#include #include #include #include #include int __sata_buffer_io(struct hba_port* port, uint64_t lba, void* buffer, uint32_t size, int write) { assert_msg(((uintptr_t)buffer & 0x3) == 0, "HBA: Bad buffer alignment"); struct hba_cmdh* header; struct hba_cmdt* table; int slot = hba_alloc_slot(port, &table, &header, 0); int bitmask = 1 << slot; // 确保端口是空闲的 wait_until(!(port->regs[HBA_RPxTFD] & (HBA_PxTFD_BSY | HBA_PxTFD_DRQ))); port->regs[HBA_RPxIS] = 0; table->entries[0] = (struct hba_prdte){ .byte_count = size - 1, .data_base = vmm_v2p(buffer) }; header->prdt_len = 1; header->options |= HBA_CMDH_WRITE * (write == 1); uint16_t count = ICEIL(size, port->device->block_size); struct sata_reg_fis* fis = table->command_fis; if ((port->device->flags & HBA_DEV_FEXTLBA)) { // 如果该设备支持48位LBA寻址 sata_create_fis( fis, write ? ATA_WRITE_DMA_EXT : ATA_READ_DMA_EXT, lba, count); fis->dev = (1 << 6) * (!write); } else { sata_create_fis(fis, write ? ATA_WRITE_DMA : ATA_READ_DMA, lba, count); } int retries = 0; while (retries < MAX_RETRY) { port->regs[HBA_RPxCI] = bitmask; wait_until(!(port->regs[HBA_RPxCI] & bitmask)); if ((port->regs[HBA_RPxTFD] & HBA_PxTFD_ERR)) { // 有错误 sata_read_error(port); retries++; } else { vfree_dma(table); return 1; } } fail: vfree_dma(table); return 0; } int sata_read_buffer(struct hba_port* port, uint64_t lba, void* buffer, uint32_t size) { return __sata_buffer_io(port, lba, buffer, size, 0); } int sata_write_buffer(struct hba_port* port, uint64_t lba, void* buffer, uint32_t size) { return __sata_buffer_io(port, lba, buffer, size, 1); } void sata_read_error(struct hba_port* port) { uint32_t tfd = port->regs[HBA_RPxTFD]; port->device->last_error = (tfd >> 8) & 0xff; }