# fishhook __fishhook__ is a very simple library that enables dynamically rebinding symbols in Mach-O binaries running on iOS in the simulator and on device. This provides functionality that is similar to using [`DYLD_INTERPOSE`][interpose] on OS X. At Facebook, we've found it useful as a way to hook calls in libSystem for debugging/tracing purposes (for example, auditing for double-close issues with file descriptors). [interpose]: http://opensource.apple.com/source/dyld/dyld-210.2.3/include/mach-o/dyld-interposing.h "" ## Usage Once you add `fishhook.h`/`fishhook.c` to your project, you can rebind symbols as follows: ```Objective-C #import #import #import "AppDelegate.h" #import "fishhook.h" static int (*orig_close)(int); static int (*orig_open)(const char *, int, ...); int my_close(int fd) { printf("Calling real close(%d)\n", fd); return orig_close(fd); } int my_open(const char *path, int oflag, ...) { va_list ap = {0}; mode_t mode = 0; if ((oflag & O_CREAT) != 0) { // mode only applies to O_CREAT va_start(ap, oflag); mode = va_arg(ap, int); va_end(ap); printf("Calling real open('%s', %d, %d)\n", path, oflag, mode); return orig_open(path, oflag, mode); } else { printf("Calling real open('%s', %d)\n", path, oflag); return orig_open(path, oflag, mode); } } int main(int argc, char * argv[]) { @autoreleasepool { rebind_symbols((struct rebinding[2]){{"close", my_close, (void *)&orig_close}, {"open", my_open, (void *)&orig_open}}, 2); // Open our own binary and print out first 4 bytes (which is the same // for all Mach-O binaries on a given architecture) int fd = open(argv[0], O_RDONLY); uint32_t magic_number = 0; read(fd, &magic_number, 4); printf("Mach-O Magic Number: %x \n", magic_number); close(fd); return UIApplicationMain(argc, argv, nil, NSStringFromClass([AppDelegate class])); } } ``` ### Sample output ``` Calling real open('/var/mobile/Applications/161DA598-5B83-41F5-8A44-675491AF6A2C/Test.app/Test', 0) Mach-O Magic Number: feedface Calling real close(3) ... ``` ## How it works `dyld` binds lazy and non-lazy symbols by updating pointers in particular sections of the `__DATA` segment of a Mach-O binary. __fishhook__ re-binds these symbols by determining the locations to update for each of the symbol names passed to `rebind_symbols` and then writing out the corresponding replacements. For a given image, the `__DATA` segment may contain two sections that are relevant for dynamic symbol bindings: `__nl_symbol_ptr` and `__la_symbol_ptr`. `__nl_symbol_ptr` is an array of pointers to non-lazily bound data (these are bound at the time a library is loaded) and `__la_symbol_ptr` is an array of pointers to imported functions that is generally filled by a routine called `dyld_stub_binder` during the first call to that symbol (it's also possible to tell `dyld` to bind these at launch). In order to find the name of the symbol that corresponds to a particular location in one of these sections, we have to jump through several layers of indirection. For the two relevant sections, the section headers (`struct section`s from ``) provide an offset (in the `reserved1` field) into what is known as the indirect symbol table. The indirect symbol table, which is located in the `__LINKEDIT` segment of the binary, is just an array of indexes into the symbol table (also in `__LINKEDIT`) whose order is identical to that of the pointers in the non-lazy and lazy symbol sections. So, given `struct section nl_symbol_ptr`, the corresponding index in the symbol table of the first address in that section is `indirect_symbol_table[nl_symbol_ptr->reserved1]`. The symbol table itself is an array of `struct nlist`s (see ``), and each `nlist` contains an index into the string table in `__LINKEDIT` which where the actual symbol names are stored. So, for each pointer `__nl_symbol_ptr` and `__la_symbol_ptr`, we are able to find the corresponding symbol and then the corresponding string to compare against the requested symbol names, and if there is a match, we replace the pointer in the section with the replacement. The process of looking up the name of a given entry in the lazy or non-lazy pointer tables looks like this: ![Visual explanation](http://i.imgur.com/HVXqHCz.png)