cregit-Linux how code gets into the kernel

Release 4.7 drivers/firmware/efi/capsule.c

/*
 * EFI capsule support.
 *
 * Copyright 2013 Intel Corporation; author Matt Fleming
 *
 * This file is part of the Linux kernel, and is made available under
 * the terms of the GNU General Public License version 2.
 */


#define pr_fmt(fmt) "efi: " fmt

#include <linux/slab.h>
#include <linux/mutex.h>
#include <linux/highmem.h>
#include <linux/efi.h>
#include <linux/vmalloc.h>
#include <asm/io.h>

typedef struct {
	
u64 length;
	
u64 data;
} 
efi_capsule_block_desc_t;


static bool capsule_pending;

static bool stop_capsules;

static int efi_reset_type = -1;

/*
 * capsule_mutex serialises access to both capsule_pending and
 * efi_reset_type and stop_capsules.
 */
static DEFINE_MUTEX(capsule_mutex);

/**
 * efi_capsule_pending - has a capsule been passed to the firmware?
 * @reset_type: store the type of EFI reset if capsule is pending
 *
 * To ensure that the registered capsule is processed correctly by the
 * firmware we need to perform a specific type of reset. If a capsule is
 * pending return the reset type in @reset_type.
 *
 * This function will race with callers of efi_capsule_update(), for
 * example, calling this function while somebody else is in
 * efi_capsule_update() but hasn't reached efi_capsue_update_locked()
 * will miss the updates to capsule_pending and efi_reset_type after
 * efi_capsule_update_locked() completes.
 *
 * A non-racy use is from platform reboot code because we use
 * system_state to ensure no capsules can be sent to the firmware once
 * we're at SYSTEM_RESTART. See efi_capsule_update_locked().
 */

bool efi_capsule_pending(int *reset_type) { if (!capsule_pending) return false; if (reset_type) *reset_type = efi_reset_type; return true; }

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/* * Whitelist of EFI capsule flags that we support. * * We do not handle EFI_CAPSULE_INITIATE_RESET because that would * require us to prepare the kernel for reboot. Refuse to load any * capsules with that flag and any other flags that we do not know how * to handle. */ #define EFI_CAPSULE_SUPPORTED_FLAG_MASK \ (EFI_CAPSULE_PERSIST_ACROSS_RESET | EFI_CAPSULE_POPULATE_SYSTEM_TABLE) /** * efi_capsule_supported - does the firmware support the capsule? * @guid: vendor guid of capsule * @flags: capsule flags * @size: size of capsule data * @reset: the reset type required for this capsule * * Check whether a capsule with @flags is supported by the firmware * and that @size doesn't exceed the maximum size for a capsule. * * No attempt is made to check @reset against the reset type required * by any pending capsules because of the races involved. */
int efi_capsule_supported(efi_guid_t guid, u32 flags, size_t size, int *reset) { efi_capsule_header_t capsule; efi_capsule_header_t *cap_list[] = { &capsule }; efi_status_t status; u64 max_size; if (flags & ~EFI_CAPSULE_SUPPORTED_FLAG_MASK) return -EINVAL; capsule.headersize = capsule.imagesize = sizeof(capsule); memcpy(&capsule.guid, &guid, sizeof(efi_guid_t)); capsule.flags = flags; status = efi.query_capsule_caps(cap_list, 1, &max_size, reset); if (status != EFI_SUCCESS) return efi_status_to_err(status); if (size > max_size) return -ENOSPC; return 0; }

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EXPORT_SYMBOL_GPL(efi_capsule_supported); /* * Every scatter gather list (block descriptor) page must end with a * continuation pointer. The last continuation pointer of the last * page must be zero to mark the end of the chain. */ #define SGLIST_PER_PAGE ((PAGE_SIZE / sizeof(efi_capsule_block_desc_t)) - 1) /* * How many scatter gather list (block descriptor) pages do we need * to map @count pages? */
static inline unsigned int sg_pages_num(unsigned int count) { return DIV_ROUND_UP(count, SGLIST_PER_PAGE); }

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/** * efi_capsule_update_locked - pass a single capsule to the firmware * @capsule: capsule to send to the firmware * @sg_pages: array of scatter gather (block descriptor) pages * @reset: the reset type required for @capsule * * Since this function must be called under capsule_mutex check * whether efi_reset_type will conflict with @reset, and atomically * set it and capsule_pending if a capsule was successfully sent to * the firmware. * * We also check to see if the system is about to restart, and if so, * abort. This avoids races between efi_capsule_update() and * efi_capsule_pending(). */
static int efi_capsule_update_locked(efi_capsule_header_t *capsule, struct page **sg_pages, int reset) { efi_physical_addr_t sglist_phys; efi_status_t status; lockdep_assert_held(&capsule_mutex); /* * If someone has already registered a capsule that requires a * different reset type, we're out of luck and must abort. */ if (efi_reset_type >= 0 && efi_reset_type != reset) { pr_err("Conflicting capsule reset type %d (%d).\n", reset, efi_reset_type); return -EINVAL; } /* * If the system is getting ready to restart it may have * called efi_capsule_pending() to make decisions (such as * whether to force an EFI reboot), and we're racing against * that call. Abort in that case. */ if (unlikely(stop_capsules)) { pr_warn("Capsule update raced with reboot, aborting.\n"); return -EINVAL; } sglist_phys = page_to_phys(sg_pages[0]); status = efi.update_capsule(&capsule, 1, sglist_phys); if (status == EFI_SUCCESS) { capsule_pending = true; efi_reset_type = reset; } return efi_status_to_err(status); }

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/** * efi_capsule_update - send a capsule to the firmware * @capsule: capsule to send to firmware * @pages: an array of capsule data pages * * Build a scatter gather list with EFI capsule block descriptors to * map the capsule described by @capsule with its data in @pages and * send it to the firmware via the UpdateCapsule() runtime service. * * @capsule must be a virtual mapping of the first page in @pages * (@pages[0]) in the kernel address space. That is, a * capsule_header_t that describes the entire contents of the capsule * must be at the start of the first data page. * * Even though this function will validate that the firmware supports * the capsule guid, users will likely want to check that * efi_capsule_supported() returns true before calling this function * because it makes it easier to print helpful error messages. * * If the capsule is successfully submitted to the firmware, any * subsequent calls to efi_capsule_pending() will return true. @pages * must not be released or modified if this function returns * successfully. * * Callers must be prepared for this function to fail, which can * happen if we raced with system reboot or if there is already a * pending capsule that has a reset type that conflicts with the one * required by @capsule. Do NOT use efi_capsule_pending() to detect * this conflict since that would be racy. Instead, submit the capsule * to efi_capsule_update() and check the return value. * * Return 0 on success, a converted EFI status code on failure. */
int efi_capsule_update(efi_capsule_header_t *capsule, struct page **pages) { u32 imagesize = capsule->imagesize; efi_guid_t guid = capsule->guid; unsigned int count, sg_count; u32 flags = capsule->flags; struct page **sg_pages; int rv, reset_type; int i, j; rv = efi_capsule_supported(guid, flags, imagesize, &reset_type); if (rv) return rv; count = DIV_ROUND_UP(imagesize, PAGE_SIZE); sg_count = sg_pages_num(count); sg_pages = kzalloc(sg_count * sizeof(*sg_pages), GFP_KERNEL); if (!sg_pages) return -ENOMEM; for (i = 0; i < sg_count; i++) { sg_pages[i] = alloc_page(GFP_KERNEL); if (!sg_pages[i]) { rv = -ENOMEM; goto out; } } for (i = 0; i < sg_count; i++) { efi_capsule_block_desc_t *sglist; sglist = kmap(sg_pages[i]); if (!sglist) { rv = -ENOMEM; goto out; } for (j = 0; j < SGLIST_PER_PAGE && count > 0; j++) { u64 sz = min_t(u64, imagesize, PAGE_SIZE); sglist[j].length = sz; sglist[j].data = page_to_phys(*pages++); imagesize -= sz; count--; } /* Continuation pointer */ sglist[j].length = 0; if (i + 1 == sg_count) sglist[j].data = 0; else sglist[j].data = page_to_phys(sg_pages[i + 1]); kunmap(sg_pages[i]); } mutex_lock(&capsule_mutex); rv = efi_capsule_update_locked(capsule, sg_pages, reset_type); mutex_unlock(&capsule_mutex); out: for (i = 0; rv && i < sg_count; i++) { if (sg_pages[i]) __free_page(sg_pages[i]); } kfree(sg_pages); return rv; }

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EXPORT_SYMBOL_GPL(efi_capsule_update);
static int capsule_reboot_notify(struct notifier_block *nb, unsigned long event, void *cmd) { mutex_lock(&capsule_mutex); stop_capsules = true; mutex_unlock(&capsule_mutex); return NOTIFY_DONE; }

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static struct notifier_block capsule_reboot_nb = { .notifier_call = capsule_reboot_notify, };
static int __init capsule_reboot_register(void) { return register_reboot_notifier(&capsule_reboot_nb); }

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core_initcall(capsule_reboot_register);

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