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|
/* $OpenBSD: ahci.c,v 1.95 2007/03/21 13:08:44 pascoe Exp $ */
/*
* Copyright (c) 2006 David Gwynne <dlg@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/buf.h>
#include <sys/kernel.h>
#include <sys/malloc.h>
#include <sys/device.h>
#include <sys/proc.h>
#include <sys/queue.h>
#include <machine/bus.h>
#include <dev/pci/pcireg.h>
#include <dev/pci/pcivar.h>
#include <dev/pci/pcidevs.h>
#include <dev/ata/atascsi.h>
#define NO_AHCI_DEBUG
#ifdef AHCI_DEBUG
#define DPRINTF(m, f...) do { if ((ahcidebug & (m)) == (m)) printf(f); } while (0)
#define AHCI_D_TIMEOUT 0x00
#define AHCI_D_VERBOSE 0x01
#define AHCI_D_INTR 0x02
#define AHCI_D_XFER 0x08
int ahcidebug = AHCI_D_VERBOSE;
#else
#define DPRINTF(m, f...)
#endif
#define AHCI_PCI_BAR 0x24
#define AHCI_REG_CAP 0x000 /* HBA Capabilities */
#define AHCI_REG_CAP_NP(_r) (((_r) & 0x1f)+1) /* Number of Ports */
#define AHCI_REG_CAP_SXS (1<<5) /* External SATA */
#define AHCI_REG_CAP_EMS (1<<6) /* Enclosure Mgmt */
#define AHCI_REG_CAP_CCCS (1<<7) /* Cmd Coalescing */
#define AHCI_REG_CAP_NCS(_r) ((((_r) & 0x1f00)>>8)+1) /* NCmds*/
#define AHCI_REG_CAP_PSC (1<<13) /* Partial State Capable */
#define AHCI_REG_CAP_SSC (1<<14) /* Slumber State Capable */
#define AHCI_REG_CAP_PMD (1<<15) /* PIO Multiple DRQ Block */
#define AHCI_REG_CAP_FBSS (1<<16) /* FIS-Based Switching */
#define AHCI_REG_CAP_SPM (1<<17) /* Port Multiplier */
#define AHCI_REG_CAP_SAM (1<<18) /* AHCI Only mode */
#define AHCI_REG_CAP_SNZO (1<<19) /* Non Zero DMA Offsets */
#define AHCI_REG_CAP_ISS (0xf<<20) /* Interface Speed Support */
#define AHCI_REG_CAP_ISS_G1 (0x1<<20) /* Gen 1 (1.5 Gbps) */
#define AHCI_REG_CAP_ISS_G1_2 (0x2<<20) /* Gen 1 and 2 (3 Gbps) */
#define AHCI_REG_CAP_SCLO (1<<24) /* Cmd List Override */
#define AHCI_REG_CAP_SAL (1<<25) /* Activity LED */
#define AHCI_REG_CAP_SALP (1<<26) /* Aggressive Link Pwr Mgmt */
#define AHCI_REG_CAP_SSS (1<<27) /* Staggered Spinup */
#define AHCI_REG_CAP_SMPS (1<<28) /* Mech Presence Switch */
#define AHCI_REG_CAP_SSNTF (1<<29) /* SNotification Register */
#define AHCI_REG_CAP_SNCQ (1<<30) /* Native Cmd Queuing */
#define AHCI_REG_CAP_S64A (1<<31) /* 64bit Addressing */
#define AHCI_FMT_CAP "\020" "\040S64A" "\037NCQ" "\036SSNTF" \
"\035SMPS" "\034SSS" "\033SALP" "\032SAL" \
"\031SCLO" "\024SNZO" "\023SAM" "\022SPM" \
"\021FBSS" "\020PMD" "\017SSC" "\016PSC" \
"\010CCCS" "\007EMS" "\006SXS"
#define AHCI_REG_GHC 0x004 /* Global HBA Control */
#define AHCI_REG_GHC_HR (1<<0) /* HBA Reset */
#define AHCI_REG_GHC_IE (1<<1) /* Interrupt Enable */
#define AHCI_REG_GHC_MRSM (1<<2) /* MSI Revert to Single Msg */
#define AHCI_REG_GHC_AE (1<<31) /* AHCI Enable */
#define AHCI_FMT_GHC "\020" "\040AE" "\003MRSM" "\002IE" "\001HR"
#define AHCI_REG_IS 0x008 /* Interrupt Status */
#define AHCI_REG_PI 0x00c /* Ports Implemented */
#define AHCI_REG_VS 0x010 /* AHCI Version */
#define AHCI_REG_VS_0_95 0x00000905 /* 0.95 */
#define AHCI_REG_VS_1_0 0x00010000 /* 1.0 */
#define AHCI_REG_VS_1_1 0x00010100 /* 1.1 */
#define AHCI_REG_CCC_CTL 0x014 /* Coalescing Control */
#define AHCI_REG_CCC_PORTS 0x018 /* Coalescing Ports */
#define AHCI_REG_EM_LOC 0x01c /* Enclosure Mgmt Location */
#define AHCI_REG_EM_CTL 0x020 /* Enclosure Mgmt Control */
#define AHCI_PORT_REGION(_p) (0x100 + ((_p) * 0x80))
#define AHCI_PORT_SIZE 0x80
#define AHCI_PREG_CLB 0x00 /* Cmd List Base Addr */
#define AHCI_PREG_CLBU 0x04 /* Cmd List Base Hi Addr */
#define AHCI_PREG_FB 0x08 /* FIS Base Addr */
#define AHCI_PREG_FBU 0x0c /* FIS Base Hi Addr */
#define AHCI_PREG_IS 0x10 /* Interrupt Status */
#define AHCI_PREG_IS_DHRS (1<<0) /* Device to Host FIS */
#define AHCI_PREG_IS_PSS (1<<1) /* PIO Setup FIS */
#define AHCI_PREG_IS_DSS (1<<2) /* DMA Setup FIS */
#define AHCI_PREG_IS_SDBS (1<<3) /* Set Device Bits FIS */
#define AHCI_PREG_IS_UFS (1<<4) /* Unknown FIS */
#define AHCI_PREG_IS_DPS (1<<5) /* Descriptor Processed */
#define AHCI_PREG_IS_PCS (1<<6) /* Port Change */
#define AHCI_PREG_IS_DMPS (1<<7) /* Device Mechanical Presence */
#define AHCI_PREG_IS_PRCS (1<<22) /* PhyRdy Change */
#define AHCI_PREG_IS_IPMS (1<<23) /* Incorrect Port Multiplier */
#define AHCI_PREG_IS_OFS (1<<24) /* Overflow */
#define AHCI_PREG_IS_INFS (1<<26) /* Interface Non-fatal Error */
#define AHCI_PREG_IS_IFS (1<<27) /* Interface Fatal Error */
#define AHCI_PREG_IS_HBDS (1<<28) /* Host Bus Data Error */
#define AHCI_PREG_IS_HBFS (1<<29) /* Host Bus Fatal Error */
#define AHCI_PREG_IS_TFES (1<<30) /* Task File Error */
#define AHCI_PREG_IS_CPDS (1<<31) /* Cold Presence Detect */
#define AHCI_PFMT_IS "\20" "\040CPDS" "\037TFES" "\036HBFS" \
"\035HBDS" "\034IFS" "\033INFS" "\031OFS" \
"\030IPMS" "\027PRCS" "\010DMPS" "\006DPS" \
"\007PCS" "\005UFS" "\004SDBS" "\003DSS" \
"\002PSS" "\001DHRS"
#define AHCI_PREG_IE 0x14 /* Interrupt Enable */
#define AHCI_PREG_IE_DHRE (1<<0) /* Device to Host FIS */
#define AHCI_PREG_IE_PSE (1<<1) /* PIO Setup FIS */
#define AHCI_PREG_IE_DSE (1<<2) /* DMA Setup FIS */
#define AHCI_PREG_IE_SDBE (1<<3) /* Set Device Bits FIS */
#define AHCI_PREG_IE_UFE (1<<4) /* Unknown FIS */
#define AHCI_PREG_IE_DPE (1<<5) /* Descriptor Processed */
#define AHCI_PREG_IE_PCE (1<<6) /* Port Change */
#define AHCI_PREG_IE_DMPE (1<<7) /* Device Mechanical Presence */
#define AHCI_PREG_IE_PRCE (1<<22) /* PhyRdy Change */
#define AHCI_PREG_IE_IPME (1<<23) /* Incorrect Port Multiplier */
#define AHCI_PREG_IE_OFE (1<<24) /* Overflow */
#define AHCI_PREG_IE_INFE (1<<26) /* Interface Non-fatal Error */
#define AHCI_PREG_IE_IFE (1<<27) /* Interface Fatal Error */
#define AHCI_PREG_IE_HBDE (1<<28) /* Host Bus Data Error */
#define AHCI_PREG_IE_HBFE (1<<29) /* Host Bus Fatal Error */
#define AHCI_PREG_IE_TFEE (1<<30) /* Task File Error */
#define AHCI_PREG_IE_CPDE (1<<31) /* Cold Presence Detect */
#define AHCI_PFMT_IE "\20" "\040CPDE" "\037TFEE" "\036HBFE" \
"\035HBDE" "\034IFE" "\033INFE" "\031OFE" \
"\030IPME" "\027PRCE" "\010DMPE" "\007PCE" \
"\006DPE" "\005UFE" "\004SDBE" "\003DSE" \
"\002PSE" "\001DHRE"
#define AHCI_PREG_CMD 0x18 /* Command and Status */
#define AHCI_PREG_CMD_ST (1<<0) /* Start */
#define AHCI_PREG_CMD_SUD (1<<1) /* Spin Up Device */
#define AHCI_PREG_CMD_POD (1<<2) /* Power On Device */
#define AHCI_PREG_CMD_CLO (1<<3) /* Command List Override */
#define AHCI_PREG_CMD_FRE (1<<4) /* FIS Receive Enable */
#define AHCI_PREG_CMD_CCS(_r) (((_r) >> 8) & 0x1f) /* Curr CmdSlot# */
#define AHCI_PREG_CMD_MPSS (1<<13) /* Mech Presence State */
#define AHCI_PREG_CMD_FR (1<<14) /* FIS Receive Running */
#define AHCI_PREG_CMD_CR (1<<15) /* Command List Running */
#define AHCI_PREG_CMD_CPS (1<<16) /* Cold Presence State */
#define AHCI_PREG_CMD_PMA (1<<17) /* Port Multiplier Attached */
#define AHCI_PREG_CMD_HPCP (1<<18) /* Hot Plug Capable */
#define AHCI_PREG_CMD_MPSP (1<<19) /* Mech Presence Switch */
#define AHCI_PREG_CMD_CPD (1<<20) /* Cold Presence Detection */
#define AHCI_PREG_CMD_ESP (1<<21) /* External SATA Port */
#define AHCI_PREG_CMD_ATAPI (1<<24) /* Device is ATAPI */
#define AHCI_PREG_CMD_DLAE (1<<25) /* Drv LED on ATAPI Enable */
#define AHCI_PREG_CMD_ALPE (1<<26) /* Aggro Pwr Mgmt Enable */
#define AHCI_PREG_CMD_ASP (1<<27) /* Aggro Slumber/Partial */
#define AHCI_PREG_CMD_ICC 0xf0000000 /* Interface Comm Ctrl */
#define AHCI_PREG_CMD_ICC_SLUMBER 0x60000000
#define AHCI_PREG_CMD_ICC_PARTIAL 0x20000000
#define AHCI_PREG_CMD_ICC_ACTIVE 0x10000000
#define AHCI_PREG_CMD_ICC_IDLE 0x00000000
#define AHCI_PFMT_CMD "\020" "\034ASP" "\033ALPE" "\032DLAE" \
"\031ATAPI" "\026ESP" "\025CPD" "\024MPSP" \
"\023HPCP" "\022PMA" "\021CPS" "\020CR" \
"\017FR" "\016MPSS" "\005FRE" "\004CLO" \
"\003POD" "\002SUD" "\001ST"
#define AHCI_PREG_TFD 0x20 /* Task File Data*/
#define AHCI_PREG_TFD_STS 0xff
#define AHCI_PREG_TFD_STS_ERR (1<<0)
#define AHCI_PREG_TFD_STS_DRQ (1<<3)
#define AHCI_PREG_TFD_STS_BSY (1<<7)
#define AHCI_PREG_TFD_ERR 0xff00
#define AHCI_PFMT_TFD_STS "\20" "\010BSY" "\004DRQ" "\001ERR"
#define AHCI_PREG_SIG 0x24 /* Signature */
#define AHCI_PREG_SSTS 0x28 /* SATA Status */
#define AHCI_PREG_SSTS_DET 0xf /* Device Detection */
#define AHCI_PREG_SSTS_DET_NONE 0x0
#define AHCI_PREG_SSTS_DET_DEV_NE 0x1
#define AHCI_PREG_SSTS_DET_DEV 0x3
#define AHCI_PREG_SSTS_DET_PHYOFFLINE 0x4
#define AHCI_PREG_SSTS_SPD 0xf0 /* Current Interface Speed */
#define AHCI_PREG_SSTS_SPD_NONE 0x00
#define AHCI_PREG_SSTS_SPD_GEN1 0x10
#define AHCI_PREG_SSTS_SPD_GEN2 0x20
#define AHCI_PREG_SSTS_IPM 0xf00 /* Interface Power Management */
#define AHCI_PREG_SSTS_IPM_NONE 0x000
#define AHCI_PREG_SSTS_IPM_ACTIVE 0x100
#define AHCI_PREG_SSTS_IPM_PARTIAL 0x200
#define AHCI_PREG_SSTS_IPM_SLUMBER 0x600
#define AHCI_PREG_SCTL 0x2c /* SATA Control */
#define AHCI_PREG_SCTL_DET 0xf /* Device Detection */
#define AHCI_PREG_SCTL_DET_NONE 0x0
#define AHCI_PREG_SCTL_DET_INIT 0x1
#define AHCI_PREG_SCTL_DET_DISABLE 0x4
#define AHCI_PREG_SCTL_SPD 0xf0 /* Speed Allowed */
#define AHCI_PREG_SCTL_SPD_ANY 0x00
#define AHCI_PREG_SCTL_SPD_GEN1 0x10
#define AHCI_PREG_SCTL_SPD_GEN2 0x20
#define AHCI_PREG_SCTL_IPM 0xf00 /* Interface Power Management */
#define AHCI_PREG_SCTL_IPM_NONE 0x000
#define AHCI_PREG_SCTL_IPM_NOPARTIAL 0x100
#define AHCI_PREG_SCTL_IPM_NOSLUMBER 0x200
#define AHCI_PREG_SCTL_IPM_DISABLED 0x300
#define AHCI_PREG_SERR 0x30 /* SATA Error */
#define AHCI_PREG_SERR_ERR(_r) ((_r) & 0xffff)
#define AHCI_PREG_SERR_ERR_I (1<<0) /* Recovered Data Integrity */
#define AHCI_PREG_SERR_ERR_M (1<<1) /* Recovered Communications */
#define AHCI_PREG_SERR_ERR_T (1<<8) /* Transient Data Integrity */
#define AHCI_PREG_SERR_ERR_C (1<<9) /* Persistent Comm/Data */
#define AHCI_PREG_SERR_ERR_P (1<<10) /* Protocol */
#define AHCI_PREG_SERR_ERR_E (1<<11) /* Internal */
#define AHCI_PFMT_SERR_ERR "\020" "\014E" "\013P" "\012C" "\011T" "\002M" \
"\001I"
#define AHCI_PREG_SERR_DIAG(_r) (((_r) >> 16) & 0xffff)
#define AHCI_PREG_SERR_DIAG_N (1<<0) /* PhyRdy Change */
#define AHCI_PREG_SERR_DIAG_I (1<<1) /* Phy Internal Error */
#define AHCI_PREG_SERR_DIAG_W (1<<2) /* Comm Wake */
#define AHCI_PREG_SERR_DIAG_B (1<<3) /* 10B to 8B Decode Error */
#define AHCI_PREG_SERR_DIAG_D (1<<4) /* Disparity Error */
#define AHCI_PREG_SERR_DIAG_C (1<<5) /* CRC Error */
#define AHCI_PREG_SERR_DIAG_H (1<<6) /* Handshake Error */
#define AHCI_PREG_SERR_DIAG_S (1<<7) /* Link Sequence Error */
#define AHCI_PREG_SERR_DIAG_T (1<<8) /* Transport State Trans Err */
#define AHCI_PREG_SERR_DIAG_F (1<<9) /* Unknown FIS Type */
#define AHCI_PREG_SERR_DIAG_X (1<<10) /* Exchanged */
#define AHCI_PFMT_SERR_DIAG "\020" "\013X" "\012F" "\011T" "\010S" "\007H" \
"\006C" "\005D" "\004B" "\003W" "\002I" \
"\001N"
#define AHCI_PREG_SACT 0x34 /* SATA Active */
#define AHCI_PREG_CI 0x38 /* Command Issue */
#define AHCI_PREG_CI_ALL_SLOTS 0xffffffff
#define AHCI_PREG_SNTF 0x3c /* SNotification */
struct ahci_cmd_hdr {
u_int16_t flags;
#define AHCI_CMD_LIST_FLAG_CFL 0x001f /* Command FIS Length */
#define AHCI_CMD_LIST_FLAG_A (1<<5) /* ATAPI */
#define AHCI_CMD_LIST_FLAG_W (1<<6) /* Write */
#define AHCI_CMD_LIST_FLAG_P (1<<7) /* Prefetchable */
#define AHCI_CMD_LIST_FLAG_R (1<<8) /* Reset */
#define AHCI_CMD_LIST_FLAG_B (1<<9) /* BIST */
#define AHCI_CMD_LIST_FLAG_C (1<<10) /* Clear Busy upon R_OK */
#define AHCI_CMD_LIST_FLAG_PMP 0xf000 /* Port Multiplier Port */
u_int16_t prdtl; /* sgl len */
u_int32_t prdbc; /* transferred byte count */
u_int32_t ctba_lo;
u_int32_t ctba_hi;
u_int32_t reserved[4];
} __packed;
struct ahci_rfis {
u_int8_t dsfis[28];
u_int8_t reserved1[4];
u_int8_t psfis[24];
u_int8_t reserved2[8];
u_int8_t rfis[24];
u_int8_t reserved3[4];
u_int8_t sdbfis[4];
u_int8_t ufis[64];
u_int8_t reserved4[96];
} __packed;
struct ahci_prdt {
u_int32_t dba_lo;
u_int32_t dba_hi;
u_int32_t reserved;
u_int32_t flags;
#define AHCI_PRDT_FLAG_INTR (1<<31) /* interrupt on completion */
} __packed;
/* this makes ahci_cmd_table 512 bytes, supporting 128-byte alignment */
#define AHCI_MAX_PRDT 24
struct ahci_cmd_table {
u_int8_t cfis[64]; /* Command FIS */
u_int8_t acmd[16]; /* ATAPI Command */
u_int8_t reserved[48];
struct ahci_prdt prdt[AHCI_MAX_PRDT];
} __packed;
#define AHCI_MAX_PORTS 32
struct ahci_dmamem {
bus_dmamap_t adm_map;
bus_dma_segment_t adm_seg;
size_t adm_size;
caddr_t adm_kva;
};
#define AHCI_DMA_MAP(_adm) ((_adm)->adm_map)
#define AHCI_DMA_DVA(_adm) ((_adm)->adm_map->dm_segs[0].ds_addr)
#define AHCI_DMA_KVA(_adm) ((void *)(_adm)->adm_kva)
struct ahci_softc;
struct ahci_port;
struct ahci_ccb {
/* ATA xfer associated with this CCB. Must be 1st struct member. */
struct ata_xfer ccb_xa;
int ccb_slot;
struct ahci_port *ccb_port;
bus_dmamap_t ccb_dmamap;
struct ahci_cmd_hdr *ccb_cmd_hdr;
struct ahci_cmd_table *ccb_cmd_table;
void (*ccb_done)(struct ahci_ccb *);
TAILQ_ENTRY(ahci_ccb) ccb_entry;
};
struct ahci_port {
struct ahci_softc *ap_sc;
bus_space_handle_t ap_ioh;
struct ahci_rfis *ap_rfis;
struct ahci_dmamem *ap_dmamem_rfis;
struct ahci_dmamem *ap_dmamem_cmd_list;
struct ahci_dmamem *ap_dmamem_cmd_table;
volatile u_int32_t ap_active;
volatile u_int32_t ap_active_cnt;
volatile u_int32_t ap_sactive;
struct ahci_ccb *ap_ccbs;
TAILQ_HEAD(, ahci_ccb) ap_ccb_free;
TAILQ_HEAD(, ahci_ccb) ap_ccb_pending;
u_int32_t ap_state;
#define AP_S_NORMAL 0
#define AP_S_FATAL_ERROR 1
#ifdef AHCI_DEBUG
char ap_name[16];
#define PORTNAME(_ap) ((_ap)->ap_name)
#else
#define PORTNAME(_ap) DEVNAME((_ap)->ap_sc)
#endif
};
struct ahci_softc {
struct device sc_dev;
void *sc_ih;
bus_space_tag_t sc_iot;
bus_space_handle_t sc_ioh;
bus_size_t sc_ios;
bus_dma_tag_t sc_dmat;
u_int sc_ncmds;
struct ahci_port *sc_ports[AHCI_MAX_PORTS];
struct atascsi *sc_atascsi;
#ifdef AHCI_COALESCE
u_int32_t sc_ccc_mask;
#endif
};
#define DEVNAME(_s) ((_s)->sc_dev.dv_xname)
struct ahci_device {
pci_vendor_id_t ad_vendor;
pci_product_id_t ad_product;
int (*ad_match)(struct pci_attach_args *);
int (*ad_attach)(struct pci_attach_args *);
};
const struct ahci_device *ahci_lookup_device(struct pci_attach_args *);
int ahci_jmicron_match(struct pci_attach_args *);
int ahci_jmicron_attach(struct pci_attach_args *);
static const struct ahci_device ahci_devices[] = {
{ PCI_VENDOR_JMICRON, PCI_PRODUCT_JMICRON_JMB360,
ahci_jmicron_match, ahci_jmicron_attach },
{ PCI_VENDOR_JMICRON, PCI_PRODUCT_JMICRON_JMB361,
ahci_jmicron_match, ahci_jmicron_attach },
{ PCI_VENDOR_JMICRON, PCI_PRODUCT_JMICRON_JMB363,
ahci_jmicron_match, ahci_jmicron_attach },
{ PCI_VENDOR_JMICRON, PCI_PRODUCT_JMICRON_JMB365,
ahci_jmicron_match, ahci_jmicron_attach },
{ PCI_VENDOR_JMICRON, PCI_PRODUCT_JMICRON_JMB366,
ahci_jmicron_match, ahci_jmicron_attach }
};
int ahci_match(struct device *, void *, void *);
void ahci_attach(struct device *, struct device *, void *);
struct cfattach ahci_ca = {
sizeof(struct ahci_softc), ahci_match, ahci_attach
};
struct cfdriver ahci_cd = {
NULL, "ahci", DV_DULL
};
int ahci_map_regs(struct ahci_softc *,
struct pci_attach_args *);
void ahci_unmap_regs(struct ahci_softc *,
struct pci_attach_args *);
int ahci_map_intr(struct ahci_softc *,
struct pci_attach_args *);
void ahci_unmap_intr(struct ahci_softc *,
struct pci_attach_args *);
int ahci_init(struct ahci_softc *);
int ahci_port_alloc(struct ahci_softc *, u_int);
void ahci_port_free(struct ahci_softc *, u_int);
int ahci_port_start(struct ahci_port *, int);
int ahci_port_stop(struct ahci_port *, int);
int ahci_port_clo(struct ahci_port *);
int ahci_port_softreset(struct ahci_port *);
int ahci_port_portreset(struct ahci_port *);
int ahci_load_prdt(struct ahci_ccb *);
void ahci_unload_prdt(struct ahci_ccb *);
int ahci_poll(struct ahci_ccb *, int, void (*)(void *));
void ahci_start(struct ahci_ccb *);
void ahci_issue_pending_ncq_commands(struct ahci_port *);
void ahci_issue_pending_commands(struct ahci_port *, int);
int ahci_intr(void *);
u_int32_t ahci_port_intr(struct ahci_port *, u_int32_t);
struct ahci_ccb *ahci_get_ccb(struct ahci_port *);
void ahci_put_ccb(struct ahci_ccb *);
struct ahci_dmamem *ahci_dmamem_alloc(struct ahci_softc *, size_t);
void ahci_dmamem_free(struct ahci_softc *,
struct ahci_dmamem *);
u_int32_t ahci_read(struct ahci_softc *, bus_size_t);
void ahci_write(struct ahci_softc *, bus_size_t, u_int32_t);
int ahci_wait_eq(struct ahci_softc *, bus_size_t,
u_int32_t, u_int32_t);
int ahci_wait_ne(struct ahci_softc *, bus_size_t,
u_int32_t, u_int32_t);
u_int32_t ahci_pread(struct ahci_port *, bus_size_t);
void ahci_pwrite(struct ahci_port *, bus_size_t, u_int32_t);
int ahci_pwait_eq(struct ahci_port *, bus_size_t,
u_int32_t, u_int32_t);
int ahci_pwait_ne(struct ahci_port *, bus_size_t,
u_int32_t, u_int32_t);
/* Wait for all bits in _b to be cleared */
#define ahci_pwait_clr(_ap, _r, _b) ahci_pwait_eq((_ap), (_r), (_b), 0)
/* Wait for all bits in _b to be set */
#define ahci_pwait_set(_ap, _r, _b) ahci_pwait_eq((_ap), (_r), (_b), (_b))
/* provide methods for atascsi to call */
int ahci_ata_probe(void *, int);
struct ata_xfer * ahci_ata_get_xfer(void *, int);
void ahci_ata_put_xfer(struct ata_xfer *);
int ahci_ata_cmd(struct ata_xfer *);
struct atascsi_methods ahci_atascsi_methods = {
ahci_ata_probe,
ahci_ata_get_xfer,
ahci_ata_cmd
};
/* ccb completions */
void ahci_ata_cmd_done(struct ahci_ccb *);
void ahci_ata_cmd_timeout(void *);
void ahci_empty_done(struct ahci_ccb *);
const struct ahci_device *
ahci_lookup_device(struct pci_attach_args *pa)
{
int i;
const struct ahci_device *ad;
for (i = 0; i < (sizeof(ahci_devices) / sizeof(ahci_devices[0])); i++) {
ad = &ahci_devices[i];
if (ad->ad_vendor == PCI_VENDOR(pa->pa_id) &&
ad->ad_product == PCI_PRODUCT(pa->pa_id))
return (ad);
}
return (NULL);
}
int
ahci_jmicron_match(struct pci_attach_args *pa)
{
if (pa->pa_function != 0)
return (0);
return (1);
}
int
ahci_jmicron_attach(struct pci_attach_args *pa)
{
u_int32_t ccr;
/* Switch JMICRON ports to AHCI mode */
ccr = pci_conf_read(pa->pa_pc, pa->pa_tag, 0x40);
ccr &= ~0x0000ff00;
ccr |= 0x0000a100;
pci_conf_write(pa->pa_pc, pa->pa_tag, 0x40, ccr);
return (0);
}
int
ahci_match(struct device *parent, void *match, void *aux)
{
struct pci_attach_args *pa = aux;
const struct ahci_device *ad;
ad = ahci_lookup_device(pa);
if (ad == NULL)
return (0);
/* the device may need special checks to see if it matches */
if (ad->ad_match != NULL)
return (ad->ad_match(pa));
return (2); /* match higher than pciide */
}
void
ahci_attach(struct device *parent, struct device *self, void *aux)
{
struct ahci_softc *sc = (struct ahci_softc *)self;
struct pci_attach_args *pa = aux;
const struct ahci_device *ad;
struct atascsi_attach_args aaa;
u_int32_t reg;
int i;
ad = ahci_lookup_device(pa);
if (ad == NULL)
panic("ahci attach cant find a device it matched on");
if (ad->ad_attach != NULL) {
if (ad->ad_attach(pa) != 0) {
/* error should be printed by ad_attach */
return;
}
}
if (ahci_map_regs(sc, pa) != 0) {
/* error already printed by ahci_map_regs */
return;
}
if (ahci_init(sc) != 0) {
/* error already printed by ahci_init */
goto unmap;
}
if (ahci_map_intr(sc, pa) != 0) {
/* error already printed by ahci_map_intr */
goto unmap;
}
printf("\n");
sc->sc_dmat = pa->pa_dmat;
reg = ahci_read(sc, AHCI_REG_CAP);
sc->sc_ncmds = AHCI_REG_CAP_NCS(reg);
#ifdef AHCI_DEBUG
if (ahcidebug & AHCI_D_VERBOSE) {
const char *gen;
switch (reg & AHCI_REG_CAP_ISS) {
case AHCI_REG_CAP_ISS_G1:
gen = "1 (1.5Gbps)";
break;
case AHCI_REG_CAP_ISS_G1_2:
gen = "1 (1.5Gbps) and 2 (3Gbps)";
break;
default:
gen = "unknown";
break;
}
printf("%s: capabilities: 0x%b ports: %d ncmds: %d gen: %s\n",
DEVNAME(sc), reg, AHCI_FMT_CAP,
AHCI_REG_CAP_NP(reg), sc->sc_ncmds, gen);
}
#endif
reg = ahci_read(sc, AHCI_REG_PI);
DPRINTF(AHCI_D_VERBOSE, "%s: ports implemented: 0x%08x\n",
DEVNAME(sc), reg);
for (i = 0; i < AHCI_MAX_PORTS; i++) {
if (!ISSET(reg, 1 << i)) {
/* dont allocate stuff if the port isnt implemented */
continue;
}
if (ahci_port_alloc(sc, i) == ENOMEM)
goto freeports;
}
bzero(&aaa, sizeof(aaa));
aaa.aaa_cookie = sc;
aaa.aaa_methods = &ahci_atascsi_methods;
aaa.aaa_minphys = minphys;
aaa.aaa_nports = AHCI_MAX_PORTS;
aaa.aaa_ncmds = sc->sc_ncmds - 1; /* Reserve a slot for soft resets. */
sc->sc_atascsi = atascsi_attach(self, &aaa);
/* Enable interrupts */
ahci_write(sc, AHCI_REG_GHC, AHCI_REG_GHC_AE | AHCI_REG_GHC_IE);
return;
freeports:
for (i = 0; i < AHCI_MAX_PORTS; i++)
if (sc->sc_ports[i] != NULL)
ahci_port_free(sc, i);
unmap:
/* Disable controller */
ahci_write(sc, AHCI_REG_GHC, 0);
ahci_unmap_regs(sc, pa);
}
int
ahci_map_regs(struct ahci_softc *sc, struct pci_attach_args *pa)
{
pcireg_t maptype;
maptype = pci_mapreg_type(pa->pa_pc, pa->pa_tag, AHCI_PCI_BAR);
if (pci_mapreg_map(pa, AHCI_PCI_BAR, maptype, 0, &sc->sc_iot,
&sc->sc_ioh, NULL, &sc->sc_ios, 0) != 0) {
printf(": unable to map registers\n");
return (1);
}
return (0);
}
void
ahci_unmap_regs(struct ahci_softc *sc, struct pci_attach_args *pa)
{
bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios);
sc->sc_ios = 0;
}
int
ahci_map_intr(struct ahci_softc *sc, struct pci_attach_args *pa)
{
pci_intr_handle_t ih;
const char *intrstr;
if (pci_intr_map(pa, &ih) != 0) {
printf(": unable to map interrupt\n");
return (1);
}
intrstr = pci_intr_string(pa->pa_pc, ih);
sc->sc_ih = pci_intr_establish(pa->pa_pc, ih, IPL_BIO,
ahci_intr, sc, DEVNAME(sc));
if (sc->sc_ih == NULL) {
printf(": unable to map interrupt%s%s\n",
intrstr == NULL ? "" : " at ",
intrstr == NULL ? "" : intrstr);
return (1);
}
printf(": %s", intrstr);
return (0);
}
void
ahci_unmap_intr(struct ahci_softc *sc, struct pci_attach_args *pa)
{
pci_intr_disestablish(pa->pa_pc, sc->sc_ih);
}
int
ahci_init(struct ahci_softc *sc)
{
u_int32_t reg, cap, pi;
const char *revision;
DPRINTF(AHCI_D_VERBOSE, " GHC 0x%b", ahci_read(sc, AHCI_REG_GHC),
AHCI_FMT_GHC);
/* save BIOS initialised parameters, enable staggered spin up */
cap = ahci_read(sc, AHCI_REG_CAP);
cap &= AHCI_REG_CAP_SMPS;
cap |= AHCI_REG_CAP_SSS;
pi = ahci_read(sc, AHCI_REG_PI);
if (ISSET(AHCI_REG_GHC_AE, ahci_read(sc, AHCI_REG_GHC))) {
/* reset the controller */
ahci_write(sc, AHCI_REG_GHC, AHCI_REG_GHC_HR);
if (ahci_wait_ne(sc, AHCI_REG_GHC, AHCI_REG_GHC_HR,
AHCI_REG_GHC_HR) != 0) {
printf(": unable to reset controller\n");
return (1);
}
}
/* enable ahci (global interrupts disabled) */
ahci_write(sc, AHCI_REG_GHC, AHCI_REG_GHC_AE);
/* restore parameters */
ahci_write(sc, AHCI_REG_CAP, cap);
ahci_write(sc, AHCI_REG_PI, pi);
/* check the revision */
reg = ahci_read(sc, AHCI_REG_VS);
switch (reg) {
case AHCI_REG_VS_0_95:
revision = "0.95";
break;
case AHCI_REG_VS_1_0:
revision = "1.0";
break;
case AHCI_REG_VS_1_1:
revision = "1.1";
break;
default:
printf(": unsupported AHCI revision 0x%08x\n", reg);
return (1);
}
printf(": AHCI %s", revision);
return (0);
}
int
ahci_port_alloc(struct ahci_softc *sc, u_int port)
{
struct ahci_port *ap;
struct ahci_ccb *ccb;
u_int64_t dva;
u_int32_t cmd;
struct ahci_cmd_hdr *hdr;
struct ahci_cmd_table *table;
int i, rc = ENOMEM;
ap = malloc(sizeof(struct ahci_port), M_DEVBUF, M_NOWAIT);
if (ap == NULL) {
printf("%s: unable to allocate memory for port %d\n",
DEVNAME(sc), port);
goto reterr;
}
bzero(ap, sizeof(struct ahci_port));
#ifdef AHCI_DEBUG
snprintf(ap->ap_name, sizeof(ap->ap_name), "%s.%d",
DEVNAME(sc), port);
#endif
sc->sc_ports[port] = ap;
if (bus_space_subregion(sc->sc_iot, sc->sc_ioh,
AHCI_PORT_REGION(port), AHCI_PORT_SIZE, &ap->ap_ioh) != 0) {
printf("%s: unable to create register window for port %d\n",
DEVNAME(sc), port);
goto freeport;
}
ap->ap_sc = sc;
TAILQ_INIT(&ap->ap_ccb_free);
TAILQ_INIT(&ap->ap_ccb_pending);
/* Disable port interrupts */
ahci_pwrite(ap, AHCI_PREG_IE, 0);
/* Sec 10.1.2 - deinitialise port if it is already running */
cmd = ahci_pread(ap, AHCI_PREG_CMD);
if (ISSET(cmd, (AHCI_PREG_CMD_ST | AHCI_PREG_CMD_CR |
AHCI_PREG_CMD_FRE | AHCI_PREG_CMD_FR)) ||
ISSET(ahci_pread(ap, AHCI_PREG_SCTL), AHCI_PREG_SCTL_DET)) {
int r;
r = ahci_port_stop(ap, 1);
if (r) {
printf("%s: unable to disable %s, ignoring port %d\n",
DEVNAME(sc), r == 2 ? "CR" : "FR", port);
rc = ENXIO;
goto freeport;
}
/* Write DET to zero */
ahci_pwrite(ap, AHCI_PREG_SCTL, 0);
}
/* Allocate RFIS */
ap->ap_dmamem_rfis = ahci_dmamem_alloc(sc, sizeof(struct ahci_rfis));
if (ap->ap_dmamem_rfis == NULL)
goto nomem;
/* Setup RFIS base address */
ap->ap_rfis = (struct ahci_rfis *) AHCI_DMA_KVA(ap->ap_dmamem_rfis);
dva = AHCI_DMA_DVA(ap->ap_dmamem_rfis);
ahci_pwrite(ap, AHCI_PREG_FBU, (u_int32_t)(dva >> 32));
ahci_pwrite(ap, AHCI_PREG_FB, (u_int32_t)dva);
/* Enable FIS reception and activate port. */
cmd = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC;
cmd |= AHCI_PREG_CMD_FRE | AHCI_PREG_CMD_POD | AHCI_PREG_CMD_SUD;
ahci_pwrite(ap, AHCI_PREG_CMD, cmd | AHCI_PREG_CMD_ICC_ACTIVE);
/* Check whether port activated. Skip it if not. */
cmd = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC;
if (!ISSET(cmd, AHCI_PREG_CMD_FRE)) {
rc = ENXIO;
goto freeport;
}
/* Allocate a CCB for each command slot */
ap->ap_ccbs = malloc(sizeof(struct ahci_ccb) * sc->sc_ncmds, M_DEVBUF,
M_NOWAIT);
if (ap->ap_ccbs == NULL) {
printf("%s: unable to allocate command list for port %d\n",
DEVNAME(sc), port);
goto freeport;
}
bzero(ap->ap_ccbs, sizeof(struct ahci_ccb) * sc->sc_ncmds);
/* Command List Structures and Command Tables */
ap->ap_dmamem_cmd_list = ahci_dmamem_alloc(sc,
sc->sc_ncmds * sizeof(struct ahci_cmd_hdr));
ap->ap_dmamem_cmd_table = ahci_dmamem_alloc(sc,
sc->sc_ncmds * sizeof(struct ahci_cmd_table));
if (ap->ap_dmamem_cmd_table == NULL || ap->ap_dmamem_cmd_list == NULL) {
nomem:
printf("%s: unable to allocate DMA memory for port %d\n",
DEVNAME(sc), port);
goto freeport;
}
/* Setup command list base address */
dva = AHCI_DMA_DVA(ap->ap_dmamem_cmd_list);
ahci_pwrite(ap, AHCI_PREG_CLBU, (u_int32_t)(dva >> 32));
ahci_pwrite(ap, AHCI_PREG_CLB, (u_int32_t)dva);
/* Split CCB allocation into CCBs and assign to command header/table */
hdr = AHCI_DMA_KVA(ap->ap_dmamem_cmd_list);
table = AHCI_DMA_KVA(ap->ap_dmamem_cmd_table);
for (i = 0; i < sc->sc_ncmds; i++) {
ccb = &ap->ap_ccbs[i];
if (bus_dmamap_create(sc->sc_dmat, MAXPHYS, AHCI_MAX_PRDT,
(4 * 1024 * 1024), 0, BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW,
&ccb->ccb_dmamap) != 0) {
printf("%s: unable to create dmamap for port %d "
"ccb %d\n", DEVNAME(sc), port, i);
goto freeport;
}
ccb->ccb_slot = i;
ccb->ccb_port = ap;
ccb->ccb_cmd_hdr = &hdr[i];
ccb->ccb_cmd_table = &table[i];
dva = AHCI_DMA_DVA(ap->ap_dmamem_cmd_table) +
ccb->ccb_slot * sizeof(struct ahci_cmd_table);
ccb->ccb_cmd_hdr->ctba_hi = htole32((u_int32_t)(dva >> 32));
ccb->ccb_cmd_hdr->ctba_lo = htole32((u_int32_t)dva);
ccb->ccb_xa.fis =
(struct ata_fis_h2d *)ccb->ccb_cmd_table->cfis;
ccb->ccb_xa.packetcmd = ccb->ccb_cmd_table->acmd;
ccb->ccb_xa.tag = i;
ccb->ccb_xa.ata_put_xfer = ahci_ata_put_xfer;
ahci_put_ccb(ccb);
}
/* Wait for ICC change to complete */
ahci_pwait_clr(ap, AHCI_PREG_CMD, AHCI_PREG_CMD_ICC);
/* Reset port */
rc = ahci_port_portreset(ap);
switch (rc) {
case ENODEV:
switch (ahci_pread(ap, AHCI_PREG_SSTS) & AHCI_PREG_SSTS_DET) {
case AHCI_PREG_SSTS_DET_DEV_NE:
printf("%s: device not communicating on port %d\n",
DEVNAME(sc), port);
break;
case AHCI_PREG_SSTS_DET_PHYOFFLINE:
printf("%s: PHY offline on port %d\n", DEVNAME(sc),
port);
break;
default:
DPRINTF(AHCI_D_VERBOSE, "%s: no device detected"
"on port %d\n", DEVNAME(sc), port);
break;
}
goto freeport;
case EBUSY:
printf("%s: device on port %d didn't come ready, "
"TFD: 0x%b\n", DEVNAME(sc), port,
ahci_pread(ap, AHCI_PREG_TFD), AHCI_PFMT_TFD_STS);
/* Try a soft reset to clear busy */
rc = ahci_port_softreset(ap);
if (rc) {
printf("%s: unable to communicate "
"with device on port %d\n", DEVNAME(sc), port);
goto freeport;
}
break;
default:
break;
}
DPRINTF(AHCI_D_VERBOSE, "%s: detected device on port %d\n",
DEVNAME(sc), port);
/* Enable command transfers on port */
if (ahci_port_start(ap, 0)) {
printf("%s: failed to start command DMA on port %d, "
"disabling\n", DEVNAME(sc), port);
rc = ENXIO; /* couldn't start port */
}
/* Flush interrupts for port */
ahci_pwrite(ap, AHCI_PREG_IS, ahci_pread(ap, AHCI_PREG_IS));
ahci_write(sc, AHCI_REG_IS, 1 << port);
/* Enable port interrupts */
ahci_pwrite(ap, AHCI_PREG_IE, AHCI_PREG_IE_TFEE | AHCI_PREG_IE_HBFE |
AHCI_PREG_IE_IFE | AHCI_PREG_IE_OFE | AHCI_PREG_IE_DPE |
AHCI_PREG_IE_UFE | AHCI_PREG_IE_SDBE | AHCI_PREG_IE_DHRE);
freeport:
if (rc != 0)
ahci_port_free(sc, port);
reterr:
return (rc);
}
void
ahci_port_free(struct ahci_softc *sc, u_int port)
{
struct ahci_port *ap = sc->sc_ports[port];
struct ahci_ccb *ccb;
/* Ensure port is disabled and its interrupts are flushed */
if (ap->ap_sc) {
ahci_pwrite(ap, AHCI_PREG_CMD, 0);
ahci_pwrite(ap, AHCI_PREG_IE, 0);
ahci_pwrite(ap, AHCI_PREG_IS, ahci_pread(ap, AHCI_PREG_IS));
ahci_write(sc, AHCI_REG_IS, 1 << port);
}
if (ap->ap_ccbs) {
while ((ccb = ahci_get_ccb(ap)) != NULL)
bus_dmamap_destroy(sc->sc_dmat, ccb->ccb_dmamap);
free(ap->ap_ccbs, M_DEVBUF);
}
if (ap->ap_dmamem_cmd_list)
ahci_dmamem_free(sc, ap->ap_dmamem_cmd_list);
if (ap->ap_dmamem_rfis)
ahci_dmamem_free(sc, ap->ap_dmamem_rfis);
if (ap->ap_dmamem_cmd_table)
ahci_dmamem_free(sc, ap->ap_dmamem_cmd_table);
/* bus_space(9) says we dont free the subregions handle */
free(ap, M_DEVBUF);
sc->sc_ports[port] = NULL;
}
int
ahci_port_start(struct ahci_port *ap, int fre_only)
{
u_int32_t r;
/* Turn on FRE (and ST) */
r = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC;
r |= AHCI_PREG_CMD_FRE;
if (!fre_only)
r |= AHCI_PREG_CMD_ST;
ahci_pwrite(ap, AHCI_PREG_CMD, r);
/* Wait for FR to come on */
if (ahci_pwait_set(ap, AHCI_PREG_CMD, AHCI_PREG_CMD_FR))
return (2);
/* Wait for CR to come on */
if (!fre_only && ahci_pwait_set(ap, AHCI_PREG_CMD, AHCI_PREG_CMD_CR))
return (1);
return (0);
}
int
ahci_port_stop(struct ahci_port *ap, int stop_fis_rx)
{
u_int32_t r;
/* Turn off ST (and FRE) */
r = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC;
r &= ~AHCI_PREG_CMD_ST;
if (stop_fis_rx)
r &= ~AHCI_PREG_CMD_FRE;
ahci_pwrite(ap, AHCI_PREG_CMD, r);
/* Wait for CR to go off */
if (ahci_pwait_clr(ap, AHCI_PREG_CMD, AHCI_PREG_CMD_CR))
return (1);
/* Wait for FR to go off */
if (stop_fis_rx && ahci_pwait_clr(ap, AHCI_PREG_CMD, AHCI_PREG_CMD_FR))
return (2);
return (0);
}
/* AHCI command list override -> forcibly clear TFD.STS.{BSY,DRQ} */
int
ahci_port_clo(struct ahci_port *ap)
{
struct ahci_softc *sc = ap->ap_sc;
u_int32_t cmd;
/* Only attempt CLO if supported by controller */
if (!ISSET(ahci_read(sc, AHCI_REG_CAP), AHCI_REG_CAP_SCLO))
return (1);
/* Issue CLO */
cmd = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC;
#ifdef DIAGNOSTIC
if (ISSET(cmd, AHCI_PREG_CMD_ST))
printf("%s: CLO requested while port running\n", PORTNAME(ap));
#endif
ahci_pwrite(ap, AHCI_PREG_CMD, cmd | AHCI_PREG_CMD_CLO);
/* Wait for completion */
if (ahci_pwait_clr(ap, AHCI_PREG_CMD, AHCI_PREG_CMD_CLO)) {
printf("%s: CLO did not complete\n", PORTNAME(ap));
return (1);
}
return (0);
}
/* AHCI soft reset, Section 10.4.1 */
int
ahci_port_softreset(struct ahci_port *ap)
{
struct ahci_ccb *ccb;
struct ahci_cmd_hdr *cmd_slot;
u_int8_t *fis;
int s, rc = EIO;
u_int32_t cmd;
DPRINTF(AHCI_D_VERBOSE, "%s: soft reset\n", PORTNAME(ap));
s = splbio();
ccb = ahci_get_ccb(ap);
splx(s);
if (ccb == NULL)
goto err;
ccb->ccb_done = ahci_empty_done;
/* Save previous command register state */
cmd = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC;
/* Idle port */
if (ahci_port_stop(ap, 0)) {
printf("%s: failed to stop port, cannot softreset\n",
PORTNAME(ap));
goto err;
}
/* Request CLO if device appears hung */
if (ISSET(ahci_pread(ap, AHCI_PREG_TFD), AHCI_PREG_TFD_STS_BSY |
AHCI_PREG_TFD_STS_DRQ))
ahci_port_clo(ap);
/* Clear port errors to permit TFD transfer */
ahci_pwrite(ap, AHCI_PREG_SERR, ahci_pread(ap, AHCI_PREG_SERR));
/* Restart port */
if (ahci_port_start(ap, 0)) {
printf("%s: failed to start port, cannot softreset\n",
PORTNAME(ap));
goto err;
}
/* Check whether CLO worked */
if (ahci_pwait_clr(ap, AHCI_PREG_TFD,
AHCI_PREG_TFD_STS_BSY | AHCI_PREG_TFD_STS_DRQ)) {
printf("%s: CLO %s, need port reset\n", PORTNAME(ap),
ISSET(ahci_read(ap->ap_sc, AHCI_REG_CAP), AHCI_REG_CAP_SCLO)
? "failed" : "unsupported");
rc = EBUSY;
goto err;
}
/* Prep first D2H command with SRST feature & clear busy/reset flags */
cmd_slot = ccb->ccb_cmd_hdr;
bzero(ccb->ccb_cmd_table, sizeof(struct ahci_cmd_table));
fis = ccb->ccb_cmd_table->cfis;
fis[0] = 0x27; /* Host to device */
fis[15] = 0x04; /* SRST DEVCTL */
cmd_slot->prdtl = 0;
cmd_slot->flags = htole16(5); /* FIS length: 5 DWORDS */
cmd_slot->flags |= htole16(AHCI_CMD_LIST_FLAG_C); /* Clear busy on OK */
cmd_slot->flags |= htole16(AHCI_CMD_LIST_FLAG_R); /* Reset */
cmd_slot->flags |= htole16(AHCI_CMD_LIST_FLAG_W); /* Write */
ccb->ccb_xa.state = ATA_S_PENDING;
if (ahci_poll(ccb, 1000, NULL) != 0)
goto err;
/* Prep second D2H command to read status and complete reset sequence */
fis[0] = 0x27; /* Host to device */
fis[15] = 0;
cmd_slot->prdtl = 0;
cmd_slot->flags = htole16(5); /* FIS length: 5 DWORDS */
cmd_slot->flags |= htole16(AHCI_CMD_LIST_FLAG_W);
ccb->ccb_xa.state = ATA_S_PENDING;
if (ahci_poll(ccb, 1000, NULL) != 0)
goto err;
if (ahci_pwait_clr(ap, AHCI_PREG_TFD, AHCI_PREG_TFD_STS_BSY |
AHCI_PREG_TFD_STS_DRQ | AHCI_PREG_TFD_STS_ERR)) {
printf("%s: device didn't come ready after reset, TFD: 0x%b\n",
PORTNAME(ap), ahci_pread(ap, AHCI_PREG_TFD),
AHCI_PFMT_TFD_STS);
rc = EBUSY;
goto err;
}
rc = 0;
err:
if (ccb != NULL) {
/* Abort our command, if it failed, by stopping command DMA. */
if (rc != 0 && ISSET(ap->ap_active, 1 << ccb->ccb_slot)) {
printf("%s: stopping the port, softreset slot %d was "
"still active.\n", PORTNAME(ap), ccb->ccb_slot);
ahci_port_stop(ap, 0);
}
s = splbio();
ahci_put_ccb(ccb);
splx(s);
}
/* Restore saved CMD register state */
ahci_pwrite(ap, AHCI_PREG_CMD, cmd);
return (rc);
}
/* AHCI port reset, Section 10.4.2 */
int
ahci_port_portreset(struct ahci_port *ap)
{
u_int32_t cmd, r;
int rc;
DPRINTF(AHCI_D_VERBOSE, "%s: port reset\n", PORTNAME(ap));
/* Save previous command register state */
cmd = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC;
/* Clear ST, ignoring failure */
ahci_port_stop(ap, 0);
/* Perform device detection */
ahci_pwrite(ap, AHCI_PREG_SCTL, 0);
r = AHCI_PREG_SCTL_IPM_DISABLED | AHCI_PREG_SCTL_SPD_ANY |
AHCI_PREG_SCTL_DET_INIT;
ahci_pwrite(ap, AHCI_PREG_SCTL, r);
delay(2000); /* wait at least 1ms for COMRESET to be sent */
r &= ~AHCI_PREG_SCTL_DET_INIT;
r |= AHCI_PREG_SCTL_DET_NONE;
ahci_pwrite(ap, AHCI_PREG_SCTL, r);
delay(2000);
/* Wait for device to be detected and communications established */
if (ahci_pwait_eq(ap, AHCI_PREG_SSTS, AHCI_PREG_SSTS_DET,
AHCI_PREG_SSTS_DET_DEV)) {
rc = ENODEV;
goto err;
}
/* Clear SERR (incl X bit), so TFD can update */
ahci_pwrite(ap, AHCI_PREG_SERR, ahci_pread(ap, AHCI_PREG_SERR));
/* Wait for device to become ready */
/* XXX maybe more than the default wait is appropriate here? */
if (ahci_pwait_clr(ap, AHCI_PREG_TFD, AHCI_PREG_TFD_STS_BSY |
AHCI_PREG_TFD_STS_DRQ | AHCI_PREG_TFD_STS_ERR)) {
rc = EBUSY;
goto err;
}
rc = 0;
err:
/* Restore preserved port state */
ahci_pwrite(ap, AHCI_PREG_CMD, cmd);
return (rc);
}
int
ahci_load_prdt(struct ahci_ccb *ccb)
{
struct ahci_port *ap = ccb->ccb_port;
struct ahci_softc *sc = ap->ap_sc;
struct ata_xfer *xa = &ccb->ccb_xa;
struct ahci_prdt *prdt = ccb->ccb_cmd_table->prdt, *prd;
bus_dmamap_t dmap = ccb->ccb_dmamap;
struct ahci_cmd_hdr *cmd_slot = ccb->ccb_cmd_hdr;
u_int64_t addr;
int i, error;
if (xa->datalen == 0) {
ccb->ccb_cmd_hdr->prdtl = 0;
return (0);
}
error = bus_dmamap_load(sc->sc_dmat, dmap, xa->data, xa->datalen, NULL,
(xa->flags & ATA_F_NOWAIT) ? BUS_DMA_NOWAIT : BUS_DMA_WAITOK);
if (error != 0) {
printf("%s: error %d loading dmamap\n", PORTNAME(ap), error);
return (1);
}
for (i = 0; i < dmap->dm_nsegs; i++) {
prd = &prdt[i];
addr = dmap->dm_segs[i].ds_addr;
prd->dba_hi = htole32((u_int32_t)(addr >> 32));
prd->dba_lo = htole32((u_int32_t)addr);
#ifdef DIAGNOSTIC
if (addr & 1) {
printf("%s: requested DMA at an odd address %llx\n",
PORTNAME(ap), (unsigned long long)addr);
return (1);
}
if (dmap->dm_segs[i].ds_len & 1) {
printf("%s: requested DMA length %d is not even\n",
PORTNAME(ap), (int)dmap->dm_segs[i].ds_len);
return (1);
}
#endif
prd->flags = htole32(dmap->dm_segs[i].ds_len - 1);
}
if (xa->flags & ATA_F_PIO)
prd->flags |= htole32(AHCI_PRDT_FLAG_INTR);
cmd_slot->prdtl = htole16(dmap->dm_nsegs);
bus_dmamap_sync(sc->sc_dmat, dmap, 0, dmap->dm_mapsize,
(xa->flags & ATA_F_READ) ? BUS_DMASYNC_PREREAD :
BUS_DMASYNC_PREWRITE);
return (0);
}
void
ahci_unload_prdt(struct ahci_ccb *ccb)
{
struct ahci_port *ap = ccb->ccb_port;
struct ahci_softc *sc = ap->ap_sc;
struct ata_xfer *xa = &ccb->ccb_xa;
bus_dmamap_t dmap = ccb->ccb_dmamap;
if (xa->datalen != 0) {
bus_dmamap_sync(sc->sc_dmat, dmap, 0, dmap->dm_mapsize,
(xa->flags & ATA_F_READ) ? BUS_DMASYNC_POSTREAD :
BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat, dmap);
if (ccb->ccb_xa.flags & ATA_F_NCQ)
xa->resid = 0;
else
xa->resid = xa->datalen - letoh32(ccb->ccb_cmd_hdr->prdbc);
}
}
int
ahci_poll(struct ahci_ccb *ccb, int timeout, void (*timeout_fn)(void *))
{
struct ahci_port *ap = ccb->ccb_port;
int s;
s = splbio();
ahci_start(ccb);
do {
if (ISSET(ahci_port_intr(ap, AHCI_PREG_CI_ALL_SLOTS),
1 << ccb->ccb_slot)) {
splx(s);
return (0);
}
delay(1000);
} while (--timeout > 0);
/* Run timeout while at splbio, otherwise ahci_intr could interfere. */
if (timeout_fn != NULL)
timeout_fn(ccb);
splx(s);
return (1);
}
void
ahci_start(struct ahci_ccb *ccb)
{
struct ahci_port *ap = ccb->ccb_port;
struct ahci_softc *sc = ap->ap_sc;
KASSERT(ccb->ccb_xa.state == ATA_S_PENDING);
/* Zero transferred byte count before transfer */
ccb->ccb_cmd_hdr->prdbc = 0;
/* Sync command list entry and corresponding command table entry */
bus_dmamap_sync(sc->sc_dmat, AHCI_DMA_MAP(ap->ap_dmamem_cmd_list),
ccb->ccb_slot * sizeof(struct ahci_cmd_hdr),
sizeof(struct ahci_cmd_hdr), BUS_DMASYNC_PREWRITE);
bus_dmamap_sync(sc->sc_dmat, AHCI_DMA_MAP(ap->ap_dmamem_cmd_table),
ccb->ccb_slot * sizeof(struct ahci_cmd_table),
sizeof(struct ahci_cmd_table), BUS_DMASYNC_PREWRITE);
/* Prepare RFIS area for write by controller */
bus_dmamap_sync(sc->sc_dmat, AHCI_DMA_MAP(ap->ap_dmamem_rfis), 0,
sizeof(struct ahci_rfis), BUS_DMASYNC_PREREAD);
if (ccb->ccb_xa.flags & ATA_F_NCQ) {
/* Issue NCQ commands only when there are no outstanding
* standard commands. */
if (ap->ap_active != 0 || !TAILQ_EMPTY(&ap->ap_ccb_pending))
TAILQ_INSERT_TAIL(&ap->ap_ccb_pending, ccb, ccb_entry);
else {
KASSERT(ap->ap_active_cnt == 0);
ap->ap_sactive |= (1 << ccb->ccb_slot);
ccb->ccb_xa.state = ATA_S_ONCHIP;
ahci_pwrite(ap, AHCI_PREG_SACT, 1 << ccb->ccb_slot);
ahci_pwrite(ap, AHCI_PREG_CI, 1 << ccb->ccb_slot);
}
} else {
/* Wait for all NCQ commands to finish before issuing standard
* command. */
if (ap->ap_sactive != 0 || ap->ap_active_cnt == 2)
TAILQ_INSERT_TAIL(&ap->ap_ccb_pending, ccb, ccb_entry);
else if (ap->ap_active_cnt < 2) {
ap->ap_active |= 1 << ccb->ccb_slot;
ccb->ccb_xa.state = ATA_S_ONCHIP;
ahci_pwrite(ap, AHCI_PREG_CI, 1 << ccb->ccb_slot);
ap->ap_active_cnt++;
}
}
}
void
ahci_issue_pending_ncq_commands(struct ahci_port *ap)
{
struct ahci_ccb *nextccb;
u_int32_t sact_change = 0;
KASSERT(ap->ap_active_cnt == 0);
nextccb = TAILQ_FIRST(&ap->ap_ccb_pending);
if (nextccb == NULL || !(nextccb->ccb_xa.flags & ATA_F_NCQ))
return;
/* Start all the NCQ commands at the head of the pending list. */
do {
TAILQ_REMOVE(&ap->ap_ccb_pending, nextccb, ccb_entry);
sact_change |= 1 << nextccb->ccb_slot;
nextccb->ccb_xa.state = ATA_S_ONCHIP;
nextccb = TAILQ_FIRST(&ap->ap_ccb_pending);
} while (nextccb && (nextccb->ccb_xa.flags & ATA_F_NCQ));
ap->ap_sactive |= sact_change;
ahci_pwrite(ap, AHCI_PREG_SACT, sact_change);
ahci_pwrite(ap, AHCI_PREG_CI, sact_change);
return;
}
void
ahci_issue_pending_commands(struct ahci_port *ap, int last_was_ncq)
{
struct ahci_ccb *nextccb;
nextccb = TAILQ_FIRST(&ap->ap_ccb_pending);
if (nextccb && (nextccb->ccb_xa.flags & ATA_F_NCQ)) {
KASSERT(last_was_ncq == 0); /* otherwise it should have
* been started already. */
/* Issue NCQ commands only when there are no outstanding
* standard commands. */
ap->ap_active_cnt--;
if (ap->ap_active == 0)
ahci_issue_pending_ncq_commands(ap);
else
KASSERT(ap->ap_active_cnt == 1);
} else if (nextccb) {
if (ap->ap_sactive != 0 || last_was_ncq)
KASSERT(ap->ap_active_cnt == 0);
/* Wait for all NCQ commands to finish before issuing standard
* command. */
if (ap->ap_sactive != 0)
return;
/* Keep up to 2 standard commands on-chip at a time. */
do {
TAILQ_REMOVE(&ap->ap_ccb_pending, nextccb, ccb_entry);
ap->ap_active |= 1 << nextccb->ccb_slot;
nextccb->ccb_xa.state = ATA_S_ONCHIP;
ahci_pwrite(ap, AHCI_PREG_CI, 1 << nextccb->ccb_slot);
if (last_was_ncq)
ap->ap_active_cnt++;
if (ap->ap_active_cnt == 2)
break;
KASSERT(ap->ap_active_cnt == 1);
nextccb = TAILQ_FIRST(&ap->ap_ccb_pending);
} while (nextccb && !(nextccb->ccb_xa.flags & ATA_F_NCQ));
} else if (!last_was_ncq) {
KASSERT(ap->ap_active_cnt == 1 || ap->ap_active_cnt == 2);
/* Standard command finished, none waiting to start. */
ap->ap_active_cnt--;
} else {
KASSERT(ap->ap_active_cnt == 0);
/* NCQ command finished. */
}
}
int
ahci_intr(void *arg)
{
struct ahci_softc *sc = arg;
u_int32_t is, ack = 0;
int port;
/* Read global interrupt status */
is = ahci_read(sc, AHCI_REG_IS);
if (is == 0)
return (0);
ack = is;
#ifdef AHCI_COALESCE
/* Check coalescing interrupt first */
if (is & sc->sc_ccc_mask) {
DPRINTF(AHCI_D_INTR, "%s: command coalescing interrupt\n",
DEVNAME(sc));
is &= ~sc->sc_ccc_mask;
}
#endif
/* Process interrupts for each port */
while (is) {
port = ffs(is) - 1;
if (sc->sc_ports[port])
ahci_port_intr(sc->sc_ports[port],
AHCI_PREG_CI_ALL_SLOTS);
is &= ~(1 << port);
}
/* Finally, acknowledge global interrupt */
ahci_write(sc, AHCI_REG_IS, ack);
return (1);
}
u_int32_t
ahci_port_intr(struct ahci_port *ap, u_int32_t ci_mask)
{
struct ahci_softc *sc = ap->ap_sc;
u_int32_t is, ci_saved, ci_masked, processed = 0;
int slot, need_restart = 0;
struct ahci_ccb *ccb;
volatile u_int32_t *active;
#ifdef DIAGNOSTIC
u_int32_t tmp;
#endif
is = ahci_pread(ap, AHCI_PREG_IS);
/* Ack port interrupt only if checking all command slots. */
if (ci_mask == AHCI_PREG_CI_ALL_SLOTS)
ahci_pwrite(ap, AHCI_PREG_IS, is);
if (is)
DPRINTF(AHCI_D_INTR, "%s: interrupt: %b\n", PORTNAME(ap),
is, AHCI_PFMT_IS);
if (ap->ap_sactive) {
/* Active NCQ commands - use SActive instead of CI */
KASSERT(ap->ap_active == 0);
KASSERT(ap->ap_active_cnt == 0);
ci_saved = ahci_pread(ap, AHCI_PREG_SACT);
active = &ap->ap_sactive;
} else {
/* Save CI */
ci_saved = ahci_pread(ap, AHCI_PREG_CI);
active = &ap->ap_active;
}
/* Command failed. See AHCI 1.1 spec 6.2.2.1 and 6.2.2.2. */
if (is & AHCI_PREG_IS_TFES) {
u_int32_t tfd, serr;
int err_slot;
tfd = ahci_pread(ap, AHCI_PREG_TFD);
serr = ahci_pread(ap, AHCI_PREG_SERR);
if (ap->ap_sactive == 0) {
/* Errored slot is easy to determine from CMD. */
err_slot = AHCI_PREG_CMD_CCS(ahci_pread(ap,
AHCI_PREG_CMD));
ccb = &ap->ap_ccbs[err_slot];
/* Preserve received taskfile data from the RFIS. */
memcpy(&ccb->ccb_xa.rfis, ap->ap_rfis->rfis,
sizeof(struct ata_fis_d2h));
} else
err_slot = -1; /* Must extract error from log page */
DPRINTF(AHCI_D_VERBOSE, "%s: errored slot %d, TFD: %b, SERR:"
" %b, DIAG: %b\n", PORTNAME(ap), err_slot, tfd,
AHCI_PFMT_TFD_STS, AHCI_PREG_SERR_ERR(serr),
AHCI_PFMT_SERR_ERR, AHCI_PREG_SERR_DIAG(serr),
AHCI_PFMT_SERR_DIAG);
/* Turn off ST to clear CI and SACT. */
ahci_port_stop(ap, 0);
need_restart = 1;
/* Clear SERR to enable capturing new errors. */
ahci_pwrite(ap, AHCI_PREG_SERR, serr);
/* Acknowledge the interrupts we can recover from. */
ahci_pwrite(ap, AHCI_PREG_IS, AHCI_PREG_IS_TFES |
AHCI_PREG_IS_IFS);
is = ahci_pread(ap, AHCI_PREG_IS);
/* If device hasn't cleared its busy status, try to idle it. */
if (ISSET(tfd, AHCI_PREG_TFD_STS_BSY | AHCI_PREG_TFD_STS_DRQ)) {
printf("%s: attempting to idle device\n", PORTNAME(ap));
if (ahci_port_softreset(ap)) {
printf("%s: failed to soft reset device\n",
PORTNAME(ap));
if (ahci_port_portreset(ap)) {
printf("%s: failed to port reset "
"device, give up on it\n",
PORTNAME(ap));
goto fatal;
}
}
/* Had to reset device, can't gather extended info. */
} else if (ap->ap_sactive) {
/* Recover the NCQ error from log page 10h. */
/* XXX recover NCQ error here */
} else {
/* Didn't reset, could gather extended info from log. */
}
/* If we couldn't determine the errored slot, fail all. */
if (err_slot == -1) {
printf("%s: couldn't recover from NCQ error, failing "
"all outstanding commands.\n", PORTNAME(ap));
goto failall;
}
/* Clear the failed command in saved CI so completion runs. */
ci_saved &= ~(1 << err_slot);
/* Note the error in the ata_xfer. */
KASSERT(ccb->ccb_xa.state == ATA_S_ONCHIP);
ccb->ccb_xa.state = ATA_S_ERROR;
#ifdef DIAGNOSTIC
/* There may only be one outstanding standard command now. */
if (ap->ap_sactive == 0) {
tmp = ci_saved;
if (tmp) {
slot = ffs(tmp) - 1;
tmp &= ~(1 << slot);
KASSERT(tmp == 0);
}
}
#endif
}
/* Check for remaining errors - they are fatal. */
if (is & (AHCI_PREG_IS_TFES | AHCI_PREG_IS_HBFS | AHCI_PREG_IS_IFS |
AHCI_PREG_IS_OFS | AHCI_PREG_IS_UFS)) {
printf("%s: unrecoverable errors (IS: %b), disabling port.\n",
PORTNAME(ap), is, AHCI_PFMT_IS);
/* XXX try recovery first */
goto fatal;
}
/* Fail all outstanding commands if we know the port won't recover. */
if (ap->ap_state == AP_S_FATAL_ERROR) {
fatal:
ap->ap_state = AP_S_FATAL_ERROR;
failall:
/* Ensure port is shut down. */
ahci_port_stop(ap, 1);
/* Error all the active slots. */
ci_masked = ~ci_saved & *active;
while (ci_masked) {
slot = ffs(ci_masked) - 1;
ccb = &ap->ap_ccbs[slot];
ci_masked &= ~(1 << slot);
ccb->ccb_xa.state = ATA_S_ERROR;
}
/* Run completion for all slots. */
ci_saved = 0;
/* Don't restart the port if our problems were deemed fatal. */
if (ap->ap_state == AP_S_FATAL_ERROR)
need_restart = 0;
}
/*
* CCB completion is detected by noticing its slot's bit in CI has
* changed to zero some time after we activated it.
* If we are polling, we may only be interested in particular slot(s).
*/
ci_masked = ~ci_saved & *active & ci_mask;
while (ci_masked) {
slot = ffs(ci_masked) - 1;
DPRINTF(AHCI_D_INTR, "%s: slot %d is complete\n", PORTNAME(ap),
slot);
ccb = &ap->ap_ccbs[slot];
ci_masked &= ~(1 << slot);
bus_dmamap_sync(sc->sc_dmat,
AHCI_DMA_MAP(ap->ap_dmamem_cmd_list),
ccb->ccb_slot * sizeof(struct ahci_cmd_hdr),
sizeof(struct ahci_cmd_hdr), BUS_DMASYNC_POSTWRITE);
bus_dmamap_sync(sc->sc_dmat,
AHCI_DMA_MAP(ap->ap_dmamem_cmd_table),
ccb->ccb_slot * sizeof(struct ahci_cmd_table),
sizeof(struct ahci_cmd_table), BUS_DMASYNC_POSTWRITE);
bus_dmamap_sync(sc->sc_dmat,
AHCI_DMA_MAP(ap->ap_dmamem_rfis), 0,
sizeof(struct ahci_rfis), BUS_DMASYNC_POSTREAD);
*active &= ~(1 << ccb->ccb_slot);
ccb->ccb_done(ccb);
processed |= 1 << ccb->ccb_slot;
}
if (need_restart) {
/* Restart command DMA on the port */
ahci_port_start(ap, 0);
/* Re-enable outstanding commands on port. */
if (ci_saved) {
#ifdef DIAGNOSTIC
tmp = ci_saved;
while (tmp) {
slot = ffs(tmp) - 1;
tmp &= ~(1 << slot);
ccb = &ap->ap_ccbs[slot];
KASSERT(ccb->ccb_xa.state == ATA_S_ONCHIP);
KASSERT((!!(ccb->ccb_xa.flags & ATA_F_NCQ)) ==
(!!ap->ap_sactive));
}
#endif
DPRINTF(AHCI_D_VERBOSE, "%s: ahci_port_intr "
"re-enabling%s slots %08x\n", PORTNAME(ap),
ap->ap_sactive ? " NCQ" : "", ci_saved);
if (ap->ap_sactive)
ahci_pwrite(ap, AHCI_PREG_SACT, ci_saved);
ahci_pwrite(ap, AHCI_PREG_CI, ci_saved);
}
}
return (processed);
}
struct ahci_ccb *
ahci_get_ccb(struct ahci_port *ap)
{
struct ahci_ccb *ccb;
ccb = TAILQ_FIRST(&ap->ap_ccb_free);
if (ccb != NULL) {
TAILQ_REMOVE(&ap->ap_ccb_free, ccb, ccb_entry);
ccb->ccb_xa.state = ATA_S_SETUP;
}
return (ccb);
}
void
ahci_put_ccb(struct ahci_ccb *ccb)
{
struct ahci_port *ap = ccb->ccb_port;
ccb->ccb_xa.state = ATA_S_PUT;
TAILQ_INSERT_TAIL(&ap->ap_ccb_free, ccb, ccb_entry);
}
struct ahci_dmamem *
ahci_dmamem_alloc(struct ahci_softc *sc, size_t size)
{
struct ahci_dmamem *adm;
int nsegs;
adm = malloc(sizeof(struct ahci_dmamem), M_DEVBUF, M_NOWAIT);
if (adm == NULL)
return (NULL);
bzero(adm, sizeof(struct ahci_dmamem));
adm->adm_size = size;
if (bus_dmamap_create(sc->sc_dmat, size, 1, size, 0,
BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW, &adm->adm_map) != 0)
goto admfree;
if (bus_dmamem_alloc(sc->sc_dmat, size, PAGE_SIZE, 0, &adm->adm_seg,
1, &nsegs, BUS_DMA_NOWAIT) != 0)
goto destroy;
if (bus_dmamem_map(sc->sc_dmat, &adm->adm_seg, nsegs, size,
&adm->adm_kva, BUS_DMA_NOWAIT) != 0)
goto free;
if (bus_dmamap_load(sc->sc_dmat, adm->adm_map, adm->adm_kva, size,
NULL, BUS_DMA_NOWAIT) != 0)
goto unmap;
bzero(adm->adm_kva, size);
return (adm);
unmap:
bus_dmamem_unmap(sc->sc_dmat, adm->adm_kva, size);
free:
bus_dmamem_free(sc->sc_dmat, &adm->adm_seg, 1);
destroy:
bus_dmamap_destroy(sc->sc_dmat, adm->adm_map);
admfree:
free(adm, M_DEVBUF);
return (NULL);
}
void
ahci_dmamem_free(struct ahci_softc *sc, struct ahci_dmamem *adm)
{
bus_dmamap_unload(sc->sc_dmat, adm->adm_map);
bus_dmamem_unmap(sc->sc_dmat, adm->adm_kva, adm->adm_size);
bus_dmamem_free(sc->sc_dmat, &adm->adm_seg, 1);
bus_dmamap_destroy(sc->sc_dmat, adm->adm_map);
free(adm, M_DEVBUF);
}
u_int32_t
ahci_read(struct ahci_softc *sc, bus_size_t r)
{
bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, 4,
BUS_SPACE_BARRIER_READ);
return (bus_space_read_4(sc->sc_iot, sc->sc_ioh, r));
}
void
ahci_write(struct ahci_softc *sc, bus_size_t r, u_int32_t v)
{
bus_space_write_4(sc->sc_iot, sc->sc_ioh, r, v);
bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, 4,
BUS_SPACE_BARRIER_WRITE);
}
int
ahci_wait_eq(struct ahci_softc *sc, bus_size_t r, u_int32_t mask,
u_int32_t target)
{
int i;
for (i = 0; i < 1000; i++) {
if ((ahci_read(sc, r) & mask) == target)
return (0);
delay(1000);
}
return (1);
}
int
ahci_wait_ne(struct ahci_softc *sc, bus_size_t r, u_int32_t mask,
u_int32_t target)
{
int i;
for (i = 0; i < 1000; i++) {
if ((ahci_read(sc, r) & mask) != target)
return (0);
delay(1000);
}
return (1);
}
u_int32_t
ahci_pread(struct ahci_port *ap, bus_size_t r)
{
bus_space_barrier(ap->ap_sc->sc_iot, ap->ap_ioh, r, 4,
BUS_SPACE_BARRIER_READ);
return (bus_space_read_4(ap->ap_sc->sc_iot, ap->ap_ioh, r));
}
void
ahci_pwrite(struct ahci_port *ap, bus_size_t r, u_int32_t v)
{
bus_space_write_4(ap->ap_sc->sc_iot, ap->ap_ioh, r, v);
bus_space_barrier(ap->ap_sc->sc_iot, ap->ap_ioh, r, 4,
BUS_SPACE_BARRIER_WRITE);
}
int
ahci_pwait_eq(struct ahci_port *ap, bus_size_t r, u_int32_t mask,
u_int32_t target)
{
int i;
for (i = 0; i < 1000; i++) {
if ((ahci_pread(ap, r) & mask) == target)
return (0);
delay(1000);
}
return (1);
}
int
ahci_pwait_ne(struct ahci_port *ap, bus_size_t r, u_int32_t mask,
u_int32_t target)
{
int i;
for (i = 0; i < 1000; i++) {
if ((ahci_pread(ap, r) & mask) != target)
return (0);
delay(1000);
}
return (1);
}
int
ahci_ata_probe(void *xsc, int port)
{
struct ahci_softc *sc = xsc;
struct ahci_port *ap = sc->sc_ports[port];
u_int32_t sig;
if (ap == NULL)
return (ATA_PORT_T_NONE);
sig = ahci_pread(ap, AHCI_PREG_SIG);
if ((sig & 0xffff0000) == 0xeb140000)
return (ATA_PORT_T_ATAPI);
else
return (ATA_PORT_T_DISK);
}
struct ata_xfer *
ahci_ata_get_xfer(void *aaa_cookie, int port)
{
struct ahci_softc *sc = aaa_cookie;
struct ahci_port *ap = sc->sc_ports[port];
struct ahci_ccb *ccb;
splassert(IPL_BIO);
ccb = ahci_get_ccb(ap);
if (ccb == NULL) {
DPRINTF(AHCI_D_XFER, "%s: ahci_ata_get_xfer: NULL ccb\n",
PORTNAME(ap));
return (NULL);
}
DPRINTF(AHCI_D_XFER, "%s: ahci_ata_get_xfer got slot %d\n",
PORTNAME(ap), ccb->ccb_slot);
return ((struct ata_xfer *)ccb);
}
void
ahci_ata_put_xfer(struct ata_xfer *xa)
{
struct ahci_ccb *ccb = (struct ahci_ccb *)xa;
splassert(IPL_BIO);
DPRINTF(AHCI_D_XFER, "ahci_ata_put_xfer slot %d\n", ccb->ccb_slot);
ahci_put_ccb(ccb);
}
int
ahci_ata_cmd(struct ata_xfer *xa)
{
struct ahci_ccb *ccb = (struct ahci_ccb *)xa;
struct ahci_cmd_hdr *cmd_slot;
int s;
if (ccb->ccb_port->ap_state == AP_S_FATAL_ERROR)
goto failcmd;
ccb->ccb_done = ahci_ata_cmd_done;
cmd_slot = ccb->ccb_cmd_hdr;
cmd_slot->flags = htole16(5); /* FIS length (in DWORDs) */
if (xa->flags & ATA_F_WRITE)
cmd_slot->flags |= htole16(AHCI_CMD_LIST_FLAG_W);
if (xa->flags & ATA_F_PACKET)
cmd_slot->flags |= htole16(AHCI_CMD_LIST_FLAG_A);
if (ahci_load_prdt(ccb) != 0)
goto failcmd;
timeout_set(&xa->stimeout, ahci_ata_cmd_timeout, ccb);
xa->state = ATA_S_PENDING;
if (xa->flags & ATA_F_POLL) {
ahci_poll(ccb, xa->timeout, ahci_ata_cmd_timeout);
return (ATA_COMPLETE);
}
timeout_add(&xa->stimeout, (xa->timeout * hz) / 1000);
s = splbio();
ahci_start(ccb);
splx(s);
return (ATA_QUEUED);
failcmd:
s = splbio();
xa->state = ATA_S_ERROR;
xa->complete(xa);
splx(s);
return (ATA_ERROR);
}
void
ahci_ata_cmd_done(struct ahci_ccb *ccb)
{
struct ata_xfer *xa = &ccb->ccb_xa;
timeout_del(&xa->stimeout);
if (xa->state == ATA_S_ONCHIP || xa->state == ATA_S_ERROR)
ahci_issue_pending_commands(ccb->ccb_port,
xa->flags & ATA_F_NCQ);
ahci_unload_prdt(ccb);
if (xa->state == ATA_S_ONCHIP)
xa->state = ATA_S_COMPLETE;
#ifdef DIAGNOSTIC
else if (xa->state != ATA_S_ERROR && xa->state != ATA_S_TIMEOUT)
printf("%s: invalid ata_xfer state %02x in ahci_ata_cmd_done, "
"slot %d\n", PORTNAME(ccb->ccb_port), xa->state,
ccb->ccb_slot);
#endif
if (xa->state != ATA_S_TIMEOUT)
xa->complete(xa);
}
void
ahci_ata_cmd_timeout(void *arg)
{
struct ahci_ccb *ccb = arg;
struct ata_xfer *xa = &ccb->ccb_xa;
struct ahci_port *ap = ccb->ccb_port;
int s, ccb_was_started, ncq_cmd;
volatile u_int32_t *active;
s = splbio();
ncq_cmd = (xa->flags & ATA_F_NCQ);
active = ncq_cmd ? &ap->ap_sactive : &ap->ap_active;
if (ccb->ccb_xa.state == ATA_S_PENDING) {
DPRINTF(AHCI_D_TIMEOUT, "%s: command for slot %d timed out "
"before it got on chip\n", PORTNAME(ap), ccb->ccb_slot);
TAILQ_REMOVE(&ap->ap_ccb_pending, ccb, ccb_entry);
ccb_was_started = 0;
} else if (ccb->ccb_xa.state == ATA_S_ONCHIP && ahci_port_intr(ap,
1 << ccb->ccb_slot)) {
DPRINTF(AHCI_D_TIMEOUT, "%s: final poll of port completed "
"command in slot %d\n", PORTNAME(ap), ccb->ccb_slot);
goto ret;
} else if (ccb->ccb_xa.state != ATA_S_ONCHIP) {
DPRINTF(AHCI_D_TIMEOUT, "%s: command slot %d already "
"handled%s\n", PORTNAME(ap), ccb->ccb_slot,
ISSET(*active, 1 << ccb->ccb_slot) ?
" but slot is still active?" : ".");
goto ret;
} else if (!ISSET(ahci_pread(ap, ncq_cmd ? AHCI_PREG_SACT :
AHCI_PREG_CI), 1 << ccb->ccb_slot) && ISSET(*active,
1 << ccb->ccb_slot)) {
DPRINTF(AHCI_D_TIMEOUT, "%s: command slot %d completed but "
"IRQ handler didn't detect it. Why?\n", PORTNAME(ap),
ccb->ccb_slot);
*active &= ~(1 << ccb->ccb_slot);
ccb->ccb_done(ccb);
goto ret;
} else {
ccb_was_started = 1;
}
/* Complete the slot with a timeout error. */
ccb->ccb_xa.state = ATA_S_TIMEOUT;
*active &= ~(1 << ccb->ccb_slot);
DPRINTF(AHCI_D_TIMEOUT, "%s: run completion (1)\n", PORTNAME(ap));
ccb->ccb_done(ccb); /* This won't issue pending commands or run the
atascsi completion. */
/* Reset port to abort running command. */
if (ccb_was_started) {
DPRINTF(AHCI_D_TIMEOUT, "%s: resetting port to abort%s command "
"in slot %d, active %08x\n", PORTNAME(ap), ncq_cmd ? " NCQ" :
"", ccb->ccb_slot, *active);
if (ahci_port_softreset(ap) != 0 && ahci_port_portreset(ap)
!= 0) {
printf("%s: failed to reset port during error "
"recovery, disabling it\n", PORTNAME(ap));
ap->ap_state = AP_S_FATAL_ERROR;
}
/* Restart any other commands that were aborted by the reset. */
if (*active) {
DPRINTF(AHCI_D_TIMEOUT, "%s: re-enabling%s slots "
"%08x\n", PORTNAME(ap), ncq_cmd ? " NCQ" : "",
*active);
if (ncq_cmd)
ahci_pwrite(ap, AHCI_PREG_SACT, *active);
ahci_pwrite(ap, AHCI_PREG_CI, *active);
}
}
/* Issue any pending commands now. */
DPRINTF(AHCI_D_TIMEOUT, "%s: issue pending\n", PORTNAME(ap));
if (ccb_was_started)
ahci_issue_pending_commands(ap, ncq_cmd);
else if (ap->ap_active == 0)
ahci_issue_pending_ncq_commands(ap);
/* Complete the timed out ata_xfer I/O (may generate new I/O). */
DPRINTF(AHCI_D_TIMEOUT, "%s: run completion (2)\n", PORTNAME(ap));
xa->complete(xa);
DPRINTF(AHCI_D_TIMEOUT, "%s: splx\n", PORTNAME(ap));
ret:
splx(s);
}
void
ahci_empty_done(struct ahci_ccb *ccb)
{
/* do nothing */
}
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