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|
/*
* Copyright (C) Freescale Semiconductor, Inc. 2006.
* Author: Jason Jin<Jason.jin@freescale.com>
* Zhang Wei<wei.zhang@freescale.com>
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
* with the reference on libata and ahci drvier in kernel
*
*/
#include <common.h>
#include <command.h>
#include <pci.h>
#include <asm/processor.h>
#include <asm/errno.h>
#include <asm/io.h>
#include <malloc.h>
#include <scsi.h>
#include <ata.h>
#include <linux/ctype.h>
#include <ahci.h>
static int ata_io_flush(u8 port);
struct ahci_probe_ent *probe_ent = NULL;
hd_driveid_t *ataid[AHCI_MAX_PORTS];
#define writel_with_flush(a,b) do { writel(a,b); readl(b); } while (0)
/*
* Some controllers limit number of blocks they can read/write at once.
* Contemporary SSD devices work much faster if the read/write size is aligned
* to a power of 2. Let's set default to 128 and allowing to be overwritten if
* needed.
*/
#ifndef MAX_SATA_BLOCKS_READ_WRITE
#define MAX_SATA_BLOCKS_READ_WRITE 0x80
#endif
/* Maximum timeouts for each event */
#define WAIT_MS_SPINUP 10000
#define WAIT_MS_DATAIO 5000
#define WAIT_MS_FLUSH 5000
#define WAIT_MS_LINKUP 4
static inline u32 ahci_port_base(u32 base, u32 port)
{
return base + 0x100 + (port * 0x80);
}
static void ahci_setup_port(struct ahci_ioports *port, unsigned long base,
unsigned int port_idx)
{
base = ahci_port_base(base, port_idx);
port->cmd_addr = base;
port->scr_addr = base + PORT_SCR;
}
#define msleep(a) udelay(a * 1000)
static void ahci_dcache_flush_range(unsigned begin, unsigned len)
{
const unsigned long start = begin;
const unsigned long end = start + len;
debug("%s: flush dcache: [%#lx, %#lx)\n", __func__, start, end);
flush_dcache_range(start, end);
}
/*
* SATA controller DMAs to physical RAM. Ensure data from the
* controller is invalidated from dcache; next access comes from
* physical RAM.
*/
static void ahci_dcache_invalidate_range(unsigned begin, unsigned len)
{
const unsigned long start = begin;
const unsigned long end = start + len;
debug("%s: invalidate dcache: [%#lx, %#lx)\n", __func__, start, end);
invalidate_dcache_range(start, end);
}
/*
* Ensure data for SATA controller is flushed out of dcache and
* written to physical memory.
*/
static void ahci_dcache_flush_sata_cmd(struct ahci_ioports *pp)
{
ahci_dcache_flush_range((unsigned long)pp->cmd_slot,
AHCI_PORT_PRIV_DMA_SZ);
}
static int waiting_for_cmd_completed(volatile u8 *offset,
int timeout_msec,
u32 sign)
{
int i;
u32 status;
for (i = 0; ((status = readl(offset)) & sign) && i < timeout_msec; i++)
msleep(1);
return (i < timeout_msec) ? 0 : -1;
}
static int ahci_host_init(struct ahci_probe_ent *probe_ent)
{
#ifndef CONFIG_SCSI_AHCI_PLAT
pci_dev_t pdev = probe_ent->dev;
u16 tmp16;
unsigned short vendor;
#endif
volatile u8 *mmio = (volatile u8 *)probe_ent->mmio_base;
u32 tmp, cap_save, cmd;
int i, j;
volatile u8 *port_mmio;
debug("ahci_host_init: start\n");
cap_save = readl(mmio + HOST_CAP);
cap_save &= ((1 << 28) | (1 << 17));
cap_save |= (1 << 27); /* Staggered Spin-up. Not needed. */
/* global controller reset */
tmp = readl(mmio + HOST_CTL);
if ((tmp & HOST_RESET) == 0)
writel_with_flush(tmp | HOST_RESET, mmio + HOST_CTL);
/* reset must complete within 1 second, or
* the hardware should be considered fried.
*/
i = 1000;
do {
udelay(1000);
tmp = readl(mmio + HOST_CTL);
if (!i--) {
debug("controller reset failed (0x%x)\n", tmp);
return -1;
}
} while (tmp & HOST_RESET);
writel_with_flush(HOST_AHCI_EN, mmio + HOST_CTL);
writel(cap_save, mmio + HOST_CAP);
writel_with_flush(0xf, mmio + HOST_PORTS_IMPL);
#ifndef CONFIG_SCSI_AHCI_PLAT
pci_read_config_word(pdev, PCI_VENDOR_ID, &vendor);
if (vendor == PCI_VENDOR_ID_INTEL) {
u16 tmp16;
pci_read_config_word(pdev, 0x92, &tmp16);
tmp16 |= 0xf;
pci_write_config_word(pdev, 0x92, tmp16);
}
#endif
probe_ent->cap = readl(mmio + HOST_CAP);
probe_ent->port_map = readl(mmio + HOST_PORTS_IMPL);
probe_ent->n_ports = (probe_ent->cap & 0x1f) + 1;
debug("cap 0x%x port_map 0x%x n_ports %d\n",
probe_ent->cap, probe_ent->port_map, probe_ent->n_ports);
if (probe_ent->n_ports > CONFIG_SYS_SCSI_MAX_SCSI_ID)
probe_ent->n_ports = CONFIG_SYS_SCSI_MAX_SCSI_ID;
for (i = 0; i < probe_ent->n_ports; i++) {
probe_ent->port[i].port_mmio = ahci_port_base((u32) mmio, i);
port_mmio = (u8 *) probe_ent->port[i].port_mmio;
ahci_setup_port(&probe_ent->port[i], (unsigned long)mmio, i);
/* make sure port is not active */
tmp = readl(port_mmio + PORT_CMD);
if (tmp & (PORT_CMD_LIST_ON | PORT_CMD_FIS_ON |
PORT_CMD_FIS_RX | PORT_CMD_START)) {
debug("Port %d is active. Deactivating.\n", i);
tmp &= ~(PORT_CMD_LIST_ON | PORT_CMD_FIS_ON |
PORT_CMD_FIS_RX | PORT_CMD_START);
writel_with_flush(tmp, port_mmio + PORT_CMD);
/* spec says 500 msecs for each bit, so
* this is slightly incorrect.
*/
msleep(500);
}
/* Add the spinup command to whatever mode bits may
* already be on in the command register.
*/
cmd = readl(port_mmio + PORT_CMD);
cmd |= PORT_CMD_FIS_RX;
cmd |= PORT_CMD_SPIN_UP;
writel_with_flush(cmd, port_mmio + PORT_CMD);
/* Bring up SATA link.
* SATA link bringup time is usually less than 1 ms; only very
* rarely has it taken between 1-2 ms. Never seen it above 2 ms.
*/
j = 0;
while (j < WAIT_MS_LINKUP) {
tmp = readl(port_mmio + PORT_SCR_STAT);
if ((tmp & 0xf) == 0x3)
break;
udelay(1000);
j++;
}
if (j == WAIT_MS_LINKUP) {
printf("SATA link %d timeout.\n", i);
continue;
} else {
debug("SATA link ok.\n");
}
/* Clear error status */
tmp = readl(port_mmio + PORT_SCR_ERR);
if (tmp)
writel(tmp, port_mmio + PORT_SCR_ERR);
debug("Spinning up device on SATA port %d... ", i);
j = 0;
while (j < WAIT_MS_SPINUP) {
tmp = readl(port_mmio + PORT_TFDATA);
if (!(tmp & (ATA_STAT_BUSY | ATA_STAT_DRQ)))
break;
udelay(1000);
j++;
}
printf("Target spinup took %d ms.\n", j);
if (j == WAIT_MS_SPINUP)
debug("timeout.\n");
else
debug("ok.\n");
tmp = readl(port_mmio + PORT_SCR_ERR);
debug("PORT_SCR_ERR 0x%x\n", tmp);
writel(tmp, port_mmio + PORT_SCR_ERR);
/* ack any pending irq events for this port */
tmp = readl(port_mmio + PORT_IRQ_STAT);
debug("PORT_IRQ_STAT 0x%x\n", tmp);
if (tmp)
writel(tmp, port_mmio + PORT_IRQ_STAT);
writel(1 << i, mmio + HOST_IRQ_STAT);
/* set irq mask (enables interrupts) */
writel(DEF_PORT_IRQ, port_mmio + PORT_IRQ_MASK);
/* register linkup ports */
tmp = readl(port_mmio + PORT_SCR_STAT);
debug("SATA port %d status: 0x%x\n", i, tmp);
if ((tmp & 0xf) == 0x03)
probe_ent->link_port_map |= (0x01 << i);
}
tmp = readl(mmio + HOST_CTL);
debug("HOST_CTL 0x%x\n", tmp);
writel(tmp | HOST_IRQ_EN, mmio + HOST_CTL);
tmp = readl(mmio + HOST_CTL);
debug("HOST_CTL 0x%x\n", tmp);
#ifndef CONFIG_SCSI_AHCI_PLAT
pci_read_config_word(pdev, PCI_COMMAND, &tmp16);
tmp |= PCI_COMMAND_MASTER;
pci_write_config_word(pdev, PCI_COMMAND, tmp16);
#endif
return 0;
}
static void ahci_print_info(struct ahci_probe_ent *probe_ent)
{
#ifndef CONFIG_SCSI_AHCI_PLAT
pci_dev_t pdev = probe_ent->dev;
u16 cc;
#endif
volatile u8 *mmio = (volatile u8 *)probe_ent->mmio_base;
u32 vers, cap, cap2, impl, speed;
const char *speed_s;
const char *scc_s;
vers = readl(mmio + HOST_VERSION);
cap = probe_ent->cap;
cap2 = readl(mmio + HOST_CAP2);
impl = probe_ent->port_map;
speed = (cap >> 20) & 0xf;
if (speed == 1)
speed_s = "1.5";
else if (speed == 2)
speed_s = "3";
else if (speed == 3)
speed_s = "6";
else
speed_s = "?";
#ifdef CONFIG_SCSI_AHCI_PLAT
scc_s = "SATA";
#else
pci_read_config_word(pdev, 0x0a, &cc);
if (cc == 0x0101)
scc_s = "IDE";
else if (cc == 0x0106)
scc_s = "SATA";
else if (cc == 0x0104)
scc_s = "RAID";
else
scc_s = "unknown";
#endif
printf("AHCI %02x%02x.%02x%02x "
"%u slots %u ports %s Gbps 0x%x impl %s mode\n",
(vers >> 24) & 0xff,
(vers >> 16) & 0xff,
(vers >> 8) & 0xff,
vers & 0xff,
((cap >> 8) & 0x1f) + 1, (cap & 0x1f) + 1, speed_s, impl, scc_s);
printf("flags: "
"%s%s%s%s%s%s%s"
"%s%s%s%s%s%s%s"
"%s%s%s%s%s%s\n",
cap & (1 << 31) ? "64bit " : "",
cap & (1 << 30) ? "ncq " : "",
cap & (1 << 28) ? "ilck " : "",
cap & (1 << 27) ? "stag " : "",
cap & (1 << 26) ? "pm " : "",
cap & (1 << 25) ? "led " : "",
cap & (1 << 24) ? "clo " : "",
cap & (1 << 19) ? "nz " : "",
cap & (1 << 18) ? "only " : "",
cap & (1 << 17) ? "pmp " : "",
cap & (1 << 16) ? "fbss " : "",
cap & (1 << 15) ? "pio " : "",
cap & (1 << 14) ? "slum " : "",
cap & (1 << 13) ? "part " : "",
cap & (1 << 7) ? "ccc " : "",
cap & (1 << 6) ? "ems " : "",
cap & (1 << 5) ? "sxs " : "",
cap2 & (1 << 2) ? "apst " : "",
cap2 & (1 << 1) ? "nvmp " : "",
cap2 & (1 << 0) ? "boh " : "");
}
#ifndef CONFIG_SCSI_AHCI_PLAT
static int ahci_init_one(pci_dev_t pdev)
{
u16 vendor;
int rc;
memset((void *)ataid, 0, sizeof(hd_driveid_t *) * AHCI_MAX_PORTS);
probe_ent = malloc(sizeof(struct ahci_probe_ent));
memset(probe_ent, 0, sizeof(struct ahci_probe_ent));
probe_ent->dev = pdev;
probe_ent->host_flags = ATA_FLAG_SATA
| ATA_FLAG_NO_LEGACY
| ATA_FLAG_MMIO
| ATA_FLAG_PIO_DMA
| ATA_FLAG_NO_ATAPI;
probe_ent->pio_mask = 0x1f;
probe_ent->udma_mask = 0x7f; /*Fixme,assume to support UDMA6 */
pci_read_config_dword(pdev, PCI_BASE_ADDRESS_5, &probe_ent->mmio_base);
debug("ahci mmio_base=0x%08x\n", probe_ent->mmio_base);
/* Take from kernel:
* JMicron-specific fixup:
* make sure we're in AHCI mode
*/
pci_read_config_word(pdev, PCI_VENDOR_ID, &vendor);
if (vendor == 0x197b)
pci_write_config_byte(pdev, 0x41, 0xa1);
/* initialize adapter */
rc = ahci_host_init(probe_ent);
if (rc)
goto err_out;
ahci_print_info(probe_ent);
return 0;
err_out:
return rc;
}
#endif
#define MAX_DATA_BYTE_COUNT (4*1024*1024)
static int ahci_fill_sg(u8 port, unsigned char *buf, int buf_len)
{
struct ahci_ioports *pp = &(probe_ent->port[port]);
struct ahci_sg *ahci_sg = pp->cmd_tbl_sg;
u32 sg_count;
int i;
sg_count = ((buf_len - 1) / MAX_DATA_BYTE_COUNT) + 1;
if (sg_count > AHCI_MAX_SG) {
printf("Error:Too much sg!\n");
return -1;
}
for (i = 0; i < sg_count; i++) {
ahci_sg->addr =
cpu_to_le32((u32) buf + i * MAX_DATA_BYTE_COUNT);
ahci_sg->addr_hi = 0;
ahci_sg->flags_size = cpu_to_le32(0x3fffff &
(buf_len < MAX_DATA_BYTE_COUNT
? (buf_len - 1)
: (MAX_DATA_BYTE_COUNT - 1)));
ahci_sg++;
buf_len -= MAX_DATA_BYTE_COUNT;
}
return sg_count;
}
static void ahci_fill_cmd_slot(struct ahci_ioports *pp, u32 opts)
{
pp->cmd_slot->opts = cpu_to_le32(opts);
pp->cmd_slot->status = 0;
pp->cmd_slot->tbl_addr = cpu_to_le32(pp->cmd_tbl & 0xffffffff);
pp->cmd_slot->tbl_addr_hi = 0;
}
#ifdef CONFIG_AHCI_SETFEATURES_XFER
static void ahci_set_feature(u8 port)
{
struct ahci_ioports *pp = &(probe_ent->port[port]);
volatile u8 *port_mmio = (volatile u8 *)pp->port_mmio;
u32 cmd_fis_len = 5; /* five dwords */
u8 fis[20];
/* set feature */
memset(fis, 0, sizeof(fis));
fis[0] = 0x27;
fis[1] = 1 << 7;
fis[2] = ATA_CMD_SETF;
fis[3] = SETFEATURES_XFER;
fis[12] = __ilog2(probe_ent->udma_mask + 1) + 0x40 - 0x01;
memcpy((unsigned char *)pp->cmd_tbl, fis, sizeof(fis));
ahci_fill_cmd_slot(pp, cmd_fis_len);
ahci_dcache_flush_sata_cmd(pp);
writel(1, port_mmio + PORT_CMD_ISSUE);
readl(port_mmio + PORT_CMD_ISSUE);
if (waiting_for_cmd_completed(port_mmio + PORT_CMD_ISSUE,
WAIT_MS_DATAIO, 0x1)) {
printf("set feature error on port %d!\n", port);
}
}
#endif
static int ahci_port_start(u8 port)
{
struct ahci_ioports *pp = &(probe_ent->port[port]);
volatile u8 *port_mmio = (volatile u8 *)pp->port_mmio;
u32 port_status;
u32 mem;
debug("Enter start port: %d\n", port);
port_status = readl(port_mmio + PORT_SCR_STAT);
debug("Port %d status: %x\n", port, port_status);
if ((port_status & 0xf) != 0x03) {
printf("No Link on this port!\n");
return -1;
}
mem = (u32) malloc(AHCI_PORT_PRIV_DMA_SZ + 2048);
if (!mem) {
free(pp);
printf("No mem for table!\n");
return -ENOMEM;
}
mem = (mem + 0x800) & (~0x7ff); /* Aligned to 2048-bytes */
memset((u8 *) mem, 0, AHCI_PORT_PRIV_DMA_SZ);
/*
* First item in chunk of DMA memory: 32-slot command table,
* 32 bytes each in size
*/
pp->cmd_slot =
(struct ahci_cmd_hdr *)(uintptr_t)virt_to_phys((void *)mem);
debug("cmd_slot = 0x%x\n", (unsigned)pp->cmd_slot);
mem += (AHCI_CMD_SLOT_SZ + 224);
/*
* Second item: Received-FIS area
*/
pp->rx_fis = virt_to_phys((void *)mem);
mem += AHCI_RX_FIS_SZ;
/*
* Third item: data area for storing a single command
* and its scatter-gather table
*/
pp->cmd_tbl = virt_to_phys((void *)mem);
debug("cmd_tbl_dma = 0x%x\n", pp->cmd_tbl);
mem += AHCI_CMD_TBL_HDR;
pp->cmd_tbl_sg =
(struct ahci_sg *)(uintptr_t)virt_to_phys((void *)mem);
writel_with_flush((u32) pp->cmd_slot, port_mmio + PORT_LST_ADDR);
writel_with_flush(pp->rx_fis, port_mmio + PORT_FIS_ADDR);
writel_with_flush(PORT_CMD_ICC_ACTIVE | PORT_CMD_FIS_RX |
PORT_CMD_POWER_ON | PORT_CMD_SPIN_UP |
PORT_CMD_START, port_mmio + PORT_CMD);
debug("Exit start port %d\n", port);
return 0;
}
static int ahci_device_data_io(u8 port, u8 *fis, int fis_len, u8 *buf,
int buf_len, u8 is_write)
{
struct ahci_ioports *pp = &(probe_ent->port[port]);
volatile u8 *port_mmio = (volatile u8 *)pp->port_mmio;
u32 opts;
u32 port_status;
int sg_count;
debug("Enter %s: for port %d\n", __func__, port);
if (port > probe_ent->n_ports) {
printf("Invalid port number %d\n", port);
return -1;
}
port_status = readl(port_mmio + PORT_SCR_STAT);
if ((port_status & 0xf) != 0x03) {
debug("No Link on port %d!\n", port);
return -1;
}
memcpy((unsigned char *)pp->cmd_tbl, fis, fis_len);
sg_count = ahci_fill_sg(port, buf, buf_len);
opts = (fis_len >> 2) | (sg_count << 16) | (is_write << 6);
ahci_fill_cmd_slot(pp, opts);
ahci_dcache_flush_sata_cmd(pp);
ahci_dcache_flush_range((unsigned)buf, (unsigned)buf_len);
writel_with_flush(1, port_mmio + PORT_CMD_ISSUE);
if (waiting_for_cmd_completed(port_mmio + PORT_CMD_ISSUE,
WAIT_MS_DATAIO, 0x1)) {
printf("timeout exit!\n");
return -1;
}
ahci_dcache_invalidate_range((unsigned)buf, (unsigned)buf_len);
debug("%s: %d byte transferred.\n", __func__, pp->cmd_slot->status);
return 0;
}
static char *ata_id_strcpy(u16 *target, u16 *src, int len)
{
int i;
for (i = 0; i < len / 2; i++)
target[i] = swab16(src[i]);
return (char *)target;
}
static void dump_ataid(hd_driveid_t *ataid)
{
debug("(49)ataid->capability = 0x%x\n", ataid->capability);
debug("(53)ataid->field_valid =0x%x\n", ataid->field_valid);
debug("(63)ataid->dma_mword = 0x%x\n", ataid->dma_mword);
debug("(64)ataid->eide_pio_modes = 0x%x\n", ataid->eide_pio_modes);
debug("(75)ataid->queue_depth = 0x%x\n", ataid->queue_depth);
debug("(80)ataid->major_rev_num = 0x%x\n", ataid->major_rev_num);
debug("(81)ataid->minor_rev_num = 0x%x\n", ataid->minor_rev_num);
debug("(82)ataid->command_set_1 = 0x%x\n", ataid->command_set_1);
debug("(83)ataid->command_set_2 = 0x%x\n", ataid->command_set_2);
debug("(84)ataid->cfsse = 0x%x\n", ataid->cfsse);
debug("(85)ataid->cfs_enable_1 = 0x%x\n", ataid->cfs_enable_1);
debug("(86)ataid->cfs_enable_2 = 0x%x\n", ataid->cfs_enable_2);
debug("(87)ataid->csf_default = 0x%x\n", ataid->csf_default);
debug("(88)ataid->dma_ultra = 0x%x\n", ataid->dma_ultra);
debug("(93)ataid->hw_config = 0x%x\n", ataid->hw_config);
}
/*
* SCSI INQUIRY command operation.
*/
static int ata_scsiop_inquiry(ccb *pccb)
{
u8 hdr[] = {
0,
0,
0x5, /* claim SPC-3 version compatibility */
2,
95 - 4,
};
u8 fis[20];
u8 *tmpid;
u8 port;
/* Clean ccb data buffer */
memset(pccb->pdata, 0, pccb->datalen);
memcpy(pccb->pdata, hdr, sizeof(hdr));
if (pccb->datalen <= 35)
return 0;
memset(fis, 0, sizeof(fis));
/* Construct the FIS */
fis[0] = 0x27; /* Host to device FIS. */
fis[1] = 1 << 7; /* Command FIS. */
fis[2] = ATA_CMD_IDENT; /* Command byte. */
/* Read id from sata */
port = pccb->target;
if (!(tmpid = malloc(sizeof(hd_driveid_t))))
return -ENOMEM;
if (ahci_device_data_io(port, (u8 *) &fis, sizeof(fis), tmpid,
sizeof(hd_driveid_t), 0)) {
debug("scsi_ahci: SCSI inquiry command failure.\n");
return -EIO;
}
if (ataid[port])
free(ataid[port]);
ataid[port] = (hd_driveid_t *) tmpid;
memcpy(&pccb->pdata[8], "ATA ", 8);
ata_id_strcpy((u16 *) &pccb->pdata[16], (u16 *)ataid[port]->model, 16);
ata_id_strcpy((u16 *) &pccb->pdata[32], (u16 *)ataid[port]->fw_rev, 4);
dump_ataid(ataid[port]);
return 0;
}
/*
* SCSI READ10/WRITE10 command operation.
*/
static int ata_scsiop_read_write(ccb *pccb, u8 is_write)
{
u32 lba = 0;
u16 blocks = 0;
u8 fis[20];
u8 *user_buffer = pccb->pdata;
u32 user_buffer_size = pccb->datalen;
/* Retrieve the base LBA number from the ccb structure. */
memcpy(&lba, pccb->cmd + 2, sizeof(lba));
lba = be32_to_cpu(lba);
/*
* And the number of blocks.
*
* For 10-byte and 16-byte SCSI R/W commands, transfer
* length 0 means transfer 0 block of data.
* However, for ATA R/W commands, sector count 0 means
* 256 or 65536 sectors, not 0 sectors as in SCSI.
*
* WARNING: one or two older ATA drives treat 0 as 0...
*/
blocks = (((u16)pccb->cmd[7]) << 8) | ((u16) pccb->cmd[8]);
debug("scsi_ahci: %s %d blocks starting from lba 0x%x\n",
is_write ? "write" : "read", (unsigned)lba, blocks);
/* Preset the FIS */
memset(fis, 0, sizeof(fis));
fis[0] = 0x27; /* Host to device FIS. */
fis[1] = 1 << 7; /* Command FIS. */
/* Command byte (read/write). */
fis[2] = is_write ? ATA_CMD_WR_DMA : ATA_CMD_RD_DMA;
while (blocks) {
u16 now_blocks; /* number of blocks per iteration */
u32 transfer_size; /* number of bytes per iteration */
now_blocks = min(MAX_SATA_BLOCKS_READ_WRITE, blocks);
transfer_size = ATA_BLOCKSIZE * now_blocks;
if (transfer_size > user_buffer_size) {
printf("scsi_ahci: Error: buffer too small.\n");
return -EIO;
}
/* LBA address, only support LBA28 in this driver */
fis[4] = (lba >> 0) & 0xff;
fis[5] = (lba >> 8) & 0xff;
fis[6] = (lba >> 16) & 0xff;
fis[7] = ((lba >> 24) & 0xf) | 0xe0;
/* Block (sector) count */
fis[12] = (now_blocks >> 0) & 0xff;
fis[13] = (now_blocks >> 8) & 0xff;
/* Read/Write from ahci */
if (ahci_device_data_io(pccb->target, (u8 *) &fis, sizeof(fis),
user_buffer, user_buffer_size,
is_write)) {
debug("scsi_ahci: SCSI %s10 command failure.\n",
is_write ? "WRITE" : "READ");
return -EIO;
}
/* If this transaction is a write, do a following flush.
* Writes in u-boot are so rare, and the logic to know when is
* the last write and do a flush only there is sufficiently
* difficult. Just do a flush after every write. This incurs,
* usually, one extra flush when the rare writes do happen.
*/
if (is_write) {
if (-EIO == ata_io_flush(pccb->target))
return -EIO;
}
user_buffer += transfer_size;
user_buffer_size -= transfer_size;
blocks -= now_blocks;
lba += now_blocks;
}
return 0;
}
/*
* SCSI READ CAPACITY10 command operation.
*/
static int ata_scsiop_read_capacity10(ccb *pccb)
{
u32 cap;
u32 block_size;
if (!ataid[pccb->target]) {
printf("scsi_ahci: SCSI READ CAPACITY10 command failure. "
"\tNo ATA info!\n"
"\tPlease run SCSI commmand INQUIRY firstly!\n");
return -EPERM;
}
cap = le32_to_cpu(ataid[pccb->target]->lba_capacity);
if (cap == 0xfffffff) {
unsigned short *cap48 = ataid[pccb->target]->lba48_capacity;
if (cap48[2] || cap48[3]) {
cap = 0xffffffff;
} else {
cap = (le16_to_cpu(cap48[1]) << 16) |
(le16_to_cpu(cap48[0]));
}
}
cap = cpu_to_be32(cap);
memcpy(pccb->pdata, &cap, sizeof(cap));
block_size = cpu_to_be32((u32)512);
memcpy(&pccb->pdata[4], &block_size, 4);
return 0;
}
/*
* SCSI READ CAPACITY16 command operation.
*/
static int ata_scsiop_read_capacity16(ccb *pccb)
{
u64 cap;
u64 block_size;
if (!ataid[pccb->target]) {
printf("scsi_ahci: SCSI READ CAPACITY16 command failure. "
"\tNo ATA info!\n"
"\tPlease run SCSI commmand INQUIRY firstly!\n");
return -EPERM;
}
cap = le32_to_cpu(ataid[pccb->target]->lba_capacity);
if (cap == 0xfffffff) {
memcpy(&cap, ataid[pccb->target]->lba48_capacity, sizeof(cap));
cap = le64_to_cpu(cap);
}
cap = cpu_to_be64(cap);
memcpy(pccb->pdata, &cap, sizeof(cap));
block_size = cpu_to_be64((u64)512);
memcpy(&pccb->pdata[8], &block_size, 8);
return 0;
}
/*
* SCSI TEST UNIT READY command operation.
*/
static int ata_scsiop_test_unit_ready(ccb *pccb)
{
return (ataid[pccb->target]) ? 0 : -EPERM;
}
int scsi_exec(ccb *pccb)
{
int ret;
switch (pccb->cmd[0]) {
case SCSI_READ10:
ret = ata_scsiop_read_write(pccb, 0);
break;
case SCSI_WRITE10:
ret = ata_scsiop_read_write(pccb, 1);
break;
case SCSI_RD_CAPAC10:
ret = ata_scsiop_read_capacity10(pccb);
break;
case SCSI_RD_CAPAC16:
ret = ata_scsiop_read_capacity16(pccb);
break;
case SCSI_TST_U_RDY:
ret = ata_scsiop_test_unit_ready(pccb);
break;
case SCSI_INQUIRY:
ret = ata_scsiop_inquiry(pccb);
break;
default:
printf("Unsupport SCSI command 0x%02x\n", pccb->cmd[0]);
return FALSE;
}
if (ret) {
debug("SCSI command 0x%02x ret errno %d\n", pccb->cmd[0], ret);
return FALSE;
}
return TRUE;
}
void scsi_low_level_init(int busdevfunc)
{
int i;
u32 linkmap;
#ifndef CONFIG_SCSI_AHCI_PLAT
ahci_init_one(busdevfunc);
#endif
linkmap = probe_ent->link_port_map;
for (i = 0; i < CONFIG_SYS_SCSI_MAX_SCSI_ID; i++) {
if (((linkmap >> i) & 0x01)) {
if (ahci_port_start((u8) i)) {
printf("Can not start port %d\n", i);
continue;
}
#ifdef CONFIG_AHCI_SETFEATURES_XFER
ahci_set_feature((u8) i);
#endif
}
}
}
#ifdef CONFIG_SCSI_AHCI_PLAT
int ahci_init(u32 base)
{
int i, rc = 0;
u32 linkmap;
memset(ataid, 0, sizeof(ataid));
probe_ent = malloc(sizeof(struct ahci_probe_ent));
memset(probe_ent, 0, sizeof(struct ahci_probe_ent));
probe_ent->host_flags = ATA_FLAG_SATA
| ATA_FLAG_NO_LEGACY
| ATA_FLAG_MMIO
| ATA_FLAG_PIO_DMA
| ATA_FLAG_NO_ATAPI;
probe_ent->pio_mask = 0x1f;
probe_ent->udma_mask = 0x7f; /*Fixme,assume to support UDMA6 */
probe_ent->mmio_base = base;
/* initialize adapter */
rc = ahci_host_init(probe_ent);
if (rc)
goto err_out;
ahci_print_info(probe_ent);
linkmap = probe_ent->link_port_map;
for (i = 0; i < CONFIG_SYS_SCSI_MAX_SCSI_ID; i++) {
if (((linkmap >> i) & 0x01)) {
if (ahci_port_start((u8) i)) {
printf("Can not start port %d\n", i);
continue;
}
#ifdef CONFIG_AHCI_SETFEATURES_XFER
ahci_set_feature((u8) i);
#endif
}
}
err_out:
return rc;
}
#endif
/*
* In the general case of generic rotating media it makes sense to have a
* flush capability. It probably even makes sense in the case of SSDs because
* one cannot always know for sure what kind of internal cache/flush mechanism
* is embodied therein. At first it was planned to invoke this after the last
* write to disk and before rebooting. In practice, knowing, a priori, which
* is the last write is difficult. Because writing to the disk in u-boot is
* very rare, this flush command will be invoked after every block write.
*/
static int ata_io_flush(u8 port)
{
u8 fis[20];
struct ahci_ioports *pp = &(probe_ent->port[port]);
volatile u8 *port_mmio = (volatile u8 *)pp->port_mmio;
u32 cmd_fis_len = 5; /* five dwords */
/* Preset the FIS */
memset(fis, 0, 20);
fis[0] = 0x27; /* Host to device FIS. */
fis[1] = 1 << 7; /* Command FIS. */
fis[2] = ATA_CMD_FLUSH;
memcpy((unsigned char *)pp->cmd_tbl, fis, 20);
ahci_fill_cmd_slot(pp, cmd_fis_len);
writel_with_flush(1, port_mmio + PORT_CMD_ISSUE);
if (waiting_for_cmd_completed(port_mmio + PORT_CMD_ISSUE,
WAIT_MS_FLUSH, 0x1)) {
debug("scsi_ahci: flush command timeout on port %d.\n", port);
return -EIO;
}
return 0;
}
void scsi_bus_reset(void)
{
/*Not implement*/
}
void scsi_print_error(ccb * pccb)
{
/*The ahci error info can be read in the ahci driver*/
}
|