t 对应的capability list */ static __always_inline struct pci_msix_cap_t __msi_read_msix_cap_list(struct msi_desc_t *msi_desc, uint32_t cap_off) { struct pci_msix_cap_t cap_list = {0}; uint32_t dw0; dw0 = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off); io_lfence(); cap_list.cap_id = dw0 & 0xff; cap_list.next_off = (dw0 >> 8) & 0xff; cap_list.msg_ctrl = (dw0 >> 16) & 0xffff; cap_list.dword1 = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off + 0x4); cap_list.dword2 = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off + 0x8); return cap_list; } static __always_inline struct pci_msi_cap_t __msi_read_cap_list(struct msi_desc_t *msi_desc, uint32_t cap_off) { struct pci_msi_cap_t cap_list = {0}; uint32_t dw0; dw0 = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off); cap_list.cap_id = dw0 & 0xff; cap_list.next_off = (dw0 >> 8) & 0xff; cap_list.msg_ctrl = (dw0 >> 16) & 0xffff; cap_list.msg_addr_lo = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off + 0x4); uint16_t msg_data_off = 0xc; if (cap_list.msg_ctrl & (1 << 7)) // 64位 { cap_list.msg_addr_hi = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off + 0x8); } else { cap_list.msg_addr_hi = 0; msg_data_off = 0x8; } cap_list.msg_data = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off + msg_data_off) & 0xffff; cap_list.mask = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off + 0x10); cap_list.pending = pci_read_config(msi_desc->pci_dev->bus, msi_desc->pci_dev->device, msi_desc->pci_dev->func, cap_off + 0x14); return cap_list; } /** * @brief 映射设备的msix表 //MSIX表不再单独映射(To do) * * @param pci_dev pci设备信息结构体 * @param msix_cap msix capability list的结构体 * @return int 错误码 */ static __always_inline int __msix_map_table(struct pci_device_structure_header_t *pci_dev, struct pci_msix_cap_t *msix_cap) { // 计算bar寄存器的offset uint32_t bar_off = 0x10 + 4 * (msix_cap->dword1 & 0x7); // msix table相对于bar寄存器中存储的地址的offset pci_dev->msix_offset = msix_cap->dword1 & (~0x7); pci_dev->msix_table_size = (msix_cap->msg_ctrl & 0x7ff) + 1; pci_dev->msix_mmio_size = pci_dev->msix_table_size * 16 + pci_dev->msix_offset; // 申请mmio空间 mmio_create(pci_dev->msix_mmio_size, VM_IO | VM_DONTCOPY, &pci_dev->msix_mmio_vaddr, &pci_dev->msix_mmio_size); pci_dev->msix_mmio_vaddr &= (~0xf); uint32_t bar = pci_read_config(pci_dev->bus, pci_dev->device, pci_dev->func, bar_off); // kdebug("pci_dev->msix_mmio_vaddr=%#018lx, bar=%#010lx, table offset=%#010lx, table_size=%#010lx, mmio_size=%d", // pci_dev->msix_mmio_vaddr, bar, pci_dev->msix_offset, pci_dev->msix_table_size, pci_dev->msix_mmio_size); // 将msix table映射到页表 rs_map_phys(pci_dev->msix_mmio_vaddr, bar, pci_dev->msix_mmio_size, PAGE_KERNEL_PAGE); return 0; } /** * @brief 将msi_desc中的数据填写到msix表的指定表项处 * * @param pci_dev pci设备结构体 * @param msi_desc msi描述符 */ static __always_inline void __msix_set_entry(struct msi_desc_t *msi_desc) { uint64_t *ptr = (uint64_t *)(msi_desc->pci_dev->msix_mmio_vaddr + msi_desc->pci_dev->msix_offset + msi_desc->msi_index * 16); *ptr = ((uint64_t)(msi_desc->msg.address_hi) << 32) | (msi_desc->msg.address_lo); io_mfence(); ++ptr; io_mfence(); *ptr = ((uint64_t)(msi_desc->msg.vector_control) << 32) | (msi_desc->msg.data); io_mfence(); } /** * @brief 清空设备的msix table的指定表项 * * @param pci_dev pci设备 * @param msi_index 表项号 */ static __always_inline void __msix_clear_entry(struct pci_device_structure_header_t *pci_dev, uint16_t msi_index) { uint64_t *ptr = (uint64_t *)(pci_dev->msix_mmio_vaddr + pci_dev->msix_offset + msi_index * 16); *ptr = 0; ++ptr; *ptr = 0; } /** * @brief 启用 Message Signaled Interrupts * * @param header 设备header * @param vector 中断向量号 * @param processor 要投递到的处理器 * @param edge_trigger 是否边缘触发 * @param assert 是否高电平触发 * * @return 返回码 */ int pci_enable_msi(struct msi_desc_t *msi_desc) { struct pci_device_structure_header_t *ptr = msi_desc->pci_dev; uint32_t cap_ptr; uint32_t tmp; uint16_t message_control; uint64_t message_addr; // 先尝试获取msi-x,若不存在,则获取msi capability if (msi_desc->pci.msi_attribute.is_msix) { cap_ptr = pci_enumerate_capability_list(ptr, 0x11); if (((int32_t)cap_ptr) < 0) { cap_ptr = pci_enumerate_capability_list(ptr, 0x05); if (((int32_t)cap_ptr) < 0) return -ENOSYS; msi_desc->pci.msi_attribute.is_msix = 0; } } else { cap_ptr = pci_enumerate_capability_list(ptr, 0x05); if (((int32_t)cap_ptr) < 0) return -ENOSYS; msi_desc->pci.msi_attribute.is_msix = 0; } // 获取msi消息 msi_arch_get_msg(msi_desc); if (msi_desc->pci.msi_attribute.is_msix) // MSI-X { kdebug("is msix"); // 读取msix的信息 struct pci_msix_cap_t cap = __msi_read_msix_cap_list(msi_desc, cap_ptr); // 映射msix table __msix_map_table(msi_desc->pci_dev, &cap); io_mfence(); // 设置msix的中断 __msix_set_entry(msi_desc); io_mfence(); // todo: disable intx // 使能msi-x tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 tmp |= (1U << 31); pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr, tmp); } else { kdebug("is msi"); tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 message_control = (tmp >> 16) & 0xffff; // 写入message address message_addr = ((((uint64_t)msi_desc->msg.address_hi) << 32) | msi_desc->msg.address_lo); // 获取message address pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr + 0x4, (uint32_t)(message_addr & 0xffffffff)); if (message_control & (1 << 7)) // 64位 pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr + 0x8, (uint32_t)((message_addr >> 32) & 0xffffffff)); // 写入message data tmp = msi_desc->msg.data; if (message_control & (1 << 7)) // 64位 pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr + 0xc, tmp); else pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr + 0x8, tmp); // 使能msi tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 tmp |= (1 << 16); pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr, tmp); } return 0; } /** * @brief 在已配置好msi寄存器的设备上,使能msi * * @param header 设备头部 * @return int 返回码 */ int pci_start_msi(void *header) { struct pci_device_structure_header_t *ptr = (struct pci_device_structure_header_t *)header; uint32_t cap_ptr; uint32_t tmp; switch (ptr->HeaderType) { case 0x00: // general device if (!(ptr->Status & 0x10)) return -ENOSYS; cap_ptr = ((struct pci_device_structure_general_device_t *)ptr)->Capabilities_Pointer; tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 if (tmp & 0xff != 0x5) return -ENOSYS; // 使能msi tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 tmp |= (1 << 16); pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr, tmp); break; case 0x01: // pci to pci bridge if (!(ptr->Status & 0x10)) return -ENOSYS; cap_ptr = ((struct pci_device_structure_pci_to_pci_bridge_t *)ptr)->Capability_Pointer; tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 if (tmp & 0xff != 0x5) return -ENOSYS; // 使能msi tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 tmp |= (1 << 16); pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr, tmp); break; case 0x02: // pci to card bus bridge return -ENOSYS; break; default: // 不应该到达这里 return -EINVAL; break; } return 0; } /** * @brief 禁用指定设备的msi * * @param header pci header * @return int */ int pci_disable_msi(void *header) { struct pci_device_structure_header_t *ptr = (struct pci_device_structure_header_t *)header; uint32_t cap_ptr; uint32_t tmp; switch (ptr->HeaderType) { case 0x00: // general device if (!(ptr->Status & 0x10)) return -ENOSYS; cap_ptr = ((struct pci_device_structure_general_device_t *)ptr)->Capabilities_Pointer; tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 if (tmp & 0xff != 0x5) return -ENOSYS; // 禁用msi tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 tmp &= (~(1 << 16)); pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr, tmp); break; case 0x01: // pci to pci bridge if (!(ptr->Status & 0x10)) return -ENOSYS; cap_ptr = ((struct pci_device_structure_pci_to_pci_bridge_t *)ptr)->Capability_Pointer; tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 if (tmp & 0xff != 0x5) return -ENOSYS; // 禁用msi tmp = pci_read_config(ptr->bus, ptr->device, ptr->func, cap_ptr); // 读取cap+0x0处的值 tmp &= (~(1 << 16)); pci_write_config(ptr->bus, ptr->device, ptr->func, cap_ptr, tmp); break; case 0x02: // pci to card bus bridge return -ENOSYS; break; default: // 不应该到达这里 return -EINVAL; break; } return 0; }