//////////////////////////////////////////////////////////////////////////////// // // The University of Illinois/NCSA // Open Source License (NCSA) // // Copyright (c) 2014-2015, Advanced Micro Devices, Inc. All rights reserved. // // Developed by: // // AMD Research and AMD HSA Software Development // // Advanced Micro Devices, Inc. // // www.amd.com // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to // deal with the Software without restriction, including without limitation // the rights to use, copy, modify, merge, publish, distribute, sublicense, // and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // // - Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimers. // - Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimers in // the documentation and/or other materials provided with the distribution. // - Neither the names of Advanced Micro Devices, Inc, // nor the names of its contributors may be used to endorse or promote // products derived from this Software without specific prior written // permission. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL // THE CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR // OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, // ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS WITH THE SOFTWARE. // //////////////////////////////////////////////////////////////////////////////// #ifndef HSA_RUNTIME_INC_HSA_H_ #define HSA_RUNTIME_INC_HSA_H_ #ifndef DEVICE_COMPILER #include /* size_t */ #include /* uintXX_t */ #ifndef __cplusplus #include #endif /* __cplusplus */ #endif // Placeholder for calling convention and import/export macros #ifndef HSA_CALL #define HSA_CALL #endif #ifndef HSA_EXPORT_DECORATOR #ifdef __GNUC__ #define HSA_EXPORT_DECORATOR __attribute__ ((visibility ("default"))) #else #define HSA_EXPORT_DECORATOR #endif #endif #define HSA_API_EXPORT HSA_EXPORT_DECORATOR HSA_CALL #define HSA_API_IMPORT HSA_CALL #if !defined(HSA_API) && defined(HSA_EXPORT) #define HSA_API HSA_API_EXPORT #else #define HSA_API HSA_API_IMPORT #endif // Detect and set large model builds. #undef HSA_LARGE_MODEL #if defined(__LP64__) || defined(_M_X64) #define HSA_LARGE_MODEL #endif // Try to detect CPU endianness #if !defined(LITTLEENDIAN_CPU) && !defined(BIGENDIAN_CPU) #if defined(__i386__) || defined(__x86_64__) || defined(_M_IX86) || \ defined(_M_X64) #define LITTLEENDIAN_CPU #endif #endif #undef HSA_LITTLE_ENDIAN #if defined(LITTLEENDIAN_CPU) #define HSA_LITTLE_ENDIAN #elif defined(BIGENDIAN_CPU) #else #error "BIGENDIAN_CPU or LITTLEENDIAN_CPU must be defined" #endif #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ /** \defgroup status Runtime Notifications * @{ */ /** * @brief Status codes. */ typedef enum { /** * The function has been executed successfully. */ HSA_STATUS_SUCCESS = 0x0, /** * A traversal over a list of elements has been interrupted by the * application before completing. */ HSA_STATUS_INFO_BREAK = 0x1, /** * A generic error has occurred. */ HSA_STATUS_ERROR = 0x1000, /** * One of the actual arguments does not meet a precondition stated in the * documentation of the corresponding formal argument. */ HSA_STATUS_ERROR_INVALID_ARGUMENT = 0x1001, /** * The requested queue creation is not valid. */ HSA_STATUS_ERROR_INVALID_QUEUE_CREATION = 0x1002, /** * The requested allocation is not valid. */ HSA_STATUS_ERROR_INVALID_ALLOCATION = 0x1003, /** * The agent is invalid. */ HSA_STATUS_ERROR_INVALID_AGENT = 0x1004, /** * The memory region is invalid. */ HSA_STATUS_ERROR_INVALID_REGION = 0x1005, /** * The signal is invalid. */ HSA_STATUS_ERROR_INVALID_SIGNAL = 0x1006, /** * The queue is invalid. */ HSA_STATUS_ERROR_INVALID_QUEUE = 0x1007, /** * The HSA runtime failed to allocate the necessary resources. This error * may also occur when the HSA runtime needs to spawn threads or create * internal OS-specific events. */ HSA_STATUS_ERROR_OUT_OF_RESOURCES = 0x1008, /** * The AQL packet is malformed. */ HSA_STATUS_ERROR_INVALID_PACKET_FORMAT = 0x1009, /** * An error has been detected while releasing a resource. */ HSA_STATUS_ERROR_RESOURCE_FREE = 0x100A, /** * An API other than ::hsa_init has been invoked while the reference count * of the HSA runtime is 0. */ HSA_STATUS_ERROR_NOT_INITIALIZED = 0x100B, /** * The maximum reference count for the object has been reached. */ HSA_STATUS_ERROR_REFCOUNT_OVERFLOW = 0x100C, /** * The arguments passed to a functions are not compatible. */ HSA_STATUS_ERROR_INCOMPATIBLE_ARGUMENTS = 0x100D, /** * The index is invalid. */ HSA_STATUS_ERROR_INVALID_INDEX = 0x100E, /** * The instruction set architecture is invalid. */ HSA_STATUS_ERROR_INVALID_ISA = 0x100F, /** * The instruction set architecture name is invalid. */ HSA_STATUS_ERROR_INVALID_ISA_NAME = 0x1017, /** * The code object is invalid. */ HSA_STATUS_ERROR_INVALID_CODE_OBJECT = 0x1010, /** * The executable is invalid. */ HSA_STATUS_ERROR_INVALID_EXECUTABLE = 0x1011, /** * The executable is frozen. */ HSA_STATUS_ERROR_FROZEN_EXECUTABLE = 0x1012, /** * There is no symbol with the given name. */ HSA_STATUS_ERROR_INVALID_SYMBOL_NAME = 0x1013, /** * The variable is already defined. */ HSA_STATUS_ERROR_VARIABLE_ALREADY_DEFINED = 0x1014, /** * The variable is undefined. */ HSA_STATUS_ERROR_VARIABLE_UNDEFINED = 0x1015, /** * An HSAIL operation resulted on a hardware exception. */ HSA_STATUS_ERROR_EXCEPTION = 0x1016 } hsa_status_t; /** * @brief Query additional information about a status code. * * @param[in] status Status code. * * @param[out] status_string A NUL-terminated string that describes the error * status. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p status is an invalid * status code, or @p status_string is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_status_string(hsa_status_t status, const char **status_string); #endif /** @} */ /** \defgroup common Common Definitions * @{ */ /** * @brief Three-dimensional coordinate. */ typedef struct hsa_dim3_s { /** * X dimension. */ uint32_t x; /** * Y dimension. */ uint32_t y; /** * Z dimension. */ uint32_t z; } hsa_dim3_t; /** * @brief Access permissions. */ typedef enum { /** * Read-only access. */ HSA_ACCESS_PERMISSION_RO = 1, /** * Write-only access. */ HSA_ACCESS_PERMISSION_WO = 2, /** * Read and write access. */ HSA_ACCESS_PERMISSION_RW = 3 } hsa_access_permission_t; /** @} **/ /** \defgroup initshutdown Initialization and Shut Down * @{ */ /** * @brief Initialize the HSA runtime. * * @details Initializes the HSA runtime if it is not already initialized, and * increases the reference counter associated with the HSA runtime for the * current process. Invocation of any HSA function other than ::hsa_init results * in undefined behavior if the current HSA runtime reference counter is less * than one. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is failure to allocate * the resources required by the implementation. * * @retval ::HSA_STATUS_ERROR_REFCOUNT_OVERFLOW The HSA runtime reference * count reaches INT32_MAX. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_init(); #endif /** * @brief Shut down the HSA runtime. * * @details Decreases the reference count of the HSA runtime instance. When the * reference count reaches 0, the HSA runtime is no longer considered valid * but the application might call ::hsa_init to initialize the HSA runtime * again. * * Once the reference count of the HSA runtime reaches 0, all the resources * associated with it (queues, signals, agent information, etc.) are * considered invalid and any attempt to reference them in subsequent API calls * results in undefined behavior. When the reference count reaches 0, the HSA * runtime may release resources associated with it. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_shut_down(); #endif /** @} **/ /** \defgroup agentinfo System and Agent Information * @{ */ /** * @brief Endianness. A convention used to interpret the bytes making up a data * word. */ typedef enum { /** * The least significant byte is stored in the smallest address. */ HSA_ENDIANNESS_LITTLE = 0, /** * The most significant byte is stored in the smallest address. */ HSA_ENDIANNESS_BIG = 1 } hsa_endianness_t; /** * @brief Machine model. A machine model determines the size of certain data * types in HSA runtime and an agent. */ typedef enum { /** * Small machine model. Addresses use 32 bits. */ HSA_MACHINE_MODEL_SMALL = 0, /** * Large machine model. Addresses use 64 bits. */ HSA_MACHINE_MODEL_LARGE = 1 } hsa_machine_model_t; /** * @brief Profile. A profile indicates a particular level of feature * support. For example, in the base profile the application must use the HSA * runtime allocator to reserve Shared Virtual Memory, while in the full profile * any host pointer can be shared across all the agents. */ typedef enum { /** * Base profile. */ HSA_PROFILE_BASE = 0, /** * Full profile. */ HSA_PROFILE_FULL = 1 } hsa_profile_t; /** * @brief System attributes. */ typedef enum { /** * Major version of the HSA runtime specification supported by the * implementation. The type of this attribute is uint16_t. */ HSA_SYSTEM_INFO_VERSION_MAJOR = 0, /** * Minor version of the HSA runtime specification supported by the * implementation. The type of this attribute is uint16_t. */ HSA_SYSTEM_INFO_VERSION_MINOR = 1, /** * Current timestamp. The value of this attribute monotonically increases at a * constant rate. The type of this attribute is uint64_t. */ HSA_SYSTEM_INFO_TIMESTAMP = 2, /** * Timestamp value increase rate, in Hz. The timestamp (clock) frequency is * in the range 1-400MHz. The type of this attribute is uint64_t. */ HSA_SYSTEM_INFO_TIMESTAMP_FREQUENCY = 3, /** * Maximum duration of a signal wait operation. Expressed as a count based on * the timestamp frequency. The type of this attribute is uint64_t. */ HSA_SYSTEM_INFO_SIGNAL_MAX_WAIT = 4, /** * Endianness of the system. The type of this attribute us ::hsa_endianness_t. */ HSA_SYSTEM_INFO_ENDIANNESS = 5, /** * Machine model supported by the HSA runtime. The type of this attribute is * ::hsa_machine_model_t. */ HSA_SYSTEM_INFO_MACHINE_MODEL = 6, /** * Bit-mask indicating which extensions are supported by the * implementation. An extension with an ID of @p i is supported if the bit at * position @p i is set. The type of this attribute is uint8_t[128]. */ HSA_SYSTEM_INFO_EXTENSIONS = 7 } hsa_system_info_t; /** * @brief Get the current value of a system attribute. * * @param[in] attribute Attribute to query. * * @param[out] value Pointer to an application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * system attribute, or @p value is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_system_get_info(hsa_system_info_t attribute, void *value); #endif /** * @brief HSA extensions. */ typedef enum { /** * Finalizer extension. */ HSA_EXTENSION_FINALIZER = 0, /** * Images extension. */ HSA_EXTENSION_IMAGES = 1, /** * Profiler extension. */ HSA_EXTENSION_AMD_PROFILER = 2, /** * Loaded code object extension. */ HSA_EXTENSION_AMD_LOADED_CODE_OBJECT = 3 } hsa_extension_t; /** * @brief Query if a given version of an extension is supported by the HSA * implementation. * * @param[in] extension Extension identifier. * * @param[in] version_major Major version number. * * @param[in] version_minor Minor version number. * * @param[out] result Pointer to a memory location where the HSA runtime stores * the result of the check. The result is true if the specified version of the * extension is supported, and false otherwise. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p extension is not a valid * extension, or @p result is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_system_extension_supported(uint16_t extension, uint16_t version_major, uint16_t version_minor, bool *result); #endif /** * @brief Retrieve the function pointers corresponding to a given version of an * extension. Portable applications are expected to invoke the extension API * using the returned function pointers * * @details The application is responsible for verifying that the given version * of the extension is supported by the HSA implementation (see * ::hsa_system_extension_supported). If the given combination of extension, * major version, and minor version is not supported by the implementation, the * behavior is undefined. * * @param[in] extension Extension identifier. * * @param[in] version_major Major version number for which to retrieve the * function pointer table. * * @param[in] version_minor Minor version number for which to retrieve the * function pointer table. * * @param[out] table Pointer to an application-allocated function pointer table * that is populated by the HSA runtime. Must not be NULL. The memory associated * with table can be reused or freed after the function returns. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p extension is not a valid * extension, or @p table is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_system_get_extension_table(uint16_t extension, uint16_t version_major, uint16_t version_minor, void *table); #endif /** * @brief Opaque handle representing an agent, a device that participates in * the HSA memory model. An agent can submit AQL packets for execution, and * may also accept AQL packets for execution (agent dispatch packets or kernel * dispatch packets launching HSAIL-derived binaries). */ typedef struct hsa_agent_s { /** * Opaque handle. */ uint64_t handle; } hsa_agent_t; /** * @brief Agent features. */ typedef enum { /** * The agent supports AQL packets of kernel dispatch type. If this * feature is enabled, the agent is also a kernel agent. */ HSA_AGENT_FEATURE_KERNEL_DISPATCH = 1, /** * The agent supports AQL packets of agent dispatch type. */ HSA_AGENT_FEATURE_AGENT_DISPATCH = 2 } hsa_agent_feature_t; /** * @brief Hardware device type. */ typedef enum { /** * CPU device. */ HSA_DEVICE_TYPE_CPU = 0, /** * GPU device. */ HSA_DEVICE_TYPE_GPU = 1, /** * DSP device. */ HSA_DEVICE_TYPE_DSP = 2 } hsa_device_type_t; /** * @brief Default floating-point rounding mode. */ typedef enum { /** * Use a default floating-point rounding mode specified elsewhere. */ HSA_DEFAULT_FLOAT_ROUNDING_MODE_DEFAULT = 0, /** * Operations that specify the default floating-point mode are rounded to zero * by default. */ HSA_DEFAULT_FLOAT_ROUNDING_MODE_ZERO = 1, /** * Operations that specify the default floating-point mode are rounded to the * nearest representable number and that ties should be broken by selecting * the value with an even least significant bit. */ HSA_DEFAULT_FLOAT_ROUNDING_MODE_NEAR = 2 } hsa_default_float_rounding_mode_t; /** * @brief Agent attributes. */ typedef enum { /** * Agent name. The type of this attribute is a NUL-terminated char[64]. If * the name of the agent uses less than 63 characters, the rest of the * array must be filled with NULs. */ HSA_AGENT_INFO_NAME = 0, /** * Name of vendor. The type of this attribute is a NUL-terminated char[64]. If * the name of the vendor uses less than 63 characters, the rest of the array * must be filled with NULs. */ HSA_AGENT_INFO_VENDOR_NAME = 1, /** * Agent capability. The type of this attribute is ::hsa_agent_feature_t. */ HSA_AGENT_INFO_FEATURE = 2, /** * Machine model supported by the agent. The type of this attribute is * ::hsa_machine_model_t. */ HSA_AGENT_INFO_MACHINE_MODEL = 3, /** * Profile supported by the agent. The type of this attribute is * ::hsa_profile_t. */ HSA_AGENT_INFO_PROFILE = 4, /** * Default floating-point rounding mode. The type of this attribute is * ::hsa_default_float_rounding_mode_t, but the value * ::HSA_DEFAULT_FLOAT_ROUNDING_MODE_DEFAULT is not allowed. */ HSA_AGENT_INFO_DEFAULT_FLOAT_ROUNDING_MODE = 5, /** * Default floating-point rounding modes supported by the agent in the Base * profile. The type of this attribute is a mask of * ::hsa_default_float_rounding_mode_t. The default floating-point rounding * mode (::HSA_AGENT_INFO_DEFAULT_FLOAT_ROUNDING_MODE) bit must not be set. */ HSA_AGENT_INFO_BASE_PROFILE_DEFAULT_FLOAT_ROUNDING_MODES = 23, /** * Flag indicating that the f16 HSAIL operation is at least as fast as the * f32 operation in the current agent. The value of this attribute is * undefined if the agent is not a kernel agent. The type of this * attribute is bool. */ HSA_AGENT_INFO_FAST_F16_OPERATION = 24, /** * Number of work-items in a wavefront. Must be a power of 2 in the range * [1,256]. The value of this attribute is undefined if the agent is not * a kernel agent. The type of this attribute is uint32_t. */ HSA_AGENT_INFO_WAVEFRONT_SIZE = 6, /** * Maximum number of work-items of each dimension of a work-group. Each * maximum must be greater than 0. No maximum can exceed the value of * ::HSA_AGENT_INFO_WORKGROUP_MAX_SIZE. The value of this attribute is * undefined if the agent is not a kernel agent. The type of this * attribute is uint16_t[3]. */ HSA_AGENT_INFO_WORKGROUP_MAX_DIM = 7, /** * Maximum total number of work-items in a work-group. The value of this * attribute is undefined if the agent is not a kernel agent. The type * of this attribute is uint32_t. */ HSA_AGENT_INFO_WORKGROUP_MAX_SIZE = 8, /** * Maximum number of work-items of each dimension of a grid. Each maximum must * be greater than 0, and must not be smaller than the corresponding value in * ::HSA_AGENT_INFO_WORKGROUP_MAX_DIM. No maximum can exceed the value of * ::HSA_AGENT_INFO_GRID_MAX_SIZE. The value of this attribute is undefined if * the agent is not a kernel agent. The type of this attribute is * ::hsa_dim3_t. */ HSA_AGENT_INFO_GRID_MAX_DIM = 9, /** * Maximum total number of work-items in a grid. The value of this attribute * is undefined if the agent is not a kernel agent. The type of this * attribute is uint32_t. */ HSA_AGENT_INFO_GRID_MAX_SIZE = 10, /** * Maximum number of fbarriers per work-group. Must be at least 32. The value * of this attribute is undefined if the agent is not a kernel agent. The * type of this attribute is uint32_t. */ HSA_AGENT_INFO_FBARRIER_MAX_SIZE = 11, /** * Maximum number of queues that can be active (created but not destroyed) at * one time in the agent. The type of this attribute is uint32_t. */ HSA_AGENT_INFO_QUEUES_MAX = 12, /** * Minimum number of packets that a queue created in the agent * can hold. Must be a power of 2 greater than 0. Must not exceed * the value of ::HSA_AGENT_INFO_QUEUE_MAX_SIZE. The type of this * attribute is uint32_t. */ HSA_AGENT_INFO_QUEUE_MIN_SIZE = 13, /** * Maximum number of packets that a queue created in the agent can * hold. Must be a power of 2 greater than 0. The type of this attribute * is uint32_t. */ HSA_AGENT_INFO_QUEUE_MAX_SIZE = 14, /** * Type of a queue created in the agent. The type of this attribute is * ::hsa_queue_type_t. */ HSA_AGENT_INFO_QUEUE_TYPE = 15, /** * Identifier of the NUMA node associated with the agent. The type of this * attribute is uint32_t. */ HSA_AGENT_INFO_NODE = 16, /** * Type of hardware device associated with the agent. The type of this * attribute is ::hsa_device_type_t. */ HSA_AGENT_INFO_DEVICE = 17, /** * Array of data cache sizes (L1..L4). Each size is expressed in bytes. A size * of 0 for a particular level indicates that there is no cache information * for that level. The type of this attribute is uint32_t[4]. */ HSA_AGENT_INFO_CACHE_SIZE = 18, /** * Instruction set architecture of the agent. The type of this attribute * is ::hsa_isa_t. */ HSA_AGENT_INFO_ISA = 19, /** * Bit-mask indicating which extensions are supported by the agent. An * extension with an ID of @p i is supported if the bit at position @p i is * set. The type of this attribute is uint8_t[128]. */ HSA_AGENT_INFO_EXTENSIONS = 20, /** * Major version of the HSA runtime specification supported by the * agent. The type of this attribute is uint16_t. */ HSA_AGENT_INFO_VERSION_MAJOR = 21, /** * Minor version of the HSA runtime specification supported by the * agent. The type of this attribute is uint16_t. */ HSA_AGENT_INFO_VERSION_MINOR = 22 } hsa_agent_info_t; /** * @brief Get the current value of an attribute for a given agent. * * @param[in] agent A valid agent. * * @param[in] attribute Attribute to query. * * @param[out] value Pointer to an application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT The agent is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * agent attribute, or @p value is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_agent_get_info(hsa_agent_t agent, hsa_agent_info_t attribute, void *value); #endif /** * @brief Iterate over the available agents, and invoke an * application-defined callback on every iteration. * * @param[in] callback Callback to be invoked once per agent. The HSA * runtime passes two arguments to the callback, the agent and the * application data. If @p callback returns a status other than * ::HSA_STATUS_SUCCESS for a particular iteration, the traversal stops and * ::hsa_iterate_agents returns that status value. * * @param[in] data Application data that is passed to @p callback on every * iteration. May be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p callback is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_iterate_agents(hsa_status_t (*callback)(hsa_agent_t agent, void *data), void *data); #endif /* // If we do not know the size of an attribute, we need to query it first // Note: this API will not be in the spec unless needed hsa_status_t HSA_API hsa_agent_get_info_size( hsa_agent_t agent, hsa_agent_info_t attribute, size_t* size); // Set the value of an agents attribute // Note: this API will not be in the spec unless needed hsa_status_t HSA_API hsa_agent_set_info( hsa_agent_t agent, hsa_agent_info_t attribute, void* value); */ /** * @brief Exception policies applied in the presence of hardware exceptions. */ typedef enum { /** * If a hardware exception is detected, a work-item signals an exception. */ HSA_EXCEPTION_POLICY_BREAK = 1, /** * If a hardware exception is detected, a hardware status bit is set. */ HSA_EXCEPTION_POLICY_DETECT = 2 } hsa_exception_policy_t; /** * @brief Retrieve the exception policy support for a given combination of * agent and profile * * @param[in] agent Agent. * * @param[in] profile Profile. * * @param[out] mask Pointer to a memory location where the HSA runtime stores a * mask of ::hsa_exception_policy_t values. Must not be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT The agent is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p profile is not a valid * profile, or @p mask is NULL. * */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_agent_get_exception_policies(hsa_agent_t agent, hsa_profile_t profile, uint16_t *mask); #endif /** * @brief Query if a given version of an extension is supported by an agent * * @param[in] extension Extension identifier. * * @param[in] agent Agent. * * @param[in] version_major Major version number. * * @param[in] version_minor Minor version number. * * @param[out] result Pointer to a memory location where the HSA runtime stores * the result of the check. The result is true if the specified version of the * extension is supported, and false otherwise. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT The agent is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p extension is not a valid * extension, or @p result is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_agent_extension_supported(uint16_t extension, hsa_agent_t agent, uint16_t version_major, uint16_t version_minor, bool *result); #endif /** @} */ /** \defgroup signals Signals * @{ */ /** * @brief Signal handle. */ typedef struct hsa_signal_s { /** * Opaque handle. The value 0 is reserved. */ uint64_t handle; } hsa_signal_t; /** * @brief Signal value. The value occupies 32 bits in small machine mode, and 64 * bits in large machine mode. */ #ifdef HSA_LARGE_MODEL typedef int64_t hsa_signal_value_t; #else typedef int32_t hsa_signal_value_t; #endif /** * @brief Create a signal. * * @param[in] initial_value Initial value of the signal. * * @param[in] num_consumers Size of @p consumers. A value of 0 indicates that * any agent might wait on the signal. * * @param[in] consumers List of agents that might consume (wait on) the * signal. If @p num_consumers is 0, this argument is ignored; otherwise, the * HSA runtime might use the list to optimize the handling of the signal * object. If an agent not listed in @p consumers waits on the returned * signal, the behavior is undefined. The memory associated with @p consumers * can be reused or freed after the function returns. * * @param[out] signal Pointer to a memory location where the HSA runtime will * store the newly created signal handle. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is failure to allocate the * resources required by the implementation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p signal is NULL, @p * num_consumers is greater than 0 but @p consumers is NULL, or @p consumers * contains duplicates. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_signal_create(hsa_signal_value_t initial_value, uint32_t num_consumers, const hsa_agent_t *consumers, hsa_signal_t *signal); #endif /** * @brief Destroy a signal previous created by ::hsa_signal_create. * * @param[in] signal Signal. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_SIGNAL @p signal is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT The handle in @p signal is 0. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_signal_destroy(hsa_signal_t signal); #endif /** * @brief Atomically read the current value of a signal. * * @param[in] signal Signal. * * @return Value of the signal. */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_load_acquire(hsa_signal_t signal); #endif /** * @copydoc hsa_signal_load_acquire */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_load_relaxed(hsa_signal_t signal); #endif /** * @brief Atomically set the value of a signal. * * @details If the value of the signal is changed, all the agents waiting * on @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. * * @param[in] value New signal value. */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_store_relaxed(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_store_relaxed */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_store_release(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @brief Atomically set the value of a signal and return its previous value. * * @details If the value of the signal is changed, all the agents waiting * on @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. If @p signal is a queue doorbell signal, the * behavior is undefined. * * @param[in] value New value. * * @return Value of the signal prior to the exchange. * */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_exchange_acq_rel(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_exchange_acq_rel */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_exchange_acquire(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_exchange_acq_rel */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_exchange_relaxed(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_exchange_acq_rel */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_exchange_release(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @brief Atomically set the value of a signal if the observed value is equal to * the expected value. The observed value is returned regardless of whether the * replacement was done. * * @details If the value of the signal is changed, all the agents waiting * on @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. If @p signal is a queue * doorbell signal, the behavior is undefined. * * @param[in] expected Value to compare with. * * @param[in] value New value. * * @return Observed value of the signal. * */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_cas_acq_rel(hsa_signal_t signal, hsa_signal_value_t expected, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_cas_acq_rel */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_cas_acquire(hsa_signal_t signal, hsa_signal_value_t expected, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_cas_acq_rel */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_cas_relaxed(hsa_signal_t signal, hsa_signal_value_t expected, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_cas_acq_rel */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_cas_release(hsa_signal_t signal, hsa_signal_value_t expected, hsa_signal_value_t value); #endif /** * @brief Atomically increment the value of a signal by a given amount. * * @details If the value of the signal is changed, all the agents waiting on * @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. If @p signal is a queue doorbell signal, the * behavior is undefined. * * @param[in] value Value to add to the value of the signal. * */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_add_acq_rel(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_add_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_add_acquire(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_add_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_add_relaxed(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_add_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_add_release(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @brief Atomically decrement the value of a signal by a given amount. * * @details If the value of the signal is changed, all the agents waiting on * @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. If @p signal is a queue doorbell signal, the * behavior is undefined. * * @param[in] value Value to subtract from the value of the signal. * */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_subtract_acq_rel(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_subtract_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_subtract_acquire(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_subtract_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_subtract_relaxed(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_subtract_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_subtract_release(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @brief Atomically perform a bitwise AND operation between the value of a * signal and a given value. * * @details If the value of the signal is changed, all the agents waiting on * @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. If @p signal is a queue doorbell signal, the * behavior is undefined. * * @param[in] value Value to AND with the value of the signal. * */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_and_acq_rel(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_and_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_and_acquire(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_and_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_and_relaxed(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_and_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_and_release(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @brief Atomically perform a bitwise OR operation between the value of a * signal and a given value. * * @details If the value of the signal is changed, all the agents waiting on * @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. If @p signal is a queue doorbell signal, the * behavior is undefined. * * @param[in] value Value to OR with the value of the signal. */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_or_acq_rel(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_or_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_or_acquire(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_or_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_or_relaxed(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_or_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_or_release(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @brief Atomically perform a bitwise XOR operation between the value of a * signal and a given value. * * @details If the value of the signal is changed, all the agents waiting on * @p signal for which @p value satisfies their wait condition are awakened. * * @param[in] signal Signal. If @p signal is a queue doorbell signal, the * behavior is undefined. * * @param[in] value Value to XOR with the value of the signal. * */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_xor_acq_rel(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_xor_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_xor_acquire(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_xor_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_xor_relaxed(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @copydoc hsa_signal_xor_acq_rel */ #ifndef DEVICE_COMPILER void HSA_API hsa_signal_xor_release(hsa_signal_t signal, hsa_signal_value_t value); #endif /** * @brief Wait condition operator. */ typedef enum { /** * The two operands are equal. */ HSA_SIGNAL_CONDITION_EQ = 0, /** * The two operands are not equal. */ HSA_SIGNAL_CONDITION_NE = 1, /** * The first operand is less than the second operand. */ HSA_SIGNAL_CONDITION_LT = 2, /** * The first operand is greater than or equal to the second operand. */ HSA_SIGNAL_CONDITION_GTE = 3 } hsa_signal_condition_t; /** * @brief State of the application thread during a signal wait. */ typedef enum { /** * The application thread may be rescheduled while waiting on the signal. */ HSA_WAIT_STATE_BLOCKED = 0, /** * The application thread stays active while waiting on a signal. */ HSA_WAIT_STATE_ACTIVE = 1 } hsa_wait_state_t; /** * @brief Wait until a signal value satisfies a specified condition, or a * certain amount of time has elapsed. * * @details A wait operation can spuriously resume at any time sooner than the * timeout (for example, due to system or other external factors) even when the * condition has not been met. * * The function is guaranteed to return if the signal value satisfies the * condition at some point in time during the wait, but the value returned to * the application might not satisfy the condition. The application must ensure * that signals are used in such way that wait wakeup conditions are not * invalidated before dependent threads have woken up. * * When the wait operation internally loads the value of the passed signal, it * uses the memory order indicated in the function name. * * @param[in] signal Signal. * * @param[in] condition Condition used to compare the signal value with @p * compare_value. * * @param[in] compare_value Value to compare with. * * @param[in] timeout_hint Maximum duration of the wait. Specified in the same * unit as the system timestamp. The operation might block for a shorter or * longer time even if the condition is not met. A value of UINT64_MAX indicates * no maximum. * * @param[in] wait_state_hint Hint used by the application to indicate the * preferred waiting state. The actual waiting state is ultimately decided by * HSA runtime and may not match the provided hint. A value of * ::HSA_WAIT_STATE_ACTIVE may improve the latency of response to a signal * update by avoiding rescheduling overhead. * * @return Observed value of the signal, which might not satisfy the specified * condition. * */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_wait_acquire(hsa_signal_t signal, hsa_signal_condition_t condition, hsa_signal_value_t compare_value, uint64_t timeout_hint, hsa_wait_state_t wait_state_hint); #endif /** * @copydoc hsa_signal_wait_acquire */ #ifndef DEVICE_COMPILER hsa_signal_value_t HSA_API hsa_signal_wait_relaxed(hsa_signal_t signal, hsa_signal_condition_t condition, hsa_signal_value_t compare_value, uint64_t timeout_hint, hsa_wait_state_t wait_state_hint); #endif /** @} */ /** \defgroup memory Memory * @{ */ /** * @brief A memory region represents a block of virtual memory with certain * properties. For example, the HSA runtime represents fine-grained memory in * the global segment using a region. A region might be associated with more * than one agent. */ typedef struct hsa_region_s { /** * Opaque handle. */ uint64_t handle; } hsa_region_t; /** @} */ /** \defgroup queue Queues * @{ */ /** * @brief Queue type. Intended to be used for dynamic queue protocol * determination. */ typedef enum { /** * Queue supports multiple producers. */ HSA_QUEUE_TYPE_MULTI = 0, /** * Queue only supports a single producer. */ HSA_QUEUE_TYPE_SINGLE = 1 } hsa_queue_type_t; /** * @brief Queue features. */ typedef enum { /** * Queue supports kernel dispatch packets. */ HSA_QUEUE_FEATURE_KERNEL_DISPATCH = 1, /** * Queue supports agent dispatch packets. */ HSA_QUEUE_FEATURE_AGENT_DISPATCH = 2 } hsa_queue_feature_t; /** * @brief User mode queue. * * @details The queue structure is read-only and allocated by the HSA runtime, * but agents can directly modify the contents of the buffer pointed by @a * base_address, or use HSA runtime APIs to access the doorbell signal. * */ typedef struct hsa_queue_s { /** * Queue type. */ hsa_queue_type_t type; /** * Queue features mask. This is a bit-field of ::hsa_queue_feature_t * values. Applications should ignore any unknown set bits. */ uint32_t features; #ifdef HSA_LARGE_MODEL #ifdef DEVICE_COMPILER __global #endif void *base_address; #elif defined HSA_LITTLE_ENDIAN /** * Starting address of the HSA runtime-allocated buffer used to store the AQL * packets. Must be aligned to the size of an AQL packet. */ #ifdef DEVICE_COMPILER __global #endif void *base_address; /** * Reserved. Must be 0. */ uint32_t reserved0; #else uint32_t reserved0; #ifdef DEVICE_COMPILER __global #endif void *base_address; #endif /** * Signal object used by the application to indicate the ID of a packet that * is ready to be processed. The HSA runtime manages the doorbell signal. If * the application tries to replace or destroy this signal, the behavior is * undefined. * * If @a type is ::HSA_QUEUE_TYPE_SINGLE the doorbell signal value must be * updated in a monotonically increasing fashion. If @a type is * ::HSA_QUEUE_TYPE_MULTI, the doorbell signal value can be updated with any * value. */ hsa_signal_t doorbell_signal; /** * Maximum number of packets the queue can hold. Must be a power of 2. */ uint32_t size; /** * Reserved. Must be 0. */ uint32_t reserved1; /** * Queue identifier, which is unique over the lifetime of the application. */ uint64_t id; } hsa_queue_t; /** * @brief Create a user mode queue. * * @details The HSA runtime creates the queue structure, the underlying packet * buffer, the completion signal, and the write and read indexes. The initial * value of the write and read indexes is 0. The type of every packet in the * buffer is initialized to ::HSA_PACKET_TYPE_INVALID. * * The application should only rely on the error code returned to determine if * the queue is valid. * * @param[in] agent Agent where to create the queue. * * @param[in] size Number of packets the queue is expected to * hold. Must be a power of 2 between 1 and the value of * ::HSA_AGENT_INFO_QUEUE_MAX_SIZE in @p agent. The size of the newly * created queue is the maximum of @p size and the value of * ::HSA_AGENT_INFO_QUEUE_MIN_SIZE in @p agent. * * @param[in] type Type of the queue. If the value of * ::HSA_AGENT_INFO_QUEUE_TYPE in @p agent is ::HSA_QUEUE_TYPE_SINGLE, then @p * type must also be ::HSA_QUEUE_TYPE_SINGLE. * * @param[in] callback Callback invoked by the HSA runtime for every * asynchronous event related to the newly created queue. May be NULL. The HSA * runtime passes three arguments to the callback: a code identifying the event * that triggered the invocation, a pointer to the queue where the event * originated, and the application data. * * @param[in] data Application data that is passed to @p callback on every * iteration. May be NULL. * * @param[in] private_segment_size Hint indicating the maximum * expected private segment usage per work-item, in bytes. There may * be performance degradation if the application places a kernel * dispatch packet in the queue and the corresponding private segment * usage exceeds @p private_segment_size. If the application does not * want to specify any particular value for this argument, @p * private_segment_size must be UINT32_MAX. If the queue does not * support kernel dispatch packets, this argument is ignored. * * @param[in] group_segment_size Hint indicating the maximum expected * group segment usage per work-group, in bytes. There may be * performance degradation if the application places a kernel dispatch * packet in the queue and the corresponding group segment usage * exceeds @p group_segment_size. If the application does not want to * specify any particular value for this argument, @p * group_segment_size must be UINT32_MAX. If the queue does not * support kernel dispatch packets, this argument is ignored. * * @param[out] queue Memory location where the HSA runtime stores a pointer to * the newly created queue. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is failure to allocate * the resources required by the implementation. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT The agent is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_QUEUE_CREATION @p agent does not * support queues of the given type. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p size is not a power of two, * @p size is 0, @p type is an invalid queue type, or @p queue is NULL. * */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_queue_create(hsa_agent_t agent, uint32_t size, hsa_queue_type_t type, void (*callback)(hsa_status_t status, hsa_queue_t *source, void *data), void *data, uint32_t private_segment_size, uint32_t group_segment_size, hsa_queue_t **queue); #endif /** * @brief Create a queue for which the application or a kernel is responsible * for processing the AQL packets. * * @details The application can use this function to create queues where AQL * packets are not parsed by the packet processor associated with an agent, * but rather by a unit of execution running on that agent (for example, a * thread in the host application). * * The application is responsible for ensuring that all the producers and * consumers of the resulting queue can access the provided doorbell signal * and memory region. The application is also responsible for ensuring that the * unit of execution processing the queue packets supports the indicated * features (AQL packet types). * * When the queue is created, the HSA runtime allocates the packet buffer using * @p region, and the write and read indexes. The initial value of the write and * read indexes is 0, and the type of every packet in the buffer is initialized * to ::HSA_PACKET_TYPE_INVALID. The value of the @e size, @e type, @e features, * and @e doorbell_signal fields in the returned queue match the values passed * by the application. * * @param[in] region Memory region that the HSA runtime should use to allocate * the AQL packet buffer and any other queue metadata. * * @param[in] size Number of packets the queue is expected to hold. Must be a * power of 2 greater than 0. * * @param[in] type Queue type. * * @param[in] features Supported queue features. This is a bit-field of * ::hsa_queue_feature_t values. * * @param[in] doorbell_signal Doorbell signal that the HSA runtime must * associate with the returned queue. The signal handle must not be 0. * * @param[out] queue Memory location where the HSA runtime stores a pointer to * the newly created queue. The application should not rely on the value * returned for this argument but only in the status code to determine if the * queue is valid. Must not be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is failure to allocate * the resources required by the implementation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p size is not a power of two, @p * size is 0, @p type is an invalid queue type, the doorbell signal handle is * 0, or @p queue is NULL. * */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_soft_queue_create(hsa_region_t region, uint32_t size, hsa_queue_type_t type, uint32_t features, hsa_signal_t doorbell_signal, hsa_queue_t **queue); #endif /** * @brief Destroy a user mode queue. * * @details When a queue is destroyed, the state of the AQL packets that have * not been yet fully processed (their completion phase has not finished) * becomes undefined. It is the responsibility of the application to ensure that * all pending queue operations are finished if their results are required. * * The resources allocated by the HSA runtime during queue creation (queue * structure, ring buffer, doorbell signal) are released. The queue should not * be accessed after being destroyed. * * @param[in] queue Pointer to a queue created using ::hsa_queue_create. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_QUEUE The queue is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p queue is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_queue_destroy(hsa_queue_t *queue); #endif /** * @brief Inactivate a queue. * * @details Inactivating the queue aborts any pending executions and prevent any * new packets from being processed. Any more packets written to the queue once * it is inactivated will be ignored by the packet processor. * * @param[in] queue Pointer to a queue. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_QUEUE The queue is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p queue is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_queue_inactivate(hsa_queue_t *queue); #endif /** * @brief Atomically load the read index of a queue. * * @param[in] queue Pointer to a queue. * * @return Read index of the queue pointed by @p queue. */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_load_read_index_acquire(const hsa_queue_t *queue); #endif /** * @copydoc hsa_queue_load_read_index_acquire */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_load_read_index_relaxed(const hsa_queue_t *queue); #endif /** * @brief Atomically load the write index of a queue. * * @param[in] queue Pointer to a queue. * * @return Write index of the queue pointed by @p queue. */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_load_write_index_acquire(const hsa_queue_t *queue); #endif /** * @copydoc hsa_queue_load_write_index_acquire */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_load_write_index_relaxed(const hsa_queue_t *queue); #endif /** * @brief Atomically set the write index of a queue. * * @param[in] queue Pointer to a queue. * * @param[in] value Value to assign to the write index. * */ #ifndef DEVICE_COMPILER void HSA_API hsa_queue_store_write_index_relaxed(const hsa_queue_t *queue, uint64_t value); #endif /** * @copydoc hsa_queue_store_write_index_relaxed */ #ifndef DEVICE_COMPILER void HSA_API hsa_queue_store_write_index_release(const hsa_queue_t *queue, uint64_t value); #endif /** * @brief Atomically set the write index of a queue if the observed value is * equal to the expected value. The application can inspect the returned value * to determine if the replacement was done. * * @param[in] queue Pointer to a queue. * * @param[in] expected Expected value. * * @param[in] value Value to assign to the write index if @p expected matches * the observed write index. Must be greater than @p expected. * * @return Previous value of the write index. */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_cas_write_index_acq_rel(const hsa_queue_t *queue, uint64_t expected, uint64_t value); #endif /** * @copydoc hsa_queue_cas_write_index_acq_rel */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_cas_write_index_acquire(const hsa_queue_t *queue, uint64_t expected, uint64_t value); #endif /** * @copydoc hsa_queue_cas_write_index_acq_rel */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_cas_write_index_relaxed(const hsa_queue_t *queue, uint64_t expected, uint64_t value); #endif /** * @copydoc hsa_queue_cas_write_index_acq_rel */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_cas_write_index_release(const hsa_queue_t *queue, uint64_t expected, uint64_t value); #endif /** * @brief Atomically increment the write index of a queue by an offset. * * @param[in] queue Pointer to a queue. * * @param[in] value Value to add to the write index. * * @return Previous value of the write index. */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_add_write_index_acq_rel(const hsa_queue_t *queue, uint64_t value); #endif /** * @copydoc hsa_queue_add_write_index_acq_rel */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_add_write_index_acquire(const hsa_queue_t *queue, uint64_t value); #endif /** * @copydoc hsa_queue_add_write_index_acq_rel */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_add_write_index_relaxed(const hsa_queue_t *queue, uint64_t value); #endif /** * @copydoc hsa_queue_add_write_index_acq_rel */ #ifndef DEVICE_COMPILER uint64_t HSA_API hsa_queue_add_write_index_release(const hsa_queue_t *queue, uint64_t value); #endif /** * @brief Atomically set the read index of a queue. * * @details Modifications of the read index are not allowed and result in * undefined behavior if the queue is associated with an agent for which * only the corresponding packet processor is permitted to update the read * index. * * @param[in] queue Pointer to a queue. * * @param[in] value Value to assign to the read index. * */ #ifndef DEVICE_COMPILER void HSA_API hsa_queue_store_read_index_relaxed(const hsa_queue_t *queue, uint64_t value); #endif /** * @copydoc hsa_queue_store_read_index_relaxed */ #ifndef DEVICE_COMPILER void HSA_API hsa_queue_store_read_index_release(const hsa_queue_t *queue, uint64_t value); #endif /** @} */ /** \defgroup aql Architected Queuing Language * @{ */ /** * @brief Packet type. */ typedef enum { /** * Vendor-specific packet. */ HSA_PACKET_TYPE_VENDOR_SPECIFIC = 0, /** * The packet has been processed in the past, but has not been reassigned to * the packet processor. A packet processor must not process a packet of this * type. All queues support this packet type. */ HSA_PACKET_TYPE_INVALID = 1, /** * Packet used by agents for dispatching jobs to kernel agents. Not all * queues support packets of this type (see ::hsa_queue_feature_t). */ HSA_PACKET_TYPE_KERNEL_DISPATCH = 2, /** * Packet used by agents to delay processing of subsequent packets, and to * express complex dependencies between multiple packets. All queues support * this packet type. */ HSA_PACKET_TYPE_BARRIER_AND = 3, /** * Packet used by agents for dispatching jobs to agents. Not all * queues support packets of this type (see ::hsa_queue_feature_t). */ HSA_PACKET_TYPE_AGENT_DISPATCH = 4, /** * Packet used by agents to delay processing of subsequent packets, and to * express complex dependencies between multiple packets. All queues support * this packet type. */ HSA_PACKET_TYPE_BARRIER_OR = 5 } hsa_packet_type_t; /** * @brief Scope of the memory fence operation associated with a packet. */ typedef enum { /** * No scope (no fence is applied). The packet relies on external fences to * ensure visibility of memory updates. */ HSA_FENCE_SCOPE_NONE = 0, /** * The fence is applied with agent scope for the global segment. */ HSA_FENCE_SCOPE_AGENT = 1, /** * The fence is applied across both agent and system scope for the global * segment. */ HSA_FENCE_SCOPE_SYSTEM = 2 } hsa_fence_scope_t; /** * @brief Sub-fields of the @a header field that is present in any AQL * packet. The offset (with respect to the address of @a header) of a sub-field * is identical to its enumeration constant. The width of each sub-field is * determined by the corresponding value in ::hsa_packet_header_width_t. The * offset and the width are expressed in bits. */ typedef enum { /** * Packet type. The value of this sub-field must be one of * ::hsa_packet_type_t. If the type is ::HSA_PACKET_TYPE_VENDOR_SPECIFIC, the * packet layout is vendor-specific. */ HSA_PACKET_HEADER_TYPE = 0, /** * Barrier bit. If the barrier bit is set, the processing of the current * packet only launches when all preceding packets (within the same queue) are * complete. */ HSA_PACKET_HEADER_BARRIER = 8, /** * Acquire fence scope. The value of this sub-field determines the scope and * type of the memory fence operation applied before the packet enters the * active phase. An acquire fence ensures that any subsequent global segment * or image loads by any unit of execution that belongs to a dispatch that has * not yet entered the active phase on any queue of the same kernel agent, * sees any data previously released at the scopes specified by the acquire * fence. The value of this sub-field must be one of ::hsa_fence_scope_t. */ HSA_PACKET_HEADER_ACQUIRE_FENCE_SCOPE = 9, /** * Release fence scope, The value of this sub-field determines the scope and * type of the memory fence operation applied after kernel completion but * before the packet is completed. A release fence makes any global segment or * image data that was stored by any unit of execution that belonged to a * dispatch that has completed the active phase on any queue of the same * kernel agent visible in all the scopes specified by the release fence. The * value of this sub-field must be one of ::hsa_fence_scope_t. */ HSA_PACKET_HEADER_RELEASE_FENCE_SCOPE = 11 } hsa_packet_header_t; /** * @brief Width (in bits) of the sub-fields in ::hsa_packet_header_t. */ typedef enum { HSA_PACKET_HEADER_WIDTH_TYPE = 8, HSA_PACKET_HEADER_WIDTH_BARRIER = 1, HSA_PACKET_HEADER_WIDTH_ACQUIRE_FENCE_SCOPE = 2, HSA_PACKET_HEADER_WIDTH_RELEASE_FENCE_SCOPE = 2 } hsa_packet_header_width_t; /** * @brief Sub-fields of the kernel dispatch packet @a setup field. The offset * (with respect to the address of @a setup) of a sub-field is identical to its * enumeration constant. The width of each sub-field is determined by the * corresponding value in ::hsa_kernel_dispatch_packet_setup_width_t. The * offset and the width are expressed in bits. */ typedef enum { /** * Number of dimensions of the grid. Valid values are 1, 2, or 3. * */ HSA_KERNEL_DISPATCH_PACKET_SETUP_DIMENSIONS = 0 } hsa_kernel_dispatch_packet_setup_t; /** * @brief Width (in bits) of the sub-fields in * ::hsa_kernel_dispatch_packet_setup_t. */ typedef enum { HSA_KERNEL_DISPATCH_PACKET_SETUP_WIDTH_DIMENSIONS = 2 } hsa_kernel_dispatch_packet_setup_width_t; /** * @brief AQL kernel dispatch packet */ typedef struct hsa_kernel_dispatch_packet_s { /** * Packet header. Used to configure multiple packet parameters such as the * packet type. The parameters are described by ::hsa_packet_header_t. */ uint16_t header; /** * Dispatch setup parameters. Used to configure kernel dispatch parameters * such as the number of dimensions in the grid. The parameters are described * by ::hsa_kernel_dispatch_packet_setup_t. */ uint16_t setup; /** * X dimension of work-group, in work-items. Must be greater than 0. */ uint16_t workgroup_size_x; /** * Y dimension of work-group, in work-items. Must be greater than * 0. If the grid has 1 dimension, the only valid value is 1. */ uint16_t workgroup_size_y; /** * Z dimension of work-group, in work-items. Must be greater than * 0. If the grid has 1 or 2 dimensions, the only valid value is 1. */ uint16_t workgroup_size_z; /** * Reserved. Must be 0. */ uint16_t reserved0; /** * X dimension of grid, in work-items. Must be greater than 0. Must * not be smaller than @a workgroup_size_x. */ uint32_t grid_size_x; /** * Y dimension of grid, in work-items. Must be greater than 0. If the grid has * 1 dimension, the only valid value is 1. Must not be smaller than @a * workgroup_size_y. */ uint32_t grid_size_y; /** * Z dimension of grid, in work-items. Must be greater than 0. If the grid has * 1 or 2 dimensions, the only valid value is 1. Must not be smaller than @a * workgroup_size_z. */ uint32_t grid_size_z; /** * Size in bytes of private memory allocation request (per work-item). */ uint32_t private_segment_size; /** * Size in bytes of group memory allocation request (per work-group). Must not * be less than the sum of the group memory used by the kernel (and the * functions it calls directly or indirectly) and the dynamically allocated * group segment variables. */ uint32_t group_segment_size; /** * Opaque handle to a code object that includes an implementation-defined * executable code for the kernel. */ uint64_t kernel_object; #ifdef HSA_LARGE_MODEL #ifdef DEVICE_COMPILER __global #endif void *kernarg_address; #elif defined HSA_LITTLE_ENDIAN /** * Pointer to a buffer containing the kernel arguments. May be NULL. * * The buffer must be allocated using ::hsa_memory_allocate, and must not be * modified once the kernel dispatch packet is enqueued until the dispatch has * completed execution. */ #ifdef DEVICE_COMPILER __global #endif void *kernarg_address; /** * Reserved. Must be 0. */ uint32_t reserved1; #else uint32_t reserved1; #ifdef DEVICE_COMPILER __global #endif void *kernarg_address; #endif /** * Reserved. Must be 0. */ uint64_t reserved2; /** * Signal used to indicate completion of the job. The application can use the * special signal handle 0 to indicate that no signal is used. */ hsa_signal_t completion_signal; } hsa_kernel_dispatch_packet_t; /** * @brief Agent dispatch packet. */ typedef struct hsa_agent_dispatch_packet_s { /** * Packet header. Used to configure multiple packet parameters such as the * packet type. The parameters are described by ::hsa_packet_header_t. */ uint16_t header; /** * Application-defined function to be performed by the destination agent. */ uint16_t type; /** * Reserved. Must be 0. */ uint32_t reserved0; #ifdef HSA_LARGE_MODEL #ifdef DEVICE_COMPILER __constant #endif void *return_address; #elif defined HSA_LITTLE_ENDIAN /** * Address where to store the function return values, if any. */ #ifdef DEVICE_COMPILER __constant #endif void *return_address; /** * Reserved. Must be 0. */ uint32_t reserved1; #else uint32_t reserved1; #ifdef DEVICE_COMPILER __constant #endif void *return_address; #endif /** * Function arguments. */ uint64_t arg[4]; /** * Reserved. Must be 0. */ uint64_t reserved2; /** * Signal used to indicate completion of the job. The application can use the * special signal handle 0 to indicate that no signal is used. */ hsa_signal_t completion_signal; } hsa_agent_dispatch_packet_t; /** * @brief Barrier-AND packet. */ typedef struct hsa_barrier_and_packet_s { /** * Packet header. Used to configure multiple packet parameters such as the * packet type. The parameters are described by ::hsa_packet_header_t. */ uint16_t header; /** * Reserved. Must be 0. */ uint16_t reserved0; /** * Reserved. Must be 0. */ uint32_t reserved1; /** * Array of dependent signal objects. Signals with a handle value of 0 are * allowed and are interpreted by the packet processor as satisfied * dependencies. */ hsa_signal_t dep_signal[5]; /** * Reserved. Must be 0. */ uint64_t reserved2; /** * Signal used to indicate completion of the job. The application can use the * special signal handle 0 to indicate that no signal is used. */ hsa_signal_t completion_signal; } hsa_barrier_and_packet_t; /** * @brief Barrier-OR packet. */ typedef struct hsa_barrier_or_packet_s { /** * Packet header. Used to configure multiple packet parameters such as the * packet type. The parameters are described by ::hsa_packet_header_t. */ uint16_t header; /** * Reserved. Must be 0. */ uint16_t reserved0; /** * Reserved. Must be 0. */ uint32_t reserved1; /** * Array of dependent signal objects. Signals with a handle value of 0 are * allowed and are interpreted by the packet processor as dependencies not * satisfied. */ hsa_signal_t dep_signal[5]; /** * Reserved. Must be 0. */ uint64_t reserved2; /** * Signal used to indicate completion of the job. The application can use the * special signal handle 0 to indicate that no signal is used. */ hsa_signal_t completion_signal; } hsa_barrier_or_packet_t; /** @} */ /** \addtogroup memory Memory * @{ */ /** * @brief Memory segments associated with a region. */ typedef enum { /** * Global segment. Used to hold data that is shared by all agents. */ HSA_REGION_SEGMENT_GLOBAL = 0, /** * Read-only segment. Used to hold data that remains constant during the * execution of a kernel. */ HSA_REGION_SEGMENT_READONLY = 1, /** * Private segment. Used to hold data that is local to a single work-item. */ HSA_REGION_SEGMENT_PRIVATE = 2, /** * Group segment. Used to hold data that is shared by the work-items of a * work-group. */ HSA_REGION_SEGMENT_GROUP = 3 } hsa_region_segment_t; /** * @brief Global region flags. */ typedef enum { /** * The application can use memory in the region to store kernel arguments, and * provide the values for the kernarg segment of a kernel dispatch. If this * flag is set, then ::HSA_REGION_GLOBAL_FLAG_FINE_GRAINED must be set. */ HSA_REGION_GLOBAL_FLAG_KERNARG = 1, /** * Updates to memory in this region are immediately visible to all the * agents under the terms of the HSA memory model. If this * flag is set, then ::HSA_REGION_GLOBAL_FLAG_COARSE_GRAINED must not be set. */ HSA_REGION_GLOBAL_FLAG_FINE_GRAINED = 2, /** * Updates to memory in this region can be performed by a single agent at * a time. If a different agent in the system is allowed to access the * region, the application must explicitely invoke ::hsa_memory_assign_agent * in order to transfer ownership to that agent for a particular buffer. */ HSA_REGION_GLOBAL_FLAG_COARSE_GRAINED = 4 } hsa_region_global_flag_t; /** * @brief Attributes of a memory region. */ typedef enum { /** * Segment where memory in the region can be used. The type of this * attribute is ::hsa_region_segment_t. */ HSA_REGION_INFO_SEGMENT = 0, /** * Flag mask. The value of this attribute is undefined if the value of * ::HSA_REGION_INFO_SEGMENT is not ::HSA_REGION_SEGMENT_GLOBAL. The type of * this attribute is uint32_t, a bit-field of ::hsa_region_global_flag_t * values. */ HSA_REGION_INFO_GLOBAL_FLAGS = 1, /** * Size of this region, in bytes. The type of this attribute is size_t. */ HSA_REGION_INFO_SIZE = 2, /** * Maximum allocation size in this region, in bytes. Must not exceed the value * of ::HSA_REGION_INFO_SIZE. The type of this attribute is size_t. * * If the region is in the global or readonly segments, this is the maximum * size that the application can pass to ::hsa_memory_allocate. If the region * is in the group segment, this is the maximum size (per work-group) that can * be requested for a given kernel dispatch. If the region is in the private * segment, this is the maximum size (per work-item) that can be request for a * specific kernel dispatch. */ HSA_REGION_INFO_ALLOC_MAX_SIZE = 4, /** * Indicates whether memory in this region can be allocated using * ::hsa_memory_allocate. The type of this attribute is bool. * * The value of this flag is always false for regions in the group and private * segments. */ HSA_REGION_INFO_RUNTIME_ALLOC_ALLOWED = 5, /** * Allocation granularity of buffers allocated by ::hsa_memory_allocate in * this region. The size of a buffer allocated in this region is a multiple of * the value of this attribute. The value of this attribute is only defined if * ::HSA_REGION_INFO_RUNTIME_ALLOC_ALLOWED is true for this region. The type * of this attribute is size_t. */ HSA_REGION_INFO_RUNTIME_ALLOC_GRANULE = 6, /** * Alignment of buffers allocated by ::hsa_memory_allocate in this region. The * value of this attribute is only defined if * ::HSA_REGION_INFO_RUNTIME_ALLOC_ALLOWED is true for this region, and must * be a power of 2. The type of this attribute is size_t. */ HSA_REGION_INFO_RUNTIME_ALLOC_ALIGNMENT = 7 } hsa_region_info_t; /** * @brief Get the current value of an attribute of a region. * * @param[in] region A valid region. * * @param[in] attribute Attribute to query. * * @param[out] value Pointer to a application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_REGION The region is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * region attribute, or @p value is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_region_get_info(hsa_region_t region, hsa_region_info_t attribute, void *value); #endif /** * @brief Iterate over the memory regions associated with a given agent, and * invoke an application-defined callback on every iteration. * * @param[in] agent A valid agent. * * @param[in] callback Callback to be invoked once per region that is * accessible from the agent. The HSA runtime passes two arguments to the * callback, the region and the application data. If @p callback returns a * status other than ::HSA_STATUS_SUCCESS for a particular iteration, the * traversal stops and ::hsa_agent_iterate_regions returns that status value. * * @param[in] data Application data that is passed to @p callback on every * iteration. May be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT The agent is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p callback is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_agent_iterate_regions( hsa_agent_t agent, hsa_status_t (*callback)(hsa_region_t region, void *data), void *data); #endif /** * @brief Allocate a block of memory in a given region. * * @param[in] region Region where to allocate memory from. The region must have * the ::HSA_REGION_INFO_RUNTIME_ALLOC_ALLOWED flag set. * * @param[in] size Allocation size, in bytes. Must not be zero. This value is * rounded up to the nearest multiple of ::HSA_REGION_INFO_RUNTIME_ALLOC_GRANULE * in @p region. * * @param[out] ptr Pointer to the location where to store the base address of * the allocated block. The returned base address is aligned to the value of * ::HSA_REGION_INFO_RUNTIME_ALLOC_ALIGNMENT in @p region. If the allocation * fails, the returned value is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES No memory is available. * * @retval ::HSA_STATUS_ERROR_INVALID_REGION The region is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ALLOCATION The host is not allowed to * allocate memory in @p region, or @p size is greater than the value of * HSA_REGION_INFO_ALLOC_MAX_SIZE in @p region. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p ptr is NULL, or @p size is 0. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_memory_allocate(hsa_region_t region, size_t size, void **ptr); #endif /** * @brief Deallocate a block of memory previously allocated using * ::hsa_memory_allocate. * * @param[in] ptr Pointer to a memory block. If @p ptr does not match a value * previously returned by ::hsa_memory_allocate, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_memory_free(void *ptr); #endif /** * @brief Copy a block of memory. * * @param[out] dst Buffer where the content is to be copied. * * @param[in] src A valid pointer to the source of data to be copied. * * @param[in] size Number of bytes to copy. If @p size is 0, no copy is * performed and the function returns success. Copying a number of bytes larger * than the size of the buffers pointed by @p dst or @p src results in undefined * behavior. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT The source or destination * pointers are NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_memory_copy(void *dst, const void *src, size_t size); #endif /** * @brief Change the ownership of a global, coarse-grained buffer. * * @details The contents of a coarse-grained buffer are visible to an agent * only after ownership has been explicitely transferred to that agent. Once the * operation completes, the previous owner cannot longer access the data in the * buffer. * * An implementation of the HSA runtime is allowed, but not required, to change * the physical location of the buffer when ownership is transferred to a * different agent. In general the application must not assume this * behavior. The virtual location (address) of the passed buffer is never * modified. * * @param[in] ptr Base address of a global buffer. The pointer should match an * address previously returned by ::hsa_memory_allocate. The size of the buffer * affected by the ownership change is identical to the size of that previous * allocation. If @p ptr points to a fine-grained global buffer, no operation is * performed and the function returns success. If @p ptr does not point to * global memory, the behavior is undefined. * * @param[in] agent Agent that becomes the owner of the buffer. The * application is responsible for ensuring that @p agent has access to the * region that contains the buffer. It is allowed to change ownership to an * agent that is already the owner of the buffer, with the same or different * access permissions. * * @param[in] access Access permissions requested for the new owner. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT The agent is invalid. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES The HSA runtime is unable to * acquire the resources required by the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p ptr is NULL, or @p access is * not a valid access value. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_memory_assign_agent(void *ptr, hsa_agent_t agent, hsa_access_permission_t access); #endif /** * * @brief Register a global, fine-grained buffer. * * @details Registering a buffer serves as an indication to the HSA runtime that * the memory might be accessed from a kernel agent other than the * host. Registration is a performance hint that allows the HSA runtime * implementation to know which buffers will be accessed by some of the kernel * agents ahead of time. * * Registration is only recommended for buffers in the global segment that have * not been allocated using the HSA allocator (::hsa_memory_allocate), but an OS * allocator instead. * * Registrations should not overlap. * * @param[in] ptr A buffer in global memory. If a NULL pointer is passed, no * operation is performed. * * @param[in] size Requested registration size in bytes. A size of 0 is * only allowed if @p ptr is NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure in * allocating the necessary resources. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p size is 0 but @p ptr * is not NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_memory_register(void *ptr, size_t size); #endif /** * * @brief Deregister memory previously registered using ::hsa_memory_register. * * @details If the memory interval being deregistered does not match a previous * registration (start and end addresses), the behavior is undefined. * * @param[in] ptr A pointer to the base of the buffer to be deregistered. If * a NULL pointer is passed, no operation is performed. * * @param[in] size Size of the buffer to be deregistered. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_memory_deregister(void *ptr, size_t size); #endif /** @} */ /** \defgroup symbol-attributes Symbol Attributes * @{ */ /** * @brief Symbol type. */ typedef enum { /** * Variable. */ HSA_SYMBOL_KIND_VARIABLE = 0, /** * Kernel. */ HSA_SYMBOL_KIND_KERNEL = 1, /** * Indirect function. */ HSA_SYMBOL_KIND_INDIRECT_FUNCTION = 2 } hsa_symbol_kind_t; /** * @brief Allocation type of a variable. */ typedef enum { /** * Agent allocation. */ HSA_VARIABLE_ALLOCATION_AGENT = 0, /** * Program allocation. */ HSA_VARIABLE_ALLOCATION_PROGRAM = 1 } hsa_variable_allocation_t; /** * @brief Linkage type of a symbol. */ typedef enum { /** * Module linkage. */ HSA_SYMBOL_LINKAGE_MODULE = 0, /** * Program linkage. */ HSA_SYMBOL_LINKAGE_PROGRAM = 1 } hsa_symbol_linkage_t; /** * @brief Memory segment associated with a variable. */ typedef enum { /** * Global memory segment. */ HSA_VARIABLE_SEGMENT_GLOBAL = 0, /** * Readonly memory segment. */ HSA_VARIABLE_SEGMENT_READONLY = 1 } hsa_variable_segment_t; /** @} */ /** \defgroup code-object Code Object * @{ */ /** * @brief Instruction set architecture. */ typedef struct hsa_isa_s { /** * Opaque handle. */ uint64_t handle; } hsa_isa_t; /** * @brief Retrieve a reference to an ISA handle out of a symbolic name. * * @param[in] name Vendor-specific name associated with a particular instruction * set architecture. Must be a NUL-terminated string. * * @param[out] isa Memory location where the HSA runtime stores the ISA handle * corresponding to the given name. Must not be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p name is NULL, or @p isa is * NULL. * * @retval ::HSA_STATUS_ERROR_INVALID_ISA_NAME The given name does not * correspond to any instruction set architecture. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_isa_from_name( const char* name, hsa_isa_t* isa); #endif /** * @brief Instruction set architecture attributes. */ typedef enum { /** * The length of the ISA name. The type of this attribute is uint32_t. */ HSA_ISA_INFO_NAME_LENGTH = 0, /** * Human-readable description. The type of this attribute is character array * with the length equal to the value of ::HSA_ISA_INFO_NAME_LENGTH attribute. */ HSA_ISA_INFO_NAME = 1, /** * Number of call conventions supported by the instruction set architecture. * The type of this attribute is uint32_t. */ HSA_ISA_INFO_CALL_CONVENTION_COUNT = 2, /** * Number of work-items in a wavefront for a given call convention. Must be a * power of 2 in the range [1,256]. The type of this attribute is uint32_t. */ HSA_ISA_INFO_CALL_CONVENTION_INFO_WAVEFRONT_SIZE = 3, /** * Number of wavefronts per compute unit for a given call convention. In * practice, other factors (for example, the amount of group memory used by a * work-group) may further limit the number of wavefronts per compute * unit. The type of this attribute is uint32_t. */ HSA_ISA_INFO_CALL_CONVENTION_INFO_WAVEFRONTS_PER_COMPUTE_UNIT = 4 } hsa_isa_info_t; /** * @brief Get the current value of an attribute for a given instruction set * architecture (ISA). * * @param[in] isa A valid instruction set architecture. * * @param[in] attribute Attribute to query. * * @param[in] index Call convention index. Used only for call convention * attributes, otherwise ignored. Must have a value between 0 (inclusive) and * the value of the attribute ::HSA_ISA_INFO_CALL_CONVENTION_COUNT (not * inclusive) in @p isa. * * @param[out] value Pointer to an application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ISA The instruction set architecture is * invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_INDEX @p index out of range. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * instruction set architecture attribute, or @p value is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_isa_get_info( hsa_isa_t isa, hsa_isa_info_t attribute, uint32_t index, void* value); #endif /** * @brief Check if the instruction set architecture of a code object can be * executed on an agent associated with another architecture. * * @param[in] code_object_isa Instruction set architecture associated with a * code object. * * @param[in] agent_isa Instruction set architecture associated with an agent. * * @param[out] result Pointer to a memory location where the HSA runtime stores * the result of the check. If the two architectures are compatible, the result * is true; if they are incompatible, the result is false. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_INVALID_ISA @p code_object_isa or @p agent_isa are * invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p result is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_isa_compatible( hsa_isa_t code_object_isa, hsa_isa_t agent_isa, bool* result); #endif /** * @brief An opaque handle to a code object, which contains ISA for finalized * kernels and indirect functions together with information about the * global/readonly segment variables they reference. */ typedef struct hsa_code_object_s { /** * Opaque handle. */ uint64_t handle; } hsa_code_object_t; /** * @brief Opaque handle to application data that is passed to the serialization * and deserialization functions. */ typedef struct hsa_callback_data_s { /** * Opaque handle. */ uint64_t handle; } hsa_callback_data_t; /** * @brief Serialize a code object. Can be used for offline finalization, * install-time finalization, disk code caching, etc. * * @param[in] code_object Code object. * * @param[in] alloc_callback Callback function for memory allocation. Must not * be NULL. The HSA runtime passes three arguments to the callback: the * allocation size, the application data, and a pointer to a memory location * where the application stores the allocation result. The HSA runtime invokes * @p alloc_callback once to allocate a buffer that contains the serialized * version of @p code_object. If the callback returns a status code other than * ::HSA_STATUS_SUCCESS, this function returns the same code. * * @param[in] callback_data Application data that is passed to @p * alloc_callback. May be NULL. * * @param[in] options Vendor-specific options. May be NULL. * * @param[out] serialized_code_object Memory location where the HSA runtime * stores a pointer to the serialized code object. Must not be NULL. * * @param[out] serialized_code_object_size Memory location where the HSA runtime * stores the size (in bytes) of @p serialized_code_object. The returned value * matches the allocation size passed by the HSA runtime to @p * alloc_callback. Must not be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure to allocate * resources required for the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_CODE_OBJECT @p code_object is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p alloc_callback, @p * serialized_code_object, or @p serialized_code_object_size are NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_code_object_serialize( hsa_code_object_t code_object, hsa_status_t (*alloc_callback)(size_t size, hsa_callback_data_t data, void **address), hsa_callback_data_t callback_data, const char *options, void **serialized_code_object, size_t *serialized_code_object_size); #endif /** * @brief Deserialize a code object. * * @param[in] serialized_code_object A serialized code object. Must not be NULL. * * @param[in] serialized_code_object_size The size (in bytes) of @p * serialized_code_object. Must not be 0. * * @param[in] options Vendor-specific options. May be NULL. * * @param[out] code_object Memory location where the HSA runtime stores the * deserialized code object. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure to allocate * resources required for the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p serialized_code_object, or @p * code_object are NULL. @p serialized_code_object_size is 0. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_code_object_deserialize( void *serialized_code_object, size_t serialized_code_object_size, const char *options, hsa_code_object_t *code_object); #endif /** * @brief Destroy a code object. * * @details The lifetime of a code object must exceed that of any executable * where it has been loaded. If an executable that loaded @p code_object has not * been destroyed, the behavior is undefined. * * @param[in] code_object Code object. The handle becomes invalid after it has * been destroyed. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_CODE_OBJECT @p code_object is invalid. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_code_object_destroy( hsa_code_object_t code_object); #endif /** * @brief Code object type. */ typedef enum { /** * Produces code object that contains ISA for all kernels and indirect * functions in HSA source. */ HSA_CODE_OBJECT_TYPE_PROGRAM = 0 } hsa_code_object_type_t; /** * @brief Code object attributes. */ typedef enum { /** * The version of the code object. The type of this attribute is a * NUL-terminated char[64]. If the version of the code object uses less than * 63 characters, the rest of the array must be filled with NULs. */ HSA_CODE_OBJECT_INFO_VERSION = 0, /** * Type of code object. The type of this attribute is * ::hsa_code_object_type_t. */ HSA_CODE_OBJECT_INFO_TYPE = 1, /** * Instruction set architecture this code object is produced for. The type of * this attribute is ::hsa_isa_t. */ HSA_CODE_OBJECT_INFO_ISA = 2, /** * Machine model this code object is produced for. The type of this attribute * is ::hsa_machine_model_t. */ HSA_CODE_OBJECT_INFO_MACHINE_MODEL = 3, /** * Profile this code object is produced for. The type of this attribute is * ::hsa_profile_t. */ HSA_CODE_OBJECT_INFO_PROFILE = 4, /** * Default floating-point rounding mode used when the code object is * produced. The type of this attribute is * ::hsa_default_float_rounding_mode_t. */ HSA_CODE_OBJECT_INFO_DEFAULT_FLOAT_ROUNDING_MODE = 5 } hsa_code_object_info_t; /** * @brief Get the current value of an attribute for a given code object. * * @param[in] code_object Code object. * * @param[in] attribute Attribute to query. * * @param[out] value Pointer to an application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * code object attribute, or @p value is NULL. * * @retval ::HSA_STATUS_ERROR_INVALID_CODE_OBJECT @p code_object is invalid. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_code_object_get_info( hsa_code_object_t code_object, hsa_code_object_info_t attribute, void *value); #endif /** * @brief Code object symbol. */ typedef struct hsa_code_symbol_s { /** * Opaque handle. */ uint64_t handle; } hsa_code_symbol_t; /** * @brief Get the symbol handle within a code object for a given a symbol name. * * @param[in] code_object Code object. * * @param[in] symbol_name Symbol name. * * @param[out] symbol Memory location where the HSA runtime stores the symbol * handle. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_CODE_OBJECT @p code_object is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_SYMBOL_NAME There is no symbol with a name * that matches @p symbol_name. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p symbol_name is NULL, or * @p symbol is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_code_object_get_symbol( hsa_code_object_t code_object, const char *symbol_name, hsa_code_symbol_t *symbol); #endif /** * @brief Code object symbol attributes. */ typedef enum { /** * The type of the symbol. The type of this attribute is ::hsa_symbol_kind_t. */ HSA_CODE_SYMBOL_INFO_TYPE = 0, /** * The length of the symbol name. The type of this attribute is uint32_t. */ HSA_CODE_SYMBOL_INFO_NAME_LENGTH = 1, /** * The name of the symbol. The type of this attribute is character array with * the length equal to the value of ::HSA_CODE_SYMBOL_INFO_NAME_LENGTH * attribute */ HSA_CODE_SYMBOL_INFO_NAME = 2, /** * The length of the module name to which this symbol belongs if this symbol * has module linkage, otherwise 0 is returned. The type of this attribute is * uint32_t. */ HSA_CODE_SYMBOL_INFO_MODULE_NAME_LENGTH = 3, /** * The module name to which this symbol belongs if this symbol has module * linkage, otherwise empty string is returned. The type of this attribute is * character array with the length equal to the value of * ::HSA_CODE_SYMBOL_INFO_MODULE_NAME_LENGTH attribute. */ HSA_CODE_SYMBOL_INFO_MODULE_NAME = 4, /** * The linkage kind of the symbol. The type of this attribute is * ::hsa_symbol_linkage_t. */ HSA_CODE_SYMBOL_INFO_LINKAGE = 5, /** * Indicates whether the symbol corresponds to a definition. The type of this * attribute is bool. */ HSA_CODE_SYMBOL_INFO_IS_DEFINITION = 17, /** * The allocation kind of the variable. The value of this attribute is * undefined if the symbol is not a variable. The type of this attribute is * ::hsa_variable_allocation_t. */ HSA_CODE_SYMBOL_INFO_VARIABLE_ALLOCATION = 6, /** * The segment kind of the variable. The value of this attribute is * undefined if the symbol is not a variable. The type of this attribute is * ::hsa_variable_segment_t. */ HSA_CODE_SYMBOL_INFO_VARIABLE_SEGMENT = 7, /** * Alignment of the variable. The value of this attribute is undefined if the * symbol is not a variable. The type of this attribute is uint32_t. */ HSA_CODE_SYMBOL_INFO_VARIABLE_ALIGNMENT = 8, /** * Size of the variable. The value of this attribute is undefined if the * symbol is not a variable. The type of this attribute is uint32_t. * * A size of 0 is returned if the variable is an external variable and has an * unknown dimension. */ HSA_CODE_SYMBOL_INFO_VARIABLE_SIZE = 9, /** * Indicates whether the variable is constant. The value of this attribute is * undefined if the symbol is not a variable. The type of this attribute is * bool. */ HSA_CODE_SYMBOL_INFO_VARIABLE_IS_CONST = 10, /** * Size of kernarg segment memory that is required to hold the values of the * kernel arguments, in bytes. The value of this attribute is undefined if the * symbol is not a kernel. The type of this attribute is uint32_t. */ HSA_CODE_SYMBOL_INFO_KERNEL_KERNARG_SEGMENT_SIZE = 11, /** * Alignment (in bytes) of the buffer used to pass arguments to the kernel, * which is the maximum of 16 and the maximum alignment of any of the kernel * arguments. The value of this attribute is undefined if the symbol is not a * kernel. The type of this attribute is uint32_t. */ HSA_CODE_SYMBOL_INFO_KERNEL_KERNARG_SEGMENT_ALIGNMENT = 12, /** * Size of static group segment memory required by the kernel (per * work-group), in bytes. The value of this attribute is undefined * if the symbol is not a kernel. The type of this attribute is uint32_t. * * The reported amount does not include any dynamically allocated group * segment memory that may be requested by the application when a kernel is * dispatched. */ HSA_CODE_SYMBOL_INFO_KERNEL_GROUP_SEGMENT_SIZE = 13, /** * Size of static private, spill, and arg segment memory required by * this kernel (per work-item), in bytes. The value of this attribute is * undefined if the symbol is not a kernel. The type of this attribute is * uint32_t. * * If the value of ::HSA_CODE_SYMBOL_INFO_KERNEL_DYNAMIC_CALLSTACK is true, * the kernel may use more private memory than the reported value, and the * application must add the dynamic call stack usage to @a * private_segment_size when populating a kernel dispatch packet. */ HSA_CODE_SYMBOL_INFO_KERNEL_PRIVATE_SEGMENT_SIZE = 14, /** * Dynamic callstack flag. The value of this attribute is undefined if the * symbol is not a kernel. The type of this attribute is bool. * * If this flag is set (the value is true), the kernel uses a dynamically * sized call stack. This can happen if recursive calls, calls to indirect * functions, or the HSAIL alloca instruction are present in the kernel. */ HSA_CODE_SYMBOL_INFO_KERNEL_DYNAMIC_CALLSTACK = 15, /** * Call convention of the indirect function. The value of this attribute is * undefined if the symbol is not an indirect function. The type of this * attribute is uint32_t. */ HSA_CODE_SYMBOL_INFO_INDIRECT_FUNCTION_CALL_CONVENTION = 16 } hsa_code_symbol_info_t; /** * @brief Get the current value of an attribute for a given code symbol. * * @param[in] code_symbol Code symbol. * * @param[in] attribute Attribute to query. * * @param[out] value Pointer to an application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * code symbol attribute, or @p value is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_code_symbol_get_info( hsa_code_symbol_t code_symbol, hsa_code_symbol_info_t attribute, void *value); #endif /** * @brief Iterate over the symbols in a code object, and invoke an * application-defined callback on every iteration. * * @param[in] code_object Code object. * * @param[in] callback Callback to be invoked once per code object symbol. The * HSA runtime passes three arguments to the callback: the code object, a * symbol, and the application data. If @p callback returns a status other than * ::HSA_STATUS_SUCCESS for a particular iteration, the traversal stops and * ::hsa_code_object_iterate_symbols returns that status value. * * @param[in] data Application data that is passed to @p callback on every * iteration. May be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_CODE_OBJECT @p code_object is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p callback is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_code_object_iterate_symbols( hsa_code_object_t code_object, hsa_status_t (*callback)(hsa_code_object_t code_object, hsa_code_symbol_t symbol, void* data), void* data); #endif /** @} */ /** \defgroup executable Executable * @{ */ /** * @brief An opaque handle to an executable, which contains ISA for finalized * kernels and indirect functions together with the allocated global/readonly * segment variables they reference. */ typedef struct hsa_executable_s { /** * Opaque handle. */ uint64_t handle; } hsa_executable_t; /** * @brief Executable state. */ typedef enum { /** * Executable state, which allows the user to load code objects and define * external variables. Variable addresses, kernel code handles, and * indirect function code handles are not available in query operations until * the executable is frozen (zero always returned). */ HSA_EXECUTABLE_STATE_UNFROZEN = 0, /** * Executable state, which allows the user to query variable addresses, * kernel code handles, and indirect function code handles using query * operation. Loading new code objects, as well as defining external variables * is not allowed in this state. */ HSA_EXECUTABLE_STATE_FROZEN = 1 } hsa_executable_state_t; /** * @brief Create an empty executable. * * @param[in] profile Profile used in the executable. * * @param[in] executable_state Executable state. If the state is * ::HSA_EXECUTABLE_STATE_FROZEN, the resulting executable is useless because no * code objects can be loaded, and no variables can be defined. * * @param[in] options Vendor-specific options. May be NULL. * * @param[out] executable Memory location where the HSA runtime stores newly * created executable handle. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure to allocate * resources required for the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p profile is invalid, or * @p executable is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_create( hsa_profile_t profile, hsa_executable_state_t executable_state, const char *options, hsa_executable_t *executable); #endif /** * @brief Destroy an executable. * * @details Executable handle becomes invalid after the executable has been * destroyed. Code object handles that were loaded into this executable are * still valid after the executable has been destroyed, and can be used as * intended. Resources allocated outside and associated with this executable * (such as external global/readonly variables) can be released after the * executable has been destroyed. * * Executable should not be destroyed while kernels are in flight. * * @param[in] executable Executable. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE The executable is invalid. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_destroy( hsa_executable_t executable); #endif /** * @brief Load code object into the executable. * * @details Every global/readonly variable that is external must be defined * using define set of operations before loading code objects. Internal * global/readonly variable is allocated once the code object, that is being * loaded, references this variable and this variable is not allocated. * * Any module linkage declaration must have been defined either by a define * variable or by loading a code object that has a symbol with module linkage * definition. * * @param[in] executable Executable. * * @param[in] agent Agent to load code object for. The agent must support the * default floating-point rounding mode used by @p code_object. * * @param[in] code_object Code object to load. The lifetime of the code object * must exceed that of the executable: if @p code_object is destroyed before @p * executable, the behavior is undefined. * * @param[in] options Vendor-specific options. May be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure to allocate * resources required for the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE The executable is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT The agent is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_CODE_OBJECT @p code_object is invalid. * * @retval ::HSA_STATUS_ERROR_INCOMPATIBLE_ARGUMENTS @p agent is not compatible * with @p code_object (for example, @p agent does not support the default * floating-point rounding mode specified by @p code_object), or @p code_object * is not compatible with @p executable (for example, @p code_object and @p * executable have different machine models or profiles). * * @retval ::HSA_STATUS_ERROR_FROZEN_EXECUTABLE @p executable is frozen. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_load_code_object( hsa_executable_t executable, hsa_agent_t agent, hsa_code_object_t code_object, const char *options); #endif /** * @brief Freeze the executable. * * @details No modifications to executable can be made after freezing: no * code objects can be loaded to the executable, no external variables can * be defined. Freezing the executable does not prevent querying executable's * attributes. * * @param[in] executable Executable. * * @param[in] options Vendor-specific options. May be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE The executable is invalid. * * @retval ::HSA_STATUS_ERROR_VARIABLE_UNDEFINED One or more variable is * undefined in the executable. * * @retval ::HSA_STATUS_ERROR_FROZEN_EXECUTABLE @p executable is already frozen. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_freeze( hsa_executable_t executable, const char *options); #endif /** * @brief Executable attributes. */ typedef enum { /** * Profile this executable is created for. The type of this attribute is * ::hsa_profile_t. */ HSA_EXECUTABLE_INFO_PROFILE = 1, /** * Executable state. The type of this attribute is ::hsa_executable_state_t. */ HSA_EXECUTABLE_INFO_STATE = 2 } hsa_executable_info_t; /** * @brief Get the current value of an attribute for a given executable. * * @param[in] executable Executable. * * @param[in] attribute Attribute to query. * * @param[out] value Pointer to an application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE The executable is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * executable attribute, or @p value is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_get_info( hsa_executable_t executable, hsa_executable_info_t attribute, void *value); #endif /** * @brief Define an external global variable with program allocation. * * @details This function allows the application to provide the definition * of a variable in the global segment memory with program allocation. The * variable must be defined before loading a code object into an executable. * In addition, code objects loaded must not define the variable. * * @param[in] executable Executable. * * @param[in] variable_name Name of the variable. * * @param[in] address Address where the variable is defined. The buffer pointed * by @p address is owned by the application, and cannot be deallocated before * @p executable is destroyed. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure to allocate * resources required for the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p variable_name is NULL. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE The executable is invalid. * * @retval ::HSA_STATUS_ERROR_VARIABLE_ALREADY_DEFINED The variable is * already defined. * * @retval ::HSA_STATUS_ERROR_INVALID_SYMBOL_NAME There is no variable with the * @p variable_name. * * @retval ::HSA_STATUS_ERROR_FROZEN_EXECUTABLE @p executable is frozen. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_global_variable_define( hsa_executable_t executable, const char *variable_name, void *address); #endif /** * @brief Define an external global variable with agent allocation. * * @details This function allows the application to provide the definition * of a variable in the global segment memory with agent allocation. The * variable must be defined before loading a code object into an executable. * In addition, code objects loaded must not define the variable. * * @param[in] executable Executable. * * @param[in] agent Agent for which the variable is being defined. * * @param[in] variable_name Name of the variable. * * @param[in] address Address where the variable is defined. The buffer pointed * by @p address is owned by the application, and cannot be deallocated before * @p executable is destroyed. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure to allocate * resources required for the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p variable_name is NULL. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE The executable is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT @p agent is invalid. * * @retval ::HSA_STATUS_ERROR_VARIABLE_ALREADY_DEFINED The variable is * already defined. * * @retval ::HSA_STATUS_ERROR_INVALID_SYMBOL_NAME There is no variable with the * @p variable_name. * * @retval ::HSA_STATUS_ERROR_FROZEN_EXECUTABLE @p executable is frozen. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_agent_global_variable_define( hsa_executable_t executable, hsa_agent_t agent, const char *variable_name, void *address); #endif /** * @brief Define an external readonly variable. * * @details This function allows the application to provide the definition * of a variable in the readonly segment memory. The variable must be defined * before loading a code object into an executable. In addition, code objects * loaded must not define the variable. * * @param[in] executable Executable. * * @param[in] agent Agent for which the variable is being defined. * * @param[in] variable_name Name of the variable. * * @param[in] address Address where the variable is defined. The buffer pointed * by @p address is owned by the application, and cannot be deallocated before * @p executable is destroyed. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_OUT_OF_RESOURCES There is a failure to allocate * resources required for the operation. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p variable_name is NULL. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE Executable is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_AGENT @p agent is invalid. * * @retval ::HSA_STATUS_ERROR_VARIABLE_ALREADY_DEFINED The variable is * already defined. * * @retval ::HSA_STATUS_ERROR_INVALID_SYMBOL_NAME There is no variable with the * @p variable_name. * * @retval ::HSA_STATUS_ERROR_FROZEN_EXECUTABLE @p executable is frozen. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_readonly_variable_define( hsa_executable_t executable, hsa_agent_t agent, const char *variable_name, void *address); #endif /** * @brief Validate executable. Checks that all code objects have matching * machine model, profile, and default floating-point rounding mode. Checks that * all declarations have definitions. Checks declaration-definition * compatibility (see HSA Programming Reference Manual for compatibility rules). * * @param[in] executable Executable. * * @param[out] result Memory location where the HSA runtime stores the * validation result. If the executable is valid, the result is 0. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE @p executable is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p result is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_validate( hsa_executable_t executable, uint32_t* result); #endif /** * @brief Executable symbol. */ typedef struct hsa_executable_symbol_s { /** * Opaque handle. */ uint64_t handle; } hsa_executable_symbol_t; /** * @brief Get the symbol handle for a given a symbol name. * * @param[in] executable Executable. * * @param[in] module_name Module name. Must be NULL if the symbol has * program linkage. * * @param[in] symbol_name Symbol name. * * @param[in] agent Agent associated with the symbol. If the symbol is * independent of any agent (for example, a variable with program * allocation), this argument is ignored. * * @param[in] call_convention Call convention associated with the symbol. If the * symbol does not correspond to an indirect function, this argument is ignored. * * @param[out] symbol Memory location where the HSA runtime stores the symbol * handle. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE The executable is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_SYMBOL_NAME There is no symbol with a name * that matches @p symbol_name. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p symbol_name is NULL, or * @p symbol is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_get_symbol( hsa_executable_t executable, const char *module_name, const char *symbol_name, hsa_agent_t agent, int32_t call_convention, hsa_executable_symbol_t *symbol); #endif /** * @brief Executable symbol attributes. */ typedef enum { /** * The kind of the symbol. The type of this attribute is ::hsa_symbol_kind_t. */ HSA_EXECUTABLE_SYMBOL_INFO_TYPE = 0, /** * The length of the symbol name. The type of this attribute is uint32_t. */ HSA_EXECUTABLE_SYMBOL_INFO_NAME_LENGTH = 1, /** * The name of the symbol. The type of this attribute is character array with * the length equal to the value of ::HSA_EXECUTABLE_SYMBOL_INFO_NAME_LENGTH * attribute */ HSA_EXECUTABLE_SYMBOL_INFO_NAME = 2, /** * The length of the module name to which this symbol belongs if this symbol * has module linkage, otherwise 0 is returned. The type of this attribute is * uint32_t. */ HSA_EXECUTABLE_SYMBOL_INFO_MODULE_NAME_LENGTH = 3, /** * The module name to which this symbol belongs if this symbol has module * linkage, otherwise empty string is returned. The type of this attribute is * character array with the length equal to the value of * ::HSA_EXECUTABLE_SYMBOL_INFO_MODULE_NAME_LENGTH attribute. */ HSA_EXECUTABLE_SYMBOL_INFO_MODULE_NAME = 4, /** * Agent associated with this symbol. If the symbol is a variable, the * value of this attribute is only defined if * ::HSA_EXECUTABLE_SYMBOL_INFO_VARIABLE_ALLOCATION is * ::HSA_VARIABLE_ALLOCATION_AGENT. The type of this attribute is hsa_agent_t. */ HSA_EXECUTABLE_SYMBOL_INFO_AGENT = 20, /** * The address of the variable. The value of this attribute is undefined if * the symbol is not a variable. The type of this attribute is uint64_t. * * If executable's state is ::HSA_EXECUTABLE_STATE_UNFROZEN, then 0 is * returned. */ HSA_EXECUTABLE_SYMBOL_INFO_VARIABLE_ADDRESS = 21, /** * The linkage kind of the symbol. The type of this attribute is * ::hsa_symbol_linkage_t. */ HSA_EXECUTABLE_SYMBOL_INFO_LINKAGE = 5, /** * Indicates whether the symbol corresponds to a definition. The type of this * attribute is bool. */ HSA_EXECUTABLE_SYMBOL_INFO_IS_DEFINITION = 17, /** * The allocation kind of the variable. The value of this attribute is * undefined if the symbol is not a variable. The type of this attribute is * ::hsa_variable_allocation_t. */ HSA_EXECUTABLE_SYMBOL_INFO_VARIABLE_ALLOCATION = 6, /** * The segment kind of the variable. The value of this attribute is undefined * if the symbol is not a variable. The type of this attribute is * ::hsa_variable_segment_t. */ HSA_EXECUTABLE_SYMBOL_INFO_VARIABLE_SEGMENT = 7, /** * Alignment of the variable. The value of this attribute is undefined if * the symbol is not a variable. The type of this attribute is uint32_t. */ HSA_EXECUTABLE_SYMBOL_INFO_VARIABLE_ALIGNMENT = 8, /** * Size of the variable. The value of this attribute is undefined if * the symbol is not a variable. The type of this attribute is uint32_t. * * A value of 0 is returned if the variable is an external variable and has an * unknown dimension. */ HSA_EXECUTABLE_SYMBOL_INFO_VARIABLE_SIZE = 9, /** * Indicates whether the variable is constant. The value of this attribute is * undefined if the symbol is not a variable. The type of this attribute is * bool. */ HSA_EXECUTABLE_SYMBOL_INFO_VARIABLE_IS_CONST = 10, /** * Kernel object handle, used in the kernel dispatch packet. The value of this * attribute is undefined if the symbol is not a kernel. The type of this * attribute is uint64_t. * * If the state of the executable is ::HSA_EXECUTABLE_STATE_UNFROZEN, then 0 * is returned. */ HSA_EXECUTABLE_SYMBOL_INFO_KERNEL_OBJECT = 22, /** * Size of kernarg segment memory that is required to hold the values of the * kernel arguments, in bytes. The value of this attribute is undefined if the * symbol is not a kernel. The type of this attribute is uint32_t. */ HSA_EXECUTABLE_SYMBOL_INFO_KERNEL_KERNARG_SEGMENT_SIZE = 11, /** * Alignment (in bytes) of the buffer used to pass arguments to the kernel, * which is the maximum of 16 and the maximum alignment of any of the kernel * arguments. The value of this attribute is undefined if the symbol is not a * kernel. The type of this attribute is uint32_t. */ HSA_EXECUTABLE_SYMBOL_INFO_KERNEL_KERNARG_SEGMENT_ALIGNMENT = 12, /** * Size of static group segment memory required by the kernel (per * work-group), in bytes. The value of this attribute is undefined * if the symbol is not a kernel. The type of this attribute is uint32_t. * * The reported amount does not include any dynamically allocated group * segment memory that may be requested by the application when a kernel is * dispatched. */ HSA_EXECUTABLE_SYMBOL_INFO_KERNEL_GROUP_SEGMENT_SIZE = 13, /** * Size of static private, spill, and arg segment memory required by * this kernel (per work-item), in bytes. The value of this attribute is * undefined if the symbol is not a kernel. The type of this attribute is * uint32_t. * * If the value of ::HSA_EXECUTABLE_SYMBOL_INFO_KERNEL_DYNAMIC_CALLSTACK is * true, the kernel may use more private memory than the reported value, and * the application must add the dynamic call stack usage to @a * private_segment_size when populating a kernel dispatch packet. */ HSA_EXECUTABLE_SYMBOL_INFO_KERNEL_PRIVATE_SEGMENT_SIZE = 14, /** * Dynamic callstack flag. The value of this attribute is undefined if the * symbol is not a kernel. The type of this attribute is bool. * * If this flag is set (the value is true), the kernel uses a dynamically * sized call stack. This can happen if recursive calls, calls to indirect * functions, or the HSAIL alloca instruction are present in the kernel. */ HSA_EXECUTABLE_SYMBOL_INFO_KERNEL_DYNAMIC_CALLSTACK = 15, /** * Indirect function object handle. The value of this attribute is undefined * if the symbol is not an indirect function, or the associated agent does * not support the Full Profile. The type of this attribute depends on the * machine model: if machine model is small, then the type is uint32_t, if * machine model is large, then the type is uint64_t. * * If the state of the executable is ::HSA_EXECUTABLE_STATE_UNFROZEN, then 0 * is returned. */ HSA_EXECUTABLE_SYMBOL_INFO_INDIRECT_FUNCTION_OBJECT = 23, /** * Call convention of the indirect function. The value of this attribute is * undefined if the symbol is not an indirect function, or the associated * agent does not support the Full Profile. The type of this attribute is * uint32_t. */ HSA_EXECUTABLE_SYMBOL_INFO_INDIRECT_FUNCTION_CALL_CONVENTION = 16 } hsa_executable_symbol_info_t; /** * @brief Get the current value of an attribute for a given executable symbol. * * @param[in] executable_symbol Executable symbol. * * @param[in] attribute Attribute to query. * * @param[out] value Pointer to an application-allocated buffer where to store * the value of the attribute. If the buffer passed by the application is not * large enough to hold the value of @p attribute, the behavior is undefined. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p attribute is an invalid * executable symbol attribute, or @p value is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_symbol_get_info( hsa_executable_symbol_t executable_symbol, hsa_executable_symbol_info_t attribute, void *value); #endif /** * @brief Iterate over the symbols in a executable, and invoke an * application-defined callback on every iteration. * * @param[in] executable Executable. * * @param[in] callback Callback to be invoked once per executable symbol. The * HSA runtime passes three arguments to the callback: the executable, a symbol, * and the application data. If @p callback returns a status other than * ::HSA_STATUS_SUCCESS for a particular iteration, the traversal stops and * ::hsa_executable_iterate_symbols returns that status value. * * @param[in] data Application data that is passed to @p callback on every * iteration. May be NULL. * * @retval ::HSA_STATUS_SUCCESS The function has been executed successfully. * * @retval ::HSA_STATUS_ERROR_NOT_INITIALIZED The HSA runtime has not been * initialized. * * @retval ::HSA_STATUS_ERROR_INVALID_EXECUTABLE Th executable is invalid. * * @retval ::HSA_STATUS_ERROR_INVALID_ARGUMENT @p callback is NULL. */ #ifndef DEVICE_COMPILER hsa_status_t HSA_API hsa_executable_iterate_symbols( hsa_executable_t executable, hsa_status_t (*callback)(hsa_executable_t executable, hsa_executable_symbol_t symbol, void* data), void* data); #endif /** @} */ #ifdef __cplusplus } // end extern "C" block #endif #endif // header guard