/*
 * CAAM control-plane driver backend
 * Controller-level driver, kernel property detection, initialization
 *
 * Copyright 2008-2011 Freescale Semiconductor, Inc.
 */

#include "compat.h"
#include "regs.h"
#include "intern.h"
#include "jr.h"

static int caam_remove(struct platform_device *pdev)
{
	struct device *ctrldev;
	struct caam_drv_private *ctrlpriv;
	struct caam_drv_private_jr *jrpriv;
	struct caam_full __iomem *topregs;
	int ring, ret = 0;

	ctrldev = &pdev->dev;
	ctrlpriv = dev_get_drvdata(ctrldev);
	topregs = (struct caam_full __iomem *)ctrlpriv->ctrl;

	/* shut down JobRs */
	for (ring = 0; ring < ctrlpriv->total_jobrs; ring++) {
		ret |= caam_jr_shutdown(ctrlpriv->jrdev[ring]);
		jrpriv = dev_get_drvdata(ctrlpriv->jrdev[ring]);
		irq_dispose_mapping(jrpriv->irq);
	}

	/* Shut down debug views */
#ifdef CONFIG_DEBUG_FS
	debugfs_remove_recursive(ctrlpriv->dfs_root);
#endif

	/* Unmap controller region */
	iounmap(&topregs->ctrl);

	kfree(ctrlpriv->jrdev);
	kfree(ctrlpriv);

	return ret;
}

/* Probe routine for CAAM top (controller) level */
static int caam_probe(struct platform_device *pdev)
{
	int ring, rspec;
	struct device *dev;
	struct device_node *nprop, *np;
	struct caam_ctrl __iomem *ctrl;
	struct caam_full __iomem *topregs;
	struct caam_drv_private *ctrlpriv;
#ifdef CONFIG_DEBUG_FS
	struct caam_perfmon *perfmon;
#endif

	ctrlpriv = kzalloc(sizeof(struct caam_drv_private), GFP_KERNEL);
	if (!ctrlpriv)
		return -ENOMEM;

	dev = &pdev->dev;
	dev_set_drvdata(dev, ctrlpriv);
	ctrlpriv->pdev = pdev;
	nprop = pdev->dev.of_node;

	/* Get configuration properties from device tree */
	/* First, get register page */
	ctrl = of_iomap(nprop, 0);
	if (ctrl == NULL) {
		dev_err(dev, "caam: of_iomap() failed\n");
		return -ENOMEM;
	}
	ctrlpriv->ctrl = (struct caam_ctrl __force *)ctrl;

	/* topregs used to derive pointers to CAAM sub-blocks only */
	topregs = (struct caam_full __iomem *)ctrl;

	/* Get the IRQ of the controller (for security violations only) */
	ctrlpriv->secvio_irq = of_irq_to_resource(nprop, 0, NULL);

	/*
	 * Enable DECO watchdogs and, if this is a PHYS_ADDR_T_64BIT kernel,
	 * 36-bit pointers in master configuration register
	 */
	setbits32(&topregs->ctrl.mcr, MCFGR_WDENABLE |
		  (sizeof(dma_addr_t) == sizeof(u64) ? MCFGR_LONG_PTR : 0));

	if (sizeof(dma_addr_t) == sizeof(u64))
		dma_set_mask(dev, DMA_BIT_MASK(36));

	/*
	 * Detect and enable JobRs
	 * First, find out how many ring spec'ed, allocate references
	 * for all, then go probe each one.
	 */
	rspec = 0;
	for_each_compatible_node(np, NULL, "fsl,sec-v4.0-job-ring")
		rspec++;
	if (!rspec) {
		/* for backward compatible with device trees */
		for_each_compatible_node(np, NULL, "fsl,sec4.0-job-ring")
			rspec++;
	}

	ctrlpriv->jrdev = kzalloc(sizeof(struct device *) * rspec, GFP_KERNEL);
	if (ctrlpriv->jrdev == NULL) {
		iounmap(&topregs->ctrl);
		return -ENOMEM;
	}

	ring = 0;
	ctrlpriv->total_jobrs = 0;
	for_each_compatible_node(np, NULL, "fsl,sec-v4.0-job-ring") {
		caam_jr_probe(pdev, np, ring);
		ctrlpriv->total_jobrs++;
		ring++;
	}
	if (!ring) {
		for_each_compatible_node(np, NULL, "fsl,sec4.0-job-ring") {
			caam_jr_probe(pdev, np, ring);
			ctrlpriv->total_jobrs++;
			ring++;
		}
	}

	/* Check to see if QI present. If so, enable */
	ctrlpriv->qi_present = !!(rd_reg64(&topregs->ctrl.perfmon.comp_parms) &
				  CTPR_QI_MASK);
	if (ctrlpriv->qi_present) {
		ctrlpriv->qi = (struct caam_queue_if __force *)&topregs->qi;
		/* This is all that's required to physically enable QI */
		wr_reg32(&topregs->qi.qi_control_lo, QICTL_DQEN);
	}

	/* If no QI and no rings specified, quit and go home */
	if ((!ctrlpriv->qi_present) && (!ctrlpriv->total_jobrs)) {
		dev_err(dev, "no queues configured, terminating\n");
		caam_remove(pdev);
		return -ENOMEM;
	}

	/* NOTE: RTIC detection ought to go here, around Si time */

	/* Initialize queue allocator lock */
	spin_lock_init(&ctrlpriv->jr_alloc_lock);

	/* Report "alive" for developer to see */
	dev_info(dev, "device ID = 0x%016llx\n",
		 rd_reg64(&topregs->ctrl.perfmon.caam_id));
	dev_info(dev, "job rings = %d, qi = %d\n",
		 ctrlpriv->total_jobrs, ctrlpriv->qi_present);

#ifdef CONFIG_DEBUG_FS
	/*
	 * FIXME: needs better naming distinction, as some amalgamation of
	 * "caam" and nprop->full_name. The OF name isn't distinctive,
	 * but does separate instances
	 */
	perfmon = (struct caam_perfmon __force *)&ctrl->perfmon;

	ctrlpriv->dfs_root = debugfs_create_dir("caam", NULL);
	ctrlpriv->ctl = debugfs_create_dir("ctl", ctrlpriv->dfs_root);

	/* Controller-level - performance monitor counters */
	ctrlpriv->ctl_rq_dequeued =
		debugfs_create_u64("rq_dequeued",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->req_dequeued);
	ctrlpriv->ctl_ob_enc_req =
		debugfs_create_u64("ob_rq_encrypted",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->ob_enc_req);
	ctrlpriv->ctl_ib_dec_req =
		debugfs_create_u64("ib_rq_decrypted",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->ib_dec_req);
	ctrlpriv->ctl_ob_enc_bytes =
		debugfs_create_u64("ob_bytes_encrypted",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->ob_enc_bytes);
	ctrlpriv->ctl_ob_prot_bytes =
		debugfs_create_u64("ob_bytes_protected",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->ob_prot_bytes);
	ctrlpriv->ctl_ib_dec_bytes =
		debugfs_create_u64("ib_bytes_decrypted",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->ib_dec_bytes);
	ctrlpriv->ctl_ib_valid_bytes =
		debugfs_create_u64("ib_bytes_validated",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->ib_valid_bytes);

	/* Controller level - global status values */
	ctrlpriv->ctl_faultaddr =
		debugfs_create_u64("fault_addr",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->faultaddr);
	ctrlpriv->ctl_faultdetail =
		debugfs_create_u32("fault_detail",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->faultdetail);
	ctrlpriv->ctl_faultstatus =
		debugfs_create_u32("fault_status",
				   S_IRUSR | S_IRGRP | S_IROTH,
				   ctrlpriv->ctl, &perfmon->status);

	/* Internal covering keys (useful in non-secure mode only) */
	ctrlpriv->ctl_kek_wrap.data = &ctrlpriv->ctrl->kek[0];
	ctrlpriv->ctl_kek_wrap.size = KEK_KEY_SIZE * sizeof(u32);
	ctrlpriv->ctl_kek = debugfs_create_blob("kek",
						S_IRUSR |
						S_IRGRP | S_IROTH,
						ctrlpriv->ctl,
						&ctrlpriv->ctl_kek_wrap);

	ctrlpriv->ctl_tkek_wrap.data = &ctrlpriv->ctrl->tkek[0];
	ctrlpriv->ctl_tkek_wrap.size = KEK_KEY_SIZE * sizeof(u32);
	ctrlpriv->ctl_tkek = debugfs_create_blob("tkek",
						 S_IRUSR |
						 S_IRGRP | S_IROTH,
						 ctrlpriv->ctl,
						 &ctrlpriv->ctl_tkek_wrap);

	ctrlpriv->ctl_tdsk_wrap.data = &ctrlpriv->ctrl->tdsk[0];
	ctrlpriv->ctl_tdsk_wrap.size = KEK_KEY_SIZE * sizeof(u32);
	ctrlpriv->ctl_tdsk = debugfs_create_blob("tdsk",
						 S_IRUSR |
						 S_IRGRP | S_IROTH,
						 ctrlpriv->ctl,
						 &ctrlpriv->ctl_tdsk_wrap);
#endif
	return 0;
}

static struct of_device_id caam_match[] = {
	{
		.compatible = "fsl,sec-v4.0",
	},
	{
		.compatible = "fsl,sec4.0",
	},
	{},
};
MODULE_DEVICE_TABLE(of, caam_match);

static struct platform_driver caam_driver = {
	.driver = {
		.name = "caam",
		.owner = THIS_MODULE,
		.of_match_table = caam_match,
	},
	.probe       = caam_probe,
	.remove      = __devexit_p(caam_remove),
};

module_platform_driver(caam_driver);

MODULE_LICENSE("GPL");
MODULE_DESCRIPTION("FSL CAAM request backend");
MODULE_AUTHOR("Freescale Semiconductor - NMG/STC");

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<a id='n370' href='#n370'>370</a>
<a id='n371' href='#n371'>371</a>
<a id='n372' href='#n372'>372</a>
<a id='n373' href='#n373'>373</a>
<a id='n374' href='#n374'>374</a>
<a id='n375' href='#n375'>375</a>
<a id='n376' href='#n376'>376</a>
<a id='n377' href='#n377'>377</a>
<a id='n378' href='#n378'>378</a>
<a id='n379' href='#n379'>379</a>
<a id='n380' href='#n380'>380</a>
<a id='n381' href='#n381'>381</a>
<a id='n382' href='#n382'>382</a>
<a id='n383' href='#n383'>383</a>
<a id='n384' href='#n384'>384</a>
<a id='n385' href='#n385'>385</a>
<a id='n386' href='#n386'>386</a>
<a id='n387' href='#n387'>387</a>
<a id='n388' href='#n388'>388</a>
<a id='n389' href='#n389'>389</a>
<a id='n390' href='#n390'>390</a>
<a id='n391' href='#n391'>391</a>
<a id='n392' href='#n392'>392</a>
<a id='n393' href='#n393'>393</a>
<a id='n394' href='#n394'>394</a>
<a id='n395' href='#n395'>395</a>
<a id='n396' href='#n396'>396</a>
<a id='n397' href='#n397'>397</a>
<a id='n398' href='#n398'>398</a>
<a id='n399' href='#n399'>399</a>
<a id='n400' href='#n400'>400</a>
<a id='n401' href='#n401'>401</a>
<a id='n402' href='#n402'>402</a>
<a id='n403' href='#n403'>403</a>
<a id='n404' href='#n404'>404</a>
<a id='n405' href='#n405'>405</a>
<a id='n406' href='#n406'>406</a>
<a id='n407' href='#n407'>407</a>
<a id='n408' href='#n408'>408</a>
<a id='n409' href='#n409'>409</a>
<a id='n410' href='#n410'>410</a>
<a id='n411' href='#n411'>411</a>
<a id='n412' href='#n412'>412</a>
<a id='n413' href='#n413'>413</a>
<a id='n414' href='#n414'>414</a>
<a id='n415' href='#n415'>415</a>
<a id='n416' href='#n416'>416</a>
<a id='n417' href='#n417'>417</a>
<a id='n418' href='#n418'>418</a>
<a id='n419' href='#n419'>419</a>
<a id='n420' href='#n420'>420</a>
<a id='n421' href='#n421'>421</a>
<a id='n422' href='#n422'>422</a>
<a id='n423' href='#n423'>423</a>
<a id='n424' href='#n424'>424</a>
<a id='n425' href='#n425'>425</a>
<a id='n426' href='#n426'>426</a>
<a id='n427' href='#n427'>427</a>
<a id='n428' href='#n428'>428</a>
<a id='n429' href='#n429'>429</a>
<a id='n430' href='#n430'>430</a>
<a id='n431' href='#n431'>431</a>
<a id='n432' href='#n432'>432</a>
<a id='n433' href='#n433'>433</a>
<a id='n434' href='#n434'>434</a>
<a id='n435' href='#n435'>435</a>
<a id='n436' href='#n436'>436</a>
<a id='n437' href='#n437'>437</a>
<a id='n438' href='#n438'>438</a>
<a id='n439' href='#n439'>439</a>
<a id='n440' href='#n440'>440</a>
<a id='n441' href='#n441'>441</a>
<a id='n442' href='#n442'>442</a>
<a id='n443' href='#n443'>443</a>
<a id='n444' href='#n444'>444</a>
<a id='n445' href='#n445'>445</a>
<a id='n446' href='#n446'>446</a>
<a id='n447' href='#n447'>447</a>
<a id='n448' href='#n448'>448</a>
<a id='n449' href='#n449'>449</a>
<a id='n450' href='#n450'>450</a>
<a id='n451' href='#n451'>451</a>
<a id='n452' href='#n452'>452</a>
<a id='n453' href='#n453'>453</a>
<a id='n454' href='#n454'>454</a>
<a id='n455' href='#n455'>455</a>
<a id='n456' href='#n456'>456</a>
<a id='n457' href='#n457'>457</a>
<a id='n458' href='#n458'>458</a>
<a id='n459' href='#n459'>459</a>
<a id='n460' href='#n460'>460</a>
<a id='n461' href='#n461'>461</a>
<a id='n462' href='#n462'>462</a>
<a id='n463' href='#n463'>463</a>
<a id='n464' href='#n464'>464</a>
<a id='n465' href='#n465'>465</a>
<a id='n466' href='#n466'>466</a>
<a id='n467' href='#n467'>467</a>
<a id='n468' href='#n468'>468</a>
<a id='n469' href='#n469'>469</a>
<a id='n470' href='#n470'>470</a>
<a id='n471' href='#n471'>471</a>
<a id='n472' href='#n472'>472</a>
<a id='n473' href='#n473'>473</a>
<a id='n474' href='#n474'>474</a>
<a id='n475' href='#n475'>475</a>
<a id='n476' href='#n476'>476</a>
<a id='n477' href='#n477'>477</a>
<a id='n478' href='#n478'>478</a>
<a id='n479' href='#n479'>479</a>
<a id='n480' href='#n480'>480</a>
<a id='n481' href='#n481'>481</a>
<a id='n482' href='#n482'>482</a>
<a id='n483' href='#n483'>483</a>
<a id='n484' href='#n484'>484</a>
<a id='n485' href='#n485'>485</a>
<a id='n486' href='#n486'>486</a>
<a id='n487' href='#n487'>487</a>
<a id='n488' href='#n488'>488</a>
<a id='n489' href='#n489'>489</a>
<a id='n490' href='#n490'>490</a>
<a id='n491' href='#n491'>491</a>
<a id='n492' href='#n492'>492</a>
<a id='n493' href='#n493'>493</a>
<a id='n494' href='#n494'>494</a>
<a id='n495' href='#n495'>495</a>
<a id='n496' href='#n496'>496</a>
<a id='n497' href='#n497'>497</a>
<a id='n498' href='#n498'>498</a>
<a id='n499' href='#n499'>499</a>
<a id='n500' href='#n500'>500</a>
<a id='n501' href='#n501'>501</a>
<a id='n502' href='#n502'>502</a>
<a id='n503' href='#n503'>503</a>
<a id='n504' href='#n504'>504</a>
<a id='n505' href='#n505'>505</a>
<a id='n506' href='#n506'>506</a>
<a id='n507' href='#n507'>507</a>
<a id='n508' href='#n508'>508</a>
<a id='n509' href='#n509'>509</a>
<a id='n510' href='#n510'>510</a>
<a id='n511' href='#n511'>511</a>
<a id='n512' href='#n512'>512</a>
<a id='n513' href='#n513'>513</a>
<a id='n514' href='#n514'>514</a>
<a id='n515' href='#n515'>515</a>
<a id='n516' href='#n516'>516</a>
<a id='n517' href='#n517'>517</a>
<a id='n518' href='#n518'>518</a>
<a id='n519' href='#n519'>519</a>
<a id='n520' href='#n520'>520</a>
<a id='n521' href='#n521'>521</a>
<a id='n522' href='#n522'>522</a>
<a id='n523' href='#n523'>523</a>
<a id='n524' href='#n524'>524</a>
<a id='n525' href='#n525'>525</a>
<a id='n526' href='#n526'>526</a>
<a id='n527' href='#n527'>527</a>
<a id='n528' href='#n528'>528</a>
<a id='n529' href='#n529'>529</a>
<a id='n530' href='#n530'>530</a>
<a id='n531' href='#n531'>531</a>
<a id='n532' href='#n532'>532</a>
<a id='n533' href='#n533'>533</a>
<a id='n534' href='#n534'>534</a>
<a id='n535' href='#n535'>535</a>
<a id='n536' href='#n536'>536</a>
<a id='n537' href='#n537'>537</a>
<a id='n538' href='#n538'>538</a>
<a id='n539' href='#n539'>539</a>
<a id='n540' href='#n540'>540</a>
<a id='n541' href='#n541'>541</a>
<a id='n542' href='#n542'>542</a>
<a id='n543' href='#n543'>543</a>
<a id='n544' href='#n544'>544</a>
<a id='n545' href='#n545'>545</a>
<a id='n546' href='#n546'>546</a>
<a id='n547' href='#n547'>547</a>
<a id='n548' href='#n548'>548</a>
<a id='n549' href='#n549'>549</a>
<a id='n550' href='#n550'>550</a>
<a id='n551' href='#n551'>551</a>
<a id='n552' href='#n552'>552</a>
<a id='n553' href='#n553'>553</a>
<a id='n554' href='#n554'>554</a>
<a id='n555' href='#n555'>555</a>
<a id='n556' href='#n556'>556</a>
<a id='n557' href='#n557'>557</a>
<a id='n558' href='#n558'>558</a>
<a id='n559' href='#n559'>559</a>
<a id='n560' href='#n560'>560</a>
<a id='n561' href='#n561'>561</a>
<a id='n562' href='#n562'>562</a>
<a id='n563' href='#n563'>563</a>
<a id='n564' href='#n564'>564</a>
<a id='n565' href='#n565'>565</a>
<a id='n566' href='#n566'>566</a>
<a id='n567' href='#n567'>567</a>
<a id='n568' href='#n568'>568</a>
<a id='n569' href='#n569'>569</a>
<a id='n570' href='#n570'>570</a>
<a id='n571' href='#n571'>571</a>
<a id='n572' href='#n572'>572</a>
<a id='n573' href='#n573'>573</a>
<a id='n574' href='#n574'>574</a>
<a id='n575' href='#n575'>575</a>
<a id='n576' href='#n576'>576</a>
<a id='n577' href='#n577'>577</a>
<a id='n578' href='#n578'>578</a>
<a id='n579' href='#n579'>579</a>
<a id='n580' href='#n580'>580</a>
<a id='n581' href='#n581'>581</a>
<a id='n582' href='#n582'>582</a>
<a id='n583' href='#n583'>583</a>
<a id='n584' href='#n584'>584</a>
<a id='n585' href='#n585'>585</a>
<a id='n586' href='#n586'>586</a>
<a id='n587' href='#n587'>587</a>
<a id='n588' href='#n588'>588</a>
<a id='n589' href='#n589'>589</a>
<a id='n590' href='#n590'>590</a>
<a id='n591' href='#n591'>591</a>
<a id='n592' href='#n592'>592</a>
<a id='n593' href='#n593'>593</a>
<a id='n594' href='#n594'>594</a>
<a id='n595' href='#n595'>595</a>
<a id='n596' href='#n596'>596</a>
<a id='n597' href='#n597'>597</a>
<a id='n598' href='#n598'>598</a>
<a id='n599' href='#n599'>599</a>
<a id='n600' href='#n600'>600</a>
<a id='n601' href='#n601'>601</a>
<a id='n602' href='#n602'>602</a>
<a id='n603' href='#n603'>603</a>
<a id='n604' href='#n604'>604</a>
<a id='n605' href='#n605'>605</a>
<a id='n606' href='#n606'>606</a>
<a id='n607' href='#n607'>607</a>
<a id='n608' href='#n608'>608</a>
<a id='n609' href='#n609'>609</a>
<a id='n610' href='#n610'>610</a>
<a id='n611' href='#n611'>611</a>
<a id='n612' href='#n612'>612</a>
<a id='n613' href='#n613'>613</a>
<a id='n614' href='#n614'>614</a>
<a id='n615' href='#n615'>615</a>
<a id='n616' href='#n616'>616</a>
<a id='n617' href='#n617'>617</a>
<a id='n618' href='#n618'>618</a>
<a id='n619' href='#n619'>619</a>
<a id='n620' href='#n620'>620</a>
<a id='n621' href='#n621'>621</a>
<a id='n622' href='#n622'>622</a>
<a id='n623' href='#n623'>623</a>
<a id='n624' href='#n624'>624</a>
<a id='n625' href='#n625'>625</a>
<a id='n626' href='#n626'>626</a>
<a id='n627' href='#n627'>627</a>
<a id='n628' href='#n628'>628</a>
<a id='n629' href='#n629'>629</a>
<a id='n630' href='#n630'>630</a>
<a id='n631' href='#n631'>631</a>
<a id='n632' href='#n632'>632</a>
<a id='n633' href='#n633'>633</a>
<a id='n634' href='#n634'>634</a>
<a id='n635' href='#n635'>635</a>
<a id='n636' href='#n636'>636</a>
<a id='n637' href='#n637'>637</a>
<a id='n638' href='#n638'>638</a>
<a id='n639' href='#n639'>639</a>
<a id='n640' href='#n640'>640</a>
<a id='n641' href='#n641'>641</a>
<a id='n642' href='#n642'>642</a>
<a id='n643' href='#n643'>643</a>
<a id='n644' href='#n644'>644</a>
<a id='n645' href='#n645'>645</a>
<a id='n646' href='#n646'>646</a>
<a id='n647' href='#n647'>647</a>
<a id='n648' href='#n648'>648</a>
<a id='n649' href='#n649'>649</a>
<a id='n650' href='#n650'>650</a>
<a id='n651' href='#n651'>651</a>
<a id='n652' href='#n652'>652</a>
<a id='n653' href='#n653'>653</a>
<a id='n654' href='#n654'>654</a>
<a id='n655' href='#n655'>655</a>
<a id='n656' href='#n656'>656</a>
<a id='n657' href='#n657'>657</a>
<a id='n658' href='#n658'>658</a>
<a id='n659' href='#n659'>659</a>
<a id='n660' href='#n660'>660</a>
<a id='n661' href='#n661'>661</a>
<a id='n662' href='#n662'>662</a>
<a id='n663' href='#n663'>663</a>
<a id='n664' href='#n664'>664</a>
<a id='n665' href='#n665'>665</a>
<a id='n666' href='#n666'>666</a>
<a id='n667' href='#n667'>667</a>
<a id='n668' href='#n668'>668</a>
<a id='n669' href='#n669'>669</a>
<a id='n670' href='#n670'>670</a>
<a id='n671' href='#n671'>671</a>
<a id='n672' href='#n672'>672</a>
<a id='n673' href='#n673'>673</a>
<a id='n674' href='#n674'>674</a>
<a id='n675' href='#n675'>675</a>
<a id='n676' href='#n676'>676</a>
<a id='n677' href='#n677'>677</a>
<a id='n678' href='#n678'>678</a>
<a id='n679' href='#n679'>679</a>
<a id='n680' href='#n680'>680</a>
<a id='n681' href='#n681'>681</a>
<a id='n682' href='#n682'>682</a>
<a id='n683' href='#n683'>683</a>
<a id='n684' href='#n684'>684</a>
<a id='n685' href='#n685'>685</a>
<a id='n686' href='#n686'>686</a>
<a id='n687' href='#n687'>687</a>
<a id='n688' href='#n688'>688</a>
<a id='n689' href='#n689'>689</a>
<a id='n690' href='#n690'>690</a>
<a id='n691' href='#n691'>691</a>
<a id='n692' href='#n692'>692</a>
<a id='n693' href='#n693'>693</a>
<a id='n694' href='#n694'>694</a>
<a id='n695' href='#n695'>695</a>
<a id='n696' href='#n696'>696</a>
<a id='n697' href='#n697'>697</a>
<a id='n698' href='#n698'>698</a>
<a id='n699' href='#n699'>699</a>
<a id='n700' href='#n700'>700</a>
<a id='n701' href='#n701'>701</a>
<a id='n702' href='#n702'>702</a>
<a id='n703' href='#n703'>703</a>
<a id='n704' href='#n704'>704</a>
<a id='n705' href='#n705'>705</a>
<a id='n706' href='#n706'>706</a>
<a id='n707' href='#n707'>707</a>
<a id='n708' href='#n708'>708</a>
<a id='n709' href='#n709'>709</a>
<a id='n710' href='#n710'>710</a>
<a id='n711' href='#n711'>711</a>
<a id='n712' href='#n712'>712</a>
<a id='n713' href='#n713'>713</a>
<a id='n714' href='#n714'>714</a>
<a id='n715' href='#n715'>715</a>
<a id='n716' href='#n716'>716</a>
<a id='n717' href='#n717'>717</a>
<a id='n718' href='#n718'>718</a>
<a id='n719' href='#n719'>719</a>
<a id='n720' href='#n720'>720</a>
<a id='n721' href='#n721'>721</a>
<a id='n722' href='#n722'>722</a>
<a id='n723' href='#n723'>723</a>
<a id='n724' href='#n724'>724</a>
<a id='n725' href='#n725'>725</a>
<a id='n726' href='#n726'>726</a>
<a id='n727' href='#n727'>727</a>
<a id='n728' href='#n728'>728</a>
<a id='n729' href='#n729'>729</a>
<a id='n730' href='#n730'>730</a>
<a id='n731' href='#n731'>731</a>
<a id='n732' href='#n732'>732</a>
<a id='n733' href='#n733'>733</a>
<a id='n734' href='#n734'>734</a>
<a id='n735' href='#n735'>735</a>
<a id='n736' href='#n736'>736</a>
<a id='n737' href='#n737'>737</a>
<a id='n738' href='#n738'>738</a>
<a id='n739' href='#n739'>739</a>
<a id='n740' href='#n740'>740</a>
<a id='n741' href='#n741'>741</a>
<a id='n742' href='#n742'>742</a>
<a id='n743' href='#n743'>743</a>
<a id='n744' href='#n744'>744</a>
<a id='n745' href='#n745'>745</a>
<a id='n746' href='#n746'>746</a>
<a id='n747' href='#n747'>747</a>
<a id='n748' href='#n748'>748</a>
<a id='n749' href='#n749'>749</a>
<a id='n750' href='#n750'>750</a>
<a id='n751' href='#n751'>751</a>
<a id='n752' href='#n752'>752</a>
<a id='n753' href='#n753'>753</a>
<a id='n754' href='#n754'>754</a>
<a id='n755' href='#n755'>755</a>
<a id='n756' href='#n756'>756</a>
<a id='n757' href='#n757'>757</a>
<a id='n758' href='#n758'>758</a>
<a id='n759' href='#n759'>759</a>
<a id='n760' href='#n760'>760</a>
<a id='n761' href='#n761'>761</a>
<a id='n762' href='#n762'>762</a>
<a id='n763' href='#n763'>763</a>
<a id='n764' href='#n764'>764</a>
<a id='n765' href='#n765'>765</a>
<a id='n766' href='#n766'>766</a>
<a id='n767' href='#n767'>767</a>
<a id='n768' href='#n768'>768</a>
<a id='n769' href='#n769'>769</a>
<a id='n770' href='#n770'>770</a>
<a id='n771' href='#n771'>771</a>
<a id='n772' href='#n772'>772</a>
<a id='n773' href='#n773'>773</a>
<a id='n774' href='#n774'>774</a>
<a id='n775' href='#n775'>775</a>
<a id='n776' href='#n776'>776</a>
<a id='n777' href='#n777'>777</a>
<a id='n778' href='#n778'>778</a>
<a id='n779' href='#n779'>779</a>
<a id='n780' href='#n780'>780</a>
<a id='n781' href='#n781'>781</a>
<a id='n782' href='#n782'>782</a>
<a id='n783' href='#n783'>783</a>
<a id='n784' href='#n784'>784</a>
<a id='n785' href='#n785'>785</a>
<a id='n786' href='#n786'>786</a>
<a id='n787' href='#n787'>787</a>
<a id='n788' href='#n788'>788</a>
<a id='n789' href='#n789'>789</a>
<a id='n790' href='#n790'>790</a>
<a id='n791' href='#n791'>791</a>
<a id='n792' href='#n792'>792</a>
<a id='n793' href='#n793'>793</a>
<a id='n794' href='#n794'>794</a>
<a id='n795' href='#n795'>795</a>
<a id='n796' href='#n796'>796</a>
<a id='n797' href='#n797'>797</a>
<a id='n798' href='#n798'>798</a>
<a id='n799' href='#n799'>799</a>
<a id='n800' href='#n800'>800</a>
<a id='n801' href='#n801'>801</a>
<a id='n802' href='#n802'>802</a>
<a id='n803' href='#n803'>803</a>
<a id='n804' href='#n804'>804</a>
<a id='n805' href='#n805'>805</a>
<a id='n806' href='#n806'>806</a>
<a id='n807' href='#n807'>807</a>
<a id='n808' href='#n808'>808</a>
<a id='n809' href='#n809'>809</a>
<a id='n810' href='#n810'>810</a>
<a id='n811' href='#n811'>811</a>
<a id='n812' href='#n812'>812</a>
<a id='n813' href='#n813'>813</a>
<a id='n814' href='#n814'>814</a>
<a id='n815' href='#n815'>815</a>
<a id='n816' href='#n816'>816</a>
<a id='n817' href='#n817'>817</a>
<a id='n818' href='#n818'>818</a>
<a id='n819' href='#n819'>819</a>
<a id='n820' href='#n820'>820</a>
<a id='n821' href='#n821'>821</a>
<a id='n822' href='#n822'>822</a>
<a id='n823' href='#n823'>823</a>
<a id='n824' href='#n824'>824</a>
<a id='n825' href='#n825'>825</a>
<a id='n826' href='#n826'>826</a>
<a id='n827' href='#n827'>827</a>
<a id='n828' href='#n828'>828</a>
<a id='n829' href='#n829'>829</a>
<a id='n830' href='#n830'>830</a>
<a id='n831' href='#n831'>831</a>
<a id='n832' href='#n832'>832</a>
<a id='n833' href='#n833'>833</a>
<a id='n834' href='#n834'>834</a>
<a id='n835' href='#n835'>835</a>
<a id='n836' href='#n836'>836</a>
<a id='n837' href='#n837'>837</a>
<a id='n838' href='#n838'>838</a>
<a id='n839' href='#n839'>839</a>
<a id='n840' href='#n840'>840</a>
<a id='n841' href='#n841'>841</a>
<a id='n842' href='#n842'>842</a>
<a id='n843' href='#n843'>843</a>
<a id='n844' href='#n844'>844</a>
<a id='n845' href='#n845'>845</a>
<a id='n846' href='#n846'>846</a>
<a id='n847' href='#n847'>847</a>
<a id='n848' href='#n848'>848</a>
<a id='n849' href='#n849'>849</a>
<a id='n850' href='#n850'>850</a>
<a id='n851' href='#n851'>851</a>
<a id='n852' href='#n852'>852</a>
<a id='n853' href='#n853'>853</a>
<a id='n854' href='#n854'>854</a>
<a id='n855' href='#n855'>855</a>
<a id='n856' href='#n856'>856</a>
<a id='n857' href='#n857'>857</a>
<a id='n858' href='#n858'>858</a>
<a id='n859' href='#n859'>859</a>
<a id='n860' href='#n860'>860</a>
<a id='n861' href='#n861'>861</a>
<a id='n862' href='#n862'>862</a>
<a id='n863' href='#n863'>863</a>
<a id='n864' href='#n864'>864</a>
<a id='n865' href='#n865'>865</a>
<a id='n866' href='#n866'>866</a>
<a id='n867' href='#n867'>867</a>
<a id='n868' href='#n868'>868</a>
<a id='n869' href='#n869'>869</a>
<a id='n870' href='#n870'>870</a>
<a id='n871' href='#n871'>871</a>
<a id='n872' href='#n872'>872</a>
<a id='n873' href='#n873'>873</a>
<a id='n874' href='#n874'>874</a>
<a id='n875' href='#n875'>875</a>
<a id='n876' href='#n876'>876</a>
<a id='n877' href='#n877'>877</a>
<a id='n878' href='#n878'>878</a>
<a id='n879' href='#n879'>879</a>
<a id='n880' href='#n880'>880</a>
<a id='n881' href='#n881'>881</a>
<a id='n882' href='#n882'>882</a>
<a id='n883' href='#n883'>883</a>
<a id='n884' href='#n884'>884</a>
<a id='n885' href='#n885'>885</a>
<a id='n886' href='#n886'>886</a>
<a id='n887' href='#n887'>887</a>
<a id='n888' href='#n888'>888</a>
<a id='n889' href='#n889'>889</a>
<a id='n890' href='#n890'>890</a>
<a id='n891' href='#n891'>891</a>
<a id='n892' href='#n892'>892</a>
<a id='n893' href='#n893'>893</a>
<a id='n894' href='#n894'>894</a>
<a id='n895' href='#n895'>895</a>
<a id='n896' href='#n896'>896</a>
<a id='n897' href='#n897'>897</a>
<a id='n898' href='#n898'>898</a>
<a id='n899' href='#n899'>899</a>
<a id='n900' href='#n900'>900</a>
<a id='n901' href='#n901'>901</a>
<a id='n902' href='#n902'>902</a>
<a id='n903' href='#n903'>903</a>
<a id='n904' href='#n904'>904</a>
<a id='n905' href='#n905'>905</a>
<a id='n906' href='#n906'>906</a>
<a id='n907' href='#n907'>907</a>
<a id='n908' href='#n908'>908</a>
<a id='n909' href='#n909'>909</a>
<a id='n910' href='#n910'>910</a>
<a id='n911' href='#n911'>911</a>
<a id='n912' href='#n912'>912</a>
<a id='n913' href='#n913'>913</a>
<a id='n914' href='#n914'>914</a>
<a id='n915' href='#n915'>915</a>
<a id='n916' href='#n916'>916</a>
<a id='n917' href='#n917'>917</a>
<a id='n918' href='#n918'>918</a>
<a id='n919' href='#n919'>919</a>
<a id='n920' href='#n920'>920</a>
<a id='n921' href='#n921'>921</a>
<a id='n922' href='#n922'>922</a>
<a id='n923' href='#n923'>923</a>
<a id='n924' href='#n924'>924</a>
<a id='n925' href='#n925'>925</a>
<a id='n926' href='#n926'>926</a>
<a id='n927' href='#n927'>927</a>
<a id='n928' href='#n928'>928</a>
<a id='n929' href='#n929'>929</a>
<a id='n930' href='#n930'>930</a>
<a id='n931' href='#n931'>931</a>
<a id='n932' href='#n932'>932</a>
<a id='n933' href='#n933'>933</a>
<a id='n934' href='#n934'>934</a>
<a id='n935' href='#n935'>935</a>
<a id='n936' href='#n936'>936</a>
<a id='n937' href='#n937'>937</a>
<a id='n938' href='#n938'>938</a>
<a id='n939' href='#n939'>939</a>
<a id='n940' href='#n940'>940</a>
<a id='n941' href='#n941'>941</a>
<a id='n942' href='#n942'>942</a>
<a id='n943' href='#n943'>943</a>
<a id='n944' href='#n944'>944</a>
<a id='n945' href='#n945'>945</a>
<a id='n946' href='#n946'>946</a>
<a id='n947' href='#n947'>947</a>
<a id='n948' href='#n948'>948</a>
<a id='n949' href='#n949'>949</a>
<a id='n950' href='#n950'>950</a>
<a id='n951' href='#n951'>951</a>
<a id='n952' href='#n952'>952</a>
<a id='n953' href='#n953'>953</a>
<a id='n954' href='#n954'>954</a>
<a id='n955' href='#n955'>955</a>
<a id='n956' href='#n956'>956</a>
<a id='n957' href='#n957'>957</a>
<a id='n958' href='#n958'>958</a>
<a id='n959' href='#n959'>959</a>
<a id='n960' href='#n960'>960</a>
<a id='n961' href='#n961'>961</a>
<a id='n962' href='#n962'>962</a>
<a id='n963' href='#n963'>963</a>
<a id='n964' href='#n964'>964</a>
<a id='n965' href='#n965'>965</a>
<a id='n966' href='#n966'>966</a>
<a id='n967' href='#n967'>967</a>
<a id='n968' href='#n968'>968</a>
<a id='n969' href='#n969'>969</a>
<a id='n970' href='#n970'>970</a>
<a id='n971' href='#n971'>971</a>
<a id='n972' href='#n972'>972</a>
<a id='n973' href='#n973'>973</a>
<a id='n974' href='#n974'>974</a>
<a id='n975' href='#n975'>975</a>
<a id='n976' href='#n976'>976</a>
<a id='n977' href='#n977'>977</a>
<a id='n978' href='#n978'>978</a>
<a id='n979' href='#n979'>979</a>
<a id='n980' href='#n980'>980</a>
<a id='n981' href='#n981'>981</a>
<a id='n982' href='#n982'>982</a>
<a id='n983' href='#n983'>983</a>
<a id='n984' href='#n984'>984</a>
<a id='n985' href='#n985'>985</a>
<a id='n986' href='#n986'>986</a>
<a id='n987' href='#n987'>987</a>
<a id='n988' href='#n988'>988</a>
<a id='n989' href='#n989'>989</a>
<a id='n990' href='#n990'>990</a>
<a id='n991' href='#n991'>991</a>
<a id='n992' href='#n992'>992</a>
<a id='n993' href='#n993'>993</a>
<a id='n994' href='#n994'>994</a>
<a id='n995' href='#n995'>995</a>
<a id='n996' href='#n996'>996</a>
<a id='n997' href='#n997'>997</a>
<a id='n998' href='#n998'>998</a>
<a id='n999' href='#n999'>999</a>
<a id='n1000' href='#n1000'>1000</a>
<a id='n1001' href='#n1001'>1001</a>
<a id='n1002' href='#n1002'>1002</a>
<a id='n1003' href='#n1003'>1003</a>
<a id='n1004' href='#n1004'>1004</a>
<a id='n1005' href='#n1005'>1005</a>
<a id='n1006' href='#n1006'>1006</a>
<a id='n1007' href='#n1007'>1007</a>
<a id='n1008' href='#n1008'>1008</a>
<a id='n1009' href='#n1009'>1009</a>
<a id='n1010' href='#n1010'>1010</a>
<a id='n1011' href='#n1011'>1011</a>
<a id='n1012' href='#n1012'>1012</a>
<a id='n1013' href='#n1013'>1013</a>
<a id='n1014' href='#n1014'>1014</a>
<a id='n1015' href='#n1015'>1015</a>
<a id='n1016' href='#n1016'>1016</a>
<a id='n1017' href='#n1017'>1017</a>
<a id='n1018' href='#n1018'>1018</a>
<a id='n1019' href='#n1019'>1019</a>
<a id='n1020' href='#n1020'>1020</a>
<a id='n1021' href='#n1021'>1021</a>
<a id='n1022' href='#n1022'>1022</a>
<a id='n1023' href='#n1023'>1023</a>
<a id='n1024' href='#n1024'>1024</a>
<a id='n1025' href='#n1025'>1025</a>
<a id='n1026' href='#n1026'>1026</a>
<a id='n1027' href='#n1027'>1027</a>
<a id='n1028' href='#n1028'>1028</a>
<a id='n1029' href='#n1029'>1029</a>
<a id='n1030' href='#n1030'>1030</a>
<a id='n1031' href='#n1031'>1031</a>
<a id='n1032' href='#n1032'>1032</a>
<a id='n1033' href='#n1033'>1033</a>
<a id='n1034' href='#n1034'>1034</a>
<a id='n1035' href='#n1035'>1035</a>
<a id='n1036' href='#n1036'>1036</a>
<a id='n1037' href='#n1037'>1037</a>
<a id='n1038' href='#n1038'>1038</a>
<a id='n1039' href='#n1039'>1039</a>
<a id='n1040' href='#n1040'>1040</a>
<a id='n1041' href='#n1041'>1041</a>
<a id='n1042' href='#n1042'>1042</a>
<a id='n1043' href='#n1043'>1043</a>
<a id='n1044' href='#n1044'>1044</a>
<a id='n1045' href='#n1045'>1045</a>
<a id='n1046' href='#n1046'>1046</a>
<a id='n1047' href='#n1047'>1047</a>
<a id='n1048' href='#n1048'>1048</a>
<a id='n1049' href='#n1049'>1049</a>
<a id='n1050' href='#n1050'>1050</a>
<a id='n1051' href='#n1051'>1051</a>
<a id='n1052' href='#n1052'>1052</a>
<a id='n1053' href='#n1053'>1053</a>
<a id='n1054' href='#n1054'>1054</a>
<a id='n1055' href='#n1055'>1055</a>
<a id='n1056' href='#n1056'>1056</a>
<a id='n1057' href='#n1057'>1057</a>
<a id='n1058' href='#n1058'>1058</a>
<a id='n1059' href='#n1059'>1059</a>
<a id='n1060' href='#n1060'>1060</a>
<a id='n1061' href='#n1061'>1061</a>
<a id='n1062' href='#n1062'>1062</a>
<a id='n1063' href='#n1063'>1063</a>
<a id='n1064' href='#n1064'>1064</a>
<a id='n1065' href='#n1065'>1065</a>
<a id='n1066' href='#n1066'>1066</a>
<a id='n1067' href='#n1067'>1067</a>
<a id='n1068' href='#n1068'>1068</a>
<a id='n1069' href='#n1069'>1069</a>
<a id='n1070' href='#n1070'>1070</a>
<a id='n1071' href='#n1071'>1071</a>
<a id='n1072' href='#n1072'>1072</a>
<a id='n1073' href='#n1073'>1073</a>
<a id='n1074' href='#n1074'>1074</a>
<a id='n1075' href='#n1075'>1075</a>
<a id='n1076' href='#n1076'>1076</a>
<a id='n1077' href='#n1077'>1077</a>
<a id='n1078' href='#n1078'>1078</a>
<a id='n1079' href='#n1079'>1079</a>
<a id='n1080' href='#n1080'>1080</a>
<a id='n1081' href='#n1081'>1081</a>
<a id='n1082' href='#n1082'>1082</a>
<a id='n1083' href='#n1083'>1083</a>
<a id='n1084' href='#n1084'>1084</a>
<a id='n1085' href='#n1085'>1085</a>
<a id='n1086' href='#n1086'>1086</a>
<a id='n1087' href='#n1087'>1087</a>
<a id='n1088' href='#n1088'>1088</a>
<a id='n1089' href='#n1089'>1089</a>
<a id='n1090' href='#n1090'>1090</a>
<a id='n1091' href='#n1091'>1091</a>
<a id='n1092' href='#n1092'>1092</a>
<a id='n1093' href='#n1093'>1093</a>
<a id='n1094' href='#n1094'>1094</a>
<a id='n1095' href='#n1095'>1095</a>
<a id='n1096' href='#n1096'>1096</a>
<a id='n1097' href='#n1097'>1097</a>
<a id='n1098' href='#n1098'>1098</a>
<a id='n1099' href='#n1099'>1099</a>
<a id='n1100' href='#n1100'>1100</a>
<a id='n1101' href='#n1101'>1101</a>
<a id='n1102' href='#n1102'>1102</a>
<a id='n1103' href='#n1103'>1103</a>
<a id='n1104' href='#n1104'>1104</a>
<a id='n1105' href='#n1105'>1105</a>
<a id='n1106' href='#n1106'>1106</a>
<a id='n1107' href='#n1107'>1107</a>
<a id='n1108' href='#n1108'>1108</a>
<a id='n1109' href='#n1109'>1109</a>
<a id='n1110' href='#n1110'>1110</a>
<a id='n1111' href='#n1111'>1111</a>
<a id='n1112' href='#n1112'>1112</a>
<a id='n1113' href='#n1113'>1113</a>
<a id='n1114' href='#n1114'>1114</a>
<a id='n1115' href='#n1115'>1115</a>
<a id='n1116' href='#n1116'>1116</a>
<a id='n1117' href='#n1117'>1117</a>
<a id='n1118' href='#n1118'>1118</a>
<a id='n1119' href='#n1119'>1119</a>
<a id='n1120' href='#n1120'>1120</a>
<a id='n1121' href='#n1121'>1121</a>
<a id='n1122' href='#n1122'>1122</a>
<a id='n1123' href='#n1123'>1123</a>
<a id='n1124' href='#n1124'>1124</a>
<a id='n1125' href='#n1125'>1125</a>
<a id='n1126' href='#n1126'>1126</a>
<a id='n1127' href='#n1127'>1127</a>
<a id='n1128' href='#n1128'>1128</a>
<a id='n1129' href='#n1129'>1129</a>
<a id='n1130' href='#n1130'>1130</a>
<a id='n1131' href='#n1131'>1131</a>
<a id='n1132' href='#n1132'>1132</a>
<a id='n1133' href='#n1133'>1133</a>
<a id='n1134' href='#n1134'>1134</a>
<a id='n1135' href='#n1135'>1135</a>
<a id='n1136' href='#n1136'>1136</a>
<a id='n1137' href='#n1137'>1137</a>
<a id='n1138' href='#n1138'>1138</a>
<a id='n1139' href='#n1139'>1139</a>
<a id='n1140' href='#n1140'>1140</a>
<a id='n1141' href='#n1141'>1141</a>
<a id='n1142' href='#n1142'>1142</a>
<a id='n1143' href='#n1143'>1143</a>
<a id='n1144' href='#n1144'>1144</a>
<a id='n1145' href='#n1145'>1145</a>
<a id='n1146' href='#n1146'>1146</a>
<a id='n1147' href='#n1147'>1147</a>
<a id='n1148' href='#n1148'>1148</a>
<a id='n1149' href='#n1149'>1149</a>
<a id='n1150' href='#n1150'>1150</a>
<a id='n1151' href='#n1151'>1151</a>
<a id='n1152' href='#n1152'>1152</a>
<a id='n1153' href='#n1153'>1153</a>
<a id='n1154' href='#n1154'>1154</a>
<a id='n1155' href='#n1155'>1155</a>
<a id='n1156' href='#n1156'>1156</a>
<a id='n1157' href='#n1157'>1157</a>
<a id='n1158' href='#n1158'>1158</a>
<a id='n1159' href='#n1159'>1159</a>
<a id='n1160' href='#n1160'>1160</a>
<a id='n1161' href='#n1161'>1161</a>
<a id='n1162' href='#n1162'>1162</a>
<a id='n1163' href='#n1163'>1163</a>
<a id='n1164' href='#n1164'>1164</a>
<a id='n1165' href='#n1165'>1165</a>
<a id='n1166' href='#n1166'>1166</a>
<a id='n1167' href='#n1167'>1167</a>
<a id='n1168' href='#n1168'>1168</a>
<a id='n1169' href='#n1169'>1169</a>
<a id='n1170' href='#n1170'>1170</a>
<a id='n1171' href='#n1171'>1171</a>
<a id='n1172' href='#n1172'>1172</a>
<a id='n1173' href='#n1173'>1173</a>
<a id='n1174' href='#n1174'>1174</a>
<a id='n1175' href='#n1175'>1175</a>
<a id='n1176' href='#n1176'>1176</a>
<a id='n1177' href='#n1177'>1177</a>
<a id='n1178' href='#n1178'>1178</a>
<a id='n1179' href='#n1179'>1179</a>
<a id='n1180' href='#n1180'>1180</a>
<a id='n1181' href='#n1181'>1181</a>
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<td class='lines'><pre><code><span class="hl com">/*</span>
<span class="hl com"> * SBP2 driver (SCSI over IEEE1394)</span>
<span class="hl com"> *</span>
<span class="hl com"> * Copyright (C) 2005-2007  Kristian Hoegsberg &lt;krh&#64;bitplanet.net&gt;</span>
<span class="hl com"> *</span>
<span class="hl com"> * This program is free software; you can redistribute it and/or modify</span>
<span class="hl com"> * it under the terms of the GNU General Public License as published by</span>
<span class="hl com"> * the Free Software Foundation; either version 2 of the License, or</span>
<span class="hl com"> * (at your option) any later version.</span>
<span class="hl com"> *</span>
<span class="hl com"> * This program is distributed in the hope that it will be useful,</span>
<span class="hl com"> * but WITHOUT ANY WARRANTY; without even the implied warranty of</span>
<span class="hl com"> * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the</span>
<span class="hl com"> * GNU General Public License for more details.</span>
<span class="hl com"> *</span>
<span class="hl com"> * You should have received a copy of the GNU General Public License</span>
<span class="hl com"> * along with this program; if not, write to the Free Software Foundation,</span>
<span class="hl com"> * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.</span>
<span class="hl com"> */</span>

<span class="hl com">/*</span>
<span class="hl com"> * The basic structure of this driver is based on the old storage driver,</span>
<span class="hl com"> * drivers/ieee1394/sbp2.c, originally written by</span>
<span class="hl com"> *     James Goodwin &lt;jamesg&#64;filanet.com&gt;</span>
<span class="hl com"> * with later contributions and ongoing maintenance from</span>
<span class="hl com"> *     Ben Collins &lt;bcollins&#64;debian.org&gt;,</span>
<span class="hl com"> *     Stefan Richter &lt;stefanr&#64;s5r6.in-berlin.de&gt;</span>
<span class="hl com"> * and many others.</span>
<span class="hl com"> */</span>

<span class="hl ppc">#include &lt;linux/kernel.h&gt;</span>
<span class="hl ppc">#include &lt;linux/module.h&gt;</span>
<span class="hl ppc">#include &lt;linux/moduleparam.h&gt;</span>
<span class="hl ppc">#include &lt;linux/mod_devicetable.h&gt;</span>
<span class="hl ppc">#include &lt;linux/device.h&gt;</span>
<span class="hl ppc">#include &lt;linux/scatterlist.h&gt;</span>
<span class="hl ppc">#include &lt;linux/dma-mapping.h&gt;</span>
<span class="hl ppc">#include &lt;linux/blkdev.h&gt;</span>
<span class="hl ppc">#include &lt;linux/string.h&gt;</span>
<span class="hl ppc">#include &lt;linux/stringify.h&gt;</span>
<span class="hl ppc">#include &lt;linux/timer.h&gt;</span>
<span class="hl ppc">#include &lt;linux/workqueue.h&gt;</span>

<span class="hl ppc">#include &lt;scsi/scsi.h&gt;</span>
<span class="hl ppc">#include &lt;scsi/scsi_cmnd.h&gt;</span>
<span class="hl ppc">#include &lt;scsi/scsi_device.h&gt;</span>
<span class="hl ppc">#include &lt;scsi/scsi_host.h&gt;</span>

<span class="hl ppc">#include</span> <span class="hl pps">&quot;fw-transaction.h&quot;</span><span class="hl ppc"></span>
<span class="hl ppc">#include</span> <span class="hl pps">&quot;fw-topology.h&quot;</span><span class="hl ppc"></span>
<span class="hl ppc">#include</span> <span class="hl pps">&quot;fw-device.h&quot;</span><span class="hl ppc"></span>

<span class="hl com">/*</span>
<span class="hl com"> * So far only bridges from Oxford Semiconductor are known to support</span>
<span class="hl com"> * concurrent logins. Depending on firmware, four or two concurrent logins</span>
<span class="hl com"> * are possible on OXFW911 and newer Oxsemi bridges.</span>
<span class="hl com"> *</span>
<span class="hl com"> * Concurrent logins are useful together with cluster filesystems.</span>
<span class="hl com"> */</span>
<span class="hl kwb">static int</span> sbp2_param_exclusive_login <span class="hl opt">=</span> <span class="hl num">1</span><span class="hl opt">;</span>
<span class="hl kwd">module_param_named</span><span class="hl opt">(</span>exclusive_login<span class="hl opt">,</span> sbp2_param_exclusive_login<span class="hl opt">,</span> <span class="hl kwb">bool</span><span class="hl opt">,</span> <span class="hl num">0644</span><span class="hl opt">);</span>
<span class="hl kwd">MODULE_PARM_DESC</span><span class="hl opt">(</span>exclusive_login<span class="hl opt">,</span> <span class="hl str">&quot;Exclusive login to sbp2 device &quot;</span>
		 <span class="hl str">&quot;(default = Y, use N for concurrent initiators)&quot;</span><span class="hl opt">);</span>

<span class="hl com">/*</span>
<span class="hl com"> * Flags for firmware oddities</span>
<span class="hl com"> *</span>
<span class="hl com"> * - 128kB max transfer</span>
<span class="hl com"> *   Limit transfer size. Necessary for some old bridges.</span>
<span class="hl com"> *</span>
<span class="hl com"> * - 36 byte inquiry</span>
<span class="hl com"> *   When scsi_mod probes the device, let the inquiry command look like that</span>
<span class="hl com"> *   from MS Windows.</span>
<span class="hl com"> *</span>
<span class="hl com"> * - skip mode page 8</span>
<span class="hl com"> *   Suppress sending of mode_sense for mode page 8 if the device pretends to</span>
<span class="hl com"> *   support the SCSI Primary Block commands instead of Reduced Block Commands.</span>
<span class="hl com"> *</span>
<span class="hl com"> * - fix capacity</span>
<span class="hl com"> *   Tell sd_mod to correct the last sector number reported by read_capacity.</span>
<span class="hl com"> *   Avoids access beyond actual disk limits on devices with an off-by-one bug.</span>
<span class="hl com"> *   Don't use this with devices which don't have this bug.</span>
<span class="hl com"> *</span>
<span class="hl com"> * - override internal blacklist</span>
<span class="hl com"> *   Instead of adding to the built-in blacklist, use only the workarounds</span>
<span class="hl com"> *   specified in the module load parameter.</span>
<span class="hl com"> *   Useful if a blacklist entry interfered with a non-broken device.</span>
<span class="hl com"> */</span>
<span class="hl ppc">#define SBP2_WORKAROUND_128K_MAX_TRANS	0x1</span>
<span class="hl ppc">#define SBP2_WORKAROUND_INQUIRY_36	0x2</span>
<span class="hl ppc">#define SBP2_WORKAROUND_MODE_SENSE_8	0x4</span>
<span class="hl ppc">#define SBP2_WORKAROUND_FIX_CAPACITY	0x8</span>
<span class="hl ppc">#define SBP2_WORKAROUND_OVERRIDE	0x100</span>

<span class="hl kwb">static int</span> sbp2_param_workarounds<span class="hl opt">;</span>
<span class="hl kwd">module_param_named</span><span class="hl opt">(</span>workarounds<span class="hl opt">,</span> sbp2_param_workarounds<span class="hl opt">,</span> <span class="hl kwb">int</span><span class="hl opt">,</span> <span class="hl num">0644</span><span class="hl opt">);</span>
<span class="hl kwd">MODULE_PARM_DESC</span><span class="hl opt">(</span>workarounds<span class="hl opt">,</span> <span class="hl str">&quot;Work around device bugs (default = 0&quot;</span>
	<span class="hl str">&quot;, 128kB max transfer = &quot;</span> <span class="hl kwd">__stringify</span><span class="hl opt">(</span>SBP2_WORKAROUND_128K_MAX_TRANS<span class="hl opt">)</span>
	<span class="hl str">&quot;, 36 byte inquiry = &quot;</span>    <span class="hl kwd">__stringify</span><span class="hl opt">(</span>SBP2_WORKAROUND_INQUIRY_36<span class="hl opt">)</span>
	<span class="hl str">&quot;, skip mode page 8 = &quot;</span>   <span class="hl kwd">__stringify</span><span class="hl opt">(</span>SBP2_WORKAROUND_MODE_SENSE_8<span class="hl opt">)</span>
	<span class="hl str">&quot;, fix capacity = &quot;</span>       <span class="hl kwd">__stringify</span><span class="hl opt">(</span>SBP2_WORKAROUND_FIX_CAPACITY<span class="hl opt">)</span>
	<span class="hl str">&quot;, override internal blacklist = &quot;</span> <span class="hl kwd">__stringify</span><span class="hl opt">(</span>SBP2_WORKAROUND_OVERRIDE<span class="hl opt">)</span>
	<span class="hl str">&quot;, or a combination)&quot;</span><span class="hl opt">);</span>

<span class="hl com">/* I don't know why the SCSI stack doesn't define something like this... */</span>
<span class="hl kwc">typedef</span> <span class="hl kwb">void</span> <span class="hl opt">(*</span>scsi_done_fn_t<span class="hl opt">)(</span><span class="hl kwb">struct</span> scsi_cmnd <span class="hl opt">*);</span>

<span class="hl kwb">static const char</span> sbp2_driver_name<span class="hl opt">[] =</span> <span class="hl str">&quot;sbp2&quot;</span><span class="hl opt">;</span>

<span class="hl com">/*</span>
<span class="hl com"> * We create one struct sbp2_logical_unit per SBP-2 Logical Unit Number Entry</span>
<span class="hl com"> * and one struct scsi_device per sbp2_logical_unit.</span>
<span class="hl com"> */</span>
<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> list_head link<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> scsi_device <span class="hl opt">*</span>sdev<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> fw_address_handler address_handler<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> list_head orb_list<span class="hl opt">;</span>

	u64 command_block_agent_address<span class="hl opt">;</span>
	u16 lun<span class="hl opt">;</span>
	<span class="hl kwb">int</span> login_id<span class="hl opt">;</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * The generation is updated once we've logged in or reconnected</span>
<span class="hl com">	 * to the logical unit.  Thus, I/O to the device will automatically</span>
<span class="hl com">	 * fail and get retried if it happens in a window where the device</span>
<span class="hl com">	 * is not ready, e.g. after a bus reset but before we reconnect.</span>
<span class="hl com">	 */</span>
	<span class="hl kwb">int</span> generation<span class="hl opt">;</span>
	<span class="hl kwb">int</span> retries<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> delayed_work work<span class="hl opt">;</span>
<span class="hl opt">};</span>

<span class="hl com">/*</span>
<span class="hl com"> * We create one struct sbp2_target per IEEE 1212 Unit Directory</span>
<span class="hl com"> * and one struct Scsi_Host per sbp2_target.</span>
<span class="hl com"> */</span>
<span class="hl kwb">struct</span> sbp2_target <span class="hl opt">{</span>
	<span class="hl kwb">struct</span> kref kref<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> fw_unit <span class="hl opt">*</span>unit<span class="hl opt">;</span>

	u64 management_agent_address<span class="hl opt">;</span>
	<span class="hl kwb">int</span> directory_id<span class="hl opt">;</span>
	<span class="hl kwb">int</span> node_id<span class="hl opt">;</span>
	<span class="hl kwb">int</span> address_high<span class="hl opt">;</span>

	<span class="hl kwb">unsigned</span> workarounds<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> list_head lu_list<span class="hl opt">;</span>
<span class="hl opt">};</span>

<span class="hl ppc">#define SBP2_MAX_SG_ELEMENT_LENGTH	0xf000</span>
<span class="hl ppc">#define SBP2_ORB_TIMEOUT		2000</span>	<span class="hl com">/* Timeout in ms */</span><span class="hl ppc"></span>
<span class="hl ppc">#define SBP2_ORB_NULL			0x80000000</span>

<span class="hl ppc">#define SBP2_DIRECTION_TO_MEDIA		0x0</span>
<span class="hl ppc">#define SBP2_DIRECTION_FROM_MEDIA	0x1</span>

<span class="hl com">/* Unit directory keys */</span>
<span class="hl ppc">#define SBP2_CSR_FIRMWARE_REVISION	0x3c</span>
<span class="hl ppc">#define SBP2_CSR_LOGICAL_UNIT_NUMBER	0x14</span>
<span class="hl ppc">#define SBP2_CSR_LOGICAL_UNIT_DIRECTORY	0xd4</span>

<span class="hl com">/* Management orb opcodes */</span>
<span class="hl ppc">#define SBP2_LOGIN_REQUEST		0x0</span>
<span class="hl ppc">#define SBP2_QUERY_LOGINS_REQUEST	0x1</span>
<span class="hl ppc">#define SBP2_RECONNECT_REQUEST		0x3</span>
<span class="hl ppc">#define SBP2_SET_PASSWORD_REQUEST	0x4</span>
<span class="hl ppc">#define SBP2_LOGOUT_REQUEST		0x7</span>
<span class="hl ppc">#define SBP2_ABORT_TASK_REQUEST		0xb</span>
<span class="hl ppc">#define SBP2_ABORT_TASK_SET		0xc</span>
<span class="hl ppc">#define SBP2_LOGICAL_UNIT_RESET		0xe</span>
<span class="hl ppc">#define SBP2_TARGET_RESET_REQUEST	0xf</span>

<span class="hl com">/* Offsets for command block agent registers */</span>
<span class="hl ppc">#define SBP2_AGENT_STATE		0x00</span>
<span class="hl ppc">#define SBP2_AGENT_RESET		0x04</span>
<span class="hl ppc">#define SBP2_ORB_POINTER		0x08</span>
<span class="hl ppc">#define SBP2_DOORBELL			0x10</span>
<span class="hl ppc">#define SBP2_UNSOLICITED_STATUS_ENABLE	0x14</span>

<span class="hl com">/* Status write response codes */</span>
<span class="hl ppc">#define SBP2_STATUS_REQUEST_COMPLETE	0x0</span>
<span class="hl ppc">#define SBP2_STATUS_TRANSPORT_FAILURE	0x1</span>
<span class="hl ppc">#define SBP2_STATUS_ILLEGAL_REQUEST	0x2</span>
<span class="hl ppc">#define SBP2_STATUS_VENDOR_DEPENDENT	0x3</span>

<span class="hl ppc">#define STATUS_GET_ORB_HIGH(v)		((v).status &amp; 0xffff)</span>
<span class="hl ppc">#define STATUS_GET_SBP_STATUS(v)	(((v).status &gt;&gt; 16) &amp; 0xff)</span>
<span class="hl ppc">#define STATUS_GET_LEN(v)		(((v).status &gt;&gt; 24) &amp; 0x07)</span>
<span class="hl ppc">#define STATUS_GET_DEAD(v)		(((v).status &gt;&gt; 27) &amp; 0x01)</span>
<span class="hl ppc">#define STATUS_GET_RESPONSE(v)		(((v).status &gt;&gt; 28) &amp; 0x03)</span>
<span class="hl ppc">#define STATUS_GET_SOURCE(v)		(((v).status &gt;&gt; 30) &amp; 0x03)</span>
<span class="hl ppc">#define STATUS_GET_ORB_LOW(v)		((v).orb_low)</span>
<span class="hl ppc">#define STATUS_GET_DATA(v)		((v).data)</span>

<span class="hl kwb">struct</span> sbp2_status <span class="hl opt">{</span>
	u32 status<span class="hl opt">;</span>
	u32 orb_low<span class="hl opt">;</span>
	u8 data<span class="hl opt">[</span><span class="hl num">24</span><span class="hl opt">];</span>
<span class="hl opt">};</span>

<span class="hl kwb">struct</span> sbp2_pointer <span class="hl opt">{</span>
	u32 high<span class="hl opt">;</span>
	u32 low<span class="hl opt">;</span>
<span class="hl opt">};</span>

<span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_transaction t<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> kref kref<span class="hl opt">;</span>
	dma_addr_t request_bus<span class="hl opt">;</span>
	<span class="hl kwb">int</span> rcode<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_pointer pointer<span class="hl opt">;</span>
	<span class="hl kwb">void</span> <span class="hl opt">(*</span>callback<span class="hl opt">)(</span><span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span> orb<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_status <span class="hl opt">*</span> status<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> list_head link<span class="hl opt">;</span>
<span class="hl opt">};</span>

<span class="hl ppc">#define MANAGEMENT_ORB_LUN(v)			((v))</span>
<span class="hl ppc">#define MANAGEMENT_ORB_FUNCTION(v)		((v) &lt;&lt; 16)</span>
<span class="hl ppc">#define MANAGEMENT_ORB_RECONNECT(v)		((v) &lt;&lt; 20)</span>
<span class="hl ppc">#define MANAGEMENT_ORB_EXCLUSIVE(v)		((v) ? 1 &lt;&lt; 28 : 0)</span>
<span class="hl ppc">#define MANAGEMENT_ORB_REQUEST_FORMAT(v)	((v) &lt;&lt; 29)</span>
<span class="hl ppc">#define MANAGEMENT_ORB_NOTIFY			((1) &lt;&lt; 31)</span>

<span class="hl ppc">#define MANAGEMENT_ORB_RESPONSE_LENGTH(v)	((v))</span>
<span class="hl ppc">#define MANAGEMENT_ORB_PASSWORD_LENGTH(v)	((v) &lt;&lt; 16)</span>

<span class="hl kwb">struct</span> sbp2_management_orb <span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_orb base<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> <span class="hl opt">{</span>
		<span class="hl kwb">struct</span> sbp2_pointer password<span class="hl opt">;</span>
		<span class="hl kwb">struct</span> sbp2_pointer response<span class="hl opt">;</span>
		u32 misc<span class="hl opt">;</span>
		u32 length<span class="hl opt">;</span>
		<span class="hl kwb">struct</span> sbp2_pointer status_fifo<span class="hl opt">;</span>
	<span class="hl opt">}</span> request<span class="hl opt">;</span>
	__be32 response<span class="hl opt">[</span><span class="hl num">4</span><span class="hl opt">];</span>
	dma_addr_t response_bus<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> completion done<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_status status<span class="hl opt">;</span>
<span class="hl opt">};</span>

<span class="hl ppc">#define LOGIN_RESPONSE_GET_LOGIN_ID(v)	((v).misc &amp; 0xffff)</span>
<span class="hl ppc">#define LOGIN_RESPONSE_GET_LENGTH(v)	(((v).misc &gt;&gt; 16) &amp; 0xffff)</span>

<span class="hl kwb">struct</span> sbp2_login_response <span class="hl opt">{</span>
	u32 misc<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_pointer command_block_agent<span class="hl opt">;</span>
	u32 reconnect_hold<span class="hl opt">;</span>
<span class="hl opt">};</span>
<span class="hl ppc">#define COMMAND_ORB_DATA_SIZE(v)	((v))</span>
<span class="hl ppc">#define COMMAND_ORB_PAGE_SIZE(v)	((v) &lt;&lt; 16)</span>
<span class="hl ppc">#define COMMAND_ORB_PAGE_TABLE_PRESENT	((1) &lt;&lt; 19)</span>
<span class="hl ppc">#define COMMAND_ORB_MAX_PAYLOAD(v)	((v) &lt;&lt; 20)</span>
<span class="hl ppc">#define COMMAND_ORB_SPEED(v)		((v) &lt;&lt; 24)</span>
<span class="hl ppc">#define COMMAND_ORB_DIRECTION(v)	((v) &lt;&lt; 27)</span>
<span class="hl ppc">#define COMMAND_ORB_REQUEST_FORMAT(v)	((v) &lt;&lt; 29)</span>
<span class="hl ppc">#define COMMAND_ORB_NOTIFY		((1) &lt;&lt; 31)</span>

<span class="hl kwb">struct</span> sbp2_command_orb <span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_orb base<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> <span class="hl opt">{</span>
		<span class="hl kwb">struct</span> sbp2_pointer next<span class="hl opt">;</span>
		<span class="hl kwb">struct</span> sbp2_pointer data_descriptor<span class="hl opt">;</span>
		u32 misc<span class="hl opt">;</span>
		u8 command_block<span class="hl opt">[</span><span class="hl num">12</span><span class="hl opt">];</span>
	<span class="hl opt">}</span> request<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> scsi_cmnd <span class="hl opt">*</span>cmd<span class="hl opt">;</span>
	scsi_done_fn_t done<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">;</span>

	<span class="hl kwb">struct</span> sbp2_pointer page_table<span class="hl opt">[</span>SG_ALL<span class="hl opt">]</span> <span class="hl kwd">__attribute__</span><span class="hl opt">((</span><span class="hl kwd">aligned</span><span class="hl opt">(</span><span class="hl num">8</span><span class="hl opt">)));</span>
	dma_addr_t page_table_bus<span class="hl opt">;</span>
<span class="hl opt">};</span>

<span class="hl com">/*</span>
<span class="hl com"> * List of devices with known bugs.</span>
<span class="hl com"> *</span>
<span class="hl com"> * The firmware_revision field, masked with 0xffff00, is the best</span>
<span class="hl com"> * indicator for the type of bridge chip of a device.  It yields a few</span>
<span class="hl com"> * false positives but this did not break correctly behaving devices</span>
<span class="hl com"> * so far.  We use ~0 as a wildcard, since the 24 bit values we get</span>
<span class="hl com"> * from the config rom can never match that.</span>
<span class="hl com"> */</span>
<span class="hl kwb">static const struct</span> <span class="hl opt">{</span>
	u32 firmware_revision<span class="hl opt">;</span>
	u32 model<span class="hl opt">;</span>
	<span class="hl kwb">unsigned</span> workarounds<span class="hl opt">;</span>
<span class="hl opt">}</span> sbp2_workarounds_table<span class="hl opt">[] = {</span>
	<span class="hl com">/* DViCO Momobay CX-1 with TSB42AA9 bridge */</span> <span class="hl opt">{</span>
		<span class="hl opt">.</span>firmware_revision	<span class="hl opt">=</span> <span class="hl num">0x002800</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>model			<span class="hl opt">=</span> <span class="hl num">0x001010</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>workarounds		<span class="hl opt">=</span> SBP2_WORKAROUND_INQUIRY_36 <span class="hl opt">|</span>
					  SBP2_WORKAROUND_MODE_SENSE_8<span class="hl opt">,</span>
	<span class="hl opt">},</span>
	<span class="hl com">/* Initio bridges, actually only needed for some older ones */</span> <span class="hl opt">{</span>
		<span class="hl opt">.</span>firmware_revision	<span class="hl opt">=</span> <span class="hl num">0x000200</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>model			<span class="hl opt">= ~</span><span class="hl num">0</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>workarounds		<span class="hl opt">=</span> SBP2_WORKAROUND_INQUIRY_36<span class="hl opt">,</span>
	<span class="hl opt">},</span>
	<span class="hl com">/* Symbios bridge */</span> <span class="hl opt">{</span>
		<span class="hl opt">.</span>firmware_revision	<span class="hl opt">=</span> <span class="hl num">0xa0b800</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>model			<span class="hl opt">= ~</span><span class="hl num">0</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>workarounds		<span class="hl opt">=</span> SBP2_WORKAROUND_128K_MAX_TRANS<span class="hl opt">,</span>
	<span class="hl opt">},</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * There are iPods (2nd gen, 3rd gen) with model_id == 0, but</span>
<span class="hl com">	 * these iPods do not feature the read_capacity bug according</span>
<span class="hl com">	 * to one report.  Read_capacity behaviour as well as model_id</span>
<span class="hl com">	 * could change due to Apple-supplied firmware updates though.</span>
<span class="hl com">	 */</span>

	<span class="hl com">/* iPod 4th generation. */</span> <span class="hl opt">{</span>
		<span class="hl opt">.</span>firmware_revision	<span class="hl opt">=</span> <span class="hl num">0x0a2700</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>model			<span class="hl opt">=</span> <span class="hl num">0x000021</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>workarounds		<span class="hl opt">=</span> SBP2_WORKAROUND_FIX_CAPACITY<span class="hl opt">,</span>
	<span class="hl opt">},</span>
	<span class="hl com">/* iPod mini */</span> <span class="hl opt">{</span>
		<span class="hl opt">.</span>firmware_revision	<span class="hl opt">=</span> <span class="hl num">0x0a2700</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>model			<span class="hl opt">=</span> <span class="hl num">0x000023</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>workarounds		<span class="hl opt">=</span> SBP2_WORKAROUND_FIX_CAPACITY<span class="hl opt">,</span>
	<span class="hl opt">},</span>
	<span class="hl com">/* iPod Photo */</span> <span class="hl opt">{</span>
		<span class="hl opt">.</span>firmware_revision	<span class="hl opt">=</span> <span class="hl num">0x0a2700</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>model			<span class="hl opt">=</span> <span class="hl num">0x00007e</span><span class="hl opt">,</span>
		<span class="hl opt">.</span>workarounds		<span class="hl opt">=</span> SBP2_WORKAROUND_FIX_CAPACITY<span class="hl opt">,</span>
	<span class="hl opt">}</span>
<span class="hl opt">};</span>

<span class="hl kwb">static void</span>
<span class="hl kwd">free_orb</span><span class="hl opt">(</span><span class="hl kwb">struct</span> kref <span class="hl opt">*</span>kref<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span>orb <span class="hl opt">=</span> <span class="hl kwd">container_of</span><span class="hl opt">(</span>kref<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_orb<span class="hl opt">,</span> kref<span class="hl opt">);</span>

	<span class="hl kwd">kfree</span><span class="hl opt">(</span>orb<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span>
<span class="hl kwd">sbp2_status_write</span><span class="hl opt">(</span><span class="hl kwb">struct</span> fw_card <span class="hl opt">*</span>card<span class="hl opt">,</span> <span class="hl kwb">struct</span> fw_request <span class="hl opt">*</span>request<span class="hl opt">,</span>
		  <span class="hl kwb">int</span> tcode<span class="hl opt">,</span> <span class="hl kwb">int</span> destination<span class="hl opt">,</span> <span class="hl kwb">int</span> source<span class="hl opt">,</span>
		  <span class="hl kwb">int</span> generation<span class="hl opt">,</span> <span class="hl kwb">int</span> speed<span class="hl opt">,</span>
		  <span class="hl kwb">unsigned long long</span> offset<span class="hl opt">,</span>
		  <span class="hl kwb">void</span> <span class="hl opt">*</span>payload<span class="hl opt">,</span> <span class="hl kwb">size_t</span> length<span class="hl opt">,</span> <span class="hl kwb">void</span> <span class="hl opt">*</span>callback_data<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu <span class="hl opt">=</span> callback_data<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span>orb<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_status status<span class="hl opt">;</span>
	<span class="hl kwb">size_t</span> header_size<span class="hl opt">;</span>
	<span class="hl kwb">unsigned long</span> flags<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>tcode <span class="hl opt">!=</span> TCODE_WRITE_BLOCK_REQUEST <span class="hl opt">||</span>
	    length <span class="hl opt">==</span> <span class="hl num">0</span> <span class="hl opt">||</span> length <span class="hl opt">&gt;</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>status<span class="hl opt">)) {</span>
		<span class="hl kwd">fw_send_response</span><span class="hl opt">(</span>card<span class="hl opt">,</span> request<span class="hl opt">,</span> RCODE_TYPE_ERROR<span class="hl opt">);</span>
		<span class="hl kwa">return</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>

	header_size <span class="hl opt">=</span> <span class="hl kwd">min</span><span class="hl opt">(</span>length<span class="hl opt">,</span> <span class="hl num">2</span> <span class="hl opt">*</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>u32<span class="hl opt">));</span>
	<span class="hl kwd">fw_memcpy_from_be32</span><span class="hl opt">(&amp;</span>status<span class="hl opt">,</span> payload<span class="hl opt">,</span> header_size<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>length <span class="hl opt">&gt;</span> header_size<span class="hl opt">)</span>
		<span class="hl kwd">memcpy</span><span class="hl opt">(</span>status<span class="hl opt">.</span>data<span class="hl opt">,</span> payload <span class="hl opt">+</span> <span class="hl num">8</span><span class="hl opt">,</span> length <span class="hl opt">-</span> header_size<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">STATUS_GET_SOURCE</span><span class="hl opt">(</span>status<span class="hl opt">) ==</span> <span class="hl num">2</span> <span class="hl opt">||</span> <span class="hl kwd">STATUS_GET_SOURCE</span><span class="hl opt">(</span>status<span class="hl opt">) ==</span> <span class="hl num">3</span><span class="hl opt">) {</span>
		<span class="hl kwd">fw_notify</span><span class="hl opt">(</span><span class="hl str">&quot;non-orb related status write, not handled</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwd">fw_send_response</span><span class="hl opt">(</span>card<span class="hl opt">,</span> request<span class="hl opt">,</span> RCODE_COMPLETE<span class="hl opt">);</span>
		<span class="hl kwa">return</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl com">/* Lookup the orb corresponding to this status write. */</span>
	<span class="hl kwd">spin_lock_irqsave</span><span class="hl opt">(&amp;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>
	<span class="hl kwd">list_for_each_entry</span><span class="hl opt">(</span>orb<span class="hl opt">, &amp;</span>lu<span class="hl opt">-&gt;</span>orb_list<span class="hl opt">,</span> link<span class="hl opt">) {</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">STATUS_GET_ORB_HIGH</span><span class="hl opt">(</span>status<span class="hl opt">) ==</span> <span class="hl num">0</span> <span class="hl opt">&amp;&amp;</span>
		    <span class="hl kwd">STATUS_GET_ORB_LOW</span><span class="hl opt">(</span>status<span class="hl opt">) ==</span> orb<span class="hl opt">-&gt;</span>request_bus<span class="hl opt">) {</span>
			orb<span class="hl opt">-&gt;</span>rcode <span class="hl opt">=</span> RCODE_COMPLETE<span class="hl opt">;</span>
			<span class="hl kwd">list_del</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>link<span class="hl opt">);</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl kwd">spin_unlock_irqrestore</span><span class="hl opt">(&amp;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>link <span class="hl opt">!= &amp;</span>lu<span class="hl opt">-&gt;</span>orb_list<span class="hl opt">)</span>
		orb<span class="hl opt">-&gt;</span><span class="hl kwd">callback</span><span class="hl opt">(</span>orb<span class="hl opt">, &amp;</span>status<span class="hl opt">);</span>
	<span class="hl kwa">else</span>
		<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;status write for unknown orb</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>

	<span class="hl kwd">kref_put</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>kref<span class="hl opt">,</span> free_orb<span class="hl opt">);</span>

	<span class="hl kwd">fw_send_response</span><span class="hl opt">(</span>card<span class="hl opt">,</span> request<span class="hl opt">,</span> RCODE_COMPLETE<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span>
<span class="hl kwd">complete_transaction</span><span class="hl opt">(</span><span class="hl kwb">struct</span> fw_card <span class="hl opt">*</span>card<span class="hl opt">,</span> <span class="hl kwb">int</span> rcode<span class="hl opt">,</span>
		     <span class="hl kwb">void</span> <span class="hl opt">*</span>payload<span class="hl opt">,</span> <span class="hl kwb">size_t</span> length<span class="hl opt">,</span> <span class="hl kwb">void</span> <span class="hl opt">*</span>data<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span>orb <span class="hl opt">=</span> data<span class="hl opt">;</span>
	<span class="hl kwb">unsigned long</span> flags<span class="hl opt">;</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * This is a little tricky.  We can get the status write for</span>
<span class="hl com">	 * the orb before we get this callback.  The status write</span>
<span class="hl com">	 * handler above will assume the orb pointer transaction was</span>
<span class="hl com">	 * successful and set the rcode to RCODE_COMPLETE for the orb.</span>
<span class="hl com">	 * So this callback only sets the rcode if it hasn't already</span>
<span class="hl com">	 * been set and only does the cleanup if the transaction</span>
<span class="hl com">	 * failed and we didn't already get a status write.</span>
<span class="hl com">	 */</span>
	<span class="hl kwd">spin_lock_irqsave</span><span class="hl opt">(&amp;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>rcode <span class="hl opt">== -</span><span class="hl num">1</span><span class="hl opt">)</span>
		orb<span class="hl opt">-&gt;</span>rcode <span class="hl opt">=</span> rcode<span class="hl opt">;</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>rcode <span class="hl opt">!=</span> RCODE_COMPLETE<span class="hl opt">) {</span>
		<span class="hl kwd">list_del</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>link<span class="hl opt">);</span>
		<span class="hl kwd">spin_unlock_irqrestore</span><span class="hl opt">(&amp;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>
		orb<span class="hl opt">-&gt;</span><span class="hl kwd">callback</span><span class="hl opt">(</span>orb<span class="hl opt">,</span> NULL<span class="hl opt">);</span>
	<span class="hl opt">}</span> <span class="hl kwa">else</span> <span class="hl opt">{</span>
		<span class="hl kwd">spin_unlock_irqrestore</span><span class="hl opt">(&amp;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>
	<span class="hl opt">}</span>

	<span class="hl kwd">kref_put</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>kref<span class="hl opt">,</span> free_orb<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span>
<span class="hl kwd">sbp2_send_orb</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span>orb<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">,</span>
	      <span class="hl kwb">int</span> node_id<span class="hl opt">,</span> <span class="hl kwb">int</span> generation<span class="hl opt">,</span> u64 offset<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">unsigned long</span> flags<span class="hl opt">;</span>

	orb<span class="hl opt">-&gt;</span>pointer<span class="hl opt">.</span>high <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>pointer<span class="hl opt">.</span>low <span class="hl opt">=</span> orb<span class="hl opt">-&gt;</span>request_bus<span class="hl opt">;</span>
	<span class="hl kwd">fw_memcpy_to_be32</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>pointer<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>pointer<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>pointer<span class="hl opt">));</span>

	<span class="hl kwd">spin_lock_irqsave</span><span class="hl opt">(&amp;</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>
	<span class="hl kwd">list_add_tail</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>link<span class="hl opt">, &amp;</span>lu<span class="hl opt">-&gt;</span>orb_list<span class="hl opt">);</span>
	<span class="hl kwd">spin_unlock_irqrestore</span><span class="hl opt">(&amp;</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>

	<span class="hl com">/* Take a ref for the orb list and for the transaction callback. */</span>
	<span class="hl kwd">kref_get</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>kref<span class="hl opt">);</span>
	<span class="hl kwd">kref_get</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>kref<span class="hl opt">);</span>

	<span class="hl kwd">fw_send_request</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>t<span class="hl opt">,</span> TCODE_WRITE_BLOCK_REQUEST<span class="hl opt">,</span>
			node_id<span class="hl opt">,</span> generation<span class="hl opt">,</span> device<span class="hl opt">-&gt;</span>max_speed<span class="hl opt">,</span> offset<span class="hl opt">,</span>
			<span class="hl opt">&amp;</span>orb<span class="hl opt">-&gt;</span>pointer<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>pointer<span class="hl opt">),</span>
			complete_transaction<span class="hl opt">,</span> orb<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_cancel_orbs</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span>orb<span class="hl opt">, *</span>next<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> list_head list<span class="hl opt">;</span>
	<span class="hl kwb">unsigned long</span> flags<span class="hl opt">;</span>
	<span class="hl kwb">int</span> retval <span class="hl opt">= -</span>ENOENT<span class="hl opt">;</span>

	<span class="hl kwd">INIT_LIST_HEAD</span><span class="hl opt">(&amp;</span>list<span class="hl opt">);</span>
	<span class="hl kwd">spin_lock_irqsave</span><span class="hl opt">(&amp;</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>
	<span class="hl kwd">list_splice_init</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>orb_list<span class="hl opt">, &amp;</span>list<span class="hl opt">);</span>
	<span class="hl kwd">spin_unlock_irqrestore</span><span class="hl opt">(&amp;</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>lock<span class="hl opt">,</span> flags<span class="hl opt">);</span>

	<span class="hl kwd">list_for_each_entry_safe</span><span class="hl opt">(</span>orb<span class="hl opt">,</span> next<span class="hl opt">, &amp;</span>list<span class="hl opt">,</span> link<span class="hl opt">) {</span>
		retval <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">fw_cancel_transaction</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>t<span class="hl opt">) ==</span> <span class="hl num">0</span><span class="hl opt">)</span>
			<span class="hl kwa">continue</span><span class="hl opt">;</span>

		orb<span class="hl opt">-&gt;</span>rcode <span class="hl opt">=</span> RCODE_CANCELLED<span class="hl opt">;</span>
		orb<span class="hl opt">-&gt;</span><span class="hl kwd">callback</span><span class="hl opt">(</span>orb<span class="hl opt">,</span> NULL<span class="hl opt">);</span>
	<span class="hl opt">}</span>

	<span class="hl kwa">return</span> retval<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span>
<span class="hl kwd">complete_management_orb</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span>base_orb<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_status <span class="hl opt">*</span>status<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_management_orb <span class="hl opt">*</span>orb <span class="hl opt">=</span>
		<span class="hl kwd">container_of</span><span class="hl opt">(</span>base_orb<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_management_orb<span class="hl opt">,</span> base<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>status<span class="hl opt">)</span>
		<span class="hl kwd">memcpy</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>status<span class="hl opt">,</span> status<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(*</span>status<span class="hl opt">));</span>
	<span class="hl kwd">complete</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>done<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span>
<span class="hl kwd">sbp2_send_management_orb</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">,</span> <span class="hl kwb">int</span> node_id<span class="hl opt">,</span>
			 <span class="hl kwb">int</span> generation<span class="hl opt">,</span> <span class="hl kwb">int</span> function<span class="hl opt">,</span> <span class="hl kwb">int</span> lun_or_login_id<span class="hl opt">,</span>
			 <span class="hl kwb">void</span> <span class="hl opt">*</span>response<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> sbp2_management_orb <span class="hl opt">*</span>orb<span class="hl opt">;</span>
	<span class="hl kwb">int</span> retval <span class="hl opt">= -</span>ENOMEM<span class="hl opt">;</span>

	orb <span class="hl opt">=</span> <span class="hl kwd">kzalloc</span><span class="hl opt">(</span><span class="hl kwa">sizeof</span><span class="hl opt">(*</span>orb<span class="hl opt">),</span> GFP_ATOMIC<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>orb <span class="hl opt">==</span> NULL<span class="hl opt">)</span>
		<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>

	<span class="hl kwd">kref_init</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>kref<span class="hl opt">);</span>
	orb<span class="hl opt">-&gt;</span>response_bus <span class="hl opt">=</span>
		<span class="hl kwd">dma_map_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>response<span class="hl opt">,</span>
			       <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>response<span class="hl opt">),</span> DMA_FROM_DEVICE<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">dma_mapping_error</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>response_bus<span class="hl opt">))</span>
		<span class="hl kwa">goto</span> fail_mapping_response<span class="hl opt">;</span>

	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>response<span class="hl opt">.</span>high    <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>response<span class="hl opt">.</span>low     <span class="hl opt">=</span> orb<span class="hl opt">-&gt;</span>response_bus<span class="hl opt">;</span>

	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>misc <span class="hl opt">=</span>
		MANAGEMENT_ORB_NOTIFY <span class="hl opt">|</span>
		<span class="hl kwd">MANAGEMENT_ORB_FUNCTION</span><span class="hl opt">(</span>function<span class="hl opt">) |</span>
		<span class="hl kwd">MANAGEMENT_ORB_LUN</span><span class="hl opt">(</span>lun_or_login_id<span class="hl opt">);</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>length <span class="hl opt">=</span>
		<span class="hl kwd">MANAGEMENT_ORB_RESPONSE_LENGTH</span><span class="hl opt">(</span><span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>response<span class="hl opt">));</span>

	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>status_fifo<span class="hl opt">.</span>high <span class="hl opt">=</span> lu<span class="hl opt">-&gt;</span>address_handler<span class="hl opt">.</span>offset <span class="hl opt">&gt;&gt;</span> <span class="hl num">32</span><span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>status_fifo<span class="hl opt">.</span>low  <span class="hl opt">=</span> lu<span class="hl opt">-&gt;</span>address_handler<span class="hl opt">.</span>offset<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>function <span class="hl opt">==</span> SBP2_LOGIN_REQUEST<span class="hl opt">) {</span>
		<span class="hl com">/* Ask for 2^2 == 4 seconds reconnect grace period */</span>
		orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>misc <span class="hl opt">|=</span>
			<span class="hl kwd">MANAGEMENT_ORB_RECONNECT</span><span class="hl opt">(</span><span class="hl num">2</span><span class="hl opt">) |</span>
			<span class="hl kwd">MANAGEMENT_ORB_EXCLUSIVE</span><span class="hl opt">(</span>sbp2_param_exclusive_login<span class="hl opt">);</span>
	<span class="hl opt">}</span>

	<span class="hl kwd">fw_memcpy_to_be32</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">));</span>

	<span class="hl kwd">init_completion</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>done<span class="hl opt">);</span>
	orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>callback <span class="hl opt">=</span> complete_management_orb<span class="hl opt">;</span>

	orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>request_bus <span class="hl opt">=</span>
		<span class="hl kwd">dma_map_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">,</span>
			       <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">),</span> DMA_TO_DEVICE<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">dma_mapping_error</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>request_bus<span class="hl opt">))</span>
		<span class="hl kwa">goto</span> fail_mapping_request<span class="hl opt">;</span>

	<span class="hl kwd">sbp2_send_orb</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>base<span class="hl opt">,</span> lu<span class="hl opt">,</span> node_id<span class="hl opt">,</span> generation<span class="hl opt">,</span>
		      lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>management_agent_address<span class="hl opt">);</span>

	<span class="hl kwd">wait_for_completion_timeout</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>done<span class="hl opt">,</span>
				    <span class="hl kwd">msecs_to_jiffies</span><span class="hl opt">(</span>SBP2_ORB_TIMEOUT<span class="hl opt">));</span>

	retval <span class="hl opt">= -</span>EIO<span class="hl opt">;</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">sbp2_cancel_orbs</span><span class="hl opt">(</span>lu<span class="hl opt">) ==</span> <span class="hl num">0</span><span class="hl opt">) {</span>
		<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;orb reply timed out, rcode=0x%02x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
			 orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>rcode<span class="hl opt">);</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>rcode <span class="hl opt">!=</span> RCODE_COMPLETE<span class="hl opt">) {</span>
		<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;management write failed, rcode 0x%02x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
			 orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>rcode<span class="hl opt">);</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">STATUS_GET_RESPONSE</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>status<span class="hl opt">) !=</span> <span class="hl num">0</span> <span class="hl opt">||</span>
	    <span class="hl kwd">STATUS_GET_SBP_STATUS</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>status<span class="hl opt">) !=</span> <span class="hl num">0</span><span class="hl opt">) {</span>
		<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;error status: %d:%d</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
			 <span class="hl kwd">STATUS_GET_RESPONSE</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>status<span class="hl opt">),</span>
			 <span class="hl kwd">STATUS_GET_SBP_STATUS</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>status<span class="hl opt">));</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	retval <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
 out<span class="hl opt">:</span>
	<span class="hl kwd">dma_unmap_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>request_bus<span class="hl opt">,</span>
			 <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">),</span> DMA_TO_DEVICE<span class="hl opt">);</span>
 fail_mapping_request<span class="hl opt">:</span>
	<span class="hl kwd">dma_unmap_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> orb<span class="hl opt">-&gt;</span>response_bus<span class="hl opt">,</span>
			 <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>response<span class="hl opt">),</span> DMA_FROM_DEVICE<span class="hl opt">);</span>
 fail_mapping_response<span class="hl opt">:</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>response<span class="hl opt">)</span>
		<span class="hl kwd">fw_memcpy_from_be32</span><span class="hl opt">(</span>response<span class="hl opt">,</span>
				    orb<span class="hl opt">-&gt;</span>response<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>response<span class="hl opt">));</span>
	<span class="hl kwd">kref_put</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>kref<span class="hl opt">,</span> free_orb<span class="hl opt">);</span>

	<span class="hl kwa">return</span> retval<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span>
<span class="hl kwd">complete_agent_reset_write</span><span class="hl opt">(</span><span class="hl kwb">struct</span> fw_card <span class="hl opt">*</span>card<span class="hl opt">,</span> <span class="hl kwb">int</span> rcode<span class="hl opt">,</span>
			   <span class="hl kwb">void</span> <span class="hl opt">*</span>payload<span class="hl opt">,</span> <span class="hl kwb">size_t</span> length<span class="hl opt">,</span> <span class="hl kwb">void</span> <span class="hl opt">*</span>data<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_transaction <span class="hl opt">*</span>t <span class="hl opt">=</span> data<span class="hl opt">;</span>

	<span class="hl kwd">kfree</span><span class="hl opt">(</span>t<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_agent_reset</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> fw_transaction <span class="hl opt">*</span>t<span class="hl opt">;</span>
	<span class="hl kwb">static</span> u32 zero<span class="hl opt">;</span>

	t <span class="hl opt">=</span> <span class="hl kwd">kzalloc</span><span class="hl opt">(</span><span class="hl kwa">sizeof</span><span class="hl opt">(*</span>t<span class="hl opt">),</span> GFP_ATOMIC<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>t <span class="hl opt">==</span> NULL<span class="hl opt">)</span>
		<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>

	<span class="hl kwd">fw_send_request</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">,</span> t<span class="hl opt">,</span> TCODE_WRITE_QUADLET_REQUEST<span class="hl opt">,</span>
			lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>node_id<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>generation<span class="hl opt">,</span> device<span class="hl opt">-&gt;</span>max_speed<span class="hl opt">,</span>
			lu<span class="hl opt">-&gt;</span>command_block_agent_address <span class="hl opt">+</span> SBP2_AGENT_RESET<span class="hl opt">,</span>
			<span class="hl opt">&amp;</span>zero<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>zero<span class="hl opt">),</span> complete_agent_reset_write<span class="hl opt">,</span> t<span class="hl opt">);</span>

	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_release_target</span><span class="hl opt">(</span><span class="hl kwb">struct</span> kref <span class="hl opt">*</span>kref<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt <span class="hl opt">=</span> <span class="hl kwd">container_of</span><span class="hl opt">(</span>kref<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_target<span class="hl opt">,</span> kref<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">, *</span>next<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> Scsi_Host <span class="hl opt">*</span>shost <span class="hl opt">=</span>
		<span class="hl kwd">container_of</span><span class="hl opt">((</span><span class="hl kwb">void</span> <span class="hl opt">*)</span>tgt<span class="hl opt">,</span> <span class="hl kwb">struct</span> Scsi_Host<span class="hl opt">,</span> hostdata<span class="hl opt">[</span><span class="hl num">0</span><span class="hl opt">]);</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>

	<span class="hl kwd">list_for_each_entry_safe</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> next<span class="hl opt">, &amp;</span>tgt<span class="hl opt">-&gt;</span>lu_list<span class="hl opt">,</span> link<span class="hl opt">) {</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>sdev<span class="hl opt">)</span>
			<span class="hl kwd">scsi_remove_device</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>sdev<span class="hl opt">);</span>

		<span class="hl kwa">if</span> <span class="hl opt">(!</span><span class="hl kwd">fw_device_is_shutdown</span><span class="hl opt">(</span>device<span class="hl opt">))</span>
			<span class="hl kwd">sbp2_send_management_orb</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> tgt<span class="hl opt">-&gt;</span>node_id<span class="hl opt">,</span>
					lu<span class="hl opt">-&gt;</span>generation<span class="hl opt">,</span> SBP2_LOGOUT_REQUEST<span class="hl opt">,</span>
					lu<span class="hl opt">-&gt;</span>login_id<span class="hl opt">,</span> NULL<span class="hl opt">);</span>

		<span class="hl kwd">fw_core_remove_address_handler</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>address_handler<span class="hl opt">);</span>
		<span class="hl kwd">list_del</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>link<span class="hl opt">);</span>
		<span class="hl kwd">kfree</span><span class="hl opt">(</span>lu<span class="hl opt">);</span>
	<span class="hl opt">}</span>
	<span class="hl kwd">scsi_remove_host</span><span class="hl opt">(</span>shost<span class="hl opt">);</span>
	<span class="hl kwd">fw_notify</span><span class="hl opt">(</span><span class="hl str">&quot;released %s</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span> tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>bus_id<span class="hl opt">);</span>

	<span class="hl kwd">put_device</span><span class="hl opt">(&amp;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">);</span>
	<span class="hl kwd">scsi_host_put</span><span class="hl opt">(</span>shost<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static struct</span> workqueue_struct <span class="hl opt">*</span>sbp2_wq<span class="hl opt">;</span>

<span class="hl com">/*</span>
<span class="hl com"> * Always get the target's kref when scheduling work on one its units.</span>
<span class="hl com"> * Each workqueue job is responsible to call sbp2_target_put() upon return.</span>
<span class="hl com"> */</span>
<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_queue_work</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">,</span> <span class="hl kwb">unsigned long</span> delay<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">queue_delayed_work</span><span class="hl opt">(</span>sbp2_wq<span class="hl opt">, &amp;</span>lu<span class="hl opt">-&gt;</span>work<span class="hl opt">,</span> delay<span class="hl opt">))</span>
		<span class="hl kwd">kref_get</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>kref<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_target_put</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwd">kref_put</span><span class="hl opt">(&amp;</span>tgt<span class="hl opt">-&gt;</span>kref<span class="hl opt">,</span> sbp2_release_target<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_reconnect</span><span class="hl opt">(</span><span class="hl kwb">struct</span> work_struct <span class="hl opt">*</span>work<span class="hl opt">);</span>

<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_login</span><span class="hl opt">(</span><span class="hl kwb">struct</span> work_struct <span class="hl opt">*</span>work<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu <span class="hl opt">=</span>
		<span class="hl kwd">container_of</span><span class="hl opt">(</span>work<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_logical_unit<span class="hl opt">,</span> work<span class="hl opt">.</span>work<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> Scsi_Host <span class="hl opt">*</span>shost <span class="hl opt">=</span>
		<span class="hl kwd">container_of</span><span class="hl opt">((</span><span class="hl kwb">void</span> <span class="hl opt">*)</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">,</span> <span class="hl kwb">struct</span> Scsi_Host<span class="hl opt">,</span> hostdata<span class="hl opt">[</span><span class="hl num">0</span><span class="hl opt">]);</span>
	<span class="hl kwb">struct</span> scsi_device <span class="hl opt">*</span>sdev<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> scsi_lun eight_bytes_lun<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> fw_unit <span class="hl opt">*</span>unit <span class="hl opt">=</span> lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> sbp2_login_response response<span class="hl opt">;</span>
	<span class="hl kwb">int</span> generation<span class="hl opt">,</span> node_id<span class="hl opt">,</span> local_node_id<span class="hl opt">;</span>

	generation    <span class="hl opt">=</span> device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>generation<span class="hl opt">;</span>
	node_id       <span class="hl opt">=</span> device<span class="hl opt">-&gt;</span>node<span class="hl opt">-&gt;</span>node_id<span class="hl opt">;</span>
	local_node_id <span class="hl opt">=</span> device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>local_node<span class="hl opt">-&gt;</span>node_id<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">sbp2_send_management_orb</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> node_id<span class="hl opt">,</span> generation<span class="hl opt">,</span>
				SBP2_LOGIN_REQUEST<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>lun<span class="hl opt">, &amp;</span>response<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">) {</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>retries<span class="hl opt">++ &lt;</span> <span class="hl num">5</span><span class="hl opt">)</span>
			<span class="hl kwd">sbp2_queue_work</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> <span class="hl kwd">DIV_ROUND_UP</span><span class="hl opt">(</span>HZ<span class="hl opt">,</span> <span class="hl num">5</span><span class="hl opt">));</span>
		<span class="hl kwa">else</span>
			<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;failed to login to %s LUN %04x</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
				 unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>bus_id<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>lun<span class="hl opt">);</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	lu<span class="hl opt">-&gt;</span>generation        <span class="hl opt">=</span> generation<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>node_id      <span class="hl opt">=</span> node_id<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>address_high <span class="hl opt">=</span> local_node_id <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>

	<span class="hl com">/* Get command block agent offset and login id. */</span>
	lu<span class="hl opt">-&gt;</span>command_block_agent_address <span class="hl opt">=</span>
		<span class="hl opt">((</span>u64<span class="hl opt">) (</span>response<span class="hl opt">.</span>command_block_agent<span class="hl opt">.</span>high <span class="hl opt">&amp;</span> <span class="hl num">0xffff</span><span class="hl opt">) &lt;&lt;</span> <span class="hl num">32</span><span class="hl opt">) |</span>
		response<span class="hl opt">.</span>command_block_agent<span class="hl opt">.</span>low<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>login_id <span class="hl opt">=</span> <span class="hl kwd">LOGIN_RESPONSE_GET_LOGIN_ID</span><span class="hl opt">(</span>response<span class="hl opt">);</span>

	<span class="hl kwd">fw_notify</span><span class="hl opt">(</span><span class="hl str">&quot;logged in to %s LUN %04x (%d retries)</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
		  unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>bus_id<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>lun<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>retries<span class="hl opt">);</span>

<span class="hl ppc">#if 0</span>
	<span class="hl com">/* FIXME: The linux1394 sbp2 does this last step. */</span>
	<span class="hl kwd">sbp2_set_busy_timeout</span><span class="hl opt">(</span>scsi_id<span class="hl opt">);</span>
<span class="hl ppc">#endif</span>

	<span class="hl kwd">PREPARE_DELAYED_WORK</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>work<span class="hl opt">,</span> sbp2_reconnect<span class="hl opt">);</span>
	<span class="hl kwd">sbp2_agent_reset</span><span class="hl opt">(</span>lu<span class="hl opt">);</span>

	<span class="hl kwd">memset</span><span class="hl opt">(&amp;</span>eight_bytes_lun<span class="hl opt">,</span> <span class="hl num">0</span><span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>eight_bytes_lun<span class="hl opt">));</span>
	eight_bytes_lun<span class="hl opt">.</span>scsi_lun<span class="hl opt">[</span><span class="hl num">0</span><span class="hl opt">] = (</span>lu<span class="hl opt">-&gt;</span>lun <span class="hl opt">&gt;&gt;</span> <span class="hl num">8</span><span class="hl opt">) &amp;</span> <span class="hl num">0xff</span><span class="hl opt">;</span>
	eight_bytes_lun<span class="hl opt">.</span>scsi_lun<span class="hl opt">[</span><span class="hl num">1</span><span class="hl opt">] =</span> lu<span class="hl opt">-&gt;</span>lun <span class="hl opt">&amp;</span> <span class="hl num">0xff</span><span class="hl opt">;</span>

	sdev <span class="hl opt">=</span> <span class="hl kwd">__scsi_add_device</span><span class="hl opt">(</span>shost<span class="hl opt">,</span> <span class="hl num">0</span><span class="hl opt">,</span> <span class="hl num">0</span><span class="hl opt">,</span>
				 <span class="hl kwd">scsilun_to_int</span><span class="hl opt">(&amp;</span>eight_bytes_lun<span class="hl opt">),</span> lu<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">IS_ERR</span><span class="hl opt">(</span>sdev<span class="hl opt">)) {</span>
		<span class="hl kwd">sbp2_send_management_orb</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> node_id<span class="hl opt">,</span> generation<span class="hl opt">,</span>
				SBP2_LOGOUT_REQUEST<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>login_id<span class="hl opt">,</span> NULL<span class="hl opt">);</span>
		<span class="hl com">/*</span>
<span class="hl com">		 * Set this back to sbp2_login so we fall back and</span>
<span class="hl com">		 * retry login on bus reset.</span>
<span class="hl com">		 */</span>
		<span class="hl kwd">PREPARE_DELAYED_WORK</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>work<span class="hl opt">,</span> sbp2_login<span class="hl opt">);</span>
	<span class="hl opt">}</span> <span class="hl kwa">else</span> <span class="hl opt">{</span>
		lu<span class="hl opt">-&gt;</span>sdev <span class="hl opt">=</span> sdev<span class="hl opt">;</span>
		<span class="hl kwd">scsi_device_put</span><span class="hl opt">(</span>sdev<span class="hl opt">);</span>
	<span class="hl opt">}</span>
 out<span class="hl opt">:</span>
	<span class="hl kwd">sbp2_target_put</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_add_logical_unit</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt<span class="hl opt">,</span> <span class="hl kwb">int</span> lun_entry<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">;</span>

	lu <span class="hl opt">=</span> <span class="hl kwd">kmalloc</span><span class="hl opt">(</span><span class="hl kwa">sizeof</span><span class="hl opt">(*</span>lu<span class="hl opt">),</span> GFP_KERNEL<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(!</span>lu<span class="hl opt">)</span>
		<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>

	lu<span class="hl opt">-&gt;</span>address_handler<span class="hl opt">.</span>length           <span class="hl opt">=</span> <span class="hl num">0x100</span><span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>address_handler<span class="hl opt">.</span>address_callback <span class="hl opt">=</span> sbp2_status_write<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>address_handler<span class="hl opt">.</span>callback_data    <span class="hl opt">=</span> lu<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">fw_core_add_address_handler</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>address_handler<span class="hl opt">,</span>
					<span class="hl opt">&amp;</span>fw_high_memory_region<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">) {</span>
		<span class="hl kwd">kfree</span><span class="hl opt">(</span>lu<span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	lu<span class="hl opt">-&gt;</span>tgt  <span class="hl opt">=</span> tgt<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>sdev <span class="hl opt">=</span> NULL<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>lun  <span class="hl opt">=</span> lun_entry <span class="hl opt">&amp;</span> <span class="hl num">0xffff</span><span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>retries <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl kwd">INIT_LIST_HEAD</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>orb_list<span class="hl opt">);</span>
	<span class="hl kwd">INIT_DELAYED_WORK</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>work<span class="hl opt">,</span> sbp2_login<span class="hl opt">);</span>

	<span class="hl kwd">list_add_tail</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>link<span class="hl opt">, &amp;</span>tgt<span class="hl opt">-&gt;</span>lu_list<span class="hl opt">);</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_scan_logical_unit_dir</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt<span class="hl opt">,</span> u32 <span class="hl opt">*</span>directory<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_csr_iterator ci<span class="hl opt">;</span>
	<span class="hl kwb">int</span> key<span class="hl opt">,</span> value<span class="hl opt">;</span>

	<span class="hl kwd">fw_csr_iterator_init</span><span class="hl opt">(&amp;</span>ci<span class="hl opt">,</span> directory<span class="hl opt">);</span>
	<span class="hl kwa">while</span> <span class="hl opt">(</span><span class="hl kwd">fw_csr_iterator_next</span><span class="hl opt">(&amp;</span>ci<span class="hl opt">, &amp;</span>key<span class="hl opt">, &amp;</span>value<span class="hl opt">))</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>key <span class="hl opt">==</span> SBP2_CSR_LOGICAL_UNIT_NUMBER <span class="hl opt">&amp;&amp;</span>
		    <span class="hl kwd">sbp2_add_logical_unit</span><span class="hl opt">(</span>tgt<span class="hl opt">,</span> value<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
			<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_scan_unit_dir</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt<span class="hl opt">,</span> u32 <span class="hl opt">*</span>directory<span class="hl opt">,</span>
			      u32 <span class="hl opt">*</span>model<span class="hl opt">,</span> u32 <span class="hl opt">*</span>firmware_revision<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_csr_iterator ci<span class="hl opt">;</span>
	<span class="hl kwb">int</span> key<span class="hl opt">,</span> value<span class="hl opt">;</span>

	<span class="hl kwd">fw_csr_iterator_init</span><span class="hl opt">(&amp;</span>ci<span class="hl opt">,</span> directory<span class="hl opt">);</span>
	<span class="hl kwa">while</span> <span class="hl opt">(</span><span class="hl kwd">fw_csr_iterator_next</span><span class="hl opt">(&amp;</span>ci<span class="hl opt">, &amp;</span>key<span class="hl opt">, &amp;</span>value<span class="hl opt">)) {</span>
		<span class="hl kwa">switch</span> <span class="hl opt">(</span>key<span class="hl opt">) {</span>

		<span class="hl kwa">case</span> CSR_DEPENDENT_INFO <span class="hl opt">|</span> CSR_OFFSET<span class="hl opt">:</span>
			tgt<span class="hl opt">-&gt;</span>management_agent_address <span class="hl opt">=</span>
					CSR_REGISTER_BASE <span class="hl opt">+</span> <span class="hl num">4</span> <span class="hl opt">*</span> value<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>

		<span class="hl kwa">case</span> CSR_DIRECTORY_ID<span class="hl opt">:</span>
			tgt<span class="hl opt">-&gt;</span>directory_id <span class="hl opt">=</span> value<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>

		<span class="hl kwa">case</span> CSR_MODEL<span class="hl opt">:</span>
			<span class="hl opt">*</span>model <span class="hl opt">=</span> value<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>

		<span class="hl kwa">case</span> SBP2_CSR_FIRMWARE_REVISION<span class="hl opt">:</span>
			<span class="hl opt">*</span>firmware_revision <span class="hl opt">=</span> value<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>

		<span class="hl kwa">case</span> SBP2_CSR_LOGICAL_UNIT_NUMBER<span class="hl opt">:</span>
			<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">sbp2_add_logical_unit</span><span class="hl opt">(</span>tgt<span class="hl opt">,</span> value<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
				<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>

		<span class="hl kwa">case</span> SBP2_CSR_LOGICAL_UNIT_DIRECTORY<span class="hl opt">:</span>
			<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">sbp2_scan_logical_unit_dir</span><span class="hl opt">(</span>tgt<span class="hl opt">,</span> ci<span class="hl opt">.</span>p <span class="hl opt">+</span> value<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
				<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_init_workarounds</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt<span class="hl opt">,</span> u32 model<span class="hl opt">,</span>
				  u32 firmware_revision<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">int</span> i<span class="hl opt">;</span>
	<span class="hl kwb">unsigned</span> w <span class="hl opt">=</span> sbp2_param_workarounds<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>w<span class="hl opt">)</span>
		<span class="hl kwd">fw_notify</span><span class="hl opt">(</span><span class="hl str">&quot;Please notify linux1394-devel&#64;lists.sourceforge.net &quot;</span>
			  <span class="hl str">&quot;if you need the workarounds parameter for %s</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
			  tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>bus_id<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>w <span class="hl opt">&amp;</span> SBP2_WORKAROUND_OVERRIDE<span class="hl opt">)</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>

	<span class="hl kwa">for</span> <span class="hl opt">(</span>i <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span> i <span class="hl opt">&lt;</span> <span class="hl kwd">ARRAY_SIZE</span><span class="hl opt">(</span>sbp2_workarounds_table<span class="hl opt">);</span> i<span class="hl opt">++) {</span>

		<span class="hl kwa">if</span> <span class="hl opt">(</span>sbp2_workarounds_table<span class="hl opt">[</span>i<span class="hl opt">].</span>firmware_revision <span class="hl opt">!=</span>
		    <span class="hl opt">(</span>firmware_revision <span class="hl opt">&amp;</span> <span class="hl num">0xffffff00</span><span class="hl opt">))</span>
			<span class="hl kwa">continue</span><span class="hl opt">;</span>

		<span class="hl kwa">if</span> <span class="hl opt">(</span>sbp2_workarounds_table<span class="hl opt">[</span>i<span class="hl opt">].</span>model <span class="hl opt">!=</span> model <span class="hl opt">&amp;&amp;</span>
		    sbp2_workarounds_table<span class="hl opt">[</span>i<span class="hl opt">].</span>model <span class="hl opt">!= ~</span><span class="hl num">0</span><span class="hl opt">)</span>
			<span class="hl kwa">continue</span><span class="hl opt">;</span>

		w <span class="hl opt">|=</span> sbp2_workarounds_table<span class="hl opt">[</span>i<span class="hl opt">].</span>workarounds<span class="hl opt">;</span>
		<span class="hl kwa">break</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>
 out<span class="hl opt">:</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>w<span class="hl opt">)</span>
		<span class="hl kwd">fw_notify</span><span class="hl opt">(</span><span class="hl str">&quot;Workarounds for %s: 0x%x &quot;</span>
			  <span class="hl str">&quot;(firmware_revision 0x%06x, model_id 0x%06x)</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
			  tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>bus_id<span class="hl opt">,</span>
			  w<span class="hl opt">,</span> firmware_revision<span class="hl opt">,</span> model<span class="hl opt">);</span>
	tgt<span class="hl opt">-&gt;</span>workarounds <span class="hl opt">=</span> w<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static struct</span> scsi_host_template scsi_driver_template<span class="hl opt">;</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_probe</span><span class="hl opt">(</span><span class="hl kwb">struct</span> device <span class="hl opt">*</span>dev<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_unit <span class="hl opt">*</span>unit <span class="hl opt">=</span> <span class="hl kwd">fw_unit</span><span class="hl opt">(</span>dev<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> Scsi_Host <span class="hl opt">*</span>shost<span class="hl opt">;</span>
	u32 model<span class="hl opt">,</span> firmware_revision<span class="hl opt">;</span>

	shost <span class="hl opt">=</span> <span class="hl kwd">scsi_host_alloc</span><span class="hl opt">(&amp;</span>scsi_driver_template<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(*</span>tgt<span class="hl opt">));</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>shost <span class="hl opt">==</span> NULL<span class="hl opt">)</span>
		<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>

	tgt <span class="hl opt">= (</span><span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*)</span>shost<span class="hl opt">-&gt;</span>hostdata<span class="hl opt">;</span>
	unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>driver_data <span class="hl opt">=</span> tgt<span class="hl opt">;</span>
	tgt<span class="hl opt">-&gt;</span>unit <span class="hl opt">=</span> unit<span class="hl opt">;</span>
	<span class="hl kwd">kref_init</span><span class="hl opt">(&amp;</span>tgt<span class="hl opt">-&gt;</span>kref<span class="hl opt">);</span>
	<span class="hl kwd">INIT_LIST_HEAD</span><span class="hl opt">(&amp;</span>tgt<span class="hl opt">-&gt;</span>lu_list<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">fw_device_enable_phys_dma</span><span class="hl opt">(</span>device<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
		<span class="hl kwa">goto</span> fail_shost_put<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">scsi_add_host</span><span class="hl opt">(</span>shost<span class="hl opt">, &amp;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
		<span class="hl kwa">goto</span> fail_shost_put<span class="hl opt">;</span>

	<span class="hl com">/* Initialize to values that won't match anything in our table. */</span>
	firmware_revision <span class="hl opt">=</span> <span class="hl num">0xff000000</span><span class="hl opt">;</span>
	model <span class="hl opt">=</span> <span class="hl num">0xff000000</span><span class="hl opt">;</span>

	<span class="hl com">/* implicit directory ID */</span>
	tgt<span class="hl opt">-&gt;</span>directory_id <span class="hl opt">= ((</span>unit<span class="hl opt">-&gt;</span>directory <span class="hl opt">-</span> device<span class="hl opt">-&gt;</span>config_rom<span class="hl opt">) *</span> <span class="hl num">4</span>
			     <span class="hl opt">+</span> CSR_CONFIG_ROM<span class="hl opt">) &amp;</span> <span class="hl num">0xffffff</span><span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">sbp2_scan_unit_dir</span><span class="hl opt">(</span>tgt<span class="hl opt">,</span> unit<span class="hl opt">-&gt;</span>directory<span class="hl opt">, &amp;</span>model<span class="hl opt">,</span>
			       <span class="hl opt">&amp;</span>firmware_revision<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
		<span class="hl kwa">goto</span> fail_tgt_put<span class="hl opt">;</span>

	<span class="hl kwd">sbp2_init_workarounds</span><span class="hl opt">(</span>tgt<span class="hl opt">,</span> model<span class="hl opt">,</span> firmware_revision<span class="hl opt">);</span>

	<span class="hl kwd">get_device</span><span class="hl opt">(&amp;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">);</span>

	<span class="hl com">/* Do the login in a workqueue so we can easily reschedule retries. */</span>
	<span class="hl kwd">list_for_each_entry</span><span class="hl opt">(</span>lu<span class="hl opt">, &amp;</span>tgt<span class="hl opt">-&gt;</span>lu_list<span class="hl opt">,</span> link<span class="hl opt">)</span>
		<span class="hl kwd">sbp2_queue_work</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> <span class="hl num">0</span><span class="hl opt">);</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>

 fail_tgt_put<span class="hl opt">:</span>
	<span class="hl kwd">sbp2_target_put</span><span class="hl opt">(</span>tgt<span class="hl opt">);</span>
	<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>

 fail_shost_put<span class="hl opt">:</span>
	<span class="hl kwd">scsi_host_put</span><span class="hl opt">(</span>shost<span class="hl opt">);</span>
	<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_remove</span><span class="hl opt">(</span><span class="hl kwb">struct</span> device <span class="hl opt">*</span>dev<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> fw_unit <span class="hl opt">*</span>unit <span class="hl opt">=</span> <span class="hl kwd">fw_unit</span><span class="hl opt">(</span>dev<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt <span class="hl opt">=</span> unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>driver_data<span class="hl opt">;</span>

	<span class="hl kwd">sbp2_target_put</span><span class="hl opt">(</span>tgt<span class="hl opt">);</span>
	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_reconnect</span><span class="hl opt">(</span><span class="hl kwb">struct</span> work_struct <span class="hl opt">*</span>work<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu <span class="hl opt">=</span>
		<span class="hl kwd">container_of</span><span class="hl opt">(</span>work<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_logical_unit<span class="hl opt">,</span> work<span class="hl opt">.</span>work<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> fw_unit <span class="hl opt">*</span>unit <span class="hl opt">=</span> lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">int</span> generation<span class="hl opt">,</span> node_id<span class="hl opt">,</span> local_node_id<span class="hl opt">;</span>

	generation    <span class="hl opt">=</span> device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>generation<span class="hl opt">;</span>
	node_id       <span class="hl opt">=</span> device<span class="hl opt">-&gt;</span>node<span class="hl opt">-&gt;</span>node_id<span class="hl opt">;</span>
	local_node_id <span class="hl opt">=</span> device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>local_node<span class="hl opt">-&gt;</span>node_id<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">sbp2_send_management_orb</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> node_id<span class="hl opt">,</span> generation<span class="hl opt">,</span>
				     SBP2_RECONNECT_REQUEST<span class="hl opt">,</span>
				     lu<span class="hl opt">-&gt;</span>login_id<span class="hl opt">,</span> NULL<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">) {</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>retries<span class="hl opt">++ &gt;=</span> <span class="hl num">5</span><span class="hl opt">) {</span>
			<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;failed to reconnect to %s</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
				 unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>bus_id<span class="hl opt">);</span>
			<span class="hl com">/* Fall back and try to log in again. */</span>
			lu<span class="hl opt">-&gt;</span>retries <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
			<span class="hl kwd">PREPARE_DELAYED_WORK</span><span class="hl opt">(&amp;</span>lu<span class="hl opt">-&gt;</span>work<span class="hl opt">,</span> sbp2_login<span class="hl opt">);</span>
		<span class="hl opt">}</span>
		<span class="hl kwd">sbp2_queue_work</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> <span class="hl kwd">DIV_ROUND_UP</span><span class="hl opt">(</span>HZ<span class="hl opt">,</span> <span class="hl num">5</span><span class="hl opt">));</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	lu<span class="hl opt">-&gt;</span>generation        <span class="hl opt">=</span> generation<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>node_id      <span class="hl opt">=</span> node_id<span class="hl opt">;</span>
	lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>address_high <span class="hl opt">=</span> local_node_id <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>

	<span class="hl kwd">fw_notify</span><span class="hl opt">(</span><span class="hl str">&quot;reconnected to %s LUN %04x (%d retries)</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">,</span>
		  unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>bus_id<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>lun<span class="hl opt">,</span> lu<span class="hl opt">-&gt;</span>retries<span class="hl opt">);</span>

	<span class="hl kwd">sbp2_agent_reset</span><span class="hl opt">(</span>lu<span class="hl opt">);</span>
	<span class="hl kwd">sbp2_cancel_orbs</span><span class="hl opt">(</span>lu<span class="hl opt">);</span>
 out<span class="hl opt">:</span>
	<span class="hl kwd">sbp2_target_put</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span> <span class="hl kwd">sbp2_update</span><span class="hl opt">(</span><span class="hl kwb">struct</span> fw_unit <span class="hl opt">*</span>unit<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_target <span class="hl opt">*</span>tgt <span class="hl opt">=</span> unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>driver_data<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">;</span>

	<span class="hl kwd">fw_device_enable_phys_dma</span><span class="hl opt">(</span><span class="hl kwd">fw_device</span><span class="hl opt">(</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">));</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * Fw-core serializes sbp2_update() against sbp2_remove().</span>
<span class="hl com">	 * Iteration over tgt-&gt;lu_list is therefore safe here.</span>
<span class="hl com">	 */</span>
	<span class="hl kwd">list_for_each_entry</span><span class="hl opt">(</span>lu<span class="hl opt">, &amp;</span>tgt<span class="hl opt">-&gt;</span>lu_list<span class="hl opt">,</span> link<span class="hl opt">) {</span>
		lu<span class="hl opt">-&gt;</span>retries <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span>
		<span class="hl kwd">sbp2_queue_work</span><span class="hl opt">(</span>lu<span class="hl opt">,</span> <span class="hl num">0</span><span class="hl opt">);</span>
	<span class="hl opt">}</span>
<span class="hl opt">}</span>

<span class="hl ppc">#define SBP2_UNIT_SPEC_ID_ENTRY	0x0000609e</span>
<span class="hl ppc">#define SBP2_SW_VERSION_ENTRY	0x00010483</span>

<span class="hl kwb">static const struct</span> fw_device_id sbp2_id_table<span class="hl opt">[] = {</span>
	<span class="hl opt">{</span>
		<span class="hl opt">.</span>match_flags  <span class="hl opt">=</span> FW_MATCH_SPECIFIER_ID <span class="hl opt">|</span> FW_MATCH_VERSION<span class="hl opt">,</span>
		<span class="hl opt">.</span>specifier_id <span class="hl opt">=</span> SBP2_UNIT_SPEC_ID_ENTRY<span class="hl opt">,</span>
		<span class="hl opt">.</span>version      <span class="hl opt">=</span> SBP2_SW_VERSION_ENTRY<span class="hl opt">,</span>
	<span class="hl opt">},</span>
	<span class="hl opt">{ }</span>
<span class="hl opt">};</span>

<span class="hl kwb">static struct</span> fw_driver sbp2_driver <span class="hl opt">= {</span>
	<span class="hl opt">.</span>driver   <span class="hl opt">= {</span>
		<span class="hl opt">.</span>owner  <span class="hl opt">=</span> THIS_MODULE<span class="hl opt">,</span>
		<span class="hl opt">.</span>name   <span class="hl opt">=</span> sbp2_driver_name<span class="hl opt">,</span>
		<span class="hl opt">.</span>bus    <span class="hl opt">= &amp;</span>fw_bus_type<span class="hl opt">,</span>
		<span class="hl opt">.</span>probe  <span class="hl opt">=</span> sbp2_probe<span class="hl opt">,</span>
		<span class="hl opt">.</span>remove <span class="hl opt">=</span> sbp2_remove<span class="hl opt">,</span>
	<span class="hl opt">},</span>
	<span class="hl opt">.</span>update   <span class="hl opt">=</span> sbp2_update<span class="hl opt">,</span>
	<span class="hl opt">.</span>id_table <span class="hl opt">=</span> sbp2_id_table<span class="hl opt">,</span>
<span class="hl opt">};</span>

<span class="hl kwb">static unsigned int</span>
<span class="hl kwd">sbp2_status_to_sense_data</span><span class="hl opt">(</span>u8 <span class="hl opt">*</span>sbp2_status<span class="hl opt">,</span> u8 <span class="hl opt">*</span>sense_data<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">int</span> sam_status<span class="hl opt">;</span>

	sense_data<span class="hl opt">[</span><span class="hl num">0</span><span class="hl opt">] =</span> <span class="hl num">0x70</span><span class="hl opt">;</span>
	sense_data<span class="hl opt">[</span><span class="hl num">1</span><span class="hl opt">] =</span> <span class="hl num">0x0</span><span class="hl opt">;</span>
	sense_data<span class="hl opt">[</span><span class="hl num">2</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">1</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">3</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">4</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">4</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">5</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">5</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">6</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">6</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">7</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">7</span><span class="hl opt">] =</span> <span class="hl num">10</span><span class="hl opt">;</span>
	sense_data<span class="hl opt">[</span><span class="hl num">8</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">8</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">9</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">9</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">10</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">10</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">11</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">11</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">12</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">2</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">13</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">3</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">14</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">12</span><span class="hl opt">];</span>
	sense_data<span class="hl opt">[</span><span class="hl num">15</span><span class="hl opt">] =</span> sbp2_status<span class="hl opt">[</span><span class="hl num">13</span><span class="hl opt">];</span>

	sam_status <span class="hl opt">=</span> sbp2_status<span class="hl opt">[</span><span class="hl num">0</span><span class="hl opt">] &amp;</span> <span class="hl num">0x3f</span><span class="hl opt">;</span>

	<span class="hl kwa">switch</span> <span class="hl opt">(</span>sam_status<span class="hl opt">) {</span>
	<span class="hl kwa">case</span> SAM_STAT_GOOD<span class="hl opt">:</span>
	<span class="hl kwa">case</span> SAM_STAT_CHECK_CONDITION<span class="hl opt">:</span>
	<span class="hl kwa">case</span> SAM_STAT_CONDITION_MET<span class="hl opt">:</span>
	<span class="hl kwa">case</span> SAM_STAT_BUSY<span class="hl opt">:</span>
	<span class="hl kwa">case</span> SAM_STAT_RESERVATION_CONFLICT<span class="hl opt">:</span>
	<span class="hl kwa">case</span> SAM_STAT_COMMAND_TERMINATED<span class="hl opt">:</span>
		<span class="hl kwa">return</span> DID_OK <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span> <span class="hl opt">|</span> sam_status<span class="hl opt">;</span>

	<span class="hl kwa">default</span><span class="hl opt">:</span>
		<span class="hl kwa">return</span> DID_ERROR <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>
<span class="hl opt">}</span>

<span class="hl kwb">static void</span>
<span class="hl kwd">complete_command_orb</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_orb <span class="hl opt">*</span>base_orb<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_status <span class="hl opt">*</span>status<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_command_orb <span class="hl opt">*</span>orb <span class="hl opt">=</span>
		<span class="hl kwd">container_of</span><span class="hl opt">(</span>base_orb<span class="hl opt">,</span> <span class="hl kwb">struct</span> sbp2_command_orb<span class="hl opt">,</span> base<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">int</span> result<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>status <span class="hl opt">!=</span> NULL<span class="hl opt">) {</span>
		<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">STATUS_GET_DEAD</span><span class="hl opt">(*</span>status<span class="hl opt">))</span>
			<span class="hl kwd">sbp2_agent_reset</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>lu<span class="hl opt">);</span>

		<span class="hl kwa">switch</span> <span class="hl opt">(</span><span class="hl kwd">STATUS_GET_RESPONSE</span><span class="hl opt">(*</span>status<span class="hl opt">)) {</span>
		<span class="hl kwa">case</span> SBP2_STATUS_REQUEST_COMPLETE<span class="hl opt">:</span>
			result <span class="hl opt">=</span> DID_OK <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl kwa">case</span> SBP2_STATUS_TRANSPORT_FAILURE<span class="hl opt">:</span>
			result <span class="hl opt">=</span> DID_BUS_BUSY <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl kwa">case</span> SBP2_STATUS_ILLEGAL_REQUEST<span class="hl opt">:</span>
		<span class="hl kwa">case</span> SBP2_STATUS_VENDOR_DEPENDENT<span class="hl opt">:</span>
		<span class="hl kwa">default</span><span class="hl opt">:</span>
			result <span class="hl opt">=</span> DID_ERROR <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>
			<span class="hl kwa">break</span><span class="hl opt">;</span>
		<span class="hl opt">}</span>

		<span class="hl kwa">if</span> <span class="hl opt">(</span>result <span class="hl opt">==</span> DID_OK <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span> <span class="hl opt">&amp;&amp;</span> <span class="hl kwd">STATUS_GET_LEN</span><span class="hl opt">(*</span>status<span class="hl opt">) &gt;</span> <span class="hl num">1</span><span class="hl opt">)</span>
			result <span class="hl opt">=</span> <span class="hl kwd">sbp2_status_to_sense_data</span><span class="hl opt">(</span><span class="hl kwd">STATUS_GET_DATA</span><span class="hl opt">(*</span>status<span class="hl opt">),</span>
							   orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">-&gt;</span>sense_buffer<span class="hl opt">);</span>
	<span class="hl opt">}</span> <span class="hl kwa">else</span> <span class="hl opt">{</span>
		<span class="hl com">/*</span>
<span class="hl com">		 * If the orb completes with status == NULL, something</span>
<span class="hl com">		 * went wrong, typically a bus reset happened mid-orb</span>
<span class="hl com">		 * or when sending the write (less likely).</span>
<span class="hl com">		 */</span>
		result <span class="hl opt">=</span> DID_BUS_BUSY <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl kwd">dma_unmap_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>request_bus<span class="hl opt">,</span>
			 <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">),</span> DMA_TO_DEVICE<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">scsi_sg_count</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">) &gt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
		<span class="hl kwd">dma_unmap_sg</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> <span class="hl kwd">scsi_sglist</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">),</span>
			     <span class="hl kwd">scsi_sg_count</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">),</span>
			     orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">-&gt;</span>sc_data_direction<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>page_table_bus <span class="hl opt">!=</span> <span class="hl num">0</span><span class="hl opt">)</span>
		<span class="hl kwd">dma_unmap_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> orb<span class="hl opt">-&gt;</span>page_table_bus<span class="hl opt">,</span>
				 <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">),</span> DMA_TO_DEVICE<span class="hl opt">);</span>

	orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">-&gt;</span>result <span class="hl opt">=</span> result<span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span><span class="hl kwd">done</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">);</span>
<span class="hl opt">}</span>

<span class="hl kwb">static int</span>
<span class="hl kwd">sbp2_map_scatterlist</span><span class="hl opt">(</span><span class="hl kwb">struct</span> sbp2_command_orb <span class="hl opt">*</span>orb<span class="hl opt">,</span> <span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device<span class="hl opt">,</span>
		     <span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> scatterlist <span class="hl opt">*</span>sg<span class="hl opt">;</span>
	<span class="hl kwb">int</span> sg_len<span class="hl opt">,</span> l<span class="hl opt">,</span> i<span class="hl opt">,</span> j<span class="hl opt">,</span> count<span class="hl opt">;</span>
	dma_addr_t sg_addr<span class="hl opt">;</span>

	sg <span class="hl opt">=</span> <span class="hl kwd">scsi_sglist</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">);</span>
	count <span class="hl opt">=</span> <span class="hl kwd">dma_map_sg</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> sg<span class="hl opt">,</span> <span class="hl kwd">scsi_sg_count</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">),</span>
			   orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">-&gt;</span>sc_data_direction<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>count <span class="hl opt">==</span> <span class="hl num">0</span><span class="hl opt">)</span>
		<span class="hl kwa">goto</span> fail<span class="hl opt">;</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * Handle the special case where there is only one element in</span>
<span class="hl com">	 * the scatter list by converting it to an immediate block</span>
<span class="hl com">	 * request. This is also a workaround for broken devices such</span>
<span class="hl com">	 * as the second generation iPod which doesn't support page</span>
<span class="hl com">	 * tables.</span>
<span class="hl com">	 */</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>count <span class="hl opt">==</span> <span class="hl num">1</span> <span class="hl opt">&amp;&amp;</span> <span class="hl kwd">sg_dma_len</span><span class="hl opt">(</span>sg<span class="hl opt">) &lt;</span> SBP2_MAX_SG_ELEMENT_LENGTH<span class="hl opt">) {</span>
		orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>data_descriptor<span class="hl opt">.</span>high <span class="hl opt">=</span> lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>address_high<span class="hl opt">;</span>
		orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>data_descriptor<span class="hl opt">.</span>low  <span class="hl opt">=</span> <span class="hl kwd">sg_dma_address</span><span class="hl opt">(</span>sg<span class="hl opt">);</span>
		orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>misc <span class="hl opt">|=</span> <span class="hl kwd">COMMAND_ORB_DATA_SIZE</span><span class="hl opt">(</span><span class="hl kwd">sg_dma_len</span><span class="hl opt">(</span>sg<span class="hl opt">));</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * Convert the scatterlist to an sbp2 page table.  If any</span>
<span class="hl com">	 * scatterlist entries are too big for sbp2, we split them as we</span>
<span class="hl com">	 * go.  Even if we ask the block I/O layer to not give us sg</span>
<span class="hl com">	 * elements larger than 65535 bytes, some IOMMUs may merge sg elements</span>
<span class="hl com">	 * during DMA mapping, and Linux currently doesn't prevent this.</span>
<span class="hl com">	 */</span>
	<span class="hl kwa">for</span> <span class="hl opt">(</span>i <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">,</span> j <span class="hl opt">=</span> <span class="hl num">0</span><span class="hl opt">;</span> i <span class="hl opt">&lt;</span> count<span class="hl opt">;</span> i<span class="hl opt">++,</span> sg <span class="hl opt">=</span> <span class="hl kwd">sg_next</span><span class="hl opt">(</span>sg<span class="hl opt">)) {</span>
		sg_len <span class="hl opt">=</span> <span class="hl kwd">sg_dma_len</span><span class="hl opt">(</span>sg<span class="hl opt">);</span>
		sg_addr <span class="hl opt">=</span> <span class="hl kwd">sg_dma_address</span><span class="hl opt">(</span>sg<span class="hl opt">);</span>
		<span class="hl kwa">while</span> <span class="hl opt">(</span>sg_len<span class="hl opt">) {</span>
			<span class="hl com">/* FIXME: This won't get us out of the pinch. */</span>
			<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">unlikely</span><span class="hl opt">(</span>j <span class="hl opt">&gt;=</span> <span class="hl kwd">ARRAY_SIZE</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">))) {</span>
				<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;page table overflow</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
				<span class="hl kwa">goto</span> fail_page_table<span class="hl opt">;</span>
			<span class="hl opt">}</span>
			l <span class="hl opt">=</span> <span class="hl kwd">min</span><span class="hl opt">(</span>sg_len<span class="hl opt">,</span> SBP2_MAX_SG_ELEMENT_LENGTH<span class="hl opt">);</span>
			orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">[</span>j<span class="hl opt">].</span>low <span class="hl opt">=</span> sg_addr<span class="hl opt">;</span>
			orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">[</span>j<span class="hl opt">].</span>high <span class="hl opt">= (</span>l <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">);</span>
			sg_addr <span class="hl opt">+=</span> l<span class="hl opt">;</span>
			sg_len <span class="hl opt">-=</span> l<span class="hl opt">;</span>
			j<span class="hl opt">++;</span>
		<span class="hl opt">}</span>
	<span class="hl opt">}</span>

	<span class="hl kwd">fw_memcpy_to_be32</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">,</span> orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">,</span>
			  <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">[</span><span class="hl num">0</span><span class="hl opt">]) *</span> j<span class="hl opt">);</span>
	orb<span class="hl opt">-&gt;</span>page_table_bus <span class="hl opt">=</span>
		<span class="hl kwd">dma_map_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">,</span>
			       <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>page_table<span class="hl opt">),</span> DMA_TO_DEVICE<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">dma_mapping_error</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>page_table_bus<span class="hl opt">))</span>
		<span class="hl kwa">goto</span> fail_page_table<span class="hl opt">;</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * The data_descriptor pointer is the one case where we need</span>
<span class="hl com">	 * to fill in the node ID part of the address.  All other</span>
<span class="hl com">	 * pointers assume that the data referenced reside on the</span>
<span class="hl com">	 * initiator (i.e. us), but data_descriptor can refer to data</span>
<span class="hl com">	 * on other nodes so we need to put our ID in descriptor.high.</span>
<span class="hl com">	 */</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>data_descriptor<span class="hl opt">.</span>high <span class="hl opt">=</span> lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>address_high<span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>data_descriptor<span class="hl opt">.</span>low  <span class="hl opt">=</span> orb<span class="hl opt">-&gt;</span>page_table_bus<span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>misc <span class="hl opt">|=</span>
		COMMAND_ORB_PAGE_TABLE_PRESENT <span class="hl opt">|</span>
		<span class="hl kwd">COMMAND_ORB_DATA_SIZE</span><span class="hl opt">(</span>j<span class="hl opt">);</span>

	<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>

 fail_page_table<span class="hl opt">:</span>
	<span class="hl kwd">dma_unmap_sg</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">,</span> sg<span class="hl opt">,</span> <span class="hl kwd">scsi_sg_count</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">),</span>
		     orb<span class="hl opt">-&gt;</span>cmd<span class="hl opt">-&gt;</span>sc_data_direction<span class="hl opt">);</span>
 fail<span class="hl opt">:</span>
	<span class="hl kwa">return</span> <span class="hl opt">-</span>ENOMEM<span class="hl opt">;</span>
<span class="hl opt">}</span>

<span class="hl com">/* SCSI stack integration */</span>

<span class="hl kwb">static int</span> <span class="hl kwd">sbp2_scsi_queuecommand</span><span class="hl opt">(</span><span class="hl kwb">struct</span> scsi_cmnd <span class="hl opt">*</span>cmd<span class="hl opt">,</span> scsi_done_fn_t done<span class="hl opt">)</span>
<span class="hl opt">{</span>
	<span class="hl kwb">struct</span> sbp2_logical_unit <span class="hl opt">*</span>lu <span class="hl opt">=</span> cmd<span class="hl opt">-&gt;</span>device<span class="hl opt">-&gt;</span>hostdata<span class="hl opt">;</span>
	<span class="hl kwb">struct</span> fw_device <span class="hl opt">*</span>device <span class="hl opt">=</span> <span class="hl kwd">fw_device</span><span class="hl opt">(</span>lu<span class="hl opt">-&gt;</span>tgt<span class="hl opt">-&gt;</span>unit<span class="hl opt">-&gt;</span>device<span class="hl opt">.</span>parent<span class="hl opt">);</span>
	<span class="hl kwb">struct</span> sbp2_command_orb <span class="hl opt">*</span>orb<span class="hl opt">;</span>
	<span class="hl kwb">unsigned</span> max_payload<span class="hl opt">;</span>
	<span class="hl kwb">int</span> retval <span class="hl opt">=</span> SCSI_MLQUEUE_HOST_BUSY<span class="hl opt">;</span>

	<span class="hl com">/*</span>
<span class="hl com">	 * Bidirectional commands are not yet implemented, and unknown</span>
<span class="hl com">	 * transfer direction not handled.</span>
<span class="hl com">	 */</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>cmd<span class="hl opt">-&gt;</span>sc_data_direction <span class="hl opt">==</span> DMA_BIDIRECTIONAL<span class="hl opt">) {</span>
		<span class="hl kwd">fw_error</span><span class="hl opt">(</span><span class="hl str">&quot;Can't handle DMA_BIDIRECTIONAL, rejecting command</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		cmd<span class="hl opt">-&gt;</span>result <span class="hl opt">=</span> DID_ERROR <span class="hl opt">&lt;&lt;</span> <span class="hl num">16</span><span class="hl opt">;</span>
		<span class="hl kwd">done</span><span class="hl opt">(</span>cmd<span class="hl opt">);</span>
		<span class="hl kwa">return</span> <span class="hl num">0</span><span class="hl opt">;</span>
	<span class="hl opt">}</span>

	orb <span class="hl opt">=</span> <span class="hl kwd">kzalloc</span><span class="hl opt">(</span><span class="hl kwa">sizeof</span><span class="hl opt">(*</span>orb<span class="hl opt">),</span> GFP_ATOMIC<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span>orb <span class="hl opt">==</span> NULL<span class="hl opt">) {</span>
		<span class="hl kwd">fw_notify</span><span class="hl opt">(</span><span class="hl str">&quot;failed to alloc orb</span><span class="hl esc">\n</span><span class="hl str">&quot;</span><span class="hl opt">);</span>
		<span class="hl kwa">return</span> SCSI_MLQUEUE_HOST_BUSY<span class="hl opt">;</span>
	<span class="hl opt">}</span>

	<span class="hl com">/* Initialize rcode to something not RCODE_COMPLETE. */</span>
	orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>rcode <span class="hl opt">= -</span><span class="hl num">1</span><span class="hl opt">;</span>
	<span class="hl kwd">kref_init</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>kref<span class="hl opt">);</span>

	orb<span class="hl opt">-&gt;</span>lu   <span class="hl opt">=</span> lu<span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>done <span class="hl opt">=</span> done<span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>cmd  <span class="hl opt">=</span> cmd<span class="hl opt">;</span>

	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>next<span class="hl opt">.</span>high   <span class="hl opt">=</span> SBP2_ORB_NULL<span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>next<span class="hl opt">.</span>low    <span class="hl opt">=</span> <span class="hl num">0x0</span><span class="hl opt">;</span>
	<span class="hl com">/*</span>
<span class="hl com">	 * At speed 100 we can do 512 bytes per packet, at speed 200,</span>
<span class="hl com">	 * 1024 bytes per packet etc.  The SBP-2 max_payload field</span>
<span class="hl com">	 * specifies the max payload size as 2 ^ (max_payload + 2), so</span>
<span class="hl com">	 * if we set this to max_speed + 7, we get the right value.</span>
<span class="hl com">	 */</span>
	max_payload <span class="hl opt">=</span> <span class="hl kwd">min</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>max_speed <span class="hl opt">+</span> <span class="hl num">7</span><span class="hl opt">,</span>
			  device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>max_receive <span class="hl opt">-</span> <span class="hl num">1</span><span class="hl opt">);</span>
	orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>misc <span class="hl opt">=</span>
		<span class="hl kwd">COMMAND_ORB_MAX_PAYLOAD</span><span class="hl opt">(</span>max_payload<span class="hl opt">) |</span>
		<span class="hl kwd">COMMAND_ORB_SPEED</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>max_speed<span class="hl opt">) |</span>
		COMMAND_ORB_NOTIFY<span class="hl opt">;</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span>cmd<span class="hl opt">-&gt;</span>sc_data_direction <span class="hl opt">==</span> DMA_FROM_DEVICE<span class="hl opt">)</span>
		orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>misc <span class="hl opt">|=</span>
			<span class="hl kwd">COMMAND_ORB_DIRECTION</span><span class="hl opt">(</span>SBP2_DIRECTION_FROM_MEDIA<span class="hl opt">);</span>
	<span class="hl kwa">else if</span> <span class="hl opt">(</span>cmd<span class="hl opt">-&gt;</span>sc_data_direction <span class="hl opt">==</span> DMA_TO_DEVICE<span class="hl opt">)</span>
		orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>misc <span class="hl opt">|=</span>
			<span class="hl kwd">COMMAND_ORB_DIRECTION</span><span class="hl opt">(</span>SBP2_DIRECTION_TO_MEDIA<span class="hl opt">);</span>

	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">scsi_sg_count</span><span class="hl opt">(</span>cmd<span class="hl opt">) &amp;&amp;</span> <span class="hl kwd">sbp2_map_scatterlist</span><span class="hl opt">(</span>orb<span class="hl opt">,</span> device<span class="hl opt">,</span> lu<span class="hl opt">) &lt;</span> <span class="hl num">0</span><span class="hl opt">)</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>

	<span class="hl kwd">fw_memcpy_to_be32</span><span class="hl opt">(&amp;</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">));</span>

	<span class="hl kwd">memset</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>command_block<span class="hl opt">,</span>
	       <span class="hl num">0</span><span class="hl opt">,</span> <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>command_block<span class="hl opt">));</span>
	<span class="hl kwd">memcpy</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">.</span>command_block<span class="hl opt">,</span> cmd<span class="hl opt">-&gt;</span>cmnd<span class="hl opt">,</span> <span class="hl kwd">COMMAND_SIZE</span><span class="hl opt">(*</span>cmd<span class="hl opt">-&gt;</span>cmnd<span class="hl opt">));</span>

	orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>callback <span class="hl opt">=</span> complete_command_orb<span class="hl opt">;</span>
	orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>request_bus <span class="hl opt">=</span>
		<span class="hl kwd">dma_map_single</span><span class="hl opt">(</span>device<span class="hl opt">-&gt;</span>card<span class="hl opt">-&gt;</span>device<span class="hl opt">, &amp;</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">,</span>
			       <span class="hl kwa">sizeof</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>request<span class="hl opt">),</span> DMA_TO_DEVICE<span class="hl opt">);</span>
	<span class="hl kwa">if</span> <span class="hl opt">(</span><span class="hl kwd">dma_mapping_error</span><span class="hl opt">(</span>orb<span class="hl opt">-&gt;</span>base<span class="hl opt">.</span>request_bus<span class="hl opt">))</span>
		<span class="hl kwa">goto</span> out<span class="hl opt">;</span>