fs/incfs/data_mgmt.h - LeafOS-Devices/android_kernel_samsung_gta4xl - Gitiles

 /* SPDX-License-Identifier: GPL-2.0 */
 /*
  * Copyright 2019 Google LLC
  */
 #ifndef _INCFS_DATA_MGMT_H
 #define _INCFS_DATA_MGMT_H

 #include <linux/cred.h>
 #include <linux/fs.h>
 #include <linux/types.h>
 #include <linux/mutex.h>
 #include <linux/spinlock.h>
 #include <linux/completion.h>
 #include <linux/wait.h>
 #include <crypto/hash.h>

 #include <uapi/linux/incrementalfs.h>

 #include "internal.h"

 #define SEGMENTS_PER_FILE 3

 enum LOG_RECORD_TYPE {
 	FULL,
 	SAME_FILE,
 	SAME_FILE_NEXT_BLOCK,
 	SAME_FILE_NEXT_BLOCK_SHORT,
 };

 struct full_record {
 	enum LOG_RECORD_TYPE type : 2; /* FULL */
 	u32 block_index : 30;
 	incfs_uuid_t file_id;
 	u64 absolute_ts_us;
 } __packed; /* 28 bytes */

 struct same_file_record {
 	enum LOG_RECORD_TYPE type : 2; /* SAME_FILE */
 	u32 block_index : 30;
 	u32 relative_ts_us; /* max 2^32 us ~= 1 hour (1:11:30) */
 } __packed; /* 12 bytes */

 struct same_file_next_block {
 	enum LOG_RECORD_TYPE type : 2; /* SAME_FILE_NEXT_BLOCK */
 	u32 relative_ts_us : 30; /* max 2^30 us ~= 15 min (17:50) */
 } __packed; /* 4 bytes */

 struct same_file_next_block_short {
 	enum LOG_RECORD_TYPE type : 2; /* SAME_FILE_NEXT_BLOCK_SHORT */
 	u16 relative_ts_us : 14; /* max 2^14 us ~= 16 ms */
 } __packed; /* 2 bytes */

 union log_record {
 	struct full_record full_record;
 	struct same_file_record same_file_record;
 	struct same_file_next_block same_file_next_block;
 	struct same_file_next_block_short same_file_next_block_short;
 };

 struct read_log_state {
 	/* Log buffer generation id, incremented on configuration changes */
 	u32 generation_id;

 	/* Offset in rl_ring_buf to write into. */
 	u32 next_offset;

 	/* Current number of writer passes over rl_ring_buf */
 	u32 current_pass_no;

 	/* Current full_record to diff against */
 	struct full_record base_record;

 	/* Current record number counting from configuration change */
 	u64 current_record_no;
 };

 /* A ring buffer to save records about data blocks which were recently read. */
 struct read_log {
 	void *rl_ring_buf;

 	int rl_size;

 	struct read_log_state rl_head;

 	struct read_log_state rl_tail;

 	/* A lock to protect the above fields */
 	spinlock_t rl_lock;

 	/* A queue of waiters who want to be notified about reads */
 	wait_queue_head_t ml_notif_wq;

 	/* A work item to wake up those waiters without slowing down readers */
 	struct delayed_work ml_wakeup_work;
 };

 struct mount_options {
 	unsigned int read_timeout_ms;
 	unsigned int readahead_pages;
 	unsigned int read_log_pages;
 	unsigned int read_log_wakeup_count;
 	bool no_backing_file_cache;
 	bool no_backing_file_readahead;
 };

 struct mount_info {
 	struct super_block *mi_sb;

 	struct path mi_backing_dir_path;

 	struct dentry *mi_index_dir;
 	/* For stacking mounts, if true, this indicates if the index dir needs
 	 * to be freed for this SB otherwise it was created by lower level SB */
 	bool mi_index_free;

 	const struct cred *mi_owner;

 	struct mount_options mi_options;

 	/* This mutex is to be taken before create, rename, delete */
 	struct mutex mi_dir_struct_mutex;

 	/*
 	 * A queue of waiters who want to be notified about new pending reads.
 	 */
 	wait_queue_head_t mi_pending_reads_notif_wq;

 	/*
 	 * Protects:
 	 *  - reads_list_head
 	 *  - mi_pending_reads_count
 	 *  - mi_last_pending_read_number
 	 *  - data_file_segment.reads_list_head
 	 */
 	struct mutex mi_pending_reads_mutex;

 	/* List of active pending_read objects */
 	struct list_head mi_reads_list_head;

 	/* Total number of items in reads_list_head */
 	int mi_pending_reads_count;

 	/*
 	 * Last serial number that was assigned to a pending read.
 	 * 0 means no pending reads have been seen yet.
 	 */
 	int mi_last_pending_read_number;

 	/* Temporary buffer for read logger. */
 	struct read_log mi_log;

 	void *log_xattr;
 	size_t log_xattr_size;

 	void *pending_read_xattr;
 	size_t pending_read_xattr_size;
 };

 struct data_file_block {
 	loff_t db_backing_file_data_offset;

 	size_t db_stored_size;

 	enum incfs_compression_alg db_comp_alg;
 };

 struct pending_read {
 	incfs_uuid_t file_id;

 	s64 timestamp_us;

 	atomic_t done;

 	int block_index;

 	int serial_number;

 	struct list_head mi_reads_list;

 	struct list_head segment_reads_list;
 };

 struct data_file_segment {
 	wait_queue_head_t new_data_arrival_wq;

 	/* Protects reads and writes from the blockmap */
 	/* Good candidate for read/write mutex */
 	struct mutex blockmap_mutex;

 	/* List of active pending_read objects belonging to this segment */
 	/* Protected by mount_info.pending_reads_mutex */
 	struct list_head reads_list_head;
 };

 /*
  * Extra info associated with a file. Just a few bytes set by a user.
  */
 struct file_attr {
 	loff_t fa_value_offset;

 	size_t fa_value_size;

 	u32 fa_crc;
 };


 struct data_file {
 	struct backing_file_context *df_backing_file_context;

 	struct mount_info *df_mount_info;

 	incfs_uuid_t df_id;

 	/*
 	 * Array of segments used to reduce lock contention for the file.
 	 * Segment is chosen for a block depends on the block's index.
 	 */
 	struct data_file_segment df_segments[SEGMENTS_PER_FILE];

 	/* Base offset of the first metadata record. */
 	loff_t df_metadata_off;

 	/* Base offset of the block map. */
 	loff_t df_blockmap_off;

 	/* File size in bytes */
 	loff_t df_size;

 	/* File header flags */
 	u32 df_header_flags;

 	/* File size in DATA_FILE_BLOCK_SIZE blocks */
 	int df_data_block_count;

 	/* Total number of blocks, data + hash */
 	int df_total_block_count;

 	struct file_attr n_attr;

 	struct mtree *df_hash_tree;

 	struct incfs_df_signature *df_signature;
 };

 struct dir_file {
 	struct mount_info *mount_info;

 	struct file *backing_dir;
 };

 struct inode_info {
 	struct mount_info *n_mount_info; /* A mount, this file belongs to */

 	struct inode *n_backing_inode;

 	struct data_file *n_file;

 	struct inode n_vfs_inode;
 };

 struct dentry_info {
 	struct path backing_path;
 };

 struct mount_info *incfs_alloc_mount_info(struct super_block *sb,
 					  struct mount_options *options,
 					  struct path *backing_dir_path);

 int incfs_realloc_mount_info(struct mount_info *mi,
 			     struct mount_options *options);

 void incfs_free_mount_info(struct mount_info *mi);

 struct data_file *incfs_open_data_file(struct mount_info *mi, struct file *bf);
 void incfs_free_data_file(struct data_file *df);

 int incfs_scan_metadata_chain(struct data_file *df);

 struct dir_file *incfs_open_dir_file(struct mount_info *mi, struct file *bf);
 void incfs_free_dir_file(struct dir_file *dir);

 ssize_t incfs_read_data_file_block(struct mem_range dst, struct file *f,
 				   int index, int timeout_ms,
 				   struct mem_range tmp);

 int incfs_get_filled_blocks(struct data_file *df,
 			    struct incfs_get_filled_blocks_args *arg);

 int incfs_read_file_signature(struct data_file *df, struct mem_range dst);

 int incfs_process_new_data_block(struct data_file *df,
 				 struct incfs_fill_block *block, u8 *data);

 int incfs_process_new_hash_block(struct data_file *df,
 				 struct incfs_fill_block *block, u8 *data);

 bool incfs_fresh_pending_reads_exist(struct mount_info *mi, int last_number);

 /*
  * Collects pending reads and saves them into the array (reads/reads_size).
  * Only reads with serial_number > sn_lowerbound are reported.
  * Returns how many reads were saved into the array.
  */
 int incfs_collect_pending_reads(struct mount_info *mi, int sn_lowerbound,
 				struct incfs_pending_read_info *reads,
 				int reads_size);

 int incfs_collect_logged_reads(struct mount_info *mi,
 			       struct read_log_state *start_state,
 			       struct incfs_pending_read_info *reads,
 			       int reads_size);
 struct read_log_state incfs_get_log_state(struct mount_info *mi);
 int incfs_get_uncollected_logs_count(struct mount_info *mi,
 				     const struct read_log_state *state);

 static inline struct inode_info *get_incfs_node(struct inode *inode)
 {
 	if (!inode)
 		return NULL;

 	if (inode->i_sb->s_magic != (long) INCFS_MAGIC_NUMBER) {
 		/* This inode doesn't belong to us. */
 		pr_warn_once("incfs: %s on an alien inode.", __func__);
 		return NULL;
 	}

 	return container_of(inode, struct inode_info, n_vfs_inode);
 }

 static inline struct data_file *get_incfs_data_file(struct file *f)
 {
 	struct inode_info *node = NULL;

 	if (!f)
 		return NULL;

 	if (!S_ISREG(f->f_inode->i_mode))
 		return NULL;

 	node = get_incfs_node(f->f_inode);
 	if (!node)
 		return NULL;

 	return node->n_file;
 }

 static inline struct dir_file *get_incfs_dir_file(struct file *f)
 {
 	if (!f)
 		return NULL;

 	if (!S_ISDIR(f->f_inode->i_mode))
 		return NULL;

 	return (struct dir_file *)f->private_data;
 }

 /*
  * Make sure that inode_info.n_file is initialized and inode can be used
  * for reading and writing data from/to the backing file.
  */
 int make_inode_ready_for_data_ops(struct mount_info *mi,
 				struct inode *inode,
 				struct file *backing_file);

 static inline struct dentry_info *get_incfs_dentry(const struct dentry *d)
 {
 	if (!d)
 		return NULL;

 	return (struct dentry_info *)d->d_fsdata;
 }

 static inline void get_incfs_backing_path(const struct dentry *d,
 					  struct path *path)
 {
 	struct dentry_info *di = get_incfs_dentry(d);

 	if (!di) {
 		*path = (struct path) {};
 		return;
 	}

 	*path = di->backing_path;
 	path_get(path);
 }

 static inline int get_blocks_count_for_size(u64 size)
 {
 	if (size == 0)
 		return 0;
 	return 1 + (size - 1) / INCFS_DATA_FILE_BLOCK_SIZE;
 }

 bool incfs_equal_ranges(struct mem_range lhs, struct mem_range rhs);

 #endif /* _INCFS_DATA_MGMT_H */
	/* SPDX-License-Identifier: GPL-2.0 */
	/*
	* Copyright 2019 Google LLC
	*/
	#ifndef _INCFS_DATA_MGMT_H
	#define _INCFS_DATA_MGMT_H

	#include <linux/cred.h>
	#include <linux/fs.h>
	#include <linux/types.h>
	#include <linux/mutex.h>
	#include <linux/spinlock.h>
	#include <linux/completion.h>
	#include <linux/wait.h>
	#include <crypto/hash.h>

	#include <uapi/linux/incrementalfs.h>

	#include "internal.h"

	#define SEGMENTS_PER_FILE 3

	enum LOG_RECORD_TYPE {
	FULL,
	SAME_FILE,
	SAME_FILE_NEXT_BLOCK,
	SAME_FILE_NEXT_BLOCK_SHORT,
	};

	struct full_record {
	enum LOG_RECORD_TYPE type : 2; /* FULL */
	u32 block_index : 30;
	incfs_uuid_t file_id;
	u64 absolute_ts_us;
	} __packed; /* 28 bytes */

	struct same_file_record {
	enum LOG_RECORD_TYPE type : 2; /* SAME_FILE */
	u32 block_index : 30;
	u32 relative_ts_us; /* max 2^32 us ~= 1 hour (1:11:30) */
	} __packed; /* 12 bytes */

	struct same_file_next_block {
	enum LOG_RECORD_TYPE type : 2; /* SAME_FILE_NEXT_BLOCK */
	u32 relative_ts_us : 30; /* max 2^30 us ~= 15 min (17:50) */
	} __packed; /* 4 bytes */

	struct same_file_next_block_short {
	enum LOG_RECORD_TYPE type : 2; /* SAME_FILE_NEXT_BLOCK_SHORT */
	u16 relative_ts_us : 14; /* max 2^14 us ~= 16 ms */
	} __packed; /* 2 bytes */

	union log_record {
	struct full_record full_record;
	struct same_file_record same_file_record;
	struct same_file_next_block same_file_next_block;
	struct same_file_next_block_short same_file_next_block_short;
	};

	struct read_log_state {
	/* Log buffer generation id, incremented on configuration changes */
	u32 generation_id;

	/* Offset in rl_ring_buf to write into. */
	u32 next_offset;

	/* Current number of writer passes over rl_ring_buf */
	u32 current_pass_no;

	/* Current full_record to diff against */
	struct full_record base_record;

	/* Current record number counting from configuration change */
	u64 current_record_no;
	};

	/* A ring buffer to save records about data blocks which were recently read. */
	struct read_log {
	void *rl_ring_buf;

	int rl_size;

	struct read_log_state rl_head;

	struct read_log_state rl_tail;

	/* A lock to protect the above fields */
	spinlock_t rl_lock;

	/* A queue of waiters who want to be notified about reads */
	wait_queue_head_t ml_notif_wq;

	/* A work item to wake up those waiters without slowing down readers */
	struct delayed_work ml_wakeup_work;
	};

	struct mount_options {
	unsigned int read_timeout_ms;
	unsigned int readahead_pages;
	unsigned int read_log_pages;
	unsigned int read_log_wakeup_count;
	bool no_backing_file_cache;
	bool no_backing_file_readahead;
	};

	struct mount_info {
	struct super_block *mi_sb;

	struct path mi_backing_dir_path;

	struct dentry *mi_index_dir;
	/* For stacking mounts, if true, this indicates if the index dir needs
	* to be freed for this SB otherwise it was created by lower level SB */
	bool mi_index_free;

	const struct cred *mi_owner;

	struct mount_options mi_options;

	/* This mutex is to be taken before create, rename, delete */
	struct mutex mi_dir_struct_mutex;

	/*
	* A queue of waiters who want to be notified about new pending reads.
	*/
	wait_queue_head_t mi_pending_reads_notif_wq;

	/*
	* Protects:
	* - reads_list_head
	* - mi_pending_reads_count
	* - mi_last_pending_read_number
	* - data_file_segment.reads_list_head
	*/
	struct mutex mi_pending_reads_mutex;

	/* List of active pending_read objects */
	struct list_head mi_reads_list_head;

	/* Total number of items in reads_list_head */
	int mi_pending_reads_count;

	/*
	* Last serial number that was assigned to a pending read.
	* 0 means no pending reads have been seen yet.
	*/
	int mi_last_pending_read_number;

	/* Temporary buffer for read logger. */
	struct read_log mi_log;

	void *log_xattr;
	size_t log_xattr_size;

	void *pending_read_xattr;
	size_t pending_read_xattr_size;
	};

	struct data_file_block {
	loff_t db_backing_file_data_offset;

	size_t db_stored_size;

	enum incfs_compression_alg db_comp_alg;
	};

	struct pending_read {
	incfs_uuid_t file_id;

	s64 timestamp_us;

	atomic_t done;

	int block_index;

	int serial_number;

	struct list_head mi_reads_list;

	struct list_head segment_reads_list;
	};

	struct data_file_segment {
	wait_queue_head_t new_data_arrival_wq;

	/* Protects reads and writes from the blockmap */
	/* Good candidate for read/write mutex */
	struct mutex blockmap_mutex;

	/* List of active pending_read objects belonging to this segment */
	/* Protected by mount_info.pending_reads_mutex */
	struct list_head reads_list_head;
	};

	/*
	* Extra info associated with a file. Just a few bytes set by a user.
	*/
	struct file_attr {
	loff_t fa_value_offset;

	size_t fa_value_size;

	u32 fa_crc;
	};


	struct data_file {
	struct backing_file_context *df_backing_file_context;

	struct mount_info *df_mount_info;

	incfs_uuid_t df_id;

	/*
	* Array of segments used to reduce lock contention for the file.
	* Segment is chosen for a block depends on the block's index.
	*/
	struct data_file_segment df_segments[SEGMENTS_PER_FILE];

	/* Base offset of the first metadata record. */
	loff_t df_metadata_off;

	/* Base offset of the block map. */
	loff_t df_blockmap_off;

	/* File size in bytes */
	loff_t df_size;

	/* File header flags */
	u32 df_header_flags;

	/* File size in DATA_FILE_BLOCK_SIZE blocks */
	int df_data_block_count;

	/* Total number of blocks, data + hash */
	int df_total_block_count;

	struct file_attr n_attr;

	struct mtree *df_hash_tree;

	struct incfs_df_signature *df_signature;
	};

	struct dir_file {
	struct mount_info *mount_info;

	struct file *backing_dir;
	};

	struct inode_info {
	struct mount_info n_mount_info; / A mount, this file belongs to */

	struct inode *n_backing_inode;

	struct data_file *n_file;

	struct inode n_vfs_inode;
	};

	struct dentry_info {
	struct path backing_path;
	};

	struct mount_info incfs_alloc_mount_info(struct super_block sb,
	struct mount_options *options,
	struct path *backing_dir_path);

	int incfs_realloc_mount_info(struct mount_info *mi,
	struct mount_options *options);

	void incfs_free_mount_info(struct mount_info *mi);

	struct data_file incfs_open_data_file(struct mount_info mi, struct file *bf);
	void incfs_free_data_file(struct data_file *df);

	int incfs_scan_metadata_chain(struct data_file *df);

	struct dir_file incfs_open_dir_file(struct mount_info mi, struct file *bf);
	void incfs_free_dir_file(struct dir_file *dir);

	ssize_t incfs_read_data_file_block(struct mem_range dst, struct file *f,
	int index, int timeout_ms,
	struct mem_range tmp);

	int incfs_get_filled_blocks(struct data_file *df,
	struct incfs_get_filled_blocks_args *arg);

	int incfs_read_file_signature(struct data_file *df, struct mem_range dst);

	int incfs_process_new_data_block(struct data_file *df,
	struct incfs_fill_block block, u8 data);

	int incfs_process_new_hash_block(struct data_file *df,
	struct incfs_fill_block block, u8 data);

	bool incfs_fresh_pending_reads_exist(struct mount_info *mi, int last_number);

	/*
	* Collects pending reads and saves them into the array (reads/reads_size).
	* Only reads with serial_number > sn_lowerbound are reported.
	* Returns how many reads were saved into the array.
	*/
	int incfs_collect_pending_reads(struct mount_info *mi, int sn_lowerbound,
	struct incfs_pending_read_info *reads,
	int reads_size);

	int incfs_collect_logged_reads(struct mount_info *mi,
	struct read_log_state *start_state,
	struct incfs_pending_read_info *reads,
	int reads_size);
	struct read_log_state incfs_get_log_state(struct mount_info *mi);
	int incfs_get_uncollected_logs_count(struct mount_info *mi,
	const struct read_log_state *state);

	static inline struct inode_info get_incfs_node(struct inode inode)
	{
	if (!inode)
	return NULL;

	if (inode->i_sb->s_magic != (long) INCFS_MAGIC_NUMBER) {
	/* This inode doesn't belong to us. */
	pr_warn_once("incfs: %s on an alien inode.", __func__);
	return NULL;
	}

	return container_of(inode, struct inode_info, n_vfs_inode);
	}

	static inline struct data_file get_incfs_data_file(struct file f)
	{
	struct inode_info *node = NULL;

	if (!f)
	return NULL;

	if (!S_ISREG(f->f_inode->i_mode))
	return NULL;

	node = get_incfs_node(f->f_inode);
	if (!node)
	return NULL;

	return node->n_file;
	}

	static inline struct dir_file get_incfs_dir_file(struct file f)
	{
	if (!f)
	return NULL;

	if (!S_ISDIR(f->f_inode->i_mode))
	return NULL;

	return (struct dir_file *)f->private_data;
	}

	/*
	* Make sure that inode_info.n_file is initialized and inode can be used
	* for reading and writing data from/to the backing file.
	*/
	int make_inode_ready_for_data_ops(struct mount_info *mi,
	struct inode *inode,
	struct file *backing_file);

	static inline struct dentry_info get_incfs_dentry(const struct dentry d)
	{
	if (!d)
	return NULL;

	return (struct dentry_info *)d->d_fsdata;
	}

	static inline void get_incfs_backing_path(const struct dentry *d,
	struct path *path)
	{
	struct dentry_info *di = get_incfs_dentry(d);

	if (!di) {
	*path = (struct path) {};
	return;
	}

	*path = di->backing_path;
	path_get(path);
	}

	static inline int get_blocks_count_for_size(u64 size)
	{
	if (size == 0)
	return 0;
	return 1 + (size - 1) / INCFS_DATA_FILE_BLOCK_SIZE;
	}

	bool incfs_equal_ranges(struct mem_range lhs, struct mem_range rhs);

	#endif /* _INCFS_DATA_MGMT_H */