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|
// SPDX-License-Identifier: GPL-2.0+
/*
* NXP PPC SATA platform driver
*
* (C) Copyright 2019 NXP, Inc.
*
*/
#include <common.h>
#include <cpu_func.h>
#include <asm/fsl_serdes.h>
#include <dm/lists.h>
#include <dm.h>
#include <ahci.h>
#include <scsi.h>
#include <libata.h>
#include <sata.h>
#include <malloc.h>
#include <memalign.h>
#include <fis.h>
#include "fsl_sata.h"
struct fsl_ahci_priv {
u32 base;
u32 flag;
u32 number;
fsl_sata_t *fsl_sata;
};
static int fsl_ahci_bind(struct udevice *dev)
{
return device_bind_driver(dev, "fsl_ahci_scsi", "fsl_ahci_scsi", NULL);
}
static int fsl_ahci_ofdata_to_platdata(struct udevice *dev)
{
struct fsl_ahci_priv *priv = dev_get_priv(dev);
priv->number = dev_read_u32_default(dev, "sata-number", -1);
priv->flag = dev_read_u32_default(dev, "sata-fpdma", -1);
priv->base = dev_read_addr(dev);
if (priv->base == FDT_ADDR_T_NONE)
return -EINVAL;
return 0;
}
static int ata_wait_register(unsigned __iomem *addr, u32 mask,
u32 val, u32 timeout_msec)
{
int i;
for (i = 0; ((in_le32(addr) & mask) != val) && i < timeout_msec; i++)
mdelay(1);
return (i < timeout_msec) ? 0 : -1;
}
static void fsl_sata_dump_sfis(struct sata_fis_d2h *s)
{
printf("Status FIS dump:\n\r");
printf("fis_type: %02x\n\r", s->fis_type);
printf("pm_port_i: %02x\n\r", s->pm_port_i);
printf("status: %02x\n\r", s->status);
printf("error: %02x\n\r", s->error);
printf("lba_low: %02x\n\r", s->lba_low);
printf("lba_mid: %02x\n\r", s->lba_mid);
printf("lba_high: %02x\n\r", s->lba_high);
printf("device: %02x\n\r", s->device);
printf("lba_low_exp: %02x\n\r", s->lba_low_exp);
printf("lba_mid_exp: %02x\n\r", s->lba_mid_exp);
printf("lba_high_exp: %02x\n\r", s->lba_high_exp);
printf("res1: %02x\n\r", s->res1);
printf("sector_count: %02x\n\r", s->sector_count);
printf("sector_count_exp: %02x\n\r", s->sector_count_exp);
}
static void fsl_sata_dump_regs(fsl_sata_reg_t __iomem *reg)
{
printf("\n\rSATA: %08x\n\r", (u32)reg);
printf("CQR: %08x\n\r", in_le32(®->cqr));
printf("CAR: %08x\n\r", in_le32(®->car));
printf("CCR: %08x\n\r", in_le32(®->ccr));
printf("CER: %08x\n\r", in_le32(®->cer));
printf("CQR: %08x\n\r", in_le32(®->cqr));
printf("DER: %08x\n\r", in_le32(®->der));
printf("CHBA: %08x\n\r", in_le32(®->chba));
printf("HStatus: %08x\n\r", in_le32(®->hstatus));
printf("HControl: %08x\n\r", in_le32(®->hcontrol));
printf("CQPMP: %08x\n\r", in_le32(®->cqpmp));
printf("SIG: %08x\n\r", in_le32(®->sig));
printf("ICC: %08x\n\r", in_le32(®->icc));
printf("SStatus: %08x\n\r", in_le32(®->sstatus));
printf("SError: %08x\n\r", in_le32(®->serror));
printf("SControl: %08x\n\r", in_le32(®->scontrol));
printf("SNotification: %08x\n\r", in_le32(®->snotification));
printf("TransCfg: %08x\n\r", in_le32(®->transcfg));
printf("TransStatus: %08x\n\r", in_le32(®->transstatus));
printf("LinkCfg: %08x\n\r", in_le32(®->linkcfg));
printf("LinkCfg1: %08x\n\r", in_le32(®->linkcfg1));
printf("LinkCfg2: %08x\n\r", in_le32(®->linkcfg2));
printf("LinkStatus: %08x\n\r", in_le32(®->linkstatus));
printf("LinkStatus1: %08x\n\r", in_le32(®->linkstatus1));
printf("PhyCtrlCfg: %08x\n\r", in_le32(®->phyctrlcfg));
printf("SYSPR: %08x\n\r", in_be32(®->syspr));
}
static int init_sata(struct fsl_ahci_priv *priv)
{
int i;
u32 cda;
u32 val32;
u32 sig;
fsl_sata_t *sata;
u32 length, align;
cmd_hdr_tbl_t *cmd_hdr;
fsl_sata_reg_t __iomem *reg;
int dev = priv->number;
if (dev < 0 || dev > (CONFIG_SYS_SATA_MAX_DEVICE - 1)) {
printf("the sata index %d is out of ranges\n\r", dev);
return -EINVAL;
}
#ifdef CONFIG_MPC85xx
if (dev == 0 && (!is_serdes_configured(SATA1))) {
printf("SATA%d [dev = %d] is not enabled\n", dev + 1, dev);
return -EINVAL;
}
if (dev == 1 && (!is_serdes_configured(SATA2))) {
printf("SATA%d [dev = %d] is not enabled\n", dev + 1, dev);
return -EINVAL;
}
#endif
/* Allocate SATA device driver struct */
sata = (fsl_sata_t *)malloc(sizeof(fsl_sata_t));
if (!sata) {
printf("alloc the sata device struct failed\n\r");
return -ENOMEM;
}
/* Zero all of the device driver struct */
memset((void *)sata, 0, sizeof(fsl_sata_t));
sata->dma_flag = priv->flag;
snprintf(sata->name, 12, "SATA%d", dev);
/* Set the controller register base address to device struct */
reg = (fsl_sata_reg_t *)priv->base;
sata->reg_base = reg;
/* Allocate the command header table, 4 bytes aligned */
length = sizeof(struct cmd_hdr_tbl);
align = SATA_HC_CMD_HDR_TBL_ALIGN;
sata->cmd_hdr_tbl_offset = (void *)malloc(length + align);
if (!sata->cmd_hdr_tbl_offset) {
printf("alloc the command header failed\n\r");
return -ENOMEM;
}
cmd_hdr = (cmd_hdr_tbl_t *)(((u32)sata->cmd_hdr_tbl_offset + align)
& ~(align - 1));
sata->cmd_hdr = cmd_hdr;
/* Zero all of the command header table */
memset((void *)sata->cmd_hdr_tbl_offset, 0, length + align);
/* Allocate command descriptor for all command */
length = sizeof(struct cmd_desc) * SATA_HC_MAX_CMD;
align = SATA_HC_CMD_DESC_ALIGN;
sata->cmd_desc_offset = (void *)malloc(length + align);
if (!sata->cmd_desc_offset) {
printf("alloc the command descriptor failed\n\r");
return -ENOMEM;
}
sata->cmd_desc = (cmd_desc_t *)(((u32)sata->cmd_desc_offset + align)
& ~(align - 1));
/* Zero all of command descriptor */
memset((void *)sata->cmd_desc_offset, 0, length + align);
/* Link the command descriptor to command header */
for (i = 0; i < SATA_HC_MAX_CMD; i++) {
cda = ((u32)sata->cmd_desc + SATA_HC_CMD_DESC_SIZE * i)
& ~(CMD_HDR_CDA_ALIGN - 1);
cmd_hdr->cmd_slot[i].cda = cpu_to_le32(cda);
}
/* To have safe state, force the controller offline */
val32 = in_le32(®->hcontrol);
val32 &= ~HCONTROL_ONOFF;
val32 |= HCONTROL_FORCE_OFFLINE;
out_le32(®->hcontrol, val32);
/* Wait the controller offline */
ata_wait_register(®->hstatus, HSTATUS_ONOFF, 0, 1000);
/* Set the command header base address to CHBA register to tell DMA */
out_le32(®->chba, (u32)cmd_hdr & ~0x3);
/* Snoop for the command header */
val32 = in_le32(®->hcontrol);
val32 |= HCONTROL_HDR_SNOOP;
out_le32(®->hcontrol, val32);
/* Disable all of interrupts */
val32 = in_le32(®->hcontrol);
val32 &= ~HCONTROL_INT_EN_ALL;
out_le32(®->hcontrol, val32);
/* Clear all of interrupts */
val32 = in_le32(®->hstatus);
out_le32(®->hstatus, val32);
/* Set the ICC, no interrupt coalescing */
out_le32(®->icc, 0x01000000);
/* No PM attatched, the SATA device direct connect */
out_le32(®->cqpmp, 0);
/* Clear SError register */
val32 = in_le32(®->serror);
out_le32(®->serror, val32);
/* Clear CER register */
val32 = in_le32(®->cer);
out_le32(®->cer, val32);
/* Clear DER register */
val32 = in_le32(®->der);
out_le32(®->der, val32);
/* No device detection or initialization action requested */
out_le32(®->scontrol, 0x00000300);
/* Configure the transport layer, default value */
out_le32(®->transcfg, 0x08000016);
/* Configure the link layer, default value */
out_le32(®->linkcfg, 0x0000ff34);
/* Bring the controller online */
val32 = in_le32(®->hcontrol);
val32 |= HCONTROL_ONOFF;
out_le32(®->hcontrol, val32);
mdelay(100);
/* print sata device name */
printf("%s ", sata->name);
/* Wait PHY RDY signal changed for 500ms */
ata_wait_register(®->hstatus, HSTATUS_PHY_RDY,
HSTATUS_PHY_RDY, 500);
/* Check PHYRDY */
val32 = in_le32(®->hstatus);
if (val32 & HSTATUS_PHY_RDY) {
sata->link = 1;
} else {
sata->link = 0;
printf("(No RDY)\n\r");
return -EINVAL;
}
/* Wait for signature updated, which is 1st D2H */
ata_wait_register(®->hstatus, HSTATUS_SIGNATURE,
HSTATUS_SIGNATURE, 10000);
if (val32 & HSTATUS_SIGNATURE) {
sig = in_le32(®->sig);
debug("Signature updated, the sig =%08x\n\r", sig);
sata->ata_device_type = ata_dev_classify(sig);
}
/* Check the speed */
val32 = in_le32(®->sstatus);
if ((val32 & SSTATUS_SPD_MASK) == SSTATUS_SPD_GEN1)
printf("(1.5 Gbps)\n\r");
else if ((val32 & SSTATUS_SPD_MASK) == SSTATUS_SPD_GEN2)
printf("(3 Gbps)\n\r");
priv->fsl_sata = sata;
return 0;
}
static int fsl_ata_exec_ata_cmd(struct fsl_sata *sata,
struct sata_fis_h2d *cfis,
int is_ncq, int tag,
u8 *buffer, u32 len)
{
cmd_hdr_entry_t *cmd_hdr;
cmd_desc_t *cmd_desc;
sata_fis_h2d_t *h2d;
prd_entry_t *prde;
u32 ext_c_ddc;
u32 prde_count;
u32 val32;
u32 ttl;
u32 der;
int i;
fsl_sata_reg_t *reg = sata->reg_base;
/* Check xfer length */
if (len > SATA_HC_MAX_XFER_LEN) {
printf("max transfer length is 64MB\n\r");
return 0;
}
/* Setup the command descriptor */
cmd_desc = sata->cmd_desc + tag;
/* Get the pointer cfis of command descriptor */
h2d = (sata_fis_h2d_t *)cmd_desc->cfis;
/* Zero the cfis of command descriptor */
memset((void *)h2d, 0, SATA_HC_CMD_DESC_CFIS_SIZE);
/* Copy the cfis from user to command descriptor */
h2d->fis_type = cfis->fis_type;
h2d->pm_port_c = cfis->pm_port_c;
h2d->command = cfis->command;
h2d->features = cfis->features;
h2d->features_exp = cfis->features_exp;
h2d->lba_low = cfis->lba_low;
h2d->lba_mid = cfis->lba_mid;
h2d->lba_high = cfis->lba_high;
h2d->lba_low_exp = cfis->lba_low_exp;
h2d->lba_mid_exp = cfis->lba_mid_exp;
h2d->lba_high_exp = cfis->lba_high_exp;
if (!is_ncq) {
h2d->sector_count = cfis->sector_count;
h2d->sector_count_exp = cfis->sector_count_exp;
} else { /* NCQ */
h2d->sector_count = (u8)(tag << 3);
}
h2d->device = cfis->device;
h2d->control = cfis->control;
/* Setup the PRD table */
prde = (prd_entry_t *)cmd_desc->prdt;
memset((void *)prde, 0, sizeof(struct prdt));
prde_count = 0;
ttl = len;
for (i = 0; i < SATA_HC_MAX_PRD_DIRECT; i++) {
if (!len)
break;
prde->dba = cpu_to_le32((u32)buffer & ~0x3);
debug("dba = %08x\n\r", (u32)buffer);
if (len < PRD_ENTRY_MAX_XFER_SZ) {
ext_c_ddc = PRD_ENTRY_DATA_SNOOP | len;
debug("ext_c_ddc1 = %08x, len = %08x\n\r",
ext_c_ddc, len);
prde->ext_c_ddc = cpu_to_le32(ext_c_ddc);
prde_count++;
prde++;
} else {
ext_c_ddc = PRD_ENTRY_DATA_SNOOP; /* 4M bytes */
debug("ext_c_ddc2 = %08x, len = %08x\n\r",
ext_c_ddc, len);
prde->ext_c_ddc = cpu_to_le32(ext_c_ddc);
buffer += PRD_ENTRY_MAX_XFER_SZ;
len -= PRD_ENTRY_MAX_XFER_SZ;
prde_count++;
prde++;
}
}
/* Setup the command slot of cmd hdr */
cmd_hdr = (cmd_hdr_entry_t *)&sata->cmd_hdr->cmd_slot[tag];
cmd_hdr->cda = cpu_to_le32((u32)cmd_desc & ~0x3);
val32 = prde_count << CMD_HDR_PRD_ENTRY_SHIFT;
val32 |= sizeof(sata_fis_h2d_t);
cmd_hdr->prde_fis_len = cpu_to_le32(val32);
cmd_hdr->ttl = cpu_to_le32(ttl);
if (!is_ncq)
val32 = CMD_HDR_ATTR_RES | CMD_HDR_ATTR_SNOOP;
else
val32 = CMD_HDR_ATTR_RES | CMD_HDR_ATTR_SNOOP |
CMD_HDR_ATTR_FPDMA;
tag &= CMD_HDR_ATTR_TAG;
val32 |= tag;
debug("attribute = %08x\n\r", val32);
cmd_hdr->attribute = cpu_to_le32(val32);
/* Make sure cmd desc and cmd slot valid before command issue */
sync();
/* PMP*/
val32 = (u32)(h2d->pm_port_c & 0x0f);
out_le32(®->cqpmp, val32);
/* Wait no active */
if (ata_wait_register(®->car, (1 << tag), 0, 10000))
printf("Wait no active time out\n\r");
/* Issue command */
if (!(in_le32(®->cqr) & (1 << tag))) {
val32 = 1 << tag;
out_le32(®->cqr, val32);
}
/* Wait command completed for 10s */
if (ata_wait_register(®->ccr, (1 << tag), (1 << tag), 10000)) {
if (!is_ncq)
printf("Non-NCQ command time out\n\r");
else
printf("NCQ command time out\n\r");
}
val32 = in_le32(®->cer);
if (val32) {
fsl_sata_dump_sfis((struct sata_fis_d2h *)cmd_desc->sfis);
printf("CE at device\n\r");
fsl_sata_dump_regs(reg);
der = in_le32(®->der);
out_le32(®->cer, val32);
out_le32(®->der, der);
}
/* Clear complete flags */
val32 = in_le32(®->ccr);
out_le32(®->ccr, val32);
return len;
}
static int fsl_sata_exec_cmd(struct fsl_sata *sata, struct sata_fis_h2d *cfis,
enum cmd_type command_type, int tag, u8 *buffer,
u32 len)
{
int rc;
if (tag > SATA_HC_MAX_CMD || tag < 0) {
printf("tag is out of range, tag=%d\n\r", tag);
return -1;
}
switch (command_type) {
case CMD_ATA:
rc = fsl_ata_exec_ata_cmd(sata, cfis, 0, tag, buffer, len);
return rc;
case CMD_NCQ:
rc = fsl_ata_exec_ata_cmd(sata, cfis, 1, tag, buffer, len);
return rc;
case CMD_ATAPI:
case CMD_VENDOR_BIST:
case CMD_BIST:
printf("not support now\n\r");
return -1;
default:
break;
}
return -1;
}
static void fsl_sata_identify(fsl_sata_t *sata, u16 *id)
{
struct sata_fis_h2d h2d, *cfis = &h2d;
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
cfis->command = ATA_CMD_ID_ATA;
fsl_sata_exec_cmd(sata, cfis, CMD_ATA, 0, (u8 *)id, ATA_ID_WORDS * 2);
ata_swap_buf_le16(id, ATA_ID_WORDS);
}
static void fsl_sata_xfer_mode(fsl_sata_t *sata, u16 *id)
{
sata->pio = id[ATA_ID_PIO_MODES];
sata->mwdma = id[ATA_ID_MWDMA_MODES];
sata->udma = id[ATA_ID_UDMA_MODES];
debug("pio %04x, mwdma %04x, udma %04x\n\r", sata->pio,
sata->mwdma, sata->udma);
}
static void fsl_sata_init_wcache(fsl_sata_t *sata, u16 *id)
{
if (ata_id_has_wcache(id) && ata_id_wcache_enabled(id))
sata->wcache = 1;
if (ata_id_has_flush(id))
sata->flush = 1;
if (ata_id_has_flush_ext(id))
sata->flush_ext = 1;
}
static void fsl_sata_set_features(fsl_sata_t *sata)
{
struct sata_fis_h2d h2d, *cfis = &h2d;
u8 udma_cap;
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
cfis->command = ATA_CMD_SET_FEATURES;
cfis->features = SETFEATURES_XFER;
/* First check the device capablity */
udma_cap = (u8)(sata->udma & 0xff);
debug("udma_cap %02x\n\r", udma_cap);
if (udma_cap == ATA_UDMA6)
cfis->sector_count = XFER_UDMA_6;
if (udma_cap == ATA_UDMA5)
cfis->sector_count = XFER_UDMA_5;
if (udma_cap == ATA_UDMA4)
cfis->sector_count = XFER_UDMA_4;
if (udma_cap == ATA_UDMA3)
cfis->sector_count = XFER_UDMA_3;
fsl_sata_exec_cmd(sata, cfis, CMD_ATA, 0, NULL, 0);
}
static u32 fsl_sata_rw_cmd(fsl_sata_t *sata, u32 start, u32 blkcnt,
u8 *buffer, int is_write)
{
struct sata_fis_h2d h2d, *cfis = &h2d;
u32 block;
block = start;
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
cfis->command = (is_write) ? ATA_CMD_WRITE : ATA_CMD_READ;
cfis->device = ATA_LBA;
cfis->device |= (block >> 24) & 0xf;
cfis->lba_high = (block >> 16) & 0xff;
cfis->lba_mid = (block >> 8) & 0xff;
cfis->lba_low = block & 0xff;
cfis->sector_count = (u8)(blkcnt & 0xff);
fsl_sata_exec_cmd(sata, cfis, CMD_ATA, 0, buffer,
ATA_SECT_SIZE * blkcnt);
return blkcnt;
}
static void fsl_sata_flush_cache(fsl_sata_t *sata)
{
struct sata_fis_h2d h2d, *cfis = &h2d;
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
cfis->command = ATA_CMD_FLUSH;
fsl_sata_exec_cmd(sata, cfis, CMD_ATA, 0, NULL, 0);
}
static u32 fsl_sata_rw_cmd_ext(fsl_sata_t *sata, u32 start,
u32 blkcnt, u8 *buffer, int is_write)
{
struct sata_fis_h2d h2d, *cfis = &h2d;
u64 block;
block = (u64)start;
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
cfis->command = (is_write) ? ATA_CMD_WRITE_EXT
: ATA_CMD_READ_EXT;
cfis->lba_high_exp = (block >> 40) & 0xff;
cfis->lba_mid_exp = (block >> 32) & 0xff;
cfis->lba_low_exp = (block >> 24) & 0xff;
cfis->lba_high = (block >> 16) & 0xff;
cfis->lba_mid = (block >> 8) & 0xff;
cfis->lba_low = block & 0xff;
cfis->device = ATA_LBA;
cfis->sector_count_exp = (blkcnt >> 8) & 0xff;
cfis->sector_count = blkcnt & 0xff;
fsl_sata_exec_cmd(sata, cfis, CMD_ATA, 0, buffer,
ATA_SECT_SIZE * blkcnt);
return blkcnt;
}
static u32 fsl_sata_rw_ncq_cmd(fsl_sata_t *sata, u32 start, u32 blkcnt,
u8 *buffer,
int is_write)
{
struct sata_fis_h2d h2d, *cfis = &h2d;
int ncq_channel;
u64 block;
if (sata->lba48 != 1) {
printf("execute FPDMA command on non-LBA48 hard disk\n\r");
return -1;
}
block = (u64)start;
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
cfis->command = (is_write) ? ATA_CMD_FPDMA_WRITE
: ATA_CMD_FPDMA_READ;
cfis->lba_high_exp = (block >> 40) & 0xff;
cfis->lba_mid_exp = (block >> 32) & 0xff;
cfis->lba_low_exp = (block >> 24) & 0xff;
cfis->lba_high = (block >> 16) & 0xff;
cfis->lba_mid = (block >> 8) & 0xff;
cfis->lba_low = block & 0xff;
cfis->device = ATA_LBA;
cfis->features_exp = (blkcnt >> 8) & 0xff;
cfis->features = blkcnt & 0xff;
if (sata->queue_depth >= SATA_HC_MAX_CMD)
ncq_channel = SATA_HC_MAX_CMD - 1;
else
ncq_channel = sata->queue_depth - 1;
/* Use the latest queue */
fsl_sata_exec_cmd(sata, cfis, CMD_NCQ, ncq_channel, buffer,
ATA_SECT_SIZE * blkcnt);
return blkcnt;
}
static void fsl_sata_flush_cache_ext(fsl_sata_t *sata)
{
struct sata_fis_h2d h2d, *cfis = &h2d;
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
cfis->command = ATA_CMD_FLUSH_EXT;
fsl_sata_exec_cmd(sata, cfis, CMD_ATA, 0, NULL, 0);
}
static u32 ata_low_level_rw_lba48(fsl_sata_t *sata, u32 blknr, lbaint_t blkcnt,
const void *buffer, int is_write)
{
u32 start, blks;
u8 *addr;
int max_blks;
start = blknr;
blks = blkcnt;
addr = (u8 *)buffer;
max_blks = ATA_MAX_SECTORS_LBA48;
do {
if (blks > max_blks) {
if (sata->dma_flag != FLAGS_FPDMA)
fsl_sata_rw_cmd_ext(sata, start, max_blks,
addr, is_write);
else
fsl_sata_rw_ncq_cmd(sata, start, max_blks,
addr, is_write);
start += max_blks;
blks -= max_blks;
addr += ATA_SECT_SIZE * max_blks;
} else {
if (sata->dma_flag != FLAGS_FPDMA)
fsl_sata_rw_cmd_ext(sata, start, blks,
addr, is_write);
else
fsl_sata_rw_ncq_cmd(sata, start, blks,
addr, is_write);
start += blks;
blks = 0;
addr += ATA_SECT_SIZE * blks;
}
} while (blks != 0);
return blks;
}
static u32 ata_low_level_rw_lba28(fsl_sata_t *sata, u32 blknr, u32 blkcnt,
const void *buffer, int is_write)
{
u32 start, blks;
u8 *addr;
int max_blks;
start = blknr;
blks = blkcnt;
addr = (u8 *)buffer;
max_blks = ATA_MAX_SECTORS;
do {
if (blks > max_blks) {
fsl_sata_rw_cmd(sata, start, max_blks, addr, is_write);
start += max_blks;
blks -= max_blks;
addr += ATA_SECT_SIZE * max_blks;
} else {
fsl_sata_rw_cmd(sata, start, blks, addr, is_write);
start += blks;
blks = 0;
addr += ATA_SECT_SIZE * blks;
}
} while (blks != 0);
return blks;
}
/*
* SATA interface between low level driver and command layer
*/
static int sata_read(fsl_sata_t *sata, ulong blknr, lbaint_t blkcnt,
void *buffer)
{
u32 rc;
if (sata->lba48)
rc = ata_low_level_rw_lba48(sata, blknr, blkcnt, buffer,
READ_CMD);
else
rc = ata_low_level_rw_lba28(sata, blknr, blkcnt, buffer,
READ_CMD);
return rc;
}
static int sata_write(fsl_sata_t *sata, ulong blknr, lbaint_t blkcnt,
const void *buffer)
{
u32 rc;
if (sata->lba48) {
rc = ata_low_level_rw_lba48(sata, blknr, blkcnt, buffer,
WRITE_CMD);
if (sata->wcache && sata->flush_ext)
fsl_sata_flush_cache_ext(sata);
} else {
rc = ata_low_level_rw_lba28(sata, blknr, blkcnt, buffer,
WRITE_CMD);
if (sata->wcache && sata->flush)
fsl_sata_flush_cache(sata);
}
return rc;
}
int sata_getinfo(fsl_sata_t *sata, u16 *id)
{
/* if no detected link */
if (!sata->link)
return -EINVAL;
#ifdef CONFIG_LBA48
/* Check if support LBA48 */
if (ata_id_has_lba48(id)) {
sata->lba48 = 1;
debug("Device support LBA48\n\r");
} else {
debug("Device supports LBA28\n\r");
}
#endif
/* Get the NCQ queue depth from device */
sata->queue_depth = ata_id_queue_depth(id);
/* Get the xfer mode from device */
fsl_sata_xfer_mode(sata, id);
/* Get the write cache status from device */
fsl_sata_init_wcache(sata, id);
/* Set the xfer mode to highest speed */
fsl_sata_set_features(sata);
return 0;
}
static int fsl_scsi_exec(fsl_sata_t *sata, struct scsi_cmd *pccb,
bool is_write)
{
int ret;
u32 temp;
u16 blocks = 0;
lbaint_t start = 0;
u8 *buffer = pccb->pdata;
/* Retrieve the base LBA number from the ccb structure. */
if (pccb->cmd[0] == SCSI_READ16) {
memcpy(&start, pccb->cmd + 2, 8);
start = be64_to_cpu(start);
} else {
memcpy(&temp, pccb->cmd + 2, 4);
start = be32_to_cpu(temp);
}
if (pccb->cmd[0] == SCSI_READ16)
blocks = (((u16)pccb->cmd[13]) << 8) | ((u16)pccb->cmd[14]);
else
blocks = (((u16)pccb->cmd[7]) << 8) | ((u16)pccb->cmd[8]);
debug("scsi_ahci: %s %u blocks starting from lba 0x" LBAFU "\n",
is_write ? "write" : "read", blocks, start);
if (is_write)
ret = sata_write(sata, start, blocks, buffer);
else
ret = sata_read(sata, start, blocks, buffer);
return ret;
}
static char *fsl_ata_id_strcpy(u16 *target, u16 *src, int len)
{
int i;
for (i = 0; i < len / 2; i++)
target[i] = src[i];
return (char *)target;
}
static int fsl_ata_scsiop_inquiry(struct ahci_uc_priv *uc_priv,
struct scsi_cmd *pccb,
fsl_sata_t *sata)
{
u8 port;
u16 *idbuf;
ALLOC_CACHE_ALIGN_BUFFER(u16, tmpid, ATA_ID_WORDS);
/* Clean ccb data buffer */
memset(pccb->pdata, 0, pccb->datalen);
if (pccb->datalen <= 35)
return 0;
/* Read id from sata */
port = pccb->target;
fsl_sata_identify(sata, (u16 *)tmpid);
if (!uc_priv->ataid[port]) {
uc_priv->ataid[port] = malloc(ATA_ID_WORDS * 2);
if (!uc_priv->ataid[port]) {
printf("%s: No memory for ataid[port]\n", __func__);
return -ENOMEM;
}
}
idbuf = uc_priv->ataid[port];
memcpy(idbuf, tmpid, ATA_ID_WORDS * 2);
memcpy(&pccb->pdata[8], "ATA ", 8);
fsl_ata_id_strcpy((u16 *)&pccb->pdata[16], &idbuf[ATA_ID_PROD], 16);
fsl_ata_id_strcpy((u16 *)&pccb->pdata[32], &idbuf[ATA_ID_FW_REV], 4);
sata_getinfo(sata, (u16 *)idbuf);
#ifdef DEBUG
ata_dump_id(idbuf);
#endif
return 0;
}
/*
* SCSI READ CAPACITY10 command operation.
*/
static int fsl_ata_scsiop_read_capacity10(struct ahci_uc_priv *uc_priv,
struct scsi_cmd *pccb)
{
u32 cap;
u64 cap64;
u32 block_size;
if (!uc_priv->ataid[pccb->target]) {
printf("scsi_ahci: SCSI READ CAPACITY10 command failure.");
printf("\tNo ATA info!\n");
printf("\tPlease run SCSI command INQUIRY first!\n");
return -EPERM;
}
cap64 = ata_id_n_sectors(uc_priv->ataid[pccb->target]);
if (cap64 > 0x100000000ULL)
cap64 = 0xffffffff;
cap = cpu_to_be32(cap64);
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 fsl_ata_scsiop_read_capacity16(struct ahci_uc_priv *uc_priv,
struct scsi_cmd *pccb)
{
u64 cap;
u64 block_size;
if (!uc_priv->ataid[pccb->target]) {
printf("scsi_ahci: SCSI READ CAPACITY16 command failure.");
printf("\tNo ATA info!\n");
printf("\tPlease run SCSI command INQUIRY first!\n");
return -EPERM;
}
cap = ata_id_n_sectors(uc_priv->ataid[pccb->target]);
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 fsl_ata_scsiop_test_unit_ready(struct ahci_uc_priv *uc_priv,
struct scsi_cmd *pccb)
{
return (uc_priv->ataid[pccb->target]) ? 0 : -EPERM;
}
static int fsl_ahci_scsi_exec(struct udevice *dev, struct scsi_cmd *pccb)
{
struct ahci_uc_priv *uc_priv = dev_get_uclass_priv(dev->parent);
struct fsl_ahci_priv *priv = dev_get_priv(dev->parent);
fsl_sata_t *sata = priv->fsl_sata;
int ret;
switch (pccb->cmd[0]) {
case SCSI_READ16:
case SCSI_READ10:
ret = fsl_scsi_exec(sata, pccb, 0);
break;
case SCSI_WRITE10:
ret = fsl_scsi_exec(sata, pccb, 1);
break;
case SCSI_RD_CAPAC10:
ret = fsl_ata_scsiop_read_capacity10(uc_priv, pccb);
break;
case SCSI_RD_CAPAC16:
ret = fsl_ata_scsiop_read_capacity16(uc_priv, pccb);
break;
case SCSI_TST_U_RDY:
ret = fsl_ata_scsiop_test_unit_ready(uc_priv, pccb);
break;
case SCSI_INQUIRY:
ret = fsl_ata_scsiop_inquiry(uc_priv, pccb, sata);
break;
default:
printf("Unsupport SCSI command 0x%02x\n", pccb->cmd[0]);
return -ENOTSUPP;
}
if (ret) {
debug("SCSI command 0x%02x ret errno %d\n", pccb->cmd[0], ret);
return ret;
}
return 0;
}
static int fsl_ahci_probe(struct udevice *dev)
{
struct fsl_ahci_priv *priv = dev_get_priv(dev);
struct udevice *child_dev;
struct scsi_platdata *uc_plat;
device_find_first_child(dev, &child_dev);
if (!child_dev)
return -ENODEV;
uc_plat = dev_get_uclass_platdata(child_dev);
uc_plat->base = priv->base;
uc_plat->max_lun = 1;
uc_plat->max_id = 1;
return init_sata(priv);
}
struct scsi_ops fsl_scsi_ops = {
.exec = fsl_ahci_scsi_exec,
};
static const struct udevice_id fsl_ahci_ids[] = {
{ .compatible = "fsl,pq-sata-v2" },
{ }
};
U_BOOT_DRIVER(fsl_ahci_scsi) = {
.name = "fsl_ahci_scsi",
.id = UCLASS_SCSI,
.ops = &fsl_scsi_ops,
};
U_BOOT_DRIVER(fsl_ahci) = {
.name = "fsl_ahci",
.id = UCLASS_AHCI,
.of_match = fsl_ahci_ids,
.bind = fsl_ahci_bind,
.ofdata_to_platdata = fsl_ahci_ofdata_to_platdata,
.probe = fsl_ahci_probe,
.priv_auto_alloc_size = sizeof(struct fsl_ahci_priv),
};
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