#define _IPC_IPC_OBJECT_H_
#include <mach_rt.h>
-#include <mach_kdb.h>
#include <mach/kern_return.h>
#include <mach/message.h>
#include <kern/macro_help.h>
#include <kern/zalloc.h>
#include <ipc/ipc_types.h>
+#include <libkern/OSAtomic.h>
typedef natural_t ipc_object_refs_t; /* for ipc/ipc_object.h */
typedef natural_t ipc_object_bits_t;
typedef natural_t ipc_object_type_t;
/*
- * There is no lock in the ipc_object; it is in the enclosing kernel
- * data structure (rpc_common_data) used by both ipc_port and ipc_pset.
* The ipc_object is used to both tag and reference count these two data
* structures, and (Noto Bene!) pointers to either of these or the
* ipc_object at the head of these are freely cast back and forth; hence
* (with which lock size varies).
*/
struct ipc_object {
+ ipc_object_bits_t io_bits;
ipc_object_refs_t io_references;
+ lck_spin_t io_lock_data;
+};
+
+/*
+ * If another object type needs to participate in io_kotype()-based
+ * dispatching, it must include a stub structure as the first
+ * element
+ */
+struct ipc_object_header {
ipc_object_bits_t io_bits;
- mach_port_name_t io_receiver_name;
- decl_mutex_data(, io_lock_data)
+#ifdef __LP64__
+ natural_t io_padding; /* pad to natural boundary */
+#endif
};
/*
* Legacy defines. Should use IPC_OBJECT_NULL, etc...
*/
#define IO_NULL ((ipc_object_t) 0)
-#define IO_DEAD ((ipc_object_t) -1)
+#define IO_DEAD ((ipc_object_t) ~0UL)
#define IO_VALID(io) (((io) != IO_NULL) && ((io) != IO_DEAD))
/*
#define io_alloc(otype) \
((ipc_object_t) zalloc(ipc_object_zones[(otype)]))
-#if MACH_ASSERT || CONFIG_MACF_MACH
-/*
- * Call the routine for io_free so that checking can be performed.
- */
extern void io_free(
unsigned int otype,
ipc_object_t object);
-#else /* MACH_ASSERT || MAC_MACH */
-#define io_free(otype, io) \
- zfree(ipc_object_zones[(otype)], (io))
-#endif /* MACH_ASSERT || MAC_MACH */
-
/*
- * Here we depend on the ipc_object being first within the ipc_common_data,
- * which is first within the rpc_common_data, which in turn must be first
- * within any kernel data structure needing to lock an ipc_object
+ * Here we depend on the ipc_object being first within the kernel struct
* (ipc_port and ipc_pset).
*/
#define io_lock_init(io) \
- mutex_init(&(io)->io_lock_data, 0)
+ lck_spin_init(&(io)->io_lock_data, &ipc_lck_grp, &ipc_lck_attr)
+#define io_lock_destroy(io) \
+ lck_spin_destroy(&(io)->io_lock_data, &ipc_lck_grp)
#define io_lock(io) \
- mutex_lock(&(io)->io_lock_data)
+ lck_spin_lock(&(io)->io_lock_data)
#define io_lock_try(io) \
- mutex_try(&(io)->io_lock_data)
+ lck_spin_try_lock(&(io)->io_lock_data)
#define io_unlock(io) \
- mutex_unlock(&(io)->io_lock_data)
+ lck_spin_unlock(&(io)->io_lock_data)
#define _VOLATILE_ volatile
-#define io_check_unlock(io) \
-MACRO_BEGIN \
- _VOLATILE_ ipc_object_refs_t _refs = (io)->io_references; \
- \
- io_unlock(io); \
- if (_refs == 0) \
- io_free(io_otype(io), io); \
-MACRO_END
-
/* Sanity check the ref count. If it is 0, we may be doubly zfreeing.
* If it is larger than max int, it has been corrupted, probably by being
* modified into an address (this is architecture dependent, but it's
#define IO_MAX_REFERENCES \
(unsigned)(~0 ^ (1 << (sizeof(int)*BYTE_SIZE - 1)))
-#define io_reference(io) \
-MACRO_BEGIN \
- assert((io)->io_references < IO_MAX_REFERENCES); \
- (io)->io_references++; \
-MACRO_END
-
-#define io_release(io) \
-MACRO_BEGIN \
- assert((io)->io_references > 0 && \
- (io)->io_references <= IO_MAX_REFERENCES); \
- (io)->io_references--; \
-MACRO_END
+static inline void
+io_reference(ipc_object_t io) {
+ assert((io)->io_references > 0 &&
+ (io)->io_references < IO_MAX_REFERENCES);
+ OSIncrementAtomic(&((io)->io_references));
+}
+
+
+static inline void
+io_release(ipc_object_t io) {
+ assert((io)->io_references > 0 &&
+ (io)->io_references < IO_MAX_REFERENCES);
+ /* If we just removed the last reference count */
+ if ( 1 == OSDecrementAtomic(&((io)->io_references))) {
+ /* Free the object */
+ io_free(io_otype((io)), (io));
+ }
+}
/*
* Retrieve a label for use in a kernel call that takes a security
ipc_object_t object,
mach_msg_type_name_t msgt_name);
+/* Destroy a naked destination capability */
+extern void ipc_object_destroy_dest(
+ ipc_object_t object,
+ mach_msg_type_name_t msgt_name);
+
/* Copyout a capability, placing it into a space */
extern kern_return_t ipc_object_copyout(
ipc_space_t space,
mach_port_name_t oname,
mach_port_name_t nname);
-#if MACH_KDB
-/* Pretty-print an ipc object */
-
-extern void ipc_object_print(
- ipc_object_t object);
-
-#endif /* MACH_KDB */
-
#endif /* _IPC_IPC_OBJECT_H_ */
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