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'''PFS''' (Pseudo/Playstation File System) is the file system used by (at least) downloadable content and games on the PS4. It is loosely based on the [[wikipedia:UFS|UFS]] (Unix File System) used in FreeBSD. PFS typically uses a 64kB block size, although the block size is configurable and specified in the file system header. The minimum block size is 4kB, and the maximum is 32MiB; the block size must be a power of 2.
'''PFS''' (Playstation File System) is the file system used by (at least) downloadable content and games on the PS4. It is loosely based on the [[wikipedia:UFS|UFS]] (Unix File System) used in FreeBSD. PFS typically uses a 64kB block size, although the block size is configurable and specified in the file system header.


= Structure =
== Structure ==


There are four main sections in PFS:
There are four main sections in a Playstation File System:
* Header (superblock)
* Header (superblock)
* Inode blocks
* Inode blocks
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* Data blocks
* Data blocks


== Header/Superblock ==
=== Header/Superblock ===
 
{| class="wikitable"
{| class="wikitable"
! Offset !! Value !! Size !! Notes
! Offset !! Value !! Size !! Notes
|-
|-
| 0x00 || version || 0x8 || Always 1
| 0x00 || version || 0x8 || Should be 1
|-
|-
| 0x08 || format || 0x8 || Always 20130315
| 0x08 || magic || 0x8 || Should be 20130315
|-
|-
| 0x10 || id || 0x8 ||  
| 0x10 || id || 0x8 ||  
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| 0x1B || rsv || 0x1 ||  
| 0x1B || rsv || 0x1 ||  
|-
|-
| 0x1C || mode || 0x2 || Bit 0 = signed/unsigned, Bit 1 = 32/64 bit inodes
| 0x1C || mode || 0x2 ||  
|-
|-
| 0x1E || unknown || 0x2 ||  
| 0x1E || unknown || 0x2 ||  
|-
|-
| 0x20 || blocksz || 0x4 || The size of each block in the filesystem
| 0x20 || blocksz || 0x4 || The size of each block in the filesystem.
|-
|-
| 0x24 || nbackup || 0x4 || Seems to always be 0
| 0x24 || nbackup || 0x4 ||  
|-
|-
| 0x28 || nblock || 0x8 || Seems to always be 1
| 0x28 || nblock || 0x8 ||  
|-
|-
| 0x30 || ndinode || 0x8 || Number of inodes in the inode blocks
| 0x30 || ndinode || 0x8 || Number of inodes in the inode blocks
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| 0x48 || superroot_ino || 0x8 ||  
| 0x48 || superroot_ino || 0x8 ||  
|}
|}
<source lang="c">
<source lang="c">
typedef struct {
typedef struct {
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</source>
</source>


== Inodes ==
=== Inodes ===
 
Inode table starts at the second block and continues for <tt>header.ndinodeblock</tt> blocks.
Inode table starts at the second block and continues for <tt>header.ndinodeblock</tt> blocks.
There are only <tt>header.blocksz / sizeof(di_d32)</tt> inodes per block. (inodes will never cross a block boundary)
There are only <tt>header.blocksz / sizeof(di_d32)</tt> inodes per block. (inodes will never cross a block boundary)


For an explanation of inodes, direct and indirect blocks, see [[wikipedia:Inode_pointer_structure|inode pointer structure]] on Wikipedia. Most PFS images from PKGs have just one direct block pointer per file, and the file's data just takes up consecutive blocks. But if there is fragmentation on the file system, you will have to follow the direct and indirect block pointers.
For an explanation of inodes, direct and indirect blocks, see [[wikipedia:Inode_pointer_structure|inode pointer structure]] on Wikipedia. Most PFS images from PKGs have just one direct block pointer per file, and the file's data just takes up consecutive blocks. But if there is fragmentation on the file system, you will have to follow the direct and indirect block pointers.
There are actually 4 types of inodes that can be used in a PFS image, and the type is determined by the low two bits of the<tt>mode</tt> field in the superblock. Most PFS images that you see, such as pfs_image.dat, will be using mode 0, which refers to non-signed 32-bit inodes.
{| class="wikitable"
{| class="wikitable"
! Offset !! Value !! Size !! Notes
! Offset !! Value !! Size !! Notes
|-
|-
| 0x00 || mode|| 0x2 || Inode mode (bitwise OR of flags; file=0x8000, directory=0x4000), low 9 bits are file permissions
| 0x00 || mode|| 0x2 || Inode mode (bitwise OR of flags; file=0x8000, directory=0x4000)
|-
| 0x02 || nlink || 0x2 || Number of links to this inode. For files, this is 1. For dirs, this is 1 plus the number of subdirectories (the <tt>..</tt> entry links to the subdir's parent, increasing its <tt>nlink</tt> count).
|-
|-
| 0x04 || flags|| 0x4 || Bitfield of flags for compressed, readonly, etc.
| 0x02 || nlink || 0x2 ||  
|-
|-
| 0x08 || size || 0x8 || Size in bytes of the entity
| 0x04 || flags|| 0x4 ||  
|-
|-
| 0x10 || size_compressed || 0x8 || same as <tt>size</tt> for uncompressed PFS
| 0x08 || size || 0x8 ||  
|-
|-
| 0x18 || times|| 0x30 || Four 64-bit unix timestamps, followed by four 32-bit zeroes, which may be nanoseconds.
| 0x10 || unknown || 0x38 ||  
|-
|-
| 0x48 || uid|| 0x4 || User ID (zero for game PFS images at least)
| 0x48 || uid|| 0x4 ||  
|-
|-
| 0x4C || gid|| 0x4 || Group ID (zero for game PFS images at least)
| 0x4C || gid|| 0x4 ||  
|-
|-
| 0x50 || spare || 0x10 || Probably the same as di_spare, always 0
| 0x50 || unknown || 0x10 ||  
|-
|-
| 0x60 || blocks || 0x4 || Number of blocks occupied
| 0x60 || blocks || 0x4 || Number of blocks occupied
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| 0x94 || ib || 0x14 || Indirect blocks
| 0x94 || ib || 0x14 || Indirect blocks
|}
|}
<source lang="c">
<source lang="c">
typedef struct {
typedef struct {
     // bitfields are from LSB to MSB
     uint16 mode;
    struct {
        uint16 o_exec : 1;
        uint16 o_write : 1;
        uint16 o_read : 1;
        uint16 g_exec : 1;
        uint16 g_write : 1;
        uint16 g_read : 1;
        uint16 u_exec : 1;
        uint16 u_write : 1;
        uint16 u_read : 1;
        uint16 unk : 5;
        uint16 dir : 1;
        uint16 file : 1;
    } mode;
     uint16 nlink;
     uint16 nlink;
     struct {
     uint16 flags[2];
        uint compressed : 1;
        uint unk : 3;
        uint readonly : 1;
        uint unk2 : 12;
        uint internal : 1;
    } flags;
     uint64 size;
     uint64 size;
     uint64 size_compressed;
     char unk1[56];
    struct {
        uint64 unix_time[4];
        uint32 time_nsec[4];
    } times;
     uint32 uid;
     uint32 uid;
     uint32 gid;
     uint32 gid;
     uint64 spare[2];
     uint64 unk2[2];
     uint32 blocks;
     uint32 blocks;
     int32 db[12];
     int32 db[12];
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</source>
</source>


== Dirents ==
=== Dirents ===
 
Each inode with a mode OR'd with 0x4000 points to block(s) of dirents. Dirents contain the name and type of files, directories, symlinks, etc. Each directory will have an associated dirent block containing at least the '.' and '..' special files, along with all other files and sub-directories in that directory. Dirents are 8-byte aligned. The <tt>entsize</tt> value will say the total length of this dirent. There is typically padding after <tt>name</tt> which can just be skipped.
Each inode with a the <tt>mode.dir</tt> bit set (<tt>mode |= 0x4000</tt>) points to block(s) of dirents. Dirents contain the name and type of files, directories, symlinks, etc. Each directory will have an associated dirent block containing at least the '.' and '..' special files, along with all other files and sub-directories in that directory. Dirents are 8-byte aligned. The <tt>entsize</tt> value will say the total length of this dirent. There is typically padding after <tt>name</tt> which can just be skipped.


If the type of the dirent is 3, it is a directory. Its <tt>ino</tt> value indicates the inode number (0 being the first inode). That inode will point to the dirent block for that directory so you can continue down the file system tree.
If the type of the dirent is 3, it is a directory. Its <tt>ino</tt> value indicates the inode number (0 being the first inode). That inode will point to the dirent block for that directory so you can continue down the file system tree.
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| 0x00 || ino || 0x4 || Inode index
| 0x00 || ino || 0x4 || Inode index
|-
|-
| 0x04 || type|| 0x4 || Type of entry. 2=file, 3=directory, 4= . (link to current dir) , 5= .. (link to parent)
| 0x04 || type|| 0x4 || Type of entry. 2=file, 3=directory
|-
|-
| 0x08 || namelen|| 0x4 || Length of filename (add 1 for 0-terminator)
| 0x08 || namelen|| 0x4 || Length of filename (add 1 for 0-terminator)
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| 0x11 + namelen || padding || variable || Padding so this structure is exactly <tt>entsize</tt> bytes.
| 0x11 + namelen || padding || variable || Padding so this structure is exactly <tt>entsize</tt> bytes.
|}
|}
<source lang="c">
<source lang="c">
typedef struct {
typedef struct {
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</source>
</source>


== Finding the root ==
=== Finding the root ===
 
The filesystem tree starts with the superroot, a sort of meta-directory that contains the root directory within it, along with something called a "flat_path_table". The superroot's inode is typically the first (zeroeth) inode entry in the table, but you should check <tt>PFS_HDR.superroot_ino</tt> for the actual index. The true root of the filesystem is the "uroot" directory within the super root.
The filesystem tree starts with the superroot, a sort of meta-directory that contains the root directory within it, along with something called a "flat_path_table". The superroot's inode is typically the first (zeroeth) inode entry in the table, but you should check <tt>PFS_HDR.superroot_ino</tt> for the actual index. The true root of the filesystem is the "uroot" directory within the super root.


== flat_path_table ==
=== flat_path_table ===
 
The flat_path_table is a file located above the root directory on every PFS image. It is simply a mapping of filename hashes to inode number, to increase the lookup speed for files:
The flat_path_table is a file located above the root directory on every PFS image. It is simply a mapping of filename hashes to inode number, to increase the lookup speed for files:
<source lang="c">
<source lang="c">
typedef struct {
typedef struct {
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</source>
</source>


The hashes are sorted in ascending order in the file. The hash function is given below:
The filename hash is some 32-bit hashing function, or maybe even a truncation of a larger hash function. The hashes are sorted in ascending order in the file.
 
<source lang="c">
uint32_t fptbl_hash(const char* filename){
  int i;
  uint32_t hash = 0;
  for(i = 0; filename[i]; i++) {
    // convert character to uppercase
    char c = (filename[i] >= 'a' && filename[i] <= 'z') ? (filename[i] - 32) : filename[i];
    hash = c + 31 * hash;
  }
  return hash;
}
</source>


[https://www.google.com/patents/EP2878348A1?cl=en Patent explaining the flat path table]
[https://www.google.com/patents/EP2878348A1?cl=en Patent explaining the flat path table]


= Tools =
== Tools ==
* [https://github.com/maxton/GameArchives/releases/latest GameArchives/ArchiveExplorer by maxton] C# library/tool that supports opening and extracting from PFS images
* [https://github.com/maxton/GameArchives/releases/latest GameArchives/ArchiveExplorer] C# library/tool that supports opening and extracting from PFS images
* [https://github.com/maxton/MakePFS MakePFS by maxton] C# tool for creating PFS images
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