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/*
* kernel/power/tuxonice_prune.c
*
* Copyright (C) 2012 Nigel Cunningham (nigel at nigelcunningham com au)
*
* This file is released under the GPLv2.
*
* This file implements a TuxOnIce module that seeks to prune the
* amount of data written to disk. It builds a table of hashes
* of the uncompressed data, and writes the pfn of the previous page
* with the same contents instead of repeating the data when a match
* is found.
*/
#include <linux/suspend.h>
#include <linux/highmem.h>
#include <linux/vmalloc.h>
#include <linux/crypto.h>
#include <linux/scatterlist.h>
#include <crypto/hash.h>
#include "tuxonice_builtin.h"
#include "tuxonice.h"
#include "tuxonice_modules.h"
#include "tuxonice_sysfs.h"
#include "tuxonice_io.h"
#include "tuxonice_ui.h"
#include "tuxonice_alloc.h"
/*
* We never write a page bigger than PAGE_SIZE, so use a large number
* to indicate that data is a PFN.
*/
#define PRUNE_DATA_IS_PFN (PAGE_SIZE + 100)
static unsigned long toi_pruned_pages;
static struct toi_module_ops toi_prune_ops;
static struct toi_module_ops *next_driver;
static char toi_prune_hash_algo_name[32] = "sha1";
static DEFINE_MUTEX(stats_lock);
struct cpu_context {
struct shash_desc desc;
char *digest;
};
#define OUT_BUF_SIZE (2 * PAGE_SIZE)
static DEFINE_PER_CPU(struct cpu_context, contexts);
/*
* toi_crypto_prepare
*
* Prepare to do some work by allocating buffers and transforms.
*/
static int toi_prune_crypto_prepare(void)
{
int cpu, ret, digestsize;
if (!*toi_prune_hash_algo_name) {
printk(KERN_INFO "TuxOnIce: Pruning enabled but no "
"hash algorithm set.\n");
return 1;
}
for_each_online_cpu(cpu) {
struct cpu_context *this = &per_cpu(contexts, cpu);
this->desc.tfm = crypto_alloc_shash(toi_prune_hash_algo_name, 0, 0);
if (IS_ERR(this->desc.tfm)) {
printk(KERN_INFO "TuxOnIce: Failed to allocate the "
"%s prune hash algorithm.\n",
toi_prune_hash_algo_name);
this->desc.tfm = NULL;
return 1;
}
if (!digestsize)
digestsize = crypto_shash_digestsize(this->desc.tfm);
this->digest = kmalloc(digestsize, GFP_KERNEL);
if (!this->digest) {
printk(KERN_INFO "TuxOnIce: Failed to allocate space "
"for digest output.\n");
crypto_free_shash(this->desc.tfm);
this->desc.tfm = NULL;
}
this->desc.flags = 0;
ret = crypto_shash_init(&this->desc);
if (ret < 0) {
printk(KERN_INFO "TuxOnIce: Failed to initialise the "
"%s prune hash algorithm.\n",
toi_prune_hash_algo_name);
kfree(this->digest);
this->digest = NULL;
crypto_free_shash(this->desc.tfm);
this->desc.tfm = NULL;
return 1;
}
}
return 0;
}
static int toi_prune_rw_cleanup(int writing)
{
int cpu;
for_each_online_cpu(cpu) {
struct cpu_context *this = &per_cpu(contexts, cpu);
if (this->desc.tfm) {
crypto_free_shash(this->desc.tfm);
this->desc.tfm = NULL;
}
if (this->digest) {
kfree(this->digest);
this->digest = NULL;
}
}
return 0;
}
/*
* toi_prune_init
*/
static int toi_prune_init(int toi_or_resume)
{
if (!toi_or_resume)
return 0;
toi_pruned_pages = 0;
next_driver = toi_get_next_filter(&toi_prune_ops);
return next_driver ? 0 : -ECHILD;
}
/*
* toi_prune_rw_init()
*/
static int toi_prune_rw_init(int rw, int stream_number)
{
if (toi_prune_crypto_prepare()) {
printk(KERN_ERR "Failed to initialise prune "
"algorithm.\n");
if (rw == READ) {
printk(KERN_INFO "Unable to read the image.\n");
return -ENODEV;
} else {
printk(KERN_INFO "Continuing without "
"pruning the image.\n");
toi_prune_ops.enabled = 0;
}
}
return 0;
}
/*
* toi_prune_write_page()
*
* Compress a page of data, buffering output and passing on filled
* pages to the next module in the pipeline.
*
* Buffer_page: Pointer to a buffer of size PAGE_SIZE, containing
* data to be checked.
*
* Returns: 0 on success. Otherwise the error is that returned by later
* modules, -ECHILD if we have a broken pipeline or -EIO if
* zlib errs.
*/
static int toi_prune_write_page(unsigned long index, int buf_type,
void *buffer_page, unsigned int buf_size)
{
int ret = 0, cpu = smp_processor_id(), write_data = 1;
struct cpu_context *ctx = &per_cpu(contexts, cpu);
u8* output_buffer = buffer_page;
int output_len = buf_size;
int out_buf_type = buf_type;
void *buffer_start;
u32 buf[4];
if (ctx->desc.tfm) {
buffer_start = TOI_MAP(buf_type, buffer_page);
ctx->len = OUT_BUF_SIZE;
ret = crypto_shash_digest(&ctx->desc, buffer_start, buf_size, &ctx->digest);
if (ret) {
printk(KERN_INFO "TuxOnIce: Failed to calculate digest (%d).\n", ret);
} else {
mutex_lock(&stats_lock);
toi_pruned_pages++;
mutex_unlock(&stats_lock);
}
TOI_UNMAP(buf_type, buffer_page);
}
if (write_data)
ret = next_driver->write_page(index, out_buf_type,
output_buffer, output_len);
else
ret = next_driver->write_page(index, out_buf_type,
output_buffer, output_len);
return ret;
}
/*
* toi_prune_read_page()
* @buffer_page: struct page *. Pointer to a buffer of size PAGE_SIZE.
*
* Retrieve data from later modules or from a previously loaded page and
* fill the input buffer.
* Zero if successful. Error condition from me or from downstream on failure.
*/
static int toi_prune_read_page(unsigned long *index, int buf_type,
void *buffer_page, unsigned int *buf_size)
{
int ret, cpu = smp_processor_id();
unsigned int len;
char *buffer_start;
struct cpu_context *ctx = &per_cpu(contexts, cpu);
if (!ctx->desc.tfm)
return next_driver->read_page(index, TOI_PAGE, buffer_page,
buf_size);
/*
* All our reads must be synchronous - we can't handle
* data that hasn't been read yet.
*/
ret = next_driver->read_page(index, buf_type, buffer_page, &len);
if (len == PRUNE_DATA_IS_PFN) {
buffer_start = kmap(buffer_page);
}
return ret;
}
/*
* toi_prune_print_debug_stats
* @buffer: Pointer to a buffer into which the debug info will be printed.
* @size: Size of the buffer.
*
* Print information to be recorded for debugging purposes into a buffer.
* Returns: Number of characters written to the buffer.
*/
static int toi_prune_print_debug_stats(char *buffer, int size)
{
int len;
/* Output the number of pages pruned. */
if (*toi_prune_hash_algo_name)
len = scnprintf(buffer, size, "- Compressor is '%s'.\n",
toi_prune_hash_algo_name);
else
len = scnprintf(buffer, size, "- Compressor is not set.\n");
if (toi_pruned_pages)
len += scnprintf(buffer+len, size - len, " Pruned "
"%lu pages).\n",
toi_pruned_pages);
return len;
}
/*
* toi_prune_memory_needed
*
* Tell the caller how much memory we need to operate during hibernate/resume.
* Returns: Unsigned long. Maximum number of bytes of memory required for
* operation.
*/
static int toi_prune_memory_needed(void)
{
return 2 * PAGE_SIZE;
}
static int toi_prune_storage_needed(void)
{
return 2 * sizeof(unsigned long) + 2 * sizeof(int) +
strlen(toi_prune_hash_algo_name) + 1;
}
/*
* toi_prune_save_config_info
* @buffer: Pointer to a buffer of size PAGE_SIZE.
*
* Save informaton needed when reloading the image at resume time.
* Returns: Number of bytes used for saving our data.
*/
static int toi_prune_save_config_info(char *buffer)
{
int len = strlen(toi_prune_hash_algo_name) + 1, offset = 0;
*((unsigned long *) buffer) = toi_pruned_pages;
offset += sizeof(unsigned long);
*((int *) (buffer + offset)) = len;
offset += sizeof(int);
strncpy(buffer + offset, toi_prune_hash_algo_name, len);
return offset + len;
}
/* toi_prune_load_config_info
* @buffer: Pointer to the start of the data.
* @size: Number of bytes that were saved.
*
* Description: Reload information needed for passing back to the
* resumed kernel.
*/
static void toi_prune_load_config_info(char *buffer, int size)
{
int len, offset = 0;
toi_pruned_pages = *((unsigned long *) buffer);
offset += sizeof(unsigned long);
len = *((int *) (buffer + offset));
offset += sizeof(int);
strncpy(toi_prune_hash_algo_name, buffer + offset, len);
}
static void toi_prune_pre_atomic_restore(struct toi_boot_kernel_data *bkd)
{
bkd->pruned_pages = toi_pruned_pages;
}
static void toi_prune_post_atomic_restore(struct toi_boot_kernel_data *bkd)
{
toi_pruned_pages = bkd->pruned_pages;
}
/*
* toi_expected_ratio
*
* Description: Returns the expected ratio between data passed into this module
* and the amount of data output when writing.
* Returns: 100 - we have no idea how many pages will be pruned.
*/
static int toi_prune_expected_ratio(void)
{
return 100;
}
/*
* data for our sysfs entries.
*/
static struct toi_sysfs_data sysfs_params[] = {
SYSFS_INT("enabled", SYSFS_RW, &toi_prune_ops.enabled, 0, 1, 0,
NULL),
SYSFS_STRING("algorithm", SYSFS_RW, toi_prune_hash_algo_name, 31, 0, NULL),
};
/*
* Ops structure.
*/
static struct toi_module_ops toi_prune_ops = {
.type = FILTER_MODULE,
.name = "prune",
.directory = "prune",
.module = THIS_MODULE,
.initialise = toi_prune_init,
.memory_needed = toi_prune_memory_needed,
.print_debug_info = toi_prune_print_debug_stats,
.save_config_info = toi_prune_save_config_info,
.load_config_info = toi_prune_load_config_info,
.storage_needed = toi_prune_storage_needed,
.expected_compression = toi_prune_expected_ratio,
.pre_atomic_restore = toi_prune_pre_atomic_restore,
.post_atomic_restore = toi_prune_post_atomic_restore,
.rw_init = toi_prune_rw_init,
.rw_cleanup = toi_prune_rw_cleanup,
.write_page = toi_prune_write_page,
.read_page = toi_prune_read_page,
.sysfs_data = sysfs_params,
.num_sysfs_entries = sizeof(sysfs_params) /
sizeof(struct toi_sysfs_data),
};
/* ---- Registration ---- */
static __init int toi_prune_load(void)
{
return toi_register_module(&toi_prune_ops);
}
late_initcall(toi_prune_load);
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