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Since iPhone OS 3.1, all system (private and public) libraries have been combined into a big cache file to improve performance. The original files are redundant and thus eliminated from the system.

If you're looking for binaries or libraries inside of /System/Library/Frameworks or /System/Library/PrivateFrameworks (or other directories) and can't, this is why.

As of iOS 13.5 application code is now in frameworks in the shared cache. The binaries you see in /Applications or /private/var/staged_system_apps are now just shims so if you attempt to class-dump them it will error no ObjC section found.

OS X also uses a shared cache. Unlike iOS, OS X ships with the source binaries still on-disk, particularly so it can be updated with update_dyld_shared_cache. The cache is only vaguely documented in dyld man pages.

Cache location

The cache is located in /System/Library/Caches/com.apple.dyld/dyld_shared_cache_armX, where X can be:

X Device ARM Architecture
v6 ARMv6
v7 ARMv7
64 ARMv8
64e ARMv8.3

Cache extraction

It used to be possible to compile and link from an iOS device without an SDK, but the introduction of dyld_shared_cache has made using an SDK a necessity. Alternatively, one may need to extract the appropriate dylibs from the dyld_shared_cache, if it's not available in the SDK.

Starting with iOS 8, the framework binaries shipped with the iOS SDK only contain the symbols, not the compiled code anymore. Binaries extracted from the dyld_shared_cache contain all compiled code and are therefore useful for reverse-engineering purposes.


  • dyld_decache by KennyTM~ to extract these dylibs.
  • DySlim by comex to mount the whole cache file on Mac OS X.
  • decache by phoenixdev to nearly perfectly extract dylibs from iOS <= 6 cache file.
  • dsc_extractor (source code). More info here. It produces the best results among all tools, but without branch islands workaround.
  • jtool is another option starting from iOS 8.
  • yasce by comex is/was the best option for iOS 8 (and above), but you will need a nightly build version of rust; something like "rustc 1.9.0-nightly (339a409bf 2016-03-01)".
  • dyld_cache_extract by macmade that works on macOS and provides a complete GUI. Clone repo and do 'git submodule update --remote' before buidling. It was reported to be not working on iOS 10.2's dyld_shared_cache_armv7s; gave a 561.1MB executable file.
  • Hopper can open the cache file and lets you choose the binary you are interested in from a list of all binaries contained in the cache, the decompilation doesn't work correctly yet though.

Example usage for dsc_extractor

Sorry this is still work in progress as of iOS 13.4.1 - the binary output is not usable for either Hopper or class-dump.

This tool is different in that it dumps every binary in the cache compared to other tools that allow extraction of individual binaries. We need to create a c++ file and use Apple's test program code to build an executable:

cd Downloads 
mkdir dsc_extractor
cd dsc_extractor
mate dsc_extractor.cpp

Copy and paste in the following Apple test program taken from the dyld package (look after the code for instructions on how to download it yourself).

// test program
#include <stdio.h>
#include <stddef.h>
#include <dlfcn.h>

typedef int (*extractor_proc)(const char* shared_cache_file_path, const char* extraction_root_path,
                              void (^progress)(unsigned current, unsigned total));

int main(int argc, const char* argv[])
    if ( argc != 3 ) {
        fprintf(stderr, "usage: dsc_extractor <path-to-cache-file> <path-to-device-dir>\n");
        return 1;

    //void* handle = dlopen("/Volumes/my/src/dyld/build/Debug/dsc_extractor.bundle", RTLD_LAZY);
    void* handle = dlopen("/Applications/Xcode.app/Contents/Developer/Platforms/iPhoneOS.platform/usr/lib/dsc_extractor.bundle", RTLD_LAZY);
    if ( handle == NULL ) {
        fprintf(stderr, "dsc_extractor.bundle could not be loaded\n");
        return 1;

    extractor_proc proc = (extractor_proc)dlsym(handle, "dyld_shared_cache_extract_dylibs_progress");
    if ( proc == NULL ) {
        fprintf(stderr, "dsc_extractor.bundle did not have dyld_shared_cache_extract_dylibs_progress symbol\n");
        return 1;

    int result = (*proc)(argv[1], argv[2], ^(unsigned c, unsigned total) { printf("%d/%d\n", c, total); } );
    fprintf(stderr, "dyld_shared_cache_extract_dylibs_progress() => %d\n", result);
    return 0;

This test program was taken from dydl 733.6. Get latest by browsing the versions here and download by swapping in a version number like:

wget http://opensource.apple.com/tarballs/dyld/dyld-733.6.tar.gz
tar xvf dyld-733.6.tar.gz
cd dyld-733.6/launch_cache
mate dyld-733.6/launch_cache/dsc_extractor.cpp

Scroll to the bottom to find the test program code in the big comment.

Back to what we were doing, to build the file we created and install:

clang++ -o dsc_extractor dsc_extractor.cpp
cp dsc_extractor ~/bin/
chmod u+x ~/bin/dsc_extractor

To use (Change the iOS version to what is in your folder, Xcode will copy the cache file from a connected device):

cd ~/Library/Developer/Xcode/iOS DeviceSupport/13.4.1 (17E262)
dsc_extractor Symbols/System/Library/Caches/com.apple.dyld/dyld_shared_cache_arm64 Binaries

After a brief pause you'll see a lot of output as it dumps each binary, e.g.


And now, you can find all of the dumped binaries in the Binaries folder, the problem is the binaries aren't usable in class-dump and errors with "Cannot find offset", e.g.:

class-dump -H Binaries/System/Library/PrivateFrameworks/WiFiKit.framework/WiFiKit 
2020-05-02 11:58:35.887 class-dump[47492:2792183] Error: Cannot find offset for address 0x201c9409718 in dataOffsetForAddress:

Example usage for decache

This will extract the binary of the private framework SpringBoardServices

decache -c path/to/dyld_shared_cache -x /System/Library/PrivateFrameworks/SpringBoardServices.framework/SpringBoardServices -o SpringBoardServices

If you get a message about an unsupported load command, ignore it. decache does not support some newer mach-o load commands, so the binary won't be able to run probably in the most cases. But for linking or reverse-engineering purposes it is still usable.

Example usage for jtool

To extract a specific binary from the cache ("UIKit" can be replaced with a different framework or library):

jtool -extract UIKit path/to/dyld_shared_cache

An example of one way to dump all the binaries at once (be careful with this, it creates huge files):

mkdir -p extracted && jtool -lv $cache | cut -c 24- | tail +5 | while read line; do mkdir -p extracted/"$(dirname "$line")"; jtool -extract $line $cache; mv $cache."$(basename "$line")" extracted/$line; done

Problems with jtool

Please be aware that decache produces currently (16.04.15) better and more usable results then jtool, as jtool fails to resolve and fix the "uniqued" objectiv c selectors correctly.

Apple "uniques" objectiv c selectors, such as "alloc" (alloc is used almost everywhere), which are used in more then one place, into a single one. When extracting an image from the cache, the address of such a shared selector will most likely not be in the extracted image anymore, so this needs to fixed, which jtool apparently fails to do. (For more information: http://opensource.apple.com/source/dyld/dyld-132.13/launch-cache/update_dyld_shared_cache.cpp, look at the class ObjCSelectorUniquer)

Not working since iOS 11

jtool2 is the newer version this user reports it not working on the iOS 11 shared cache - shows a warning "File is likely truncated (or header corrupt?)" and then doesn't get past "LC_DYLD_INFO..." http://newosxbook.com/forum/viewtopic.php?f=3&t=19577&start=50#p24183 Still same error exists on the cache from iOS 13.

$ ./jtool2 -e Stocks ./dyld_shared_cache_arm64 
Warning: File is likely truncated (or header corrupt?) Binding opcodes falls outside file
Warning: File is likely truncated (or header corrupt?) Binding opcodes falls outside file
Warning: File is likely truncated (or header corrupt?) LC_FUNCTION_STARTS falls outside file
0x176d9000-0x17731000 __TEXT   (360448 bytes)
0x2ccc2070-0x2ccd54a8 __DATA_CONST   (78904 bytes)
0x30571f60-0x30575f60 __DATA   (16384 bytes)
0x314c9a28-0x314ca000 __DATA_DIRTY   (1496 bytes)
0x316b3000-0x37064000 __LINKEDIT   (94048256 bytes)
   0x31e3c4d0-0x31e3eaf8 Exports   (9768 bytes)
   0x34689f18-0x346912f8 Symbol Table   (29664 bytes)
   0x35a46500-0x35a46b90 Function Starts   (1680 bytes)
   0x35bb1930-0x35bb1960 Data In Code   (48 bytes)
   0x35d66710-0x37029aba String Table   (19674026 bytes)

Cache retrieval

Since ASLR was implemented in iOS, trivial ways to pull the cache off the device have provided a "broken" cache, which can't be processed correctly by the aforementioned tools. This is because when read by processes in which ASLR is enabled, some offsetting is applied to the cache too. In order to circumvent this issue and pull a "valid" shared cache off the device, there are different options:

  • Copy the cache off the device using a program on which ASLR has been explicitly disabled, using the -mdynamic-no-pic compile flag.
  • Read the cache explicitly from the filesystem by setting the F_NOCACHE flag on the cache's file descriptor.
  • Copy the cache through AFC (filesystem browsers which use an AFC connection are fine) - on iOS 7 and 8, you'll want to install the package Apple File Conduit "2", hosted/maintained by saurik.
  • Pull the cache off a decrypted root filesystem DMG which you can find inside the IPSW.
  • Use the copy that is probably laying around on your computer in ~/Library/Developer/Xcode/iOS\ DeviceSupport/ if you have Xcode.

Alternatively, dt.fetchsymbols can be used to extract the cache from an iOS device. This tool doesn't require file system access (jailbreak) or app installation.

Class dumping

See this section of Reverse Engineering Tools.

External Links

  • Cache or Check? — an analysis of the dyld_shared_cache system by D. Howett.
  • dsc_fix — an IDA script that aids in reverse engineering dyld_shared_cache libraries