arch/parisc/kernel/pdt.c - linux/torvalds/linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0
 /*
  *    Page Deallocation Table (PDT) support
  *
  *    The Page Deallocation Table (PDT) is maintained by firmware and holds a
  *    list of memory addresses in which memory errors were detected.
  *    The list contains both single-bit (correctable) and double-bit
  *    (uncorrectable) errors.
  *
  *    Copyright 2017 by Helge Deller <deller@gmx.de>
  *
  *    possible future enhancements:
  *    - add userspace interface via procfs or sysfs to clear PDT
  */

 #include <linux/memblock.h>
 #include <linux/seq_file.h>
 #include <linux/kthread.h>
 #include <linux/initrd.h>

 #include <asm/pdc.h>
 #include <asm/pdcpat.h>
 #include <asm/sections.h>
 #include <asm/pgtable.h>

 enum pdt_access_type {
 	PDT_NONE,
 	PDT_PDC,
 	PDT_PAT_NEW,
 	PDT_PAT_CELL
 };

 static enum pdt_access_type pdt_type;

 /* PDT poll interval: 1 minute if errors, 5 minutes if everything OK. */
 #define PDT_POLL_INTERVAL_DEFAULT	(5*60*HZ)
 #define PDT_POLL_INTERVAL_SHORT		(1*60*HZ)
 static unsigned long pdt_poll_interval = PDT_POLL_INTERVAL_DEFAULT;

 /* global PDT status information */
 static struct pdc_mem_retinfo pdt_status;

 #define MAX_PDT_TABLE_SIZE	PAGE_SIZE
 #define MAX_PDT_ENTRIES		(MAX_PDT_TABLE_SIZE / sizeof(unsigned long))
 static unsigned long pdt_entry[MAX_PDT_ENTRIES] __page_aligned_bss;

 /*
  * Constants for the pdt_entry format:
  * A pdt_entry holds the physical address in bits 0-57, bits 58-61 are
  * reserved, bit 62 is the perm bit and bit 63 is the error_type bit.
  * The perm bit indicates whether the error have been verified as a permanent
  * error (value of 1) or has not been verified, and may be transient (value
  * of 0). The error_type bit indicates whether the error is a single bit error
  * (value of 1) or a multiple bit error.
  * On non-PAT machines phys_addr is encoded in bits 0-59 and error_type in bit
  * 63. Those machines don't provide the perm bit.
  */

 #define PDT_ADDR_PHYS_MASK	(pdt_type != PDT_PDC ? ~0x3f : ~0x0f)
 #define PDT_ADDR_PERM_ERR	(pdt_type != PDT_PDC ? 2UL : 0UL)
 #define PDT_ADDR_SINGLE_ERR	1UL

 /* report PDT entries via /proc/meminfo */
 void arch_report_meminfo(struct seq_file *m)
 {
 	if (pdt_type == PDT_NONE)
 		return;

 	seq_printf(m, "PDT_max_entries: %7lu\n",
 			pdt_status.pdt_size);
 	seq_printf(m, "PDT_cur_entries: %7lu\n",
 			pdt_status.pdt_entries);
 }

 static int get_info_pat_new(void)
 {
 	struct pdc_pat_mem_retinfo pat_rinfo;
 	int ret;

 	/* newer PAT machines like C8000 report info for all cells */
 	if (is_pdc_pat())
 		ret = pdc_pat_mem_pdt_info(&pat_rinfo);
 	else
 		return PDC_BAD_PROC;

 	pdt_status.pdt_size = pat_rinfo.max_pdt_entries;
 	pdt_status.pdt_entries = pat_rinfo.current_pdt_entries;
 	pdt_status.pdt_status = 0;
 	pdt_status.first_dbe_loc = pat_rinfo.first_dbe_loc;
 	pdt_status.good_mem = pat_rinfo.good_mem;

 	return ret;
 }

 static int get_info_pat_cell(void)
 {
 	struct pdc_pat_mem_cell_pdt_retinfo cell_rinfo;
 	int ret;

 	/* older PAT machines like rp5470 report cell info only */
 	if (is_pdc_pat())
 		ret = pdc_pat_mem_pdt_cell_info(&cell_rinfo, parisc_cell_num);
 	else
 		return PDC_BAD_PROC;

 	pdt_status.pdt_size = cell_rinfo.max_pdt_entries;
 	pdt_status.pdt_entries = cell_rinfo.current_pdt_entries;
 	pdt_status.pdt_status = 0;
 	pdt_status.first_dbe_loc = cell_rinfo.first_dbe_loc;
 	pdt_status.good_mem = cell_rinfo.good_mem;

 	return ret;
 }

 static void report_mem_err(unsigned long pde)
 {
 	struct pdc_pat_mem_phys_mem_location loc;
 	unsigned long addr;
 	char dimm_txt[32];

 	addr = pde & PDT_ADDR_PHYS_MASK;

 	/* show DIMM slot description on PAT machines */
 	if (is_pdc_pat()) {
 		pdc_pat_mem_get_dimm_phys_location(&loc, addr);
 		sprintf(dimm_txt, "DIMM slot %02x, ", loc.dimm_slot);
 	} else
 		dimm_txt[0] = 0;

 	pr_warn("PDT: BAD MEMORY at 0x%08lx, %s%s%s-bit error.\n",
 		addr, dimm_txt,
 		pde & PDT_ADDR_PERM_ERR ? "permanent ":"",
 		pde & PDT_ADDR_SINGLE_ERR ? "single":"multi");
 }


 /*
  * pdc_pdt_init()
  *
  * Initialize kernel PDT structures, read initial PDT table from firmware,
  * report all current PDT entries and mark bad memory with memblock_reserve()
  * to avoid that the kernel will use broken memory areas.
  *
  */
 void __init pdc_pdt_init(void)
 {
 	int ret, i;
 	unsigned long entries;
 	struct pdc_mem_read_pdt pdt_read_ret;

 	pdt_type = PDT_PAT_NEW;
 	ret = get_info_pat_new();

 	if (ret != PDC_OK) {
 		pdt_type = PDT_PAT_CELL;
 		ret = get_info_pat_cell();
 	}

 	if (ret != PDC_OK) {
 		pdt_type = PDT_PDC;
 		/* non-PAT machines provide the standard PDC call */
 		ret = pdc_mem_pdt_info(&pdt_status);
 	}

 	if (ret != PDC_OK) {
 		pdt_type = PDT_NONE;
 		pr_info("PDT: Firmware does not provide any page deallocation"
 			" information.\n");
 		return;
 	}

 	entries = pdt_status.pdt_entries;
 	if (WARN_ON(entries > MAX_PDT_ENTRIES))
 		entries = pdt_status.pdt_entries = MAX_PDT_ENTRIES;

 	pr_info("PDT: type %s, size %lu, entries %lu, status %lu, dbe_loc 0x%lx,"
 		" good_mem %lu MB\n",
 			pdt_type == PDT_PDC ? __stringify(PDT_PDC) :
 			pdt_type == PDT_PAT_CELL ? __stringify(PDT_PAT_CELL)
 						 : __stringify(PDT_PAT_NEW),
 			pdt_status.pdt_size, pdt_status.pdt_entries,
 			pdt_status.pdt_status, pdt_status.first_dbe_loc,
 			pdt_status.good_mem / 1024 / 1024);

 	if (entries == 0) {
 		pr_info("PDT: Firmware reports all memory OK.\n");
 		return;
 	}

 	if (pdt_status.first_dbe_loc &&
 		pdt_status.first_dbe_loc <= __pa((unsigned long)&_end))
 		pr_crit("CRITICAL: Bad memory inside kernel image memory area!\n");

 	pr_warn("PDT: Firmware reports %lu entries of faulty memory:\n",
 		entries);

 	if (pdt_type == PDT_PDC)
 		ret = pdc_mem_pdt_read_entries(&pdt_read_ret, pdt_entry);
 	else {
 #ifdef CONFIG_64BIT
 		struct pdc_pat_mem_read_pd_retinfo pat_pret;

 		if (pdt_type == PDT_PAT_CELL)
 			ret = pdc_pat_mem_read_cell_pdt(&pat_pret, pdt_entry,
 				MAX_PDT_ENTRIES);
 		else
 			ret = pdc_pat_mem_read_pd_pdt(&pat_pret, pdt_entry,
 				MAX_PDT_TABLE_SIZE, 0);
 #else
 		ret = PDC_BAD_PROC;
 #endif
 	}

 	if (ret != PDC_OK) {
 		pdt_type = PDT_NONE;
 		pr_warn("PDT: Get PDT entries failed with %d\n", ret);
 		return;
 	}

 	for (i = 0; i < pdt_status.pdt_entries; i++) {
 		unsigned long addr;

 		report_mem_err(pdt_entry[i]);

 		addr = pdt_entry[i] & PDT_ADDR_PHYS_MASK;
 		if (IS_ENABLED(CONFIG_BLK_DEV_INITRD) &&
 			addr >= initrd_start && addr < initrd_end)
 			pr_crit("CRITICAL: initrd possibly broken "
 				"due to bad memory!\n");

 		/* mark memory page bad */
 		memblock_reserve(pdt_entry[i] & PAGE_MASK, PAGE_SIZE);
 	}
 }


 /*
  * This is the PDT kernel thread main loop.
  */

 static int pdt_mainloop(void *unused)
 {
 	struct pdc_mem_read_pdt pdt_read_ret;
 	struct pdc_pat_mem_read_pd_retinfo pat_pret __maybe_unused;
 	unsigned long old_num_entries;
 	unsigned long *bad_mem_ptr;
 	int num, ret;

 	for (;;) {
 		set_current_state(TASK_INTERRUPTIBLE);

 		old_num_entries = pdt_status.pdt_entries;

 		schedule_timeout(pdt_poll_interval);
 		if (kthread_should_stop())
 			break;

 		/* Do we have new PDT entries? */
 		switch (pdt_type) {
 		case PDT_PAT_NEW:
 			ret = get_info_pat_new();
 			break;
 		case PDT_PAT_CELL:
 			ret = get_info_pat_cell();
 			break;
 		default:
 			ret = pdc_mem_pdt_info(&pdt_status);
 			break;
 		}

 		if (ret != PDC_OK) {
 			pr_warn("PDT: unexpected failure %d\n", ret);
 			return -EINVAL;
 		}

 		/* if no new PDT entries, just wait again */
 		num = pdt_status.pdt_entries - old_num_entries;
 		if (num <= 0)
 			continue;

 		/* decrease poll interval in case we found memory errors */
 		if (pdt_status.pdt_entries &&
 			pdt_poll_interval == PDT_POLL_INTERVAL_DEFAULT)
 			pdt_poll_interval = PDT_POLL_INTERVAL_SHORT;

 		/* limit entries to get */
 		if (num > MAX_PDT_ENTRIES) {
 			num = MAX_PDT_ENTRIES;
 			pdt_status.pdt_entries = old_num_entries + num;
 		}

 		/* get new entries */
 		switch (pdt_type) {
 #ifdef CONFIG_64BIT
 		case PDT_PAT_CELL:
 			if (pdt_status.pdt_entries > MAX_PDT_ENTRIES) {
 				pr_crit("PDT: too many entries.\n");
 				return -ENOMEM;
 			}
 			ret = pdc_pat_mem_read_cell_pdt(&pat_pret, pdt_entry,
 				MAX_PDT_ENTRIES);
 			bad_mem_ptr = &pdt_entry[old_num_entries];
 			break;
 		case PDT_PAT_NEW:
 			ret = pdc_pat_mem_read_pd_pdt(&pat_pret,
 				pdt_entry,
 				num * sizeof(unsigned long),
 				old_num_entries * sizeof(unsigned long));
 			bad_mem_ptr = &pdt_entry[0];
 			break;
 #endif
 		default:
 			ret = pdc_mem_pdt_read_entries(&pdt_read_ret,
 				pdt_entry);
 			bad_mem_ptr = &pdt_entry[old_num_entries];
 			break;
 		}

 		/* report and mark memory broken */
 		while (num--) {
 			unsigned long pde = *bad_mem_ptr++;

 			report_mem_err(pde);

 #ifdef CONFIG_MEMORY_FAILURE
 			if ((pde & PDT_ADDR_PERM_ERR) ||
 			    ((pde & PDT_ADDR_SINGLE_ERR) == 0))
 				memory_failure(pde >> PAGE_SHIFT, 0);
 			else
 				soft_offline_page(pde >> PAGE_SHIFT, 0);
 #else
 			pr_crit("PDT: memory error at 0x%lx ignored.\n"
 				"Rebuild kernel with CONFIG_MEMORY_FAILURE=y "
 				"for real handling.\n",
 				pde & PDT_ADDR_PHYS_MASK);
 #endif

 		}
 	}

 	return 0;
 }


 static int __init pdt_initcall(void)
 {
 	struct task_struct *kpdtd_task;

 	if (pdt_type == PDT_NONE)
 		return -ENODEV;

 	kpdtd_task = kthread_create(pdt_mainloop, NULL, "kpdtd");
 	if (IS_ERR(kpdtd_task))
 		return PTR_ERR(kpdtd_task);

 	wake_up_process(kpdtd_task);

 	return 0;
 }

 late_initcall(pdt_initcall);
	// SPDX-License-Identifier: GPL-2.0
	/*
	* Page Deallocation Table (PDT) support
	*
	* The Page Deallocation Table (PDT) is maintained by firmware and holds a
	* list of memory addresses in which memory errors were detected.
	* The list contains both single-bit (correctable) and double-bit
	* (uncorrectable) errors.
	*
	* Copyright 2017 by Helge Deller <deller@gmx.de>
	*
	* possible future enhancements:
	* - add userspace interface via procfs or sysfs to clear PDT
	*/

	#include <linux/memblock.h>
	#include <linux/seq_file.h>
	#include <linux/kthread.h>
	#include <linux/initrd.h>

	#include <asm/pdc.h>
	#include <asm/pdcpat.h>
	#include <asm/sections.h>
	#include <asm/pgtable.h>

	enum pdt_access_type {
	PDT_NONE,
	PDT_PDC,
	PDT_PAT_NEW,
	PDT_PAT_CELL
	};

	static enum pdt_access_type pdt_type;

	/* PDT poll interval: 1 minute if errors, 5 minutes if everything OK. */
	#define PDT_POLL_INTERVAL_DEFAULT (560HZ)
	#define PDT_POLL_INTERVAL_SHORT (160HZ)
	static unsigned long pdt_poll_interval = PDT_POLL_INTERVAL_DEFAULT;

	/* global PDT status information */
	static struct pdc_mem_retinfo pdt_status;

	#define MAX_PDT_TABLE_SIZE PAGE_SIZE
	#define MAX_PDT_ENTRIES (MAX_PDT_TABLE_SIZE / sizeof(unsigned long))
	static unsigned long pdt_entry[MAX_PDT_ENTRIES] __page_aligned_bss;

	/*
	* Constants for the pdt_entry format:
	* A pdt_entry holds the physical address in bits 0-57, bits 58-61 are
	* reserved, bit 62 is the perm bit and bit 63 is the error_type bit.
	* The perm bit indicates whether the error have been verified as a permanent
	* error (value of 1) or has not been verified, and may be transient (value
	* of 0). The error_type bit indicates whether the error is a single bit error
	* (value of 1) or a multiple bit error.
	* On non-PAT machines phys_addr is encoded in bits 0-59 and error_type in bit
	* 63. Those machines don't provide the perm bit.
	*/

	#define PDT_ADDR_PHYS_MASK (pdt_type != PDT_PDC ? ~0x3f : ~0x0f)
	#define PDT_ADDR_PERM_ERR (pdt_type != PDT_PDC ? 2UL : 0UL)
	#define PDT_ADDR_SINGLE_ERR 1UL

	/* report PDT entries via /proc/meminfo */
	void arch_report_meminfo(struct seq_file *m)
	{
	if (pdt_type == PDT_NONE)
	return;

	seq_printf(m, "PDT_max_entries: %7lu\n",
	pdt_status.pdt_size);
	seq_printf(m, "PDT_cur_entries: %7lu\n",
	pdt_status.pdt_entries);
	}

	static int get_info_pat_new(void)
	{
	struct pdc_pat_mem_retinfo pat_rinfo;
	int ret;

	/* newer PAT machines like C8000 report info for all cells */
	if (is_pdc_pat())
	ret = pdc_pat_mem_pdt_info(&pat_rinfo);
	else
	return PDC_BAD_PROC;

	pdt_status.pdt_size = pat_rinfo.max_pdt_entries;
	pdt_status.pdt_entries = pat_rinfo.current_pdt_entries;
	pdt_status.pdt_status = 0;
	pdt_status.first_dbe_loc = pat_rinfo.first_dbe_loc;
	pdt_status.good_mem = pat_rinfo.good_mem;

	return ret;
	}

	static int get_info_pat_cell(void)
	{
	struct pdc_pat_mem_cell_pdt_retinfo cell_rinfo;
	int ret;

	/* older PAT machines like rp5470 report cell info only */
	if (is_pdc_pat())
	ret = pdc_pat_mem_pdt_cell_info(&cell_rinfo, parisc_cell_num);
	else
	return PDC_BAD_PROC;

	pdt_status.pdt_size = cell_rinfo.max_pdt_entries;
	pdt_status.pdt_entries = cell_rinfo.current_pdt_entries;
	pdt_status.pdt_status = 0;
	pdt_status.first_dbe_loc = cell_rinfo.first_dbe_loc;
	pdt_status.good_mem = cell_rinfo.good_mem;

	return ret;
	}

	static void report_mem_err(unsigned long pde)
	{
	struct pdc_pat_mem_phys_mem_location loc;
	unsigned long addr;
	char dimm_txt[32];

	addr = pde & PDT_ADDR_PHYS_MASK;

	/* show DIMM slot description on PAT machines */
	if (is_pdc_pat()) {
	pdc_pat_mem_get_dimm_phys_location(&loc, addr);
	sprintf(dimm_txt, "DIMM slot %02x, ", loc.dimm_slot);
	} else
	dimm_txt[0] = 0;

	pr_warn("PDT: BAD MEMORY at 0x%08lx, %s%s%s-bit error.\n",
	addr, dimm_txt,
	pde & PDT_ADDR_PERM_ERR ? "permanent ":"",
	pde & PDT_ADDR_SINGLE_ERR ? "single":"multi");
	}


	/*
	* pdc_pdt_init()
	*
	* Initialize kernel PDT structures, read initial PDT table from firmware,
	* report all current PDT entries and mark bad memory with memblock_reserve()
	* to avoid that the kernel will use broken memory areas.
	*
	*/
	void __init pdc_pdt_init(void)
	{
	int ret, i;
	unsigned long entries;
	struct pdc_mem_read_pdt pdt_read_ret;

	pdt_type = PDT_PAT_NEW;
	ret = get_info_pat_new();

	if (ret != PDC_OK) {
	pdt_type = PDT_PAT_CELL;
	ret = get_info_pat_cell();
	}

	if (ret != PDC_OK) {
	pdt_type = PDT_PDC;
	/* non-PAT machines provide the standard PDC call */
	ret = pdc_mem_pdt_info(&pdt_status);
	}

	if (ret != PDC_OK) {
	pdt_type = PDT_NONE;
	pr_info("PDT: Firmware does not provide any page deallocation"
	" information.\n");
	return;
	}

	entries = pdt_status.pdt_entries;
	if (WARN_ON(entries > MAX_PDT_ENTRIES))
	entries = pdt_status.pdt_entries = MAX_PDT_ENTRIES;

	pr_info("PDT: type %s, size %lu, entries %lu, status %lu, dbe_loc 0x%lx,"
	" good_mem %lu MB\n",
	pdt_type == PDT_PDC ? __stringify(PDT_PDC) :
	pdt_type == PDT_PAT_CELL ? __stringify(PDT_PAT_CELL)
	: __stringify(PDT_PAT_NEW),
	pdt_status.pdt_size, pdt_status.pdt_entries,
	pdt_status.pdt_status, pdt_status.first_dbe_loc,
	pdt_status.good_mem / 1024 / 1024);

	if (entries == 0) {
	pr_info("PDT: Firmware reports all memory OK.\n");
	return;
	}

	if (pdt_status.first_dbe_loc &&
	pdt_status.first_dbe_loc <= __pa((unsigned long)&_end))
	pr_crit("CRITICAL: Bad memory inside kernel image memory area!\n");

	pr_warn("PDT: Firmware reports %lu entries of faulty memory:\n",
	entries);

	if (pdt_type == PDT_PDC)
	ret = pdc_mem_pdt_read_entries(&pdt_read_ret, pdt_entry);
	else {
	#ifdef CONFIG_64BIT
	struct pdc_pat_mem_read_pd_retinfo pat_pret;

	if (pdt_type == PDT_PAT_CELL)
	ret = pdc_pat_mem_read_cell_pdt(&pat_pret, pdt_entry,
	MAX_PDT_ENTRIES);
	else
	ret = pdc_pat_mem_read_pd_pdt(&pat_pret, pdt_entry,
	MAX_PDT_TABLE_SIZE, 0);
	#else
	ret = PDC_BAD_PROC;
	#endif
	}

	if (ret != PDC_OK) {
	pdt_type = PDT_NONE;
	pr_warn("PDT: Get PDT entries failed with %d\n", ret);
	return;
	}

	for (i = 0; i < pdt_status.pdt_entries; i++) {
	unsigned long addr;

	report_mem_err(pdt_entry[i]);

	addr = pdt_entry[i] & PDT_ADDR_PHYS_MASK;
	if (IS_ENABLED(CONFIG_BLK_DEV_INITRD) &&
	addr >= initrd_start && addr < initrd_end)
	pr_crit("CRITICAL: initrd possibly broken "
	"due to bad memory!\n");

	/* mark memory page bad */
	memblock_reserve(pdt_entry[i] & PAGE_MASK, PAGE_SIZE);
	}
	}


	/*
	* This is the PDT kernel thread main loop.
	*/

	static int pdt_mainloop(void *unused)
	{
	struct pdc_mem_read_pdt pdt_read_ret;
	struct pdc_pat_mem_read_pd_retinfo pat_pret __maybe_unused;
	unsigned long old_num_entries;
	unsigned long *bad_mem_ptr;
	int num, ret;

	for (;;) {
	set_current_state(TASK_INTERRUPTIBLE);

	old_num_entries = pdt_status.pdt_entries;

	schedule_timeout(pdt_poll_interval);
	if (kthread_should_stop())
	break;

	/* Do we have new PDT entries? */
	switch (pdt_type) {
	case PDT_PAT_NEW:
	ret = get_info_pat_new();
	break;
	case PDT_PAT_CELL:
	ret = get_info_pat_cell();
	break;
	default:
	ret = pdc_mem_pdt_info(&pdt_status);
	break;
	}

	if (ret != PDC_OK) {
	pr_warn("PDT: unexpected failure %d\n", ret);
	return -EINVAL;
	}

	/* if no new PDT entries, just wait again */
	num = pdt_status.pdt_entries - old_num_entries;
	if (num <= 0)
	continue;

	/* decrease poll interval in case we found memory errors */
	if (pdt_status.pdt_entries &&
	pdt_poll_interval == PDT_POLL_INTERVAL_DEFAULT)
	pdt_poll_interval = PDT_POLL_INTERVAL_SHORT;

	/* limit entries to get */
	if (num > MAX_PDT_ENTRIES) {
	num = MAX_PDT_ENTRIES;
	pdt_status.pdt_entries = old_num_entries + num;
	}

	/* get new entries */
	switch (pdt_type) {
	#ifdef CONFIG_64BIT
	case PDT_PAT_CELL:
	if (pdt_status.pdt_entries > MAX_PDT_ENTRIES) {
	pr_crit("PDT: too many entries.\n");
	return -ENOMEM;
	}
	ret = pdc_pat_mem_read_cell_pdt(&pat_pret, pdt_entry,
	MAX_PDT_ENTRIES);
	bad_mem_ptr = &pdt_entry[old_num_entries];
	break;
	case PDT_PAT_NEW:
	ret = pdc_pat_mem_read_pd_pdt(&pat_pret,
	pdt_entry,
	num * sizeof(unsigned long),
	old_num_entries * sizeof(unsigned long));
	bad_mem_ptr = &pdt_entry[0];
	break;
	#endif
	default:
	ret = pdc_mem_pdt_read_entries(&pdt_read_ret,
	pdt_entry);
	bad_mem_ptr = &pdt_entry[old_num_entries];
	break;
	}

	/* report and mark memory broken */
	while (num--) {
	unsigned long pde = *bad_mem_ptr++;

	report_mem_err(pde);

	#ifdef CONFIG_MEMORY_FAILURE
	if ((pde & PDT_ADDR_PERM_ERR) \|\|
	((pde & PDT_ADDR_SINGLE_ERR) == 0))
	memory_failure(pde >> PAGE_SHIFT, 0);
	else
	soft_offline_page(pde >> PAGE_SHIFT, 0);
	#else
	pr_crit("PDT: memory error at 0x%lx ignored.\n"
	"Rebuild kernel with CONFIG_MEMORY_FAILURE=y "
	"for real handling.\n",
	pde & PDT_ADDR_PHYS_MASK);
	#endif

	}
	}

	return 0;
	}


	static int __init pdt_initcall(void)
	{
	struct task_struct *kpdtd_task;

	if (pdt_type == PDT_NONE)
	return -ENODEV;

	kpdtd_task = kthread_create(pdt_mainloop, NULL, "kpdtd");
	if (IS_ERR(kpdtd_task))
	return PTR_ERR(kpdtd_task);

	wake_up_process(kpdtd_task);

	return 0;
	}

	late_initcall(pdt_initcall);