#pragma once #include #include #include /** * @todo 加入io调度器(当操作系统实现了多进程之后要加入这个) * */ #define AHCI_MAPPING_BASE SPECIAL_MEMOEY_MAPPING_VIRT_ADDR_BASE + AHCI_MAPPING_OFFSET #define MAX_AHCI_DEVICES 100 #define HBA_PxCMD_ST 0x0001 #define HBA_PxCMD_FRE 0x0010 #define HBA_PxCMD_FR 0x4000 #define HBA_PxCMD_CR 0x8000 #define AHCI_DEV_BUSY 0x80 #define AHCI_DEV_DRQ 0x08 #define AHCI_CMD_READ_DMA_EXT 0x25 #define AHCI_CMD_WRITE_DMA_EXT 0x30 #define HBA_PxIS_TFES (1 << 30) /* TFES - Task File Error Status */ #define AHCI_SUCCESS 0 // 请求成功 #define E_NOEMPTYSLOT 1 // 没有空闲的slot #define E_PORT_HUNG 2 // 端口被挂起 #define E_TASK_FILE_ERROR 3 // 任务文件错误 #define E_UNSUPPORTED_CMD 4 // 不支持的命令 extern struct block_device_operation ahci_operation; /** * @brief 在SATA3.0规范中定义的Frame Information Structure类型 * */ typedef enum { FIS_TYPE_REG_H2D = 0x27, // Register FIS - host to device FIS_TYPE_REG_D2H = 0x34, // Register FIS - device to host FIS_TYPE_DMA_ACT = 0x39, // DMA activate FIS - device to host FIS_TYPE_DMA_SETUP = 0x41, // DMA setup FIS - bidirectional FIS_TYPE_DATA = 0x46, // Data FIS - bidirectional FIS_TYPE_BIST = 0x58, // BIST activate FIS - bidirectional FIS_TYPE_PIO_SETUP = 0x5F, // PIO setup FIS - device to host FIS_TYPE_DEV_BITS = 0xA1, // Set device bits FIS - device to host } FIS_TYPE; /** * @brief FIS_REG_H2D 被用于从主机向设备发送控制命令 * 注意:reserved bit应当被清零 */ typedef struct tagFIS_REG_H2D { // DWORD 0 uint8_t fis_type; // FIS_TYPE_REG_H2D uint8_t pmport : 4; // Port multiplier uint8_t rsv0 : 3; // Reserved uint8_t c : 1; // 1: Command, 0: Control uint8_t command; // Command register uint8_t featurel; // Feature register, 7:0 // DWORD 1 uint8_t lba0; // LBA low register, 7:0 uint8_t lba1; // LBA mid register, 15:8 uint8_t lba2; // LBA high register, 23:16 uint8_t device; // Device register // DWORD 2 uint8_t lba3; // LBA register, 31:24 uint8_t lba4; // LBA register, 39:32 uint8_t lba5; // LBA register, 47:40 uint8_t featureh; // Feature register, 15:8 // DWORD 3 uint8_t countl; // Count register, 7:0 uint8_t counth; // Count register, 15:8 uint8_t icc; // Isochronous command completion uint8_t control; // Control register // DWORD 4 uint8_t rsv1[4]; // Reserved } FIS_REG_H2D; // A device to host register FIS is used by the device to notify the host that some ATA register has changed. // It contains the updated task files such as status, error and other registers. typedef struct tagFIS_REG_D2H { // DWORD 0 uint8_t fis_type; // FIS_TYPE_REG_D2H uint8_t pmport : 4; // Port multiplier uint8_t rsv0 : 2; // Reserved uint8_t i : 1; // Interrupt bit uint8_t rsv1 : 1; // Reserved uint8_t status; // Status register uint8_t error; // Error register // DWORD 1 uint8_t lba0; // LBA low register, 7:0 uint8_t lba1; // LBA mid register, 15:8 uint8_t lba2; // LBA high register, 23:16 uint8_t device; // Device register // DWORD 2 uint8_t lba3; // LBA register, 31:24 uint8_t lba4; // LBA register, 39:32 uint8_t lba5; // LBA register, 47:40 uint8_t rsv2; // Reserved // DWORD 3 uint8_t countl; // Count register, 7:0 uint8_t counth; // Count register, 15:8 uint8_t rsv3[2]; // Reserved // DWORD 4 uint8_t rsv4[4]; // Reserved } FIS_REG_D2H; // This FIS is used by the host or device to send data payload. The data size can be varied. typedef struct tagFIS_DATA { // DWORD 0 uint8_t fis_type; // FIS_TYPE_DATA uint8_t pmport : 4; // Port multiplier uint8_t rsv0 : 4; // Reserved uint8_t rsv1[2]; // Reserved // DWORD 1 ~ N uint32_t data[1]; // Payload } FIS_DATA; // This FIS is used by the device to tell the host that it’s about to send or ready to receive a PIO data payload. typedef struct tagFIS_PIO_SETUP { // DWORD 0 uint8_t fis_type; // FIS_TYPE_PIO_SETUP uint8_t pmport : 4; // Port multiplier uint8_t rsv0 : 1; // Reserved uint8_t d : 1; // Data transfer direction, 1 - device to host uint8_t i : 1; // Interrupt bit uint8_t rsv1 : 1; uint8_t status; // Status register uint8_t error; // Error register // DWORD 1 uint8_t lba0; // LBA low register, 7:0 uint8_t lba1; // LBA mid register, 15:8 uint8_t lba2; // LBA high register, 23:16 uint8_t device; // Device register // DWORD 2 uint8_t lba3; // LBA register, 31:24 uint8_t lba4; // LBA register, 39:32 uint8_t lba5; // LBA register, 47:40 uint8_t rsv2; // Reserved // DWORD 3 uint8_t countl; // Count register, 7:0 uint8_t counth; // Count register, 15:8 uint8_t rsv3; // Reserved uint8_t e_status; // New value of status register // DWORD 4 uint16_t tc; // Transfer count uint8_t rsv4[2]; // Reserved } FIS_PIO_SETUP; typedef struct tagFIS_DMA_SETUP { // DWORD 0 uint8_t fis_type; // FIS_TYPE_DMA_SETUP uint8_t pmport : 4; // Port multiplier uint8_t rsv0 : 1; // Reserved uint8_t d : 1; // Data transfer direction, 1 - device to host uint8_t i : 1; // Interrupt bit uint8_t a : 1; // Auto-activate. Specifies if DMA Activate FIS is needed uint8_t rsved[2]; // Reserved // DWORD 1&2 uint64_t DMAbufferID; // DMA Buffer Identifier. Used to Identify DMA buffer in host memory. // SATA Spec says host specific and not in Spec. Trying AHCI spec might work. // DWORD 3 uint32_t rsvd; // More reserved // DWORD 4 uint32_t DMAbufOffset; // Byte offset into buffer. First 2 bits must be 0 // DWORD 5 uint32_t TransferCount; // Number of bytes to transfer. Bit 0 must be 0 // DWORD 6 uint32_t resvd; // Reserved } FIS_DMA_SETUP; typedef volatile struct tagHBA_PORT { uint64_t clb; // 0x00, command list base address, 1K-byte aligned uint64_t fb; // 0x08, FIS base address, 256-byte aligned uint32_t is; // 0x10, interrupt status uint32_t ie; // 0x14, interrupt enable uint32_t cmd; // 0x18, command and status uint32_t rsv0; // 0x1C, Reserved uint32_t tfd; // 0x20, task file data uint32_t sig; // 0x24, signature uint32_t ssts; // 0x28, SATA status (SCR0:SStatus) uint32_t sctl; // 0x2C, SATA control (SCR2:SControl) uint32_t serr; // 0x30, SATA error (SCR1:SError) uint32_t sact; // 0x34, SATA active (SCR3:SActive) uint32_t ci; // 0x38, command issue uint32_t sntf; // 0x3C, SATA notification (SCR4:SNotification) uint32_t fbs; // 0x40, FIS-based switch control uint32_t rsv1[11]; // 0x44 ~ 0x6F, Reserved uint32_t vendor[4]; // 0x70 ~ 0x7F, vendor specific } HBA_PORT; typedef volatile struct tagHBA_MEM { // 0x00 - 0x2B, Generic Host Control uint32_t cap; // 0x00, Host capability uint32_t ghc; // 0x04, Global host control uint32_t is; // 0x08, Interrupt status uint32_t pi; // 0x0C, Port implemented uint32_t vs; // 0x10, Version uint32_t ccc_ctl; // 0x14, Command completion coalescing control uint32_t ccc_pts; // 0x18, Command completion coalescing ports uint32_t em_loc; // 0x1C, Enclosure management location uint32_t em_ctl; // 0x20, Enclosure management control uint32_t cap2; // 0x24, Host capabilities extended uint32_t bohc; // 0x28, BIOS/OS handoff control and status // 0x2C - 0x9F, Reserved uint8_t rsv[0xA0 - 0x2C]; // 0xA0 - 0xFF, Vendor specific registers uint8_t vendor[0x100 - 0xA0]; // 0x100 - 0x10FF, Port control registers HBA_PORT ports[32]; // 1 ~ 32 } HBA_MEM; // There are four kinds of FIS which may be sent to the host by the device as indicated in the following structure declaration. // typedef volatile struct tagHBA_FIS { // 0x00 FIS_DMA_SETUP dsfis; // DMA Setup FIS uint8_t pad0[4]; // 0x20 FIS_PIO_SETUP psfis; // PIO Setup FIS uint8_t pad1[12]; // 0x40 FIS_REG_D2H rfis; // Register – Device to Host FIS uint8_t pad2[4]; // 0x58 // FIS_DEV_BITS sdbfis; // Set Device Bit FIS // 0x60 uint8_t ufis[64]; // 0xA0 uint8_t rsv[0x100 - 0xA0]; } HBA_FIS; typedef struct tagHBA_CMD_HEADER { // DW0 uint8_t cfl : 5; // Command FIS length in DWORDS, 2 ~ 16 uint8_t a : 1; // ATAPI uint8_t w : 1; // Write, 1: H2D, 0: D2H uint8_t p : 1; // Prefetchable uint8_t r : 1; // Reset uint8_t b : 1; // BIST uint8_t c : 1; // Clear busy upon R_OK uint8_t rsv0 : 1; // Reserved uint8_t pmp : 4; // Port multiplier port uint16_t prdtl; // Physical region descriptor table length in entries // DW1 volatile uint32_t prdbc; // Physical region descriptor byte count transferred // DW2, 3 uint64_t ctba; // Command table descriptor base address // DW4 - 7 uint32_t rsv1[4]; // Reserved } HBA_CMD_HEADER; typedef struct tagHBA_PRDT_ENTRY { uint64_t dba; // Data base address uint32_t rsv0; // Reserved // DW3 uint32_t dbc : 22; // Byte count, 4M max uint32_t rsv1 : 9; // Reserved uint32_t i : 1; // Interrupt on completion } HBA_PRDT_ENTRY; typedef struct tagHBA_CMD_TBL { // 0x00 uint8_t cfis[64]; // Command FIS // 0x40 uint8_t acmd[16]; // ATAPI command, 12 or 16 bytes // 0x50 uint8_t rsv[48]; // Reserved // 0x80 HBA_PRDT_ENTRY prdt_entry[1]; // Physical region descriptor table entries, 0 ~ 65535 } HBA_CMD_TBL; struct ahci_device_t { uint32_t type; // 设备类型 struct pci_device_structure_header_t *dev_struct; HBA_MEM *hba_mem; } ahci_devices[MAX_AHCI_DEVICES]; #define SATA_SIG_ATA 0x00000101 // SATA drive #define SATA_SIG_ATAPI 0xEB140101 // SATAPI drive #define SATA_SIG_SEMB 0xC33C0101 // Enclosure management bridge #define SATA_SIG_PM 0x96690101 // Port multiplier #define AHCI_DEV_NULL 0 #define AHCI_DEV_SATA 1 #define AHCI_DEV_SEMB 2 #define AHCI_DEV_PM 3 #define AHCI_DEV_SATAPI 4 #define HBA_PORT_IPM_ACTIVE 1 #define HBA_PORT_DET_PRESENT 3 struct ahci_request_packet_t { struct block_device_request_packet blk_pak; // 块设备请求包 uint8_t ahci_ctrl_num; // ahci控制器号, 默认应为0 uint8_t port_num; // ahci的设备端口号 }; /** * @brief 初始化ahci模块 * */ extern void ahci_init();