/* * (MPSAFE) * * Copyright (c) 2009 The DragonFly Project. All rights reserved. * * This code is derived from software contributed to The DragonFly Project * by Matthew Dillon * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name of The DragonFly Project nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific, prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "ahci.h" static void ahci_pm_dummy_done(struct ata_xfer *xa); int ahci_pm_port_init(struct ahci_port *ap, struct ata_port *at) { at->at_probe = ATA_PROBE_NEED_HARD_RESET; return (0); } /* * AHCI port multiplier probe. This routine is run by the hardreset code * if it gets past the device detect, whether or not BSY is found to be * stuck. * * We MUST use CLO to properly probe whether the port multiplier exists * or not. * * Return 0 on success, non-zero on failure. */ int ahci_pm_port_probe(struct ahci_port *ap, int orig_error) { struct ahci_cmd_hdr *cmd_slot; struct ata_port *at; struct ahci_ccb *ccb = NULL; u_int8_t *fis = NULL; int error; u_int32_t cmd; u_int32_t fbs; int count; int rstcount; int i; int fbsmode; int sig; count = 2; rstcount = 2; retry: fbsmode = 0; /* * This code is only called from hardreset, which does not * high level command processing. The port should be stopped. * * Set PMA mode while the port is stopped. * * NOTE: On retry the port might be running, stopped, or failed. */ ahci_port_stop(ap, 0); ap->ap_state = AP_S_NORMAL; cmd = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC; #if 1 if ((cmd & AHCI_PREG_CMD_PMA) == 0) { cmd |= AHCI_PREG_CMD_PMA; ahci_pwrite(ap, AHCI_PREG_CMD, cmd); } #endif /* * Check to see if FBS is supported by checking the cap and the * support bit in the port CMD register. If it looks good, try * to write to the FBS register. */ if (ap->ap_sc->sc_cap & AHCI_REG_CAP_FBSS) { const char *str1 = ""; const char *str2 = ""; const char *str3 = ""; if (cmd & AHCI_PREG_CMD_FBSCP) { str1 = "HW indicates support"; } else if (ap->ap_sc->sc_flags & AHCI_F_FORCE_FBSS) { cmd |= AHCI_PREG_CMD_FBSCP; /* Force on */ str1 = "HW indicates no-support, force"; } else { str1 = "HW indicates no-support"; } if (cmd & AHCI_PREG_CMD_FBSCP) { fbs = ahci_pread(ap, AHCI_PREG_FBS); ahci_pwrite(ap, AHCI_PREG_FBS, fbs | AHCI_PREG_FBS_EN); fbs = ahci_pread(ap, AHCI_PREG_FBS); if (fbs & AHCI_PREG_FBS_EN) { str2 = ", enable succeeded"; fbsmode = 1; } else { str2 = ", enable failed"; } /* * Must be off during the PM probe, we will enable * it at the end. */ ahci_pwrite(ap, AHCI_PREG_FBS, fbs & ~AHCI_PREG_FBS_EN); } kprintf("%s: FBS Cap detected: %s%s%s\n", PORTNAME(ap), str1, str2, str3); } /* * If the probe fails, cleanup any previous state. */ if (fbsmode == 0 && (ap->ap_flags & AP_F_FBSS_ENABLED)) { ap->ap_flags &= ~AP_F_FBSS_ENABLED; ahci_pwrite(ap, AHCI_PREG_FBS, 0); } /* * Flush any errors and request CLO unconditionally, then start * the port. */ ahci_flush_tfd(ap); ahci_port_clo(ap); if (ahci_port_start(ap)) { kprintf("%s: PMPROBE cannot start port\n", PORTNAME(ap)); error = EIO; goto err; } /* * When a PM is present and the cable or driver cycles, the PM may * hang in BSY and require another COMRESET sequence to clean it up. * The CLO above didn't work (for example, if there is no CLO * support), so do another hard COMRESET to try to clear the busy * condition. */ if (ahci_pwait_clr(ap, AHCI_PREG_TFD, AHCI_PREG_TFD_STS_BSY | AHCI_PREG_TFD_STS_DRQ)) { if (--rstcount) { int pmdetect; kprintf("%s: PMPROBE BUSY, comreset and retry\n", PORTNAME(ap)); ahci_comreset(ap, &pmdetect); if (pmdetect) goto retry; } kprintf("%s: PMPROBE BUSY, giving up\n", PORTNAME(ap)); error = EBUSY; goto err; } /* * Use the error CCB for all commands * * NOTE! This CCB is used for both the first and second commands. * The second command must use CCB slot 1 to properly load * the signature. */ ccb = ahci_get_err_ccb(ap); ccb->ccb_xa.flags = ATA_F_POLL | ATA_F_SILENT; ccb->ccb_xa.complete = ahci_pm_dummy_done; ccb->ccb_xa.at = ap->ap_ata[15]; cmd_slot = ccb->ccb_cmd_hdr; KKASSERT(ccb->ccb_slot == 1); /* * Prep the first H2D command with SRST feature & clear busy/reset * flags. */ fis = ccb->ccb_cmd_table->cfis; bzero(fis, sizeof(ccb->ccb_cmd_table->cfis)); fis[0] = ATA_FIS_TYPE_H2D; fis[1] = 0x0F; /* Target 15 */ fis[15] = ATA_FIS_CONTROL_SRST | ATA_FIS_CONTROL_4BIT; 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_PMP); /* port 0xF */ ccb->ccb_xa.state = ATA_S_PENDING; if (bootverbose) { kprintf("%s: PMPROBE PreStatus 0x%pb%i\n", PORTNAME(ap), AHCI_PFMT_TFD_STS, ahci_pread(ap, AHCI_PREG_TFD)); } /* * The only way one can determine if a port multiplier is on the * port is to probe target 15, and of course this will fail if * there is no port multiplier. * * The probing has to be done whether or not a device is probed on * target 0, because when a PM is attached target 0 represents * slot #0 behind the PM. * * Port multipliers are expected to answer more quickly than normal * devices, use a shorter timeout than normal. * * If there is no PM here this command can still succeed due to * the _C_ */ if (ahci_poll(ccb, 1000, ahci_quick_timeout) != ATA_S_COMPLETE) { kprintf("%s: PMPROBE(1) No Port Multiplier was found.\n", PORTNAME(ap)); if (--count) { rstcount = 2; ahci_put_err_ccb(ccb); goto retry; } error = EBUSY; goto err; } if (bootverbose) { kprintf("%s: PMPROBE PosStatus 0x%pb%i\n", PORTNAME(ap), AHCI_PFMT_TFD_STS, ahci_pread(ap, AHCI_PREG_TFD)); } #if 0 /* * REMOVED - Ignore a BSY condition between the first and second * FIS in the PM probe. Seems to work better. */ if (ahci_pwait_clr(ap, AHCI_PREG_TFD, AHCI_PREG_TFD_STS_BSY | AHCI_PREG_TFD_STS_DRQ)) { kprintf("%s: PMPROBE Busy after first FIS\n", PORTNAME(ap)); } else if (bootverbose) { kprintf("%s: PMPROBE Clean after first FIS\n", PORTNAME(ap)); } #endif /* * The device may have muffed up the PHY when it reset. */ ahci_flush_tfd(ap); ahci_pwrite(ap, AHCI_PREG_SERR, -1); /* ahci_pm_phy_status(ap, 15, &cmd); */ /* * Prep second D2H command to read status and complete reset sequence * AHCI 10.4.1 and "Serial ATA Revision 2.6". I can't find the ATA * Rev 2.6 and it is unclear how the second FIS should be set up * from the AHCI document. * * Give the device 3ms before sending the second FIS. * * It is unclear which other fields in the FIS are used. Just zero * everything. */ ccb->ccb_xa.flags = ATA_F_POLL | ATA_F_SILENT; bzero(fis, sizeof(ccb->ccb_cmd_table->cfis)); fis[0] = ATA_FIS_TYPE_H2D; fis[1] = 0x0F; fis[15] = ATA_FIS_CONTROL_4BIT; cmd_slot->prdtl = 0; cmd_slot->flags = htole16(5); /* FIS length: 5 DWORDS */ cmd_slot->flags |= htole16(AHCI_CMD_LIST_FLAG_PMP); /* port 0xF */ ccb->ccb_xa.state = ATA_S_PENDING; /* * The only way one can determine if a port multiplier is on the * port is to probe target 15, and of course this will fail if * there is no port multiplier. * * The probing has to be done whether or not a device is probed on * target 0, because when a PM is attached target 0 represents * slot #0 behind the PM. */ if (ahci_poll(ccb, 5000, ahci_quick_timeout) != ATA_S_COMPLETE) { kprintf("%s: PMPROBE(2) No Port Multiplier was found.\n", PORTNAME(ap)); if (--count) { rstcount = 2; ahci_put_err_ccb(ccb); goto retry; } error = EBUSY; goto err; } /* * Some controllers return completion for the second FIS before * updating the signature register. Sleep a bit to allow for it. */ ahci_os_sleep(500); /* * What? We succeeded? Yup, but for some reason the signature * is still latched from the original detect (that saw target 0 * behind the PM), and I don't know how to clear the condition * other then by retrying the whole reset sequence. */ sig = ahci_port_signature_detect(ap, NULL); if (sig == ATA_PORT_T_PM) { kprintf("%s: PMPROBE PM Signature detected\n", PORTNAME(ap)); ap->ap_ata[15]->at_probe = ATA_PROBE_GOOD; error = 0; } else if (--count == 0) { kprintf("%s: PMPROBE PM Signature not detected\n", PORTNAME(ap)); error = EBUSY; } else { rstcount = 2; fis[15] = 0; ahci_put_err_ccb(ccb); if (bootverbose) { kprintf("%s: PMPROBE retry on count\n", PORTNAME(ap)); } goto retry; } /* * Fall through / clean up the CCB and perform error processing. */ err: if (ccb != NULL) ahci_put_err_ccb(ccb); if (error == 0 && ahci_pm_identify(ap)) { ahci_os_sleep(500); if (ahci_pm_identify(ap)) { kprintf("%s: PM - cannot identify port multiplier\n", PORTNAME(ap)); error = EBUSY; } else { kprintf("%s: PM - Had to identify twice\n", PORTNAME(ap)); } } /* * Turn on FBS mode, clear any stale error. Enforce a 1/10 second * delay primarily for the IGN_CR quirk. */ if (error == 0 && fbsmode) { ahci_port_stop(ap, 0); ap->ap_flags |= AP_F_FBSS_ENABLED; fbs = ahci_pread(ap, AHCI_PREG_FBS); fbs &= ~AHCI_PREG_FBS_DEV; fbs |= AHCI_PREG_FBS_DEC; ahci_pwrite(ap, AHCI_PREG_FBS, fbs | AHCI_PREG_FBS_EN); ahci_os_sleep(100); if (ahci_port_start(ap)) { kprintf("%s: PMPROBE failed to restart port " "after FBS enable\n", PORTNAME(ap)); ahci_pwrite(ap, AHCI_PREG_FBS, fbs & ~AHCI_PREG_FBS_EN); ap->ap_flags &= ~AP_F_FBSS_ENABLED; } } /* * If we probed the PM reset the state for the targets behind * it so they get probed by the state machine. */ if (error == 0) { for (i = 0; i < AHCI_MAX_PMPORTS; ++i) { at = ap->ap_ata[i]; at->at_probe = ATA_PROBE_NEED_INIT; at->at_features |= ATA_PORT_F_RESCAN; } ap->ap_type = ATA_PORT_T_PM; return (0); } /* * If we failed turn off PMA, otherwise identify the port multiplier. * CAM will iterate the devices. */ ahci_port_stop(ap, 0); ahci_port_clo(ap); #if 1 cmd = ahci_pread(ap, AHCI_PREG_CMD) & ~AHCI_PREG_CMD_ICC; cmd &= ~AHCI_PREG_CMD_PMA; ahci_pwrite(ap, AHCI_PREG_CMD, cmd); #endif if (orig_error == 0) { if (ahci_pwait_clr(ap, AHCI_PREG_TFD, AHCI_PREG_TFD_STS_BSY | AHCI_PREG_TFD_STS_DRQ)) { kprintf("%s: PM probe: port will not come ready\n", PORTNAME(ap)); orig_error = EBUSY; ahci_port_init(ap); } } return(orig_error); } /* * Identify the port multiplier */ int ahci_pm_identify(struct ahci_port *ap) { u_int32_t chipid; u_int32_t rev; u_int32_t nports; u_int32_t data1; u_int32_t data2; int has_dummy_port; ap->ap_probe = ATA_PROBE_FAILED; if (ahci_pm_read(ap, 15, 0, &chipid)) goto err; if (ahci_pm_read(ap, 15, 1, &rev)) goto err; if (ahci_pm_read(ap, 15, 2, &nports)) goto err; nports &= 0x0000000F; /* only the low 4 bits */ ap->ap_probe = ATA_PROBE_GOOD; if ((rev & SATA_PMREV_MASK) == 0) { if (bootverbose) kprintf("%s: PM identify register empty!\n", PORTNAME(ap)); return EIO; } /* * Ignore fake port on PMs which have it. We can probe it but the * softreset will probably fail. */ switch(chipid) { case 0x37261095: has_dummy_port = 1; break; default: has_dummy_port = 0; break; } if (has_dummy_port) { if (nports > 1) --nports; } kprintf("%s: Port multiplier: chip=%08x rev=0x%pb%i nports=%d\n", PORTNAME(ap), chipid, SATA_PFMT_PM_REV, rev, nports); if (has_dummy_port) { kprintf("%s: Port multiplier: Ignoring dummy port #%d\n", PORTNAME(ap), nports); } ap->ap_pmcount = nports; if (ahci_pm_read(ap, 15, SATA_PMREG_FEA, &data1)) { kprintf("%s: Port multiplier: Warning, " "cannot read feature register\n", PORTNAME(ap)); } else { kprintf("%s: Port multiplier features: 0x%pb%i\n", PORTNAME(ap), SATA_PFMT_PM_FEA, data1); } if (ahci_pm_read(ap, 15, SATA_PMREG_FEAEN, &data2) == 0) { kprintf("%s: Port multiplier defaults: 0x%pb%i\n", PORTNAME(ap), SATA_PFMT_PM_FEA, data2); } /* * Turn on async notification if we support and the PM supports it. * This allows the PM to forward async notification events to us and * it will also generate an event for target 15 for hot-plug events * (or is supposed to anyway). */ if ((ap->ap_sc->sc_cap & AHCI_REG_CAP_SSNTF) && (data1 & SATA_PMFEA_ASYNCNOTIFY)) { u_int32_t serr_bits = AHCI_PREG_SERR_DIAG_N | AHCI_PREG_SERR_DIAG_X; data2 |= SATA_PMFEA_ASYNCNOTIFY; if (ahci_pm_write(ap, 15, SATA_PMREG_FEAEN, data2)) { kprintf("%s: Port multiplier: AsyncNotify cannot be " "enabled\n", PORTNAME(ap)); } else if (ahci_pm_write(ap, 15, SATA_PMREG_EEENA, serr_bits)) { kprintf("%s: Port mulltiplier: AsyncNotify unable " "to enable error info bits\n", PORTNAME(ap)); } else { kprintf("%s: Port multiplier: AsyncNotify enabled\n", PORTNAME(ap)); } } return (0); err: kprintf("%s: Port multiplier cannot be identified\n", PORTNAME(ap)); return (EIO); } /* * Do a COMRESET sequence on the target behind a port multiplier. * * If hard is 2 we also cycle the phy on the target. * * This must be done prior to any softreset or probe attempts on * targets behind the port multiplier. * * Returns 0 on success or an error. */ int ahci_pm_hardreset(struct ahci_port *ap, int target, int hard) { struct ata_port *at; u_int32_t data; int loop; int error = EIO; at = ap->ap_ata[target]; /* * Turn off power management and kill the phy on the target * if requested. Hold state for 10ms. */ data = ap->ap_sc->sc_ipm_disable; if (hard == 2) data |= AHCI_PREG_SCTL_DET_DISABLE; if (ahci_pm_write(ap, target, SATA_PMREG_SERR, -1)) goto err; if (ahci_pm_write(ap, target, SATA_PMREG_SCTL, data)) goto err; ahci_os_sleep(10); /* * Start transmitting COMRESET. COMRESET must be sent for at * least 1ms. */ at->at_probe = ATA_PROBE_FAILED; at->at_type = ATA_PORT_T_NONE; data = ap->ap_sc->sc_ipm_disable | AHCI_PREG_SCTL_DET_INIT; switch(AhciForceGen) { case 0: data |= AHCI_PREG_SCTL_SPD_ANY; break; case 1: data |= AHCI_PREG_SCTL_SPD_GEN1; break; case 2: data |= AHCI_PREG_SCTL_SPD_GEN2; break; case 3: data |= AHCI_PREG_SCTL_SPD_GEN3; break; default: data |= AHCI_PREG_SCTL_SPD_GEN3; break; } if (ahci_pm_write(ap, target, SATA_PMREG_SCTL, data)) goto err; /* * It takes about 100ms for the DET logic to settle down, * from trial and error testing. If this is too short * the softreset code will fail. */ ahci_os_sleep(100); if (ahci_pm_phy_status(ap, target, &data)) { kprintf("%s: (A)Cannot clear phy status\n", ATANAME(ap ,at)); } /* * Flush any status, then clear DET to initiate negotiation. */ ahci_pm_write(ap, target, SATA_PMREG_SERR, -1); data = ap->ap_sc->sc_ipm_disable | AHCI_PREG_SCTL_DET_NONE; if (ahci_pm_write(ap, target, SATA_PMREG_SCTL, data)) goto err; /* * Try to determine if there is a device on the port. This * operation usually runs sequentially on the PM, use a short * 3/10 second timeout. The disks should already be sufficiently * powered. * * If we fail clear any pending status since we may have * cycled the phy and probably caused another PRCS interrupt. */ for (loop = 3; loop; --loop) { if (ahci_pm_read(ap, target, SATA_PMREG_SSTS, &data)) goto err; if (data & AHCI_PREG_SSTS_DET) break; ahci_os_sleep(100); } if (loop == 0) { kprintf("%s.%d: Port appears to be unplugged\n", PORTNAME(ap), target); error = ENODEV; goto err; } /* * There is something on the port. Give the device 3 seconds * to fully negotiate. */ for (loop = 30; loop; --loop) { if (ahci_pm_read(ap, target, SATA_PMREG_SSTS, &data)) goto err; if ((data & AHCI_PREG_SSTS_DET) == AHCI_PREG_SSTS_DET_DEV) break; ahci_os_sleep(100); } /* * Device not detected */ if (loop == 0) { kprintf("%s: Device may be powered down\n", PORTNAME(ap)); error = ENODEV; goto err; } /* * Device detected */ kprintf("%s.%d: Device detected data=%08x\n", PORTNAME(ap), target, data); /* * Clear SERR on the target so we get a new NOTIFY event if a hot-plug * or hot-unplug occurs. Clear any spurious IFS that may have * occured during the probe. * * WARNING! 100ms seems to work in most cases but */ ahci_os_sleep(100); ahci_pm_write(ap, target, SATA_PMREG_SERR, -1); ahci_pwrite(ap, AHCI_PREG_SERR, -1); ahci_pwrite(ap, AHCI_PREG_IS, AHCI_PREG_IS_IFS); error = 0; err: at->at_probe = error ? ATA_PROBE_FAILED : ATA_PROBE_NEED_SOFT_RESET; return (error); } /* * AHCI soft reset through port multiplier. * * This function keeps port communications intact and attempts to generate * a reset to the connected device using device commands. Unlike * hard-port operations we can't do fancy stop/starts or stuff like * that without messing up other commands that might be running or * queued. */ int ahci_pm_softreset(struct ahci_port *ap, int target) { struct ata_port *at; struct ahci_ccb *ccb; struct ahci_cmd_hdr *cmd_slot; u_int8_t *fis; int count; int error; u_int32_t data; error = EIO; at = ap->ap_ata[target]; DPRINTF(AHCI_D_VERBOSE, "%s: soft reset\n", PORTNAME(ap)); count = 2; retry: /* * Try to clear the phy so we get a good signature, otherwise * the PM may not latch a new signature. * * NOTE: This cannot be safely done between the first and second * softreset FISs. It's now or never. */ if (ahci_pm_phy_status(ap, target, &data)) { kprintf("%s: (B)Cannot clear phy status\n", ATANAME(ap ,at)); } ahci_pm_write(ap, target, SATA_PMREG_SERR, -1); /* * Prep first D2H command with SRST feature & clear busy/reset flags * * It is unclear which other fields in the FIS are used. Just zero * everything. * * When soft-resetting a port behind a multiplier at will be * non-NULL, assigning it to the ccb prevents the port interrupt * from hard-resetting the port if a problem crops up. */ ccb = ahci_get_err_ccb(ap); ccb->ccb_xa.flags = ATA_F_POLL | ATA_F_EXCLUSIVE | ATA_F_AUTOSENSE; ccb->ccb_xa.complete = ahci_pm_dummy_done; ccb->ccb_xa.at = at; fis = ccb->ccb_cmd_table->cfis; bzero(fis, sizeof(ccb->ccb_cmd_table->cfis)); fis[0] = ATA_FIS_TYPE_H2D; fis[1] = at->at_target; fis[15] = ATA_FIS_CONTROL_SRST|ATA_FIS_CONTROL_4BIT; cmd_slot = ccb->ccb_cmd_hdr; 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(at->at_target << AHCI_CMD_LIST_FLAG_PMP_SHIFT); ccb->ccb_xa.state = ATA_S_PENDING; /* * This soft reset of the AP target can cause a stream of IFS * errors to occur. Setting AP_F_IGNORE_IFS prevents the port * from being hard reset (because its the target behind the * port that isn't happy). * * The act of sending the soft reset can cause the target to * blow the port up and generate IFS errors. */ ap->ap_flags |= AP_F_IGNORE_IFS; ap->ap_flags &= ~AP_F_IFS_IGNORED; if (ahci_poll(ccb, 1000, ahci_ata_cmd_timeout) != ATA_S_COMPLETE) { kprintf("%s: Soft-reset through PM failed, %s\n", ATANAME(ap, at), (count > 1 ? "retrying" : "giving up")); ahci_put_err_ccb(ccb); if (--count) { if (ap->ap_flags & AP_F_IFS_IGNORED) ahci_os_sleep(5000); else ahci_os_sleep(1000); ahci_pwrite(ap, AHCI_PREG_SERR, -1); ahci_pwrite(ap, AHCI_PREG_IS, AHCI_PREG_IS_IFS); goto retry; } goto err; } /* * WARNING! SENSITIVE TIME PERIOD! WARNING! * * The first and second FISes are supposed to be back-to-back, * I think the idea is to get the second sent and then after * the device resets it will send a signature. Do not delay * here and most definitely do not issue any commands to other * targets! */ /* * Prep second D2H command to read status and complete reset sequence * AHCI 10.4.1 and "Serial ATA Revision 2.6". I can't find the ATA * Rev 2.6 and it is unclear how the second FIS should be set up * from the AHCI document. * * Give the device 3ms before sending the second FIS. * * It is unclear which other fields in the FIS are used. Just zero * everything. */ bzero(fis, sizeof(ccb->ccb_cmd_table->cfis)); fis[0] = ATA_FIS_TYPE_H2D; fis[1] = at->at_target; fis[15] = ATA_FIS_CONTROL_4BIT; cmd_slot->prdtl = 0; cmd_slot->flags = htole16(5); /* FIS length: 5 DWORDS */ cmd_slot->flags |= htole16(at->at_target << AHCI_CMD_LIST_FLAG_PMP_SHIFT); ccb->ccb_xa.state = ATA_S_PENDING; ccb->ccb_xa.flags = ATA_F_POLL | ATA_F_EXCLUSIVE | ATA_F_AUTOSENSE; ap->ap_flags &= ~AP_F_IFS_IGNORED; if (ahci_poll(ccb, 1000, ahci_ata_cmd_timeout) != ATA_S_COMPLETE) { kprintf("%s: Soft-reset(2) through PM failed, %s\n", ATANAME(ap, at), (count > 1 ? "retrying" : "giving up")); if (--count) { ahci_os_sleep(1000); ahci_put_err_ccb(ccb); ahci_pwrite(ap, AHCI_PREG_SERR, -1); ahci_pwrite(ap, AHCI_PREG_IS, AHCI_PREG_IS_IFS); goto retry; } goto err; } ahci_put_err_ccb(ccb); ahci_os_sleep(100); ahci_pwrite(ap, AHCI_PREG_SERR, -1); ahci_pwrite(ap, AHCI_PREG_IS, AHCI_PREG_IS_IFS); ahci_pm_write(ap, target, SATA_PMREG_SERR, -1); if (ahci_pm_phy_status(ap, target, &data)) { kprintf("%s: (C)Cannot clear phy status\n", ATANAME(ap ,at)); } ahci_pm_write(ap, target, SATA_PMREG_SERR, -1); /* * Do it again, even if we think we got a good result */ if (--count) { fis[15] = 0; goto retry; } /* * If the softreset is trying to clear a BSY condition after a * normal portreset we assign the port type. * * If the softreset is being run first as part of the ccb error * processing code then report if the device signature changed * unexpectedly. */ if (at->at_type == ATA_PORT_T_NONE) { at->at_type = ahci_port_signature_detect(ap, at); } else { if (ahci_port_signature_detect(ap, at) != at->at_type) { kprintf("%s: device signature unexpectedly " "changed\n", ATANAME(ap, at)); error = EBUSY; /* XXX */ } } error = 0; /* * Who knows what kind of mess occured. We have exclusive access * to the port so try to clean up potential problems. */ err: ahci_os_sleep(100); /* * Clear error status so we can detect removal. */ if (ahci_pm_write(ap, target, SATA_PMREG_SERR, -1)) { kprintf("%s: ahci_pm_softreset unable to clear SERR\n", ATANAME(ap, at)); } ahci_pwrite(ap, AHCI_PREG_SERR, -1); ahci_pwrite(ap, AHCI_PREG_IS, AHCI_PREG_IS_IFS); ap->ap_flags &= ~(AP_F_IGNORE_IFS | AP_F_IFS_IGNORED); at->at_probe = error ? ATA_PROBE_FAILED : ATA_PROBE_NEED_IDENT; return (error); } /* * Return the phy status for a target behind a port multiplier and * reset SATA_PMREG_SERR. * * Returned bits follow AHCI_PREG_SSTS bits. The AHCI_PREG_SSTS_SPD * bits can be used to determine the link speed and will be 0 if there * is no link. * * 0 is returned if any communications error occurs. */ int ahci_pm_phy_status(struct ahci_port *ap, int target, u_int32_t *datap) { int error; error = ahci_pm_read(ap, target, SATA_PMREG_SSTS, datap); if (error == 0) error = ahci_pm_write(ap, target, SATA_PMREG_SERR, -1); if (error) *datap = 0; return(error); } /* * Check that a target is still good. */ void ahci_pm_check_good(struct ahci_port *ap, int target) { struct ata_port *at; u_int32_t data; /* * It looks like we might have to read the EINFO register * to allow the PM to generate a new event. */ if (ahci_pm_read(ap, 15, SATA_PMREG_EINFO, &data)) { kprintf("%s: Port multiplier EINFO could not be read\n", PORTNAME(ap)); } if (ahci_pm_write(ap, target, SATA_PMREG_SERR, -1)) { kprintf("%s: Port multiplier: SERR could not be cleared\n", PORTNAME(ap)); } if (target == CAM_TARGET_WILDCARD || target >= ap->ap_pmcount) return; at = ap->ap_ata[target]; /* * If the device needs an init or hard reset also make sure the * PHY is turned on. */ if (at->at_probe <= ATA_PROBE_NEED_HARD_RESET) { /*kprintf("%s DOHARD\n", ATANAME(ap, at));*/ ahci_pm_hardreset(ap, target, 1); } /* * Read the detect status */ if (ahci_pm_read(ap, target, SATA_PMREG_SSTS, &data)) { kprintf("%s: Unable to access PM SSTS register target %d\n", PORTNAME(ap), target); return; } if ((data & AHCI_PREG_SSTS_DET) != AHCI_PREG_SSTS_DET_DEV) { /*kprintf("%s: DETECT %08x\n", ATANAME(ap, at), data);*/ if (at->at_probe != ATA_PROBE_FAILED) { at->at_probe = ATA_PROBE_FAILED; at->at_type = ATA_PORT_T_NONE; at->at_features |= ATA_PORT_F_RESCAN; kprintf("%s: HOTPLUG (PM) - Device removed\n", ATANAME(ap, at)); } } else { if (at->at_probe == ATA_PROBE_FAILED) { at->at_probe = ATA_PROBE_NEED_HARD_RESET; at->at_features |= ATA_PORT_F_RESCAN; kprintf("%s: HOTPLUG (PM) - Device inserted\n", ATANAME(ap, at)); } } } /* * Read a PM register */ int ahci_pm_read(struct ahci_port *ap, int target, int which, u_int32_t *datap) { struct ata_xfer *xa; int error; xa = ahci_ata_get_xfer(ap, ap->ap_ata[15]); xa->fis->type = ATA_FIS_TYPE_H2D; xa->fis->flags = ATA_H2D_FLAGS_CMD | 15; xa->fis->command = ATA_C_READ_PM; xa->fis->features = which; xa->fis->device = target | ATA_H2D_DEVICE_LBA; xa->fis->control = ATA_FIS_CONTROL_4BIT; xa->complete = ahci_pm_dummy_done; xa->datalen = 0; xa->flags = ATA_F_POLL | ATA_F_AUTOSENSE; xa->timeout = 1000; if (ahci_ata_cmd(xa) == ATA_S_COMPLETE) { *datap = xa->rfis.sector_count | (xa->rfis.lba_low << 8) | (xa->rfis.lba_mid << 16) | (xa->rfis.lba_high << 24); error = 0; } else { kprintf("%s.%d pm_read SCA[%d] failed\n", PORTNAME(ap), target, which); *datap = 0; error = EIO; } ahci_ata_put_xfer(xa); return (error); } /* * Write a PM register */ int ahci_pm_write(struct ahci_port *ap, int target, int which, u_int32_t data) { struct ata_xfer *xa; int error; xa = ahci_ata_get_xfer(ap, ap->ap_ata[15]); xa->fis->type = ATA_FIS_TYPE_H2D; xa->fis->flags = ATA_H2D_FLAGS_CMD | 15; xa->fis->command = ATA_C_WRITE_PM; xa->fis->features = which; xa->fis->device = target | ATA_H2D_DEVICE_LBA; xa->fis->sector_count = (u_int8_t)data; xa->fis->lba_low = (u_int8_t)(data >> 8); xa->fis->lba_mid = (u_int8_t)(data >> 16); xa->fis->lba_high = (u_int8_t)(data >> 24); xa->fis->control = ATA_FIS_CONTROL_4BIT; xa->complete = ahci_pm_dummy_done; xa->datalen = 0; xa->flags = ATA_F_POLL; xa->timeout = 1000; if (ahci_ata_cmd(xa) == ATA_S_COMPLETE) error = 0; else error = EIO; ahci_ata_put_xfer(xa); return(error); } /* * Dummy done callback for xa. */ static void ahci_pm_dummy_done(struct ata_xfer *xa) { }