diff options
author | André Fabian Silva Delgado <emulatorman@parabola.nu> | 2015-09-08 01:01:14 -0300 |
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committer | André Fabian Silva Delgado <emulatorman@parabola.nu> | 2015-09-08 01:01:14 -0300 |
commit | e5fd91f1ef340da553f7a79da9540c3db711c937 (patch) | |
tree | b11842027dc6641da63f4bcc524f8678263304a3 /kernel/power/tuxonice_io.c | |
parent | 2a9b0348e685a63d97486f6749622b61e9e3292f (diff) |
Linux-libre 4.2-gnu
Diffstat (limited to 'kernel/power/tuxonice_io.c')
-rw-r--r-- | kernel/power/tuxonice_io.c | 1932 |
1 files changed, 0 insertions, 1932 deletions
diff --git a/kernel/power/tuxonice_io.c b/kernel/power/tuxonice_io.c deleted file mode 100644 index 91b0c4fd0..000000000 --- a/kernel/power/tuxonice_io.c +++ /dev/null @@ -1,1932 +0,0 @@ -/* - * kernel/power/tuxonice_io.c - * - * Copyright (C) 1998-2001 Gabor Kuti <seasons@fornax.hu> - * Copyright (C) 1998,2001,2002 Pavel Machek <pavel@suse.cz> - * Copyright (C) 2002-2003 Florent Chabaud <fchabaud@free.fr> - * Copyright (C) 2002-2015 Nigel Cunningham (nigel at nigelcunningham com au) - * - * This file is released under the GPLv2. - * - * It contains high level IO routines for hibernating. - * - */ - -#include <linux/suspend.h> -#include <linux/version.h> -#include <linux/utsname.h> -#include <linux/mount.h> -#include <linux/highmem.h> -#include <linux/kthread.h> -#include <linux/cpu.h> -#include <linux/fs_struct.h> -#include <linux/bio.h> -#include <linux/fs_uuid.h> -#include <linux/kmod.h> -#include <asm/tlbflush.h> - -#include "tuxonice.h" -#include "tuxonice_modules.h" -#include "tuxonice_pageflags.h" -#include "tuxonice_io.h" -#include "tuxonice_ui.h" -#include "tuxonice_storage.h" -#include "tuxonice_prepare_image.h" -#include "tuxonice_extent.h" -#include "tuxonice_sysfs.h" -#include "tuxonice_builtin.h" -#include "tuxonice_checksum.h" -#include "tuxonice_alloc.h" -char alt_resume_param[256]; - -/* Version read from image header at resume */ -static int toi_image_header_version; - -#define read_if_version(VERS, VAR, DESC, ERR_ACT) do { \ - if (likely(toi_image_header_version >= VERS)) \ - if (toiActiveAllocator->rw_header_chunk(READ, NULL, \ - (char *) &VAR, sizeof(VAR))) { \ - abort_hibernate(TOI_FAILED_IO, "Failed to read DESC."); \ - ERR_ACT; \ - } \ -} while(0) \ - -/* Variables shared between threads and updated under the mutex */ -static int io_write, io_finish_at, io_base, io_barmax, io_pageset, io_result; -static int io_index, io_nextupdate, io_pc, io_pc_step; -static DEFINE_MUTEX(io_mutex); -static DEFINE_PER_CPU(struct page *, last_sought); -static DEFINE_PER_CPU(struct page *, last_high_page); -static DEFINE_PER_CPU(char *, checksum_locn); -static DEFINE_PER_CPU(struct pbe *, last_low_page); -static atomic_t io_count; -atomic_t toi_io_workers; - -static int using_flusher; - -DECLARE_WAIT_QUEUE_HEAD(toi_io_queue_flusher); - -int toi_bio_queue_flusher_should_finish; - -int toi_max_workers; - -static char *image_version_error = "The image header version is newer than " \ - "this kernel supports."; - -struct toi_module_ops *first_filter; - -static atomic_t toi_num_other_threads; -static DECLARE_WAIT_QUEUE_HEAD(toi_worker_wait_queue); -enum toi_worker_commands { - TOI_IO_WORKER_STOP, - TOI_IO_WORKER_RUN, - TOI_IO_WORKER_EXIT -}; -static enum toi_worker_commands toi_worker_command; - -/** - * toi_attempt_to_parse_resume_device - determine if we can hibernate - * - * Can we hibernate, using the current resume= parameter? - **/ -int toi_attempt_to_parse_resume_device(int quiet) -{ - struct list_head *Allocator; - struct toi_module_ops *thisAllocator; - int result, returning = 0; - - if (toi_activate_storage(0)) - return 0; - - toiActiveAllocator = NULL; - clear_toi_state(TOI_RESUME_DEVICE_OK); - clear_toi_state(TOI_CAN_RESUME); - clear_result_state(TOI_ABORTED); - - if (!toiNumAllocators) { - if (!quiet) - printk(KERN_INFO "TuxOnIce: No storage allocators have " - "been registered. Hibernating will be " - "disabled.\n"); - goto cleanup; - } - - list_for_each(Allocator, &toiAllocators) { - thisAllocator = list_entry(Allocator, struct toi_module_ops, - type_list); - - /* - * Not sure why you'd want to disable an allocator, but - * we should honour the flag if we're providing it - */ - if (!thisAllocator->enabled) - continue; - - result = thisAllocator->parse_sig_location( - resume_file, (toiNumAllocators == 1), - quiet); - - switch (result) { - case -EINVAL: - /* For this allocator, but not a valid - * configuration. Error already printed. */ - goto cleanup; - - case 0: - /* For this allocator and valid. */ - toiActiveAllocator = thisAllocator; - - set_toi_state(TOI_RESUME_DEVICE_OK); - set_toi_state(TOI_CAN_RESUME); - returning = 1; - goto cleanup; - } - } - if (!quiet) - printk(KERN_INFO "TuxOnIce: No matching enabled allocator " - "found. Resuming disabled.\n"); -cleanup: - toi_deactivate_storage(0); - return returning; -} - -void attempt_to_parse_resume_device2(void) -{ - toi_prepare_usm(); - toi_attempt_to_parse_resume_device(0); - toi_cleanup_usm(); -} - -void save_restore_alt_param(int replace, int quiet) -{ - static char resume_param_save[255]; - static unsigned long toi_state_save; - - if (replace) { - toi_state_save = toi_state; - strcpy(resume_param_save, resume_file); - strcpy(resume_file, alt_resume_param); - } else { - strcpy(resume_file, resume_param_save); - toi_state = toi_state_save; - } - toi_attempt_to_parse_resume_device(quiet); -} - -void attempt_to_parse_alt_resume_param(void) -{ - int ok = 0; - - /* Temporarily set resume_param to the poweroff value */ - if (!strlen(alt_resume_param)) - return; - - printk(KERN_INFO "=== Trying Poweroff Resume2 ===\n"); - save_restore_alt_param(SAVE, NOQUIET); - if (test_toi_state(TOI_CAN_RESUME)) - ok = 1; - - printk(KERN_INFO "=== Done ===\n"); - save_restore_alt_param(RESTORE, QUIET); - - /* If not ok, clear the string */ - if (ok) - return; - - printk(KERN_INFO "Can't resume from that location; clearing " - "alt_resume_param.\n"); - alt_resume_param[0] = '\0'; -} - -/** - * noresume_reset_modules - reset data structures in case of non resuming - * - * When we read the start of an image, modules (and especially the - * active allocator) might need to reset data structures if we - * decide to remove the image rather than resuming from it. - **/ -static void noresume_reset_modules(void) -{ - struct toi_module_ops *this_filter; - - list_for_each_entry(this_filter, &toi_filters, type_list) - if (this_filter->noresume_reset) - this_filter->noresume_reset(); - - if (toiActiveAllocator && toiActiveAllocator->noresume_reset) - toiActiveAllocator->noresume_reset(); -} - -/** - * fill_toi_header - fill the hibernate header structure - * @struct toi_header: Header data structure to be filled. - **/ -static int fill_toi_header(struct toi_header *sh) -{ - int i, error; - - error = init_header((struct swsusp_info *) sh); - if (error) - return error; - - sh->pagedir = pagedir1; - sh->pageset_2_size = pagedir2.size; - sh->param0 = toi_result; - sh->param1 = toi_bkd.toi_action; - sh->param2 = toi_bkd.toi_debug_state; - sh->param3 = toi_bkd.toi_default_console_level; - sh->root_fs = current->fs->root.mnt->mnt_sb->s_dev; - for (i = 0; i < 4; i++) - sh->io_time[i/2][i%2] = toi_bkd.toi_io_time[i/2][i%2]; - sh->bkd = boot_kernel_data_buffer; - return 0; -} - -/** - * rw_init_modules - initialize modules - * @rw: Whether we are reading of writing an image. - * @which: Section of the image being processed. - * - * Iterate over modules, preparing the ones that will be used to read or write - * data. - **/ -static int rw_init_modules(int rw, int which) -{ - struct toi_module_ops *this_module; - /* Initialise page transformers */ - list_for_each_entry(this_module, &toi_filters, type_list) { - if (!this_module->enabled) - continue; - if (this_module->rw_init && this_module->rw_init(rw, which)) { - abort_hibernate(TOI_FAILED_MODULE_INIT, - "Failed to initialize the %s filter.", - this_module->name); - return 1; - } - } - - /* Initialise allocator */ - if (toiActiveAllocator->rw_init(rw, which)) { - abort_hibernate(TOI_FAILED_MODULE_INIT, - "Failed to initialise the allocator."); - return 1; - } - - /* Initialise other modules */ - list_for_each_entry(this_module, &toi_modules, module_list) { - if (!this_module->enabled || - this_module->type == FILTER_MODULE || - this_module->type == WRITER_MODULE) - continue; - if (this_module->rw_init && this_module->rw_init(rw, which)) { - set_abort_result(TOI_FAILED_MODULE_INIT); - printk(KERN_INFO "Setting aborted flag due to module " - "init failure.\n"); - return 1; - } - } - - return 0; -} - -/** - * rw_cleanup_modules - cleanup modules - * @rw: Whether we are reading of writing an image. - * - * Cleanup components after reading or writing a set of pages. - * Only the allocator may fail. - **/ -static int rw_cleanup_modules(int rw) -{ - struct toi_module_ops *this_module; - int result = 0; - - /* Cleanup other modules */ - list_for_each_entry(this_module, &toi_modules, module_list) { - if (!this_module->enabled || - this_module->type == FILTER_MODULE || - this_module->type == WRITER_MODULE) - continue; - if (this_module->rw_cleanup) - result |= this_module->rw_cleanup(rw); - } - - /* Flush data and cleanup */ - list_for_each_entry(this_module, &toi_filters, type_list) { - if (!this_module->enabled) - continue; - if (this_module->rw_cleanup) - result |= this_module->rw_cleanup(rw); - } - - result |= toiActiveAllocator->rw_cleanup(rw); - - return result; -} - -static struct page *copy_page_from_orig_page(struct page *orig_page, int is_high) -{ - int index, min, max; - struct page *high_page = NULL, - **my_last_high_page = raw_cpu_ptr(&last_high_page), - **my_last_sought = raw_cpu_ptr(&last_sought); - struct pbe *this, **my_last_low_page = raw_cpu_ptr(&last_low_page); - void *compare; - - if (is_high) { - if (*my_last_sought && *my_last_high_page && - *my_last_sought < orig_page) - high_page = *my_last_high_page; - else - high_page = (struct page *) restore_highmem_pblist; - this = (struct pbe *) kmap(high_page); - compare = orig_page; - } else { - if (*my_last_sought && *my_last_low_page && - *my_last_sought < orig_page) - this = *my_last_low_page; - else - this = restore_pblist; - compare = page_address(orig_page); - } - - *my_last_sought = orig_page; - - /* Locate page containing pbe */ - while (this[PBES_PER_PAGE - 1].next && - this[PBES_PER_PAGE - 1].orig_address < compare) { - if (is_high) { - struct page *next_high_page = (struct page *) - this[PBES_PER_PAGE - 1].next; - kunmap(high_page); - this = kmap(next_high_page); - high_page = next_high_page; - } else - this = this[PBES_PER_PAGE - 1].next; - } - - /* Do a binary search within the page */ - min = 0; - max = PBES_PER_PAGE; - index = PBES_PER_PAGE / 2; - while (max - min) { - if (!this[index].orig_address || - this[index].orig_address > compare) - max = index; - else if (this[index].orig_address == compare) { - if (is_high) { - struct page *page = this[index].address; - *my_last_high_page = high_page; - kunmap(high_page); - return page; - } - *my_last_low_page = this; - return virt_to_page(this[index].address); - } else - min = index; - index = ((max + min) / 2); - }; - - if (is_high) - kunmap(high_page); - - abort_hibernate(TOI_FAILED_IO, "Failed to get destination page for" - " orig page %p. This[min].orig_address=%p.\n", orig_page, - this[index].orig_address); - return NULL; -} - -/** - * write_next_page - write the next page in a pageset - * @data_pfn: The pfn where the next data to write is located. - * @my_io_index: The index of the page in the pageset. - * @write_pfn: The pfn number to write in the image (where the data belongs). - * - * Get the pfn of the next page to write, map the page if necessary and do the - * write. - **/ -static int write_next_page(unsigned long *data_pfn, int *my_io_index, - unsigned long *write_pfn) -{ - struct page *page; - char **my_checksum_locn = raw_cpu_ptr(&checksum_locn); - int result = 0, was_present; - - *data_pfn = memory_bm_next_pfn(io_map, 0); - - /* Another thread could have beaten us to it. */ - if (*data_pfn == BM_END_OF_MAP) { - if (atomic_read(&io_count)) { - printk(KERN_INFO "Ran out of pfns but io_count is " - "still %d.\n", atomic_read(&io_count)); - BUG(); - } - mutex_unlock(&io_mutex); - return -ENODATA; - } - - *my_io_index = io_finish_at - atomic_sub_return(1, &io_count); - - memory_bm_clear_bit(io_map, 0, *data_pfn); - page = pfn_to_page(*data_pfn); - - was_present = kernel_page_present(page); - if (!was_present) - kernel_map_pages(page, 1, 1); - - if (io_pageset == 1) - *write_pfn = memory_bm_next_pfn(pageset1_map, 0); - else { - *write_pfn = *data_pfn; - *my_checksum_locn = tuxonice_get_next_checksum(); - } - - TOI_TRACE_DEBUG(*data_pfn, "_PS%d_write %d", io_pageset, *my_io_index); - - mutex_unlock(&io_mutex); - - if (io_pageset == 2 && tuxonice_calc_checksum(page, *my_checksum_locn)) - return 1; - - result = first_filter->write_page(*write_pfn, TOI_PAGE, page, - PAGE_SIZE); - - if (!was_present) - kernel_map_pages(page, 1, 0); - - return result; -} - -/** - * read_next_page - read the next page in a pageset - * @my_io_index: The index of the page in the pageset. - * @write_pfn: The pfn in which the data belongs. - * - * Read a page of the image into our buffer. It can happen (here and in the - * write routine) that threads don't get run until after other CPUs have done - * all the work. This was the cause of the long standing issue with - * occasionally getting -ENODATA errors at the end of reading the image. We - * therefore need to check there's actually a page to read before trying to - * retrieve one. - **/ - -static int read_next_page(int *my_io_index, unsigned long *write_pfn, - struct page *buffer) -{ - unsigned int buf_size = PAGE_SIZE; - unsigned long left = atomic_read(&io_count); - - if (!left) - return -ENODATA; - - /* Start off assuming the page we read isn't resaved */ - *my_io_index = io_finish_at - atomic_sub_return(1, &io_count); - - mutex_unlock(&io_mutex); - - /* - * Are we aborting? If so, don't submit any more I/O as - * resetting the resume_attempted flag (from ui.c) will - * clear the bdev flags, making this thread oops. - */ - if (unlikely(test_toi_state(TOI_STOP_RESUME))) { - atomic_dec(&toi_io_workers); - if (!atomic_read(&toi_io_workers)) { - /* - * So we can be sure we'll have memory for - * marking that we haven't resumed. - */ - rw_cleanup_modules(READ); - set_toi_state(TOI_IO_STOPPED); - } - while (1) - schedule(); - } - - /* - * See toi_bio_read_page in tuxonice_bio.c: - * read the next page in the image. - */ - return first_filter->read_page(write_pfn, TOI_PAGE, buffer, &buf_size); -} - -static void use_read_page(unsigned long write_pfn, struct page *buffer) -{ - struct page *final_page = pfn_to_page(write_pfn), - *copy_page = final_page; - char *virt, *buffer_virt; - int was_present, cpu = smp_processor_id(); - unsigned long idx = 0; - - if (io_pageset == 1 && (!pageset1_copy_map || - !memory_bm_test_bit(pageset1_copy_map, cpu, write_pfn))) { - int is_high = PageHighMem(final_page); - copy_page = copy_page_from_orig_page(is_high ? (void *) write_pfn : final_page, is_high); - } - - if (!memory_bm_test_bit(io_map, cpu, write_pfn)) { - int test = !memory_bm_test_bit(io_map, cpu, write_pfn); - toi_message(TOI_IO, TOI_VERBOSE, 0, "Discard %ld (%d).", write_pfn, test); - mutex_lock(&io_mutex); - idx = atomic_add_return(1, &io_count); - mutex_unlock(&io_mutex); - return; - } - - virt = kmap(copy_page); - buffer_virt = kmap(buffer); - was_present = kernel_page_present(copy_page); - if (!was_present) - kernel_map_pages(copy_page, 1, 1); - memcpy(virt, buffer_virt, PAGE_SIZE); - if (!was_present) - kernel_map_pages(copy_page, 1, 0); - kunmap(copy_page); - kunmap(buffer); - memory_bm_clear_bit(io_map, cpu, write_pfn); - TOI_TRACE_DEBUG(write_pfn, "_PS%d_read", io_pageset); -} - -static unsigned long status_update(int writing, unsigned long done, - unsigned long ticks) -{ - int cs_index = writing ? 0 : 1; - unsigned long ticks_so_far = toi_bkd.toi_io_time[cs_index][1] + ticks; - unsigned long msec = jiffies_to_msecs(abs(ticks_so_far)); - unsigned long pgs_per_s, estimate = 0, pages_left; - - if (msec) { - pages_left = io_barmax - done; - pgs_per_s = 1000 * done / msec; - if (pgs_per_s) - estimate = DIV_ROUND_UP(pages_left, pgs_per_s); - } - - if (estimate && ticks > HZ / 2) - return toi_update_status(done, io_barmax, - " %d/%d MB (%lu sec left)", - MB(done+1), MB(io_barmax), estimate); - - return toi_update_status(done, io_barmax, " %d/%d MB", - MB(done+1), MB(io_barmax)); -} - -/** - * worker_rw_loop - main loop to read/write pages - * - * The main I/O loop for reading or writing pages. The io_map bitmap is used to - * track the pages to read/write. - * If we are reading, the pages are loaded to their final (mapped) pfn. - * Data is non zero iff this is a thread started via start_other_threads. - * In that case, we stay in here until told to quit. - **/ -static int worker_rw_loop(void *data) -{ - unsigned long data_pfn, write_pfn, next_jiffies = jiffies + HZ / 4, - jif_index = 1, start_time = jiffies, thread_num; - int result = 0, my_io_index = 0, last_worker; - struct page *buffer = toi_alloc_page(28, TOI_ATOMIC_GFP); - cpumask_var_t orig_mask; - - if (!alloc_cpumask_var(&orig_mask, GFP_KERNEL)) { - printk(KERN_EMERG "Failed to allocate cpumask for TuxOnIce I/O thread %ld.\n", (unsigned long) data); - result = -ENOMEM; - goto out; - } - - cpumask_copy(orig_mask, tsk_cpus_allowed(current)); - - current->flags |= PF_NOFREEZE; - -top: - mutex_lock(&io_mutex); - thread_num = atomic_read(&toi_io_workers); - - cpumask_copy(tsk_cpus_allowed(current), orig_mask); - schedule(); - - atomic_inc(&toi_io_workers); - - while (atomic_read(&io_count) >= atomic_read(&toi_io_workers) && - !(io_write && test_result_state(TOI_ABORTED)) && - toi_worker_command == TOI_IO_WORKER_RUN) { - if (!thread_num && jiffies > next_jiffies) { - next_jiffies += HZ / 4; - if (toiActiveAllocator->update_throughput_throttle) - toiActiveAllocator->update_throughput_throttle( - jif_index); - jif_index++; - } - - /* - * What page to use? If reading, don't know yet which page's - * data will be read, so always use the buffer. If writing, - * use the copy (Pageset1) or original page (Pageset2), but - * always write the pfn of the original page. - */ - if (io_write) - result = write_next_page(&data_pfn, &my_io_index, - &write_pfn); - else /* Reading */ - result = read_next_page(&my_io_index, &write_pfn, - buffer); - - if (result) { - mutex_lock(&io_mutex); - /* Nothing to do? */ - if (result == -ENODATA) { - toi_message(TOI_IO, TOI_VERBOSE, 0, - "Thread %d has no more work.", - smp_processor_id()); - break; - } - - io_result = result; - - if (io_write) { - printk(KERN_INFO "Write chunk returned %d.\n", - result); - abort_hibernate(TOI_FAILED_IO, - "Failed to write a chunk of the " - "image."); - break; - } - - if (io_pageset == 1) { - printk(KERN_ERR "\nBreaking out of I/O loop " - "because of result code %d.\n", result); - break; - } - panic("Read chunk returned (%d)", result); - } - - /* - * Discard reads of resaved pages while reading ps2 - * and unwanted pages while rereading ps2 when aborting. - */ - if (!io_write) { - if (!PageResave(pfn_to_page(write_pfn))) - use_read_page(write_pfn, buffer); - else { - mutex_lock(&io_mutex); - toi_message(TOI_IO, TOI_VERBOSE, 0, - "Resaved %ld.", write_pfn); - atomic_inc(&io_count); - mutex_unlock(&io_mutex); - } - } - - if (!thread_num) { - if(my_io_index + io_base > io_nextupdate) - io_nextupdate = status_update(io_write, - my_io_index + io_base, - jiffies - start_time); - - if (my_io_index > io_pc) { - printk(KERN_CONT "...%d%%", 20 * io_pc_step); - io_pc_step++; - io_pc = io_finish_at * io_pc_step / 5; - } - } - - toi_cond_pause(0, NULL); - - /* - * Subtle: If there's less I/O still to be done than threads - * running, quit. This stops us doing I/O beyond the end of - * the image when reading. - * - * Possible race condition. Two threads could do the test at - * the same time; one should exit and one should continue. - * Therefore we take the mutex before comparing and exiting. - */ - - mutex_lock(&io_mutex); - } - - last_worker = atomic_dec_and_test(&toi_io_workers); - toi_message(TOI_IO, TOI_VERBOSE, 0, "%d workers left.", atomic_read(&toi_io_workers)); - mutex_unlock(&io_mutex); - - if ((unsigned long) data && toi_worker_command != TOI_IO_WORKER_EXIT) { - /* Were we the last thread and we're using a flusher thread? */ - if (last_worker && using_flusher) { - toiActiveAllocator->finish_all_io(); - } - /* First, if we're doing I/O, wait for it to finish */ - wait_event(toi_worker_wait_queue, toi_worker_command != TOI_IO_WORKER_RUN); - /* Then wait to be told what to do next */ - wait_event(toi_worker_wait_queue, toi_worker_command != TOI_IO_WORKER_STOP); - if (toi_worker_command == TOI_IO_WORKER_RUN) - goto top; - } - - if (thread_num) - atomic_dec(&toi_num_other_threads); - -out: - toi_message(TOI_IO, TOI_LOW, 0, "Thread %d exiting.", thread_num); - toi__free_page(28, buffer); - free_cpumask_var(orig_mask); - - return result; -} - -int toi_start_other_threads(void) -{ - int cpu; - struct task_struct *p; - int to_start = (toi_max_workers ? toi_max_workers : num_online_cpus()) - 1; - unsigned long num_started = 0; - - if (test_action_state(TOI_NO_MULTITHREADED_IO)) - return 0; - - toi_worker_command = TOI_IO_WORKER_STOP; - - for_each_online_cpu(cpu) { - if (num_started == to_start) - break; - - if (cpu == smp_processor_id()) - continue; - - p = kthread_create_on_node(worker_rw_loop, (void *) num_started + 1, - cpu_to_node(cpu), "ktoi_io/%d", cpu); - if (IS_ERR(p)) { - printk(KERN_ERR "ktoi_io for %i failed\n", cpu); - continue; - } - kthread_bind(p, cpu); - p->flags |= PF_MEMALLOC; - wake_up_process(p); - num_started++; - atomic_inc(&toi_num_other_threads); - } - - toi_message(TOI_IO, TOI_LOW, 0, "Started %d threads.", num_started); - return num_started; -} - -void toi_stop_other_threads(void) -{ - toi_message(TOI_IO, TOI_LOW, 0, "Stopping other threads."); - toi_worker_command = TOI_IO_WORKER_EXIT; - wake_up(&toi_worker_wait_queue); -} - -/** - * do_rw_loop - main highlevel function for reading or writing pages - * - * Create the io_map bitmap and call worker_rw_loop to perform I/O operations. - **/ -static int do_rw_loop(int write, int finish_at, struct memory_bitmap *pageflags, - int base, int barmax, int pageset) -{ - int index = 0, cpu, result = 0, workers_started; - unsigned long pfn, next; - - first_filter = toi_get_next_filter(NULL); - - if (!finish_at) - return 0; - - io_write = write; - io_finish_at = finish_at; - io_base = base; - io_barmax = barmax; - io_pageset = pageset; - io_index = 0; - io_pc = io_finish_at / 5; - io_pc_step = 1; - io_result = 0; - io_nextupdate = base + 1; - toi_bio_queue_flusher_should_finish = 0; - - for_each_online_cpu(cpu) { - per_cpu(last_sought, cpu) = NULL; - per_cpu(last_low_page, cpu) = NULL; - per_cpu(last_high_page, cpu) = NULL; - } - - /* Ensure all bits clear */ - memory_bm_clear(io_map); - - memory_bm_position_reset(io_map); - next = memory_bm_next_pfn(io_map, 0); - - BUG_ON(next != BM_END_OF_MAP); - - /* Set the bits for the pages to write */ - memory_bm_position_reset(pageflags); - - pfn = memory_bm_next_pfn(pageflags, 0); - toi_trace_index++; - - while (pfn != BM_END_OF_MAP && index < finish_at) { - TOI_TRACE_DEBUG(pfn, "_io_pageset_%d (%d/%d)", pageset, index + 1, finish_at); - memory_bm_set_bit(io_map, 0, pfn); - pfn = memory_bm_next_pfn(pageflags, 0); - index++; - } - - BUG_ON(next != BM_END_OF_MAP || index < finish_at); - - memory_bm_position_reset(io_map); - toi_trace_index++; - - atomic_set(&io_count, finish_at); - - memory_bm_position_reset(pageset1_map); - - mutex_lock(&io_mutex); - - clear_toi_state(TOI_IO_STOPPED); - - using_flusher = (atomic_read(&toi_num_other_threads) && - toiActiveAllocator->io_flusher && - !test_action_state(TOI_NO_FLUSHER_THREAD)); - - workers_started = atomic_read(&toi_num_other_threads); - - memory_bm_position_reset(io_map); - memory_bm_position_reset(pageset1_copy_map); - - toi_worker_command = TOI_IO_WORKER_RUN; - wake_up(&toi_worker_wait_queue); - - mutex_unlock(&io_mutex); - - if (using_flusher) - result = toiActiveAllocator->io_flusher(write); - else - worker_rw_loop(NULL); - - while (atomic_read(&toi_io_workers)) - schedule(); - - printk(KERN_CONT "\n"); - - toi_worker_command = TOI_IO_WORKER_STOP; - wake_up(&toi_worker_wait_queue); - - if (unlikely(test_toi_state(TOI_STOP_RESUME))) { - if (!atomic_read(&toi_io_workers)) { - rw_cleanup_modules(READ); - set_toi_state(TOI_IO_STOPPED); - } - while (1) - schedule(); - } - set_toi_state(TOI_IO_STOPPED); - - if (!io_result && !result && !test_result_state(TOI_ABORTED)) { - unsigned long next; - - toi_update_status(io_base + io_finish_at, io_barmax, - " %d/%d MB ", - MB(io_base + io_finish_at), MB(io_barmax)); - - memory_bm_position_reset(io_map); - next = memory_bm_next_pfn(io_map, 0); - if (next != BM_END_OF_MAP) { - printk(KERN_INFO "Finished I/O loop but still work to " - "do?\nFinish at = %d. io_count = %d.\n", - finish_at, atomic_read(&io_count)); - printk(KERN_INFO "I/O bitmap still records work to do." - "%ld.\n", next); - BUG(); - do { - cpu_relax(); - } while (0); - } - } - - return io_result ? io_result : result; -} - -/** - * write_pageset - write a pageset to disk. - * @pagedir: Which pagedir to write. - * - * Returns: - * Zero on success or -1 on failure. - **/ -int write_pageset(struct pagedir *pagedir) -{ - int finish_at, base = 0; - int barmax = pagedir1.size + pagedir2.size; - long error = 0; - struct memory_bitmap *pageflags; - unsigned long start_time, end_time; - - /* - * Even if there is nothing to read or write, the allocator - * may need the init/cleanup for it's housekeeping. (eg: - * Pageset1 may start where pageset2 ends when writing). - */ - finish_at = pagedir->size; - - if (pagedir->id == 1) { - toi_prepare_status(DONT_CLEAR_BAR, - "Writing kernel & process data..."); - base = pagedir2.size; - if (test_action_state(TOI_TEST_FILTER_SPEED) || - test_action_state(TOI_TEST_BIO)) - pageflags = pageset1_map; - else - pageflags = pageset1_copy_map; - } else { - toi_prepare_status(DONT_CLEAR_BAR, "Writing caches..."); - pageflags = pageset2_map; - } - - start_time = jiffies; - - if (rw_init_modules(WRITE, pagedir->id)) { - abort_hibernate(TOI_FAILED_MODULE_INIT, - "Failed to initialise modules for writing."); - error = 1; - } - - if (!error) - error = do_rw_loop(WRITE, finish_at, pageflags, base, barmax, - pagedir->id); - - if (rw_cleanup_modules(WRITE) && !error) { - abort_hibernate(TOI_FAILED_MODULE_CLEANUP, - "Failed to cleanup after writing."); - error = 1; - } - - end_time = jiffies; - - if ((end_time - start_time) && (!test_result_state(TOI_ABORTED))) { - toi_bkd.toi_io_time[0][0] += finish_at, - toi_bkd.toi_io_time[0][1] += (end_time - start_time); - } - - return error; -} - -/** - * read_pageset - highlevel function to read a pageset from disk - * @pagedir: pageset to read - * @overwrittenpagesonly: Whether to read the whole pageset or - * only part of it. - * - * Returns: - * Zero on success or -1 on failure. - **/ -static int read_pageset(struct pagedir *pagedir, int overwrittenpagesonly) -{ - int result = 0, base = 0; - int finish_at = pagedir->size; - int barmax = pagedir1.size + pagedir2.size; - struct memory_bitmap *pageflags; - unsigned long start_time, end_time; - - if (pagedir->id == 1) { - toi_prepare_status(DONT_CLEAR_BAR, - "Reading kernel & process data..."); - pageflags = pageset1_map; - } else { - toi_prepare_status(DONT_CLEAR_BAR, "Reading caches..."); - if (overwrittenpagesonly) { - barmax = min(pagedir1.size, pagedir2.size); - finish_at = min(pagedir1.size, pagedir2.size); - } else - base = pagedir1.size; - pageflags = pageset2_map; - } - - start_time = jiffies; - - if (rw_init_modules(READ, pagedir->id)) { - toiActiveAllocator->remove_image(); - result = 1; - } else - result = do_rw_loop(READ, finish_at, pageflags, base, barmax, - pagedir->id); - - if (rw_cleanup_modules(READ) && !result) { - abort_hibernate(TOI_FAILED_MODULE_CLEANUP, - "Failed to cleanup after reading."); - result = 1; - } - - /* Statistics */ - end_time = jiffies; - - if ((end_time - start_time) && (!test_result_state(TOI_ABORTED))) { - toi_bkd.toi_io_time[1][0] += finish_at, - toi_bkd.toi_io_time[1][1] += (end_time - start_time); - } - - return result; -} - -/** - * write_module_configs - store the modules configuration - * - * The configuration for each module is stored in the image header. - * Returns: Int - * Zero on success, Error value otherwise. - **/ -static int write_module_configs(void) -{ - struct toi_module_ops *this_module; - char *buffer = (char *) toi_get_zeroed_page(22, TOI_ATOMIC_GFP); - int len, index = 1; - struct toi_module_header toi_module_header; - - if (!buffer) { - printk(KERN_INFO "Failed to allocate a buffer for saving " - "module configuration info.\n"); - return -ENOMEM; - } - - /* - * We have to know which data goes with which module, so we at - * least write a length of zero for a module. Note that we are - * also assuming every module's config data takes <= PAGE_SIZE. - */ - - /* For each module (in registration order) */ - list_for_each_entry(this_module, &toi_modules, module_list) { - if (!this_module->enabled || !this_module->storage_needed || - (this_module->type == WRITER_MODULE && - toiActiveAllocator != this_module)) - continue; - - /* Get the data from the module */ - len = 0; - if (this_module->save_config_info) - len = this_module->save_config_info(buffer); - - /* Save the details of the module */ - toi_module_header.enabled = this_module->enabled; - toi_module_header.type = this_module->type; - toi_module_header.index = index++; - strncpy(toi_module_header.name, this_module->name, - sizeof(toi_module_header.name)); - toiActiveAllocator->rw_header_chunk(WRITE, - this_module, - (char *) &toi_module_header, - sizeof(toi_module_header)); - - /* Save the size of the data and any data returned */ - toiActiveAllocator->rw_header_chunk(WRITE, - this_module, - (char *) &len, sizeof(int)); - if (len) - toiActiveAllocator->rw_header_chunk( - WRITE, this_module, buffer, len); - } - - /* Write a blank header to terminate the list */ - toi_module_header.name[0] = '\0'; - toiActiveAllocator->rw_header_chunk(WRITE, NULL, - (char *) &toi_module_header, sizeof(toi_module_header)); - - toi_free_page(22, (unsigned long) buffer); - return 0; -} - -/** - * read_one_module_config - read and configure one module - * - * Read the configuration for one module, and configure the module - * to match if it is loaded. - * - * Returns: Int - * Zero on success, Error value otherwise. - **/ -static int read_one_module_config(struct toi_module_header *header) -{ - struct toi_module_ops *this_module; - int result, len; - char *buffer; - - /* Find the module */ - this_module = toi_find_module_given_name(header->name); - - if (!this_module) { - if (header->enabled) { - toi_early_boot_message(1, TOI_CONTINUE_REQ, - "It looks like we need module %s for reading " - "the image but it hasn't been registered.\n", - header->name); - if (!(test_toi_state(TOI_CONTINUE_REQ))) - return -EINVAL; - } else - printk(KERN_INFO "Module %s configuration data found, " - "but the module hasn't registered. Looks like " - "it was disabled, so we're ignoring its data.", - header->name); - } - - /* Get the length of the data (if any) */ - result = toiActiveAllocator->rw_header_chunk(READ, NULL, (char *) &len, - sizeof(int)); - if (result) { - printk(KERN_ERR "Failed to read the length of the module %s's" - " configuration data.\n", - header->name); - return -EINVAL; - } - - /* Read any data and pass to the module (if we found one) */ - if (!len) - return 0; - - buffer = (char *) toi_get_zeroed_page(23, TOI_ATOMIC_GFP); - - if (!buffer) { - printk(KERN_ERR "Failed to allocate a buffer for reloading " - "module configuration info.\n"); - return -ENOMEM; - } - - toiActiveAllocator->rw_header_chunk(READ, NULL, buffer, len); - - if (!this_module) - goto out; - - if (!this_module->save_config_info) - printk(KERN_ERR "Huh? Module %s appears to have a " - "save_config_info, but not a load_config_info " - "function!\n", this_module->name); - else - this_module->load_config_info(buffer, len); - - /* - * Now move this module to the tail of its lists. This will put it in - * order. Any new modules will end up at the top of the lists. They - * should have been set to disabled when loaded (people will - * normally not edit an initrd to load a new module and then hibernate - * without using it!). - */ - - toi_move_module_tail(this_module); - - this_module->enabled = header->enabled; - -out: - toi_free_page(23, (unsigned long) buffer); - return 0; -} - -/** - * read_module_configs - reload module configurations from the image header. - * - * Returns: Int - * Zero on success or an error code. - **/ -static int read_module_configs(void) -{ - int result = 0; - struct toi_module_header toi_module_header; - struct toi_module_ops *this_module; - - /* All modules are initially disabled. That way, if we have a module - * loaded now that wasn't loaded when we hibernated, it won't be used - * in trying to read the data. - */ - list_for_each_entry(this_module, &toi_modules, module_list) - this_module->enabled = 0; - - /* Get the first module header */ - result = toiActiveAllocator->rw_header_chunk(READ, NULL, - (char *) &toi_module_header, - sizeof(toi_module_header)); - if (result) { - printk(KERN_ERR "Failed to read the next module header.\n"); - return -EINVAL; - } - - /* For each module (in registration order) */ - while (toi_module_header.name[0]) { - result = read_one_module_config(&toi_module_header); - - if (result) - return -EINVAL; - - /* Get the next module header */ - result = toiActiveAllocator->rw_header_chunk(READ, NULL, - (char *) &toi_module_header, - sizeof(toi_module_header)); - - if (result) { - printk(KERN_ERR "Failed to read the next module " - "header.\n"); - return -EINVAL; - } - } - - return 0; -} - -static inline int save_fs_info(struct fs_info *fs, struct block_device *bdev) -{ - return (!fs || IS_ERR(fs) || !fs->last_mount_size) ? 0 : 1; -} - -int fs_info_space_needed(void) -{ - const struct super_block *sb; - int result = sizeof(int); - - list_for_each_entry(sb, &super_blocks, s_list) { - struct fs_info *fs; - - if (!sb->s_bdev) - continue; - - fs = fs_info_from_block_dev(sb->s_bdev); - if (save_fs_info(fs, sb->s_bdev)) - result += 16 + sizeof(dev_t) + sizeof(int) + - fs->last_mount_size; - free_fs_info(fs); - } - return result; -} - -static int fs_info_num_to_save(void) -{ - const struct super_block *sb; - int to_save = 0; - - list_for_each_entry(sb, &super_blocks, s_list) { - struct fs_info *fs; - - if (!sb->s_bdev) - continue; - - fs = fs_info_from_block_dev(sb->s_bdev); - if (save_fs_info(fs, sb->s_bdev)) - to_save++; - free_fs_info(fs); - } - - return to_save; -} - -static int fs_info_save(void) -{ - const struct super_block *sb; - int to_save = fs_info_num_to_save(); - - if (toiActiveAllocator->rw_header_chunk(WRITE, NULL, (char *) &to_save, - sizeof(int))) { - abort_hibernate(TOI_FAILED_IO, "Failed to write num fs_info" - " to save."); - return -EIO; - } - - list_for_each_entry(sb, &super_blocks, s_list) { - struct fs_info *fs; - - if (!sb->s_bdev) - continue; - - fs = fs_info_from_block_dev(sb->s_bdev); - if (save_fs_info(fs, sb->s_bdev)) { - if (toiActiveAllocator->rw_header_chunk(WRITE, NULL, - &fs->uuid[0], 16)) { - abort_hibernate(TOI_FAILED_IO, "Failed to " - "write uuid."); - return -EIO; - } - if (toiActiveAllocator->rw_header_chunk(WRITE, NULL, - (char *) &fs->dev_t, sizeof(dev_t))) { - abort_hibernate(TOI_FAILED_IO, "Failed to " - "write dev_t."); - return -EIO; - } - if (toiActiveAllocator->rw_header_chunk(WRITE, NULL, - (char *) &fs->last_mount_size, sizeof(int))) { - abort_hibernate(TOI_FAILED_IO, "Failed to " - "write last mount length."); - return -EIO; - } - if (toiActiveAllocator->rw_header_chunk(WRITE, NULL, - fs->last_mount, fs->last_mount_size)) { - abort_hibernate(TOI_FAILED_IO, "Failed to " - "write uuid."); - return -EIO; - } - } - free_fs_info(fs); - } - return 0; -} - -static int fs_info_load_and_check_one(void) -{ - char uuid[16], *last_mount; - int result = 0, ln; - dev_t dev_t; - struct block_device *dev; - struct fs_info *fs_info, seek; - - if (toiActiveAllocator->rw_header_chunk(READ, NULL, uuid, 16)) { - abort_hibernate(TOI_FAILED_IO, "Failed to read uuid."); - return -EIO; - } - - read_if_version(3, dev_t, "uuid dev_t field", return -EIO); - - if (toiActiveAllocator->rw_header_chunk(READ, NULL, (char *) &ln, - sizeof(int))) { - abort_hibernate(TOI_FAILED_IO, - "Failed to read last mount size."); - return -EIO; - } - - last_mount = kzalloc(ln, GFP_KERNEL); - - if (!last_mount) - return -ENOMEM; - - if (toiActiveAllocator->rw_header_chunk(READ, NULL, last_mount, ln)) { - abort_hibernate(TOI_FAILED_IO, - "Failed to read last mount timestamp."); - result = -EIO; - goto out_lmt; - } - - strncpy((char *) &seek.uuid, uuid, 16); - seek.dev_t = dev_t; - seek.last_mount_size = ln; - seek.last_mount = last_mount; - dev_t = blk_lookup_fs_info(&seek); - if (!dev_t) - goto out_lmt; - - dev = toi_open_by_devnum(dev_t); - - fs_info = fs_info_from_block_dev(dev); - if (fs_info && !IS_ERR(fs_info)) { - if (ln != fs_info->last_mount_size) { - printk(KERN_EMERG "Found matching uuid but last mount " - "time lengths differ?! " - "(%d vs %d).\n", ln, - fs_info->last_mount_size); - result = -EINVAL; - } else { - char buf[BDEVNAME_SIZE]; - result = !!memcmp(fs_info->last_mount, last_mount, ln); - if (result) - printk(KERN_EMERG "Last mount time for %s has " - "changed!\n", bdevname(dev, buf)); - } - } - toi_close_bdev(dev); - free_fs_info(fs_info); -out_lmt: - kfree(last_mount); - return result; -} - -static int fs_info_load_and_check(void) -{ - int to_do, result = 0; - - if (toiActiveAllocator->rw_header_chunk(READ, NULL, (char *) &to_do, - sizeof(int))) { - abort_hibernate(TOI_FAILED_IO, "Failed to read num fs_info " - "to load."); - return -EIO; - } - - while(to_do--) - result |= fs_info_load_and_check_one(); - - return result; -} - -/** - * write_image_header - write the image header after write the image proper - * - * Returns: Int - * Zero on success, error value otherwise. - **/ -int write_image_header(void) -{ - int ret; - int total = pagedir1.size + pagedir2.size+2; - char *header_buffer = NULL; - - /* Now prepare to write the header */ - ret = toiActiveAllocator->write_header_init(); - if (ret) { - abort_hibernate(TOI_FAILED_MODULE_INIT, - "Active allocator's write_header_init" - " function failed."); - goto write_image_header_abort; - } - - /* Get a buffer */ - header_buffer = (char *) toi_get_zeroed_page(24, TOI_ATOMIC_GFP); - if (!header_buffer) { - abort_hibernate(TOI_OUT_OF_MEMORY, - "Out of memory when trying to get page for header!"); - goto write_image_header_abort; - } - - /* Write hibernate header */ - if (fill_toi_header((struct toi_header *) header_buffer)) { - abort_hibernate(TOI_OUT_OF_MEMORY, - "Failure to fill header information!"); - goto write_image_header_abort; - } - - if (toiActiveAllocator->rw_header_chunk(WRITE, NULL, - header_buffer, sizeof(struct toi_header))) { - abort_hibernate(TOI_OUT_OF_MEMORY, - "Failure to write header info."); - goto write_image_header_abort; - } - - if (toiActiveAllocator->rw_header_chunk(WRITE, NULL, - (char *) &toi_max_workers, sizeof(toi_max_workers))) { - abort_hibernate(TOI_OUT_OF_MEMORY, - "Failure to number of workers to use."); - goto write_image_header_abort; - } - - /* Write filesystem info */ - if (fs_info_save()) - goto write_image_header_abort; - - /* Write module configurations */ - ret = write_module_configs(); - if (ret) { - abort_hibernate(TOI_FAILED_IO, - "Failed to write module configs."); - goto write_image_header_abort; - } - - if (memory_bm_write(pageset1_map, - toiActiveAllocator->rw_header_chunk)) { - abort_hibernate(TOI_FAILED_IO, - "Failed to write bitmaps."); - goto write_image_header_abort; - } - - /* Flush data and let allocator cleanup */ - if (toiActiveAllocator->write_header_cleanup()) { - abort_hibernate(TOI_FAILED_IO, - "Failed to cleanup writing header."); - goto write_image_header_abort_no_cleanup; - } - - if (test_result_state(TOI_ABORTED)) - goto write_image_header_abort_no_cleanup; - - toi_update_status(total, total, NULL); - -out: - if (header_buffer) - toi_free_page(24, (unsigned long) header_buffer); - return ret; - -write_image_header_abort: - toiActiveAllocator->write_header_cleanup(); -write_image_header_abort_no_cleanup: - ret = -1; - goto out; -} - -/** - * sanity_check - check the header - * @sh: the header which was saved at hibernate time. - * - * Perform a few checks, seeking to ensure that the kernel being - * booted matches the one hibernated. They need to match so we can - * be _sure_ things will work. It is not absolutely impossible for - * resuming from a different kernel to work, just not assured. - **/ -static char *sanity_check(struct toi_header *sh) -{ - char *reason = check_image_kernel((struct swsusp_info *) sh); - - if (reason) - return reason; - - if (!test_action_state(TOI_IGNORE_ROOTFS)) { - const struct super_block *sb; - list_for_each_entry(sb, &super_blocks, s_list) { - if ((!(sb->s_flags & MS_RDONLY)) && - (sb->s_type->fs_flags & FS_REQUIRES_DEV)) - return "Device backed fs has been mounted " - "rw prior to resume or initrd/ramfs " - "is mounted rw."; - } - } - - return NULL; -} - -static DECLARE_WAIT_QUEUE_HEAD(freeze_wait); - -#define FREEZE_IN_PROGRESS (~0) - -static int freeze_result; - -static void do_freeze(struct work_struct *dummy) -{ - freeze_result = freeze_processes(); - wake_up(&freeze_wait); - trap_non_toi_io = 1; -} - -static DECLARE_WORK(freeze_work, do_freeze); - -/** - * __read_pageset1 - test for the existence of an image and attempt to load it - * - * Returns: Int - * Zero if image found and pageset1 successfully loaded. - * Error if no image found or loaded. - **/ -static int __read_pageset1(void) -{ - int i, result = 0; - char *header_buffer = (char *) toi_get_zeroed_page(25, TOI_ATOMIC_GFP), - *sanity_error = NULL; - struct toi_header *toi_header; - - if (!header_buffer) { - printk(KERN_INFO "Unable to allocate a page for reading the " - "signature.\n"); - return -ENOMEM; - } - - /* Check for an image */ - result = toiActiveAllocator->image_exists(1); - if (result == 3) { - result = -ENODATA; - toi_early_boot_message(1, 0, "The signature from an older " - "version of TuxOnIce has been detected."); - goto out_remove_image; - } - - if (result != 1) { - result = -ENODATA; - noresume_reset_modules(); - printk(KERN_INFO "TuxOnIce: No image found.\n"); - goto out; - } - - /* - * Prepare the active allocator for reading the image header. The - * activate allocator might read its own configuration. - * - * NB: This call may never return because there might be a signature - * for a different image such that we warn the user and they choose - * to reboot. (If the device ids look erroneous (2.4 vs 2.6) or the - * location of the image might be unavailable if it was stored on a - * network connection). - */ - - result = toiActiveAllocator->read_header_init(); - if (result) { - printk(KERN_INFO "TuxOnIce: Failed to initialise, reading the " - "image header.\n"); - goto out_remove_image; - } - - /* Check for noresume command line option */ - if (test_toi_state(TOI_NORESUME_SPECIFIED)) { - printk(KERN_INFO "TuxOnIce: Noresume on command line. Removed " - "image.\n"); - goto out_remove_image; - } - - /* Check whether we've resumed before */ - if (test_toi_state(TOI_RESUMED_BEFORE)) { - toi_early_boot_message(1, 0, NULL); - if (!(test_toi_state(TOI_CONTINUE_REQ))) { - printk(KERN_INFO "TuxOnIce: Tried to resume before: " - "Invalidated image.\n"); - goto out_remove_image; - } - } - - clear_toi_state(TOI_CONTINUE_REQ); - - toi_image_header_version = toiActiveAllocator->get_header_version(); - - if (unlikely(toi_image_header_version > TOI_HEADER_VERSION)) { - toi_early_boot_message(1, 0, image_version_error); - if (!(test_toi_state(TOI_CONTINUE_REQ))) { - printk(KERN_INFO "TuxOnIce: Header version too new: " - "Invalidated image.\n"); - goto out_remove_image; - } - } - - /* Read hibernate header */ - result = toiActiveAllocator->rw_header_chunk(READ, NULL, - header_buffer, sizeof(struct toi_header)); - if (result < 0) { - printk(KERN_ERR "TuxOnIce: Failed to read the image " - "signature.\n"); - goto out_remove_image; - } - - toi_header = (struct toi_header *) header_buffer; - - /* - * NB: This call may also result in a reboot rather than returning. - */ - - sanity_error = sanity_check(toi_header); - if (sanity_error) { - toi_early_boot_message(1, TOI_CONTINUE_REQ, - sanity_error); - printk(KERN_INFO "TuxOnIce: Sanity check failed.\n"); - goto out_remove_image; - } - - /* - * We have an image and it looks like it will load okay. - * - * Get metadata from header. Don't override commandline parameters. - * - * We don't need to save the image size limit because it's not used - * during resume and will be restored with the image anyway. - */ - - memcpy((char *) &pagedir1, - (char *) &toi_header->pagedir, sizeof(pagedir1)); - toi_result = toi_header->param0; - if (!toi_bkd.toi_debug_state) { - toi_bkd.toi_action = - (toi_header->param1 & ~toi_bootflags_mask) | - (toi_bkd.toi_action & toi_bootflags_mask); - toi_bkd.toi_debug_state = toi_header->param2; - toi_bkd.toi_default_console_level = toi_header->param3; - } - clear_toi_state(TOI_IGNORE_LOGLEVEL); - pagedir2.size = toi_header->pageset_2_size; - for (i = 0; i < 4; i++) - toi_bkd.toi_io_time[i/2][i%2] = - toi_header->io_time[i/2][i%2]; - - set_toi_state(TOI_BOOT_KERNEL); - boot_kernel_data_buffer = toi_header->bkd; - - read_if_version(1, toi_max_workers, "TuxOnIce max workers", - goto out_remove_image); - - /* Read filesystem info */ - if (fs_info_load_and_check()) { - printk(KERN_EMERG "TuxOnIce: File system mount time checks " - "failed. Refusing to corrupt your filesystems!\n"); - goto out_remove_image; - } - - /* Read module configurations */ - result = read_module_configs(); - if (result) { - pagedir1.size = 0; - pagedir2.size = 0; - printk(KERN_INFO "TuxOnIce: Failed to read TuxOnIce module " - "configurations.\n"); - clear_action_state(TOI_KEEP_IMAGE); - goto out_remove_image; - } - - toi_prepare_console(); - - set_toi_state(TOI_NOW_RESUMING); - - result = pm_notifier_call_chain(PM_RESTORE_PREPARE); - if (result) - goto out_notifier_call_chain;; - - if (usermodehelper_disable()) - goto out_enable_usermodehelper; - - current->flags |= PF_NOFREEZE; - freeze_result = FREEZE_IN_PROGRESS; - - schedule_work_on(cpumask_first(cpu_online_mask), &freeze_work); - - toi_cond_pause(1, "About to read original pageset1 locations."); - - /* - * See _toi_rw_header_chunk in tuxonice_bio.c: - * Initialize pageset1_map by reading the map from the image. - */ - if (memory_bm_read(pageset1_map, toiActiveAllocator->rw_header_chunk)) - goto out_thaw; - - /* - * See toi_rw_cleanup in tuxonice_bio.c: - * Clean up after reading the header. - */ - result = toiActiveAllocator->read_header_cleanup(); - if (result) { - printk(KERN_ERR "TuxOnIce: Failed to cleanup after reading the " - "image header.\n"); - goto out_thaw; - } - - toi_cond_pause(1, "About to read pagedir."); - - /* - * Get the addresses of pages into which we will load the kernel to - * be copied back and check if they conflict with the ones we are using. - */ - if (toi_get_pageset1_load_addresses()) { - printk(KERN_INFO "TuxOnIce: Failed to get load addresses for " - "pageset1.\n"); - goto out_thaw; - } - - /* Read the original kernel back */ - toi_cond_pause(1, "About to read pageset 1."); - - /* Given the pagemap, read back the data from disk */ - if (read_pageset(&pagedir1, 0)) { - toi_prepare_status(DONT_CLEAR_BAR, "Failed to read pageset 1."); - result = -EIO; - goto out_thaw; - } - - toi_cond_pause(1, "About to restore original kernel."); - result = 0; - - if (!toi_keeping_image && - toiActiveAllocator->mark_resume_attempted) - toiActiveAllocator->mark_resume_attempted(1); - - wait_event(freeze_wait, freeze_result != FREEZE_IN_PROGRESS); -out: - current->flags &= ~PF_NOFREEZE; - toi_free_page(25, (unsigned long) header_buffer); - return result; - -out_thaw: - wait_event(freeze_wait, freeze_result != FREEZE_IN_PROGRESS); - trap_non_toi_io = 0; - thaw_processes(); -out_enable_usermodehelper: - usermodehelper_enable(); -out_notifier_call_chain: - pm_notifier_call_chain(PM_POST_RESTORE); - toi_cleanup_console(); -out_remove_image: - result = -EINVAL; - if (!toi_keeping_image) - toiActiveAllocator->remove_image(); - toiActiveAllocator->read_header_cleanup(); - noresume_reset_modules(); - goto out; -} - -/** - * read_pageset1 - highlevel function to read the saved pages - * - * Attempt to read the header and pageset1 of a hibernate image. - * Handle the outcome, complaining where appropriate. - **/ -int read_pageset1(void) -{ - int error; - - error = __read_pageset1(); - - if (error && error != -ENODATA && error != -EINVAL && - !test_result_state(TOI_ABORTED)) - abort_hibernate(TOI_IMAGE_ERROR, - "TuxOnIce: Error %d resuming\n", error); - - return error; -} - -/** - * get_have_image_data - check the image header - **/ -static char *get_have_image_data(void) -{ - char *output_buffer = (char *) toi_get_zeroed_page(26, TOI_ATOMIC_GFP); - struct toi_header *toi_header; - - if (!output_buffer) { - printk(KERN_INFO "Output buffer null.\n"); - return NULL; - } - - /* Check for an image */ - if (!toiActiveAllocator->image_exists(1) || - toiActiveAllocator->read_header_init() || - toiActiveAllocator->rw_header_chunk(READ, NULL, - output_buffer, sizeof(struct toi_header))) { - sprintf(output_buffer, "0\n"); - /* - * From an initrd/ramfs, catting have_image and - * getting a result of 0 is sufficient. - */ - clear_toi_state(TOI_BOOT_TIME); - goto out; - } - - toi_header = (struct toi_header *) output_buffer; - - sprintf(output_buffer, "1\n%s\n%s\n", - toi_header->uts.machine, - toi_header->uts.version); - - /* Check whether we've resumed before */ - if (test_toi_state(TOI_RESUMED_BEFORE)) - strcat(output_buffer, "Resumed before.\n"); - -out: - noresume_reset_modules(); - return output_buffer; -} - -/** - * read_pageset2 - read second part of the image - * @overwrittenpagesonly: Read only pages which would have been - * verwritten by pageset1? - * - * Read in part or all of pageset2 of an image, depending upon - * whether we are hibernating and have only overwritten a portion - * with pageset1 pages, or are resuming and need to read them - * all. - * - * Returns: Int - * Zero if no error, otherwise the error value. - **/ -int read_pageset2(int overwrittenpagesonly) -{ - int result = 0; - - if (!pagedir2.size) - return 0; - - result = read_pageset(&pagedir2, overwrittenpagesonly); - - toi_cond_pause(1, "Pagedir 2 read."); - - return result; -} - -/** - * image_exists_read - has an image been found? - * @page: Output buffer - * - * Store 0 or 1 in page, depending on whether an image is found. - * Incoming buffer is PAGE_SIZE and result is guaranteed - * to be far less than that, so we don't worry about - * overflow. - **/ -int image_exists_read(const char *page, int count) -{ - int len = 0; - char *result; - - if (toi_activate_storage(0)) - return count; - - if (!test_toi_state(TOI_RESUME_DEVICE_OK)) - toi_attempt_to_parse_resume_device(0); - - if (!toiActiveAllocator) { - len = sprintf((char *) page, "-1\n"); - } else { - result = get_have_image_data(); - if (result) { - len = sprintf((char *) page, "%s", result); - toi_free_page(26, (unsigned long) result); - } - } - - toi_deactivate_storage(0); - - return len; -} - -/** - * image_exists_write - invalidate an image if one exists - **/ -int image_exists_write(const char *buffer, int count) -{ - if (toi_activate_storage(0)) - return count; - - if (toiActiveAllocator && toiActiveAllocator->image_exists(1)) - toiActiveAllocator->remove_image(); - - toi_deactivate_storage(0); - - clear_result_state(TOI_KEPT_IMAGE); - - return count; -} |