/* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2005 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2009 Cisco Systems, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ /* NOTE: This framework accomodates two kinds of memory hooks systems: 1. Those that only require being setup once and then will automatically call back to internal component/module functions as required (e.g., the ptmalloc2 component). It is expected that such components will have a NULL value for memoryc_process and empty (base) implementations of memoryc_register and memoryc_deregister. 2. Those that must be queried periodically to find out if something has happened to the registered memory mappings (e.g., the ummunot component). It is expected that such components will have complete implementations for memoryc_process, memoryc_register, and memoryc_deregister. There will only be one of these components compiled in to Open MPI (it will be compiled in libopen-pal; it will never be a DSO). so the componente will rule "yes, I can run" or "no, I cannot run". If it elects not to run, then there is no memory manager support in this process. Because there will only be one memory manager component in the process, there is no need for a separate module structure -- everything is in the component for simplicity. Note that there is an interface relevant to this framework that is not described in this file: the opal_memory_changed() macro. This macro should return 1 if an asynchronous agent has noticed that memory mappings have changed. The macro should be as cheap/fast as possible (which is why it's a macro). If it returns 1, the memoryc_process() function pointer (below), will be invoked. If the component does not provide this macro, then a default macro is used that always returns 0 and therefore memoryc_process() will never be invoked (and can legally be NULL). */ #ifndef OPAL_MCA_MEMORY_MEMORY_H #define OPAL_MCA_MEMORY_MEMORY_H #include "opal_config.h" #include "opal/mca/mca.h" #include "opal/mca/base/base.h" BEGIN_C_DECLS /** * Prototype for doing something once memory changes have been * detected. This function is assumed to do whatever is necessary to * a) figured out what has changed, and b) adjust OMPI as relevant * (e.g., call opal_mem_hooks_release_hook). It only needs to be * supplied for components that provide opal_memory_changed() macros * that can return non-zero. */ typedef int (*opal_memory_base_component_process_fn_t)(void); /** * Prototype for a function that is invoked when Open MPI starts to * "care" about a specific memory region. That is, Open MPI declares * that it wants to be notified if the memory mapping for this region * changes. * * If a component does not want/need to provide this functionality, it * can use the value opal_memory_base_register_empty (an empty * implementation of this function). */ typedef int (*opal_memory_base_component_register_fn_t)(void *base, size_t len, uint64_t cookie); /** * Prototype for a function that is the opposite of * opal_memory_base_component_register_fn_t: this function is invoked * when Open MPI stops to "caring" about a specific memory region. * That is, Open MPI declares that it no longer wants to be notified * if the memory mapping for this region changes. * * The parameters of this function will exactly match parameters that * were previously passed to the call to * opal_memory_base_component_register_fn_t. * * If a component does not want/need to provide this functionality, it * can use the value opal_memory_base_deregister_empty (an empty * implementation of this function). */ typedef int (*opal_memory_base_component_deregister_fn_t)(void *base, size_t len, uint64_t cookie); /** * Structure for memory components. */ typedef struct opal_memory_base_component_2_0_0_t { /** MCA base component */ mca_base_component_t memoryc_version; /** MCA base data */ mca_base_component_data_t memoryc_data; /** Function to call when something has changed, as indicated by opal_memory_changed(). Will be ignored if the component does not provide an opal_memory_changed() macro that returns nonzero. */ opal_memory_base_component_process_fn_t memoryc_process; /** Function invoked when Open MPI starts "caring" about a specific memory region */ opal_memory_base_component_register_fn_t memoryc_register; /** Function invoked when Open MPI stops "caring" about a specific memory region */ opal_memory_base_component_deregister_fn_t memoryc_deregister; } opal_memory_base_component_2_0_0_t; OPAL_DECLSPEC extern opal_memory_base_component_2_0_0_t *opal_memory; END_C_DECLS /* * Macro for use in components that are of type memory */ #define OPAL_MEMORY_BASE_VERSION_2_0_0 \ MCA_BASE_VERSION_2_0_0, \ "memory", 2, 0, 0 #endif /* OPAL_MCA_MEMORY_MEMORY_H */