REDO_PREBINDING(3) Library Functions Manual REDO_PREBINDING(3)
NAME
redo_prebinding library functions
SYNOPSIS
#include <mach-o/redo_prebinding.h>
extern char ** dependent_libs(
const char *file_name,
const char *program_name,
char **error_message);
extern char * install_name(
const char *file_name,
const char *program_name,
char **error_message);
extern enum redo_prebinding_retval redo_prebinding(
const char *file_name,
const char *executable_path,
const char *root_dir,
const char *output_file,
const char *program_name,
char **error_message,
unsigned long slide_to_address,
int only_if_needed,
int zero_out_prebind_checksum,
cpu_type_t allow_missing_architectures,
unsigned long *throttle);
extern enum needs_redo_prebinding_retval needs_redo_prebinding(
const char *file_name,
const char *executable_path,
const char *root_dir,
const char *program_name,
char **error_message,
unsigned long expected_address,
cpu_type_t allow_missing_architectures);
extern enum object_file_type_retval object_file_type(
const char *file_name,
const char *program_name,
char **error_message);
extern int get_prebind_cksums(
const char *file_name,
struct prebind_cksum_arch **cksums,
unsigned long *ncksums,
const char *program_name,
char **error_message);
DESCRIPTION
These functions are intended for use by update_prebinding(1) and Mac OS X Build and Integration tools.
For all of these functions in the parameters program_name and error_message are used the same. For unrecoverable resource errors like
being unable to allocate memory each function prints a message to stderr precede with program_name then calls exit(2) with the value
EXIT_FAILURE. If a function is unsuccessful and if error_message pass to it is not NULL it is set to a malloc(3)'ed buffer with a NULL
terminated string with the error message. For all functions when they return they release all resources (memory, open file descriptors,
etc).
The file_name parameter for these functions may be of the form foo(bar) which is NOT interpreted as an archive name and a member name in
that archive. As these functions deal with prebinding and prebound binaries ready for execution can't be in archives.
If the executable_path parameter for these functions is not NULL it is used for any dependent library has a path that starts with @exe-
cutable_path. Then @executable_path is replaced with executable_path.
If the root_dir parameter is not NULL it is prepended to all the rooted dependent library paths.
dependent_libs() takes a file_name of a binary and returns a malloc(3)'ed array of pointers (NULL terminated) to names (also malloc(3)'ed
and '�' terminated names) of all the dependent libraries for that binary (not recursive) for all of the architectures of that binary. If
successful dependent_libs() returns a non NULL value (at minimum a pointer to one NULL pointer). If unsuccessful dependent_libs returns
NULL.
install_name() takes a file_name of a binary and returns a malloc(3)'ed pointer to a NULL terminated string containing the install_name
value for the binary. If unsuccessful install_name() returns NULL.
In particular, NULL is returned if the binary is not a dylib and there is no error_message set. If the all of the arch's are dylibs but
all the install names don't match NULL is returned and a error_message is set. If some but not all of the archs are dylibs NULL is
returned and a error_message is set.
redo_prebinding() takes a file_name of a binary and redoes the prebinding on it. If output_file is not NULL the update file is written to
output_file, if not it is written to file_name. If redo_prebinding() is successful it returns REDO_PREBINDING_SUCCESS otherwise it returns
REDO_PREBINDING_FAILURE. If the slide_to_address parameter is non-zero and the binary is a dynamic library it is relocated to have that
has its prefered address. If the parameter allow_missing_architectures is zero and not all architectures can be updated it is not success-
ful and nothing is done and this returns REDO_PREBINDING_FAILURE. If the parameter allow_missing_architectures is non-zero then only prob-
lems with missing architectures for the architecure of the cputype specified by allow_missing_architectures will cause this call to fail.
Other architectures that could not be prebound due to missing architectures in depending libraries will not have their prebinding updated
but will not cause the call to fail. If the parameter only_if_needed is non-zero the prebinding is checked first and only done if needed.
The checking includes checking the prefered address against the slide_to_address value if it is non-zero. If only_if_needed is non-zero
and the prebinding does not have to be redone REDO_PREBINDING_NOT_NEEDED is returned, if the binary is not prebound REDO_PREBIND-
ING_NOT_PREBOUND is returned and if the new load commands do not fit in the binary and it needs to be rebuilt REDO_PREBIND-
ING_NEEDS_REBUILDING is returned. If zero_out_prebind_checksum is non-zero then the cksum field of the LC_PREBIND_CKSUM load command (if
any) is set to zero on output (this should always be set by B&I tools and never set by the update_prebinding(1) command). If throttle is
non-NULL it points to a value of the maximum bytes per second to use for writting the output. If the value is ULONG_MAX then the actual
bytes per second is returned indirectly through *throttle.
needs_redo_prebinding() takes a file_name and determines if it is a binary and if its prebinding is uptodate. It returns one of the return
values below depending on the state of the binary and libraries. If the parameter allow_missing_architectures is zero then architectures
for fat files are checked. If the parameter allow_missing_architectures is non-zero then the value returned is based on the cputype speci-
fied by allow_missing_architectures. If that architecture is not present then PREBINDING_UPTODATE is returned. If the parameter
expected_address is not zero and the binary is a dynamic library then the library is checked to see if it is at the expected_address if not
the prebinding is assumed to be out of date and PREBINDING_OUTOFDATE is returned.
Return values for needs_redo_prebinding():
PREBINDING_UPTODATE
a binary who's prebinding is up todate.
PREBINDING_OUTOFDATE
a binary who's prebinding is out of date.
NOT_PREBOUND
a binary, but not built prebound.
NOT_PREBINDABLE
not a binary or statically linked, prebinding does not apply.
PREBINDING_UNKNOWN
a binary who's prebinding can't be determined because it is malformed, a library it depends on is missing, etc.
object_file_type() takes a file_name and determines what type of object file it is and returns on the the values below.
OFT_EXECUTABLE,
the file is an Mach-O executable.
OFT_DYLIB,
the file is an Mach-O dyanmic library.
OFT_BUNDLE,
the file is an Mach-O bundle.
OFT_ARCHIVE,
the file is an archive.
OFT_OTHER,
the file is something other than the above files.
OFT_INCONSISTENT,
the file is a fat file and the architectures are not of the same type.
OFT_FILE_ERROR
The file can't be opened, read or malformed
get_prebind_cksums() takes a file_name that is a Mach-O file or fat file containing Mach-O files and returns a malloc(3)'ed array of pre-
bind_cksum_arch structures indirectly through the cksums parameter. The number of prebind_cksum_arch structures is returned indirectly
through the ncksums parameter. If successful it returns zero else it returns non-zero.
The structure prebind_cksum_arch is defined in <mach-o/redo_prebinding.h> as follows:
struct prebind_cksum_arch {
cpu_type_t cputype;
cpu_subtype_t cpusubtype;
unsigned long has_cksum;
unsigned long cksum;
};
The cputype and cpusubtype are filled in with the cpu specifier and the machine specifier for the architecture of the Mach-O file (or zero
if not a Mach-O file). The field has_cksum is set to one if the architecture as an LC_PREBIND_CKSUM load command and zero otherwise. The
field cksum is set to the value of the cksum in LC_PREBIND_CKSUM load command (or zero if it does not have one).
SEE ALSO
redo_prebinding(1), update_prebinding(1)
Apple Computer, Inc. October 3, 2002 REDO_PREBINDING(3)