#include <hal/ahci/hba.h>
#include <hal/ahci/sata.h>
#include <hal/ahci/scsi.h>
-#include <hal/ahci/utils.h>
#include <hal/pci.h>
#include <klibc/string.h>
+#include <lunaix/block.h>
#include <lunaix/mm/mmio.h>
#include <lunaix/mm/pmm.h>
#include <lunaix/mm/valloc.h>
static struct ahci_hba hba;
void
-__ahci_hba_isr(isr_param param);
+__ahci_hba_isr(const isr_param* param);
int
ahci_init_device(struct hba_port* port);
struct pci_device* ahci_dev = pci_get_device_by_class(AHCI_HBA_CLASS);
assert_msg(ahci_dev, "AHCI: Not found.");
- uintptr_t bar6, size;
- size = pci_bar_sizing(ahci_dev, &bar6, 6);
- assert_msg(bar6 && PCI_BAR_MMIO(bar6), "AHCI: BAR#6 is not MMIO.");
+ struct pci_base_addr* bar6 = &ahci_dev->bar[5];
+ assert_msg(bar6->type & BAR_TYPE_MMIO, "AHCI: BAR#6 is not MMIO.");
pci_reg_t cmd = pci_read_cspace(ahci_dev->cspace_base, PCI_REG_STATUS_CMD);
memset(&hba, 0, sizeof(hba));
- hba.base = (hba_reg_t*)ioremap(PCI_BAR_ADDR_MM(bar6), size);
+ hba.base = (hba_reg_t*)ioremap(bar6->start, bar6->size);
#ifdef DO_HBA_FULL_RESET
// 重置HBA
/* 初始化端口,并置于就绪状态 */
port_regs[HBA_RPxCI] = 0;
- // 需要通过全部置位去清空这些寄存器(相当的奇怪……)
- port_regs[HBA_RPxSERR] = -1;
-
- port_regs[HBA_RPxIE] |= (HBA_PxINTR_D2HR);
+ hba_clear_reg(port_regs[HBA_RPxSERR]);
hba.ports[i] = port;
port_regs[HBA_RPxCMD] |= HBA_PxCMD_ST;
if (!ahci_init_device(port)) {
- kprintf(KERROR "fail to init device");
+ kprintf(KERROR "init fail: 0x%x@p%d\n", port->regs[HBA_RPxSIG], i);
+ continue;
}
+
+ kprintf(KINFO "sata%d: %s, sector_size=%dB, sector=%d\n",
+ i,
+ port->device->model,
+ port->device->block_size,
+ (uint32_t)port->device->max_lba);
+
+ block_mount_disk(port->device);
}
}
"SATA III (6.0Gbps)" };
void
-__ahci_hba_isr(isr_param param)
+__ahci_hba_isr(const isr_param* param)
{
- // TODO: hba interrupt
- kprintf(KDEBUG "HBA INTR\n");
+ // TODO: clear the interrupt status
+ // TODO: I/O-operation scheduler should be here
+ // kprintf(KDEBUG "HBA INTR\n");
}
void
// 构建命令头(Command Header)和命令表(Command Table)
struct hba_cmdh* cmd_header = &port->cmdlst[slot];
- struct hba_cmdt* cmd_table = vcalloc_dma(sizeof(struct hba_cmdt));
+ struct hba_cmdt* cmd_table = vzalloc_dma(sizeof(struct hba_cmdt));
memset(cmd_header, 0, sizeof(*cmd_header));
struct hba_cmdt* cmd_table;
struct hba_cmdh* cmd_header;
- // 确保端口是空闲的
- wait_until(!(port->regs[HBA_RPxTFD] & (HBA_PxTFD_BSY)));
+ // mask DHR interrupt
+ port->regs[HBA_RPxIE] &= ~HBA_PxINTR_DHR;
// 预备DMA接收缓存,用于存放HBA传回的数据
uint16_t* data_in = (uint16_t*)valloc_dma(512);
int slot = hba_prepare_cmd(port, &cmd_table, &cmd_header, data_in, 512);
- // 清空任何待响应的中断
- port->regs[HBA_RPxIS] = 0;
port->device = vzalloc(sizeof(struct hba_device));
port->device->port = port;
sata_create_fis(cmd_fis, ATA_IDENTIFY_PAKCET_DEVICE, 0, 0);
}
- // PxCI寄存器置位,告诉HBA这儿有个数据需要发送到SATA端口
- port->regs[HBA_RPxCI] = (1 << slot);
-
- wait_until(!(port->regs[HBA_RPxCI] & (1 << slot)));
-
- if ((port->regs[HBA_RPxTFD] & HBA_PxTFD_ERR)) {
- // 有错误
- sata_read_error(port);
+ if (!ahci_try_send(port, slot)) {
goto fail;
}
* SATA AHCI HBA Spec, Section 5.3.7
* SCSI Command Reference Manual, Section 3.26
*/
- struct scsi_cdb16* cdb16 = (struct scsi_cdb16*)cmd_table->atapi_cmd;
sata_create_fis(cmd_fis, ATA_PACKET, 512 << 8, 0);
- scsi_create_packet16(cdb16, SCSI_READ_CAPACITY_16, 0, 512);
- cdb16->misc1 = 0x10; // service action
+ // for dev use 12 bytes cdb, READ_CAPACITY must use the 10 bytes variation.
+ if (port->device->cbd_size == SCSI_CDB12) {
+ struct scsi_cdb12* cdb12 = (struct scsi_cdb12*)cmd_table->atapi_cmd;
+ // ugly tricks to construct 10 byte cdb from 12 byte cdb
+ scsi_create_packet12(cdb12, SCSI_READ_CAPACITY_10, 0, 512 << 8);
+ } else {
+ struct scsi_cdb16* cdb16 = (struct scsi_cdb16*)cmd_table->atapi_cmd;
+ scsi_create_packet16(cdb16, SCSI_READ_CAPACITY_16, 0, 512);
+ cdb16->misc1 = 0x10; // service action
+ }
+
cmd_header->transferred_size = 0;
cmd_header->options |= HBA_CMDH_ATAPI;
- port->regs[HBA_RPxCI] = (1 << slot);
- wait_until(!(port->regs[HBA_RPxCI] & (1 << slot)));
-
- if ((port->regs[HBA_RPxTFD] & HBA_PxTFD_ERR)) {
- // 有错误
- sata_read_error(port);
+ if (!ahci_try_send(port, slot)) {
goto fail;
}
scsi_parse_capacity(port->device, (uint32_t*)data_in);
done:
+ // reset interrupt status and unmask D2HR interrupt
+ port->regs[HBA_RPxIE] |= HBA_PxINTR_DHR;
achi_register_ops(port);
vfree_dma(data_in);
return 1;
fail:
+ port->regs[HBA_RPxIE] |= HBA_PxINTR_DHR;
vfree_dma(data_in);
vfree_dma(cmd_table);
}
int
-ahci_identify_device(struct hba_port* port)
+ahci_identify_device(struct hba_device* device)
{
// 用于重新识别设备(比如在热插拔的情况下)
- vfree(port->device);
- return ahci_init_device(port);
+ vfree(device);
+ return ahci_init_device(device->port);
}
void
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