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+# Overview
+
+The indirect clause enables **indirect device invocation** for a procedure:
+> 19 An indirect call to the device version of a procedure on a device other than the host
+> 20 device, through a function pointer (C/C++), a pointer to a member function (C++) or
+> 21 a procedure pointer (Fortran) that refers to the host version of the procedure.
+
+# Compiler support
+### Offload entry metadata (C++ FE)
+
+For each function declared as **declare target indirect** C++ FE generates the following offload metadata:
+
+```c++
+// Entry 0 -> Kind of this type of metadata (2)
+// Entry 1 -> Mangled name of the function.
+// Entry 2 -> Order the entry was created.
+```
+
+The offloading metadata uses new `OffloadEntriesInfoManagerTy::OffloadingEntryInfoKinds::OffloadingEntryInfoDeviceIndirectFunc` metadata kind.
+
+### Offload entries table
+
+The offload entries table that is created for the host and for each of the device images currently have entries for **declare target** global variables, **omp target** outlined functions and constructor/destructor thunks for **declare target** global variables.
+
+
+Compiler will also produce an entry for each procedure listed in **indirect** clause of **declare target** construct:
+```C++
+struct __tgt_offload_entry {
+ void *addr; // Pointer to the function
+ char *name; // Name of the function
+ size_t size; // 0 for function
+ int32_t flags; // OpenMPOffloadingDeclareTargetFlags::OMP_DECLARE_TARGET_FPTR
+ int32_t reserved; // Reserved
+};
+```
+
+### Run-time dispatch in device code
+
+When an indirect function call is generated by a FE in **device code** it translates the original function pointer (which may be an address of a host function) into the device function pointer using a translation API, and uses the resulting function pointer for the call.
+
+Original call code:
+
+```
+ %0 = load void ()*, void ()** %fptr.addr
+ call void %0()
+```
+
+Becomes this:
+
+```
+ %0 = load void ()*, void ()** %fptr.addr
+ %1 = bitcast void ()* %0 to i8*
+ %call = call i8* @__kmpc_target_translate_fptr(i8* %1)
+ %fptr_device = bitcast i8* %call to void ()*
+ call void %fptr_device()
+```
+
+Device RTLs must provide the translation API:
+
+```c++
+// Translate \p FnPtr identifying a host function into a function pointer
+// identifying its device counterpart.
+// If \p FnPtr matches an address of any host function
+// declared as 'declare target indirect', then the API
+// must return an address of the same function compiled
+// for the device. If \p FnPtr does not match an address
+// of any host function, then the API returns \p FnPtr
+// unchanged.
+EXTERN void *__kmpc_target_translate_fptr(void *FnPtr);
+```
+
+# Runtime handling of function pointers
+
+`OpenMPOffloadingDeclareTargetFlags::OMP_DECLARE_TARGET_FPTR` is a new flag to distinguish offload entries for function pointers from other function entries. Unlike other function entries (with `size` equal to 0) `omptarget::InitLibrary()` will establish mapping for function pointer entries in `Device.HostDataToTargetMap`.
+
+For each `OMP_DECLARE_TARGET_FPTR` entry in the offload entries table `libomptarget` creates an entry of the following type:
+
+```c++
+struct __omp_offloading_fptr_map_ty {
+ int64_t host_ptr; // key
+ int64_t tgt_ptr; // value
+};
+```
+
+Where `host_ptr` is `__tgt_offload_entry::addr` in a **host** offload entry, and `tgt_ptr` is `__tgt_offload_entry::addr` in the corresponding **device** offload entry (which may be found using the populated `Device.HostDataToTargetMap`).
+
+When all `__omp_offloading_function_ptr_map_ty` entries are collected in a single host array, `libomptarget` sorts the table by `host_ptr` values and passes it to the device plugin for registration, if plugin supports optional `__tgt_rtl_set_function_ptr_map` API.
+
+Plugins may provide the following API, if they want to support **declare target indirect** functionality:
+
+```c++
+// Register in a target implementation defined way a table
+// of __omp_offloading_function_ptr_map_ty entries providing
+// mapping between host and device addresses of 'declare target indirect'
+// functions. \p table_size is the number of elements in \p table_host_ptr
+// array.
+EXTERN void __tgt_rtl_set_function_ptr_map(
+ int32_t device_id, uint64_t table_size, __omp_offloading_fptr_map_ty *table_host_ptr);
+```
+
+# Sample implementation
+
+This section describes one of potential implementations.
+
+A FE may define the following global symbols for each translation module containing **declare target indirect**, when compiling this module for a device:
+
+```c++
+// Mapping between host and device functions declared as
+// 'declare target indirect'.
+__attribute__((weak)) struct __omp_offloading_fptr_map_ty {
+ int64_t host_ptr; // key
+ int64_t tgt_ptr; // value
+} *__omp_offloading_fptr_map_p = 0;
+
+// Number of elements in __omp_offloading_fptr_map_p table.
+__attribute__((weak)) uint64_t __omp_offloading_fptr_map_size = 0;
+```
+
+`__tgt_rtl_set_function_ptr_map(int32_t device_id, uint64_t table_size, __omp_offloading_fptr_map_ty *table_host_ptr)` allocates device memory of size `sizeof(__omp_offloading_fptr_map_ty) * table_size`, and transfers the contents of `table_host_ptr` array into this device memory. An address of the allocated device memory area is then assigned to `__omp_offloading_fptr_map_p` global variables on the device. For example, in **CUDA**, a device address of `__omp_offloading_fptr_map_p` may be taken by calling `cuModuleGetGlobal`, and then a pointer-sized data transfer will initialize `__omp_offloading_fptr_map_p` to point to the device copy of `table_host_ptr` array. `__omp_offloading_fptr_map_size` is assigned to `table_size` the same way.
+
+An alternative implementation of `__tgt_rtl_set_function_ptr_map` may invoke a device kernel that will do the assignments.
+
+`__kmpc_target_translate_fptr(void *FnPtr)` API uses binary search to match `FnPtr` against `host_ptr` inside the device table pointed to by `__omp_offloading_fptr_map_p`. If the matching key is found, it returns the corresponding `tgt_ptr`, otherwise, it returns `FnPtr`.
+
+# TODO: Optimization for non-unified_shared_memory
+
+If a program does not use **required unified_shared_memory**, and all function pointers are mapped (not a requirement by OpenMP spec), then an implementation may avoid the runtime dispatch code for indirect function calls (i.e. `__kmpc_target_translate_fptr` is not needed) and also `__tgt_rtl_set_function_ptr_map` is not needed. `libomptarget` will just map the function pointers as regular data pointers via `Device.HostDataToTargetMap`.