ogl_beamforming

ogl_beamformer_lib.c (12948B)

---

 /* See LICENSE for license details. */
 #include "../compiler.h"
 
 #include "../util.h"
 #include "../beamformer_parameters.h"
 #include "ogl_beamformer_lib_base.h"
 #include "../beamformer_work_queue.c"
 
 global SharedMemoryRegion      g_shared_memory;
 global BeamformerSharedMemory *g_bp;
 global BeamformerLibErrorKind  g_lib_last_error;
 
 #if OS_LINUX
 #include "../os_linux.c"
 #elif OS_WINDOWS
 #include "../os_win32.c"
 
 W32(iptr) OpenFileMappingA(u32, b32, c8 *);
 
 #else
 #error Unsupported Platform
 #endif
 
 #if OS_LINUX
 
 function SharedMemoryRegion
 os_open_shared_memory_area(char *name)
 {
 	SharedMemoryRegion result = {0};
 	i32 fd = shm_open(name, O_RDWR, S_IRUSR|S_IWUSR);
 	if (fd > 0) {
 		void *new = mmap(0, BEAMFORMER_SHARED_MEMORY_SIZE, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
 		if (new != MAP_FAILED) result.region = new;
 		close(fd);
 	}
 	return result;
 }
 
 #elif OS_WINDOWS
 
 function SharedMemoryRegion
 os_open_shared_memory_area(char *name)
 {
 	SharedMemoryRegion result = {0};
 	iptr h = OpenFileMappingA(FILE_MAP_ALL_ACCESS, 0, name);
 	if (h != INVALID_FILE) {
 		void *new = MapViewOfFile(h, FILE_MAP_ALL_ACCESS, 0, 0,
 		                          os_round_up_to_page_size(BEAMFORMER_SHARED_MEMORY_SIZE));
 		if (new) {
 			u8 buffer[1024];
 			Stream sb = {.data = buffer, .cap = 1024};
 			stream_append_s8s(&sb, c_str_to_s8(name), s8("_lock_"));
 			local_persist iptr semaphores[BeamformerSharedMemoryLockKind_Count];
 			local_persist w32_shared_memory_context ctx = {.semaphores = semaphores};
 			b32 all_semaphores = 1;
 			for (i32 i = 0; i < countof(semaphores); i++) {
 				Stream lb = sb;
 				stream_append_i64(&lb, i);
 				stream_append_byte(&lb, 0);
 				semaphores[i] = CreateSemaphoreA(0, 1, 1, (c8 *)lb.data);
 				all_semaphores &= semaphores[i] != INVALID_FILE;
 			}
 			if (all_semaphores) {
 				result.region     = new;
 				result.os_context = (iptr)&ctx;
 			}
 		}
 		CloseHandle(h);
 	}
 	return result;
 }
 
 #endif
 
 function b32
 check_shared_memory(void)
 {
 	b32 result = 1;
 	if (!g_shared_memory.region) {
 		g_shared_memory = os_open_shared_memory_area(OS_SHARED_MEMORY_NAME);
 		if (!g_shared_memory.region) {
 			g_lib_last_error = BF_LIB_ERR_KIND_SHARED_MEMORY;
 			result = 0;
 		} else if (((BeamformerSharedMemory *)g_shared_memory.region)->version !=
 		           BEAMFORMER_SHARED_MEMORY_VERSION)
 		{
 			g_lib_last_error = BF_LIB_ERR_KIND_VERSION_MISMATCH;
 			result = 0;
 		}
 	}
 	if (result && ((BeamformerSharedMemory *)g_shared_memory.region)->invalid) {
 		g_lib_last_error = BF_LIB_ERR_KIND_INVALID_ACCESS;
 		result = 0;
 	}
 	if (result) g_bp = g_shared_memory.region;
 	return result;
 }
 
 function BeamformWork *
 try_push_work_queue(void)
 {
 	BeamformWork *result = beamform_work_queue_push(&g_bp->external_work_queue);
 	if (!result) g_lib_last_error = BF_LIB_ERR_KIND_WORK_QUEUE_FULL;
 	return result;
 }
 
 function b32
 lib_try_lock(BeamformerSharedMemoryLockKind lock, i32 timeout_ms)
 {
 	b32 result = os_shared_memory_region_lock(&g_shared_memory, g_bp->locks, (i32)lock, timeout_ms);
 	if (!result) g_lib_last_error = BF_LIB_ERR_KIND_SYNC_VARIABLE;
 	return result;
 }
 
 function void
 lib_release_lock(BeamformerSharedMemoryLockKind lock)
 {
 	os_shared_memory_region_unlock(&g_shared_memory, g_bp->locks, (i32)lock);
 }
 
 function b32
 try_wait_sync(BeamformerSharedMemoryLockKind lock, i32 timeout_ms)
 {
 	b32 result = 0;
 	if (lib_try_lock(lock, 0) && lib_try_lock(lock, timeout_ms)) {
 		/* TODO(rnp): non-critical race condition */
 		lib_release_lock(lock);
 		result = 1;
 	}
 	return result;
 }
 
 u32
 beamformer_get_api_version(void)
 {
 	return BEAMFORMER_SHARED_MEMORY_VERSION;
 }
 
 const char *
 beamformer_error_string(BeamformerLibErrorKind kind)
 {
 	#define X(type, num, string) string,
 	local_persist const char *error_string_table[] = {BEAMFORMER_LIB_ERRORS "invalid error kind"};
 	#undef X
 	return error_string_table[MIN(kind, countof(error_string_table) - 1)];
 }
 
 BeamformerLibErrorKind
 beamformer_get_last_error(void)
 {
 	return g_lib_last_error;
 }
 
 const char *
 beamformer_get_last_error_string(void)
 {
 	return beamformer_error_string(beamformer_get_last_error());
 }
 
 b32
 set_beamformer_pipeline(i32 *stages, i32 stages_count)
 {
 	b32 result = 0;
 	if (stages_count <= countof(g_bp->compute_stages)) {
 		if (check_shared_memory()) {
 			g_bp->compute_stages_count = 0;
 			for (i32 i = 0; i < stages_count; i++) {
 				if (BETWEEN(stages[i], 0, BeamformerShaderKind_ComputeCount)) {
 					g_bp->compute_stages[g_bp->compute_stages_count++] = stages[i];
 				}
 			}
 			result = g_bp->compute_stages_count == stages_count;
 			if (!result) {
 				g_lib_last_error = BF_LIB_ERR_KIND_INVALID_COMPUTE_STAGE;
 				g_bp->compute_stages_count = 0;
 			}
 		}
 	} else {
 		g_lib_last_error = BF_LIB_ERR_KIND_COMPUTE_STAGE_OVERFLOW;
 	}
 	return result;
 }
 
 b32
 beamformer_start_compute(i32 timeout_ms)
 {
 	b32 result = check_shared_memory() &&
 	             try_wait_sync(BeamformerSharedMemoryLockKind_DispatchCompute, timeout_ms);
 	return result;
 }
 
 function b32
 beamformer_upload_buffer(void *data, u32 size, i32 store_offset, BeamformerUploadContext upload_context,
                          BeamformerSharedMemoryLockKind lock, i32 timeout_ms)
 {
 	b32 result = 0;
 	if (check_shared_memory()) {
 		BeamformWork *work = try_push_work_queue();
 		result = work && lib_try_lock(lock, timeout_ms);
 		if (result) {
 			work->upload_context = upload_context;
 			work->kind = BeamformerWorkKind_UploadBuffer;
 			work->lock = lock;
 			mem_copy((u8 *)g_bp + store_offset, data, size);
 			if ((atomic_load_u32(&g_bp->dirty_regions) & (1 << (lock - 1))) == 0) {
 				atomic_or_u32(&g_bp->dirty_regions, (1 << (lock - 1)));
 				beamform_work_queue_push_commit(&g_bp->external_work_queue);
 			}
 			lib_release_lock(lock);
 		}
 	}
 	return result;
 }
 
 #define BEAMFORMER_UPLOAD_FNS \
 	X(channel_mapping, i16, 1, ChannelMapping, CHANNEL_MAPPING) \
 	X(sparse_elements, i16, 1, SparseElements, SPARSE_ELEMENTS) \
 	X(focal_vectors,   f32, 2, FocalVectors,   FOCAL_VECTORS)
 
 #define X(name, dtype, elements, lock_name, command) \
 b32 beamformer_push_##name (dtype *data, u32 count, i32 timeout_ms) { \
 	b32 result = 0; \
 	if (count <= countof(g_bp->name)) { \
 		BeamformerUploadContext uc = {0}; \
 		uc.shared_memory_offset = offsetof(BeamformerSharedMemory, name); \
 		uc.kind = BU_KIND_##command; \
 		uc.size = count * elements * sizeof(dtype); \
 		result = beamformer_upload_buffer(data, uc.size, uc.shared_memory_offset, uc, \
 		                                  BeamformerSharedMemoryLockKind_##lock_name, timeout_ms); \
 	} else { \
 		g_lib_last_error = BF_LIB_ERR_KIND_BUFFER_OVERFLOW; \
 	} \
 	return result; \
 }
 BEAMFORMER_UPLOAD_FNS
 #undef X
 
 function b32
 beamformer_push_data_base(void *data, u32 data_size, i32 timeout_ms, b32 start_from_main)
 {
 	b32 result = 0;
 	if (data_size <= BEAMFORMER_MAX_RF_DATA_SIZE) {
 		BeamformerUploadContext uc = {0};
 		uc.shared_memory_offset = BEAMFORMER_SCRATCH_OFF;
 		uc.size = data_size;
 		uc.kind = BU_KIND_RF_DATA;
 		result = beamformer_upload_buffer(data, data_size, uc.shared_memory_offset, uc,
 		                                  BeamformerSharedMemoryLockKind_ScratchSpace, timeout_ms);
 		if (result && start_from_main) atomic_store_u32(&g_bp->start_compute_from_main, 1);
 	} else {
 		g_lib_last_error = BF_LIB_ERR_KIND_BUFFER_OVERFLOW;
 	}
 	return result;
 }
 
 b32
 beamformer_push_data(void *data, u32 data_size, i32 timeout_ms)
 {
 	return beamformer_push_data_base(data, data_size, timeout_ms, 1);
 }
 
 b32
 beamformer_push_data_with_compute(void *data, u32 data_size, u32 image_plane_tag, i32 timeout_ms)
 {
 	b32 result = beamformer_push_data_base(data, data_size, timeout_ms, 0);
 	if (result) {
 		result = image_plane_tag < IPT_LAST;
 		if (result) {
 			BeamformWork *work = try_push_work_queue();
 			result = work != 0;
 			if (result) {
 				work->kind = BeamformerWorkKind_ComputeIndirect;
 				work->compute_indirect_plane = image_plane_tag;
 				beamform_work_queue_push_commit(&g_bp->external_work_queue);
 			}
 		} else {
 			g_lib_last_error = BF_LIB_ERR_KIND_INVALID_IMAGE_PLANE;
 		}
 	}
 	return result;
 }
 
 b32
 beamformer_push_parameters(BeamformerParameters *bp, i32 timeout_ms)
 {
 	BeamformerUploadContext uc = {0};
 	uc.shared_memory_offset = offsetof(BeamformerSharedMemory, parameters);
 	uc.size = sizeof(g_bp->parameters);
 	uc.kind = BU_KIND_PARAMETERS;
 	b32 result = beamformer_upload_buffer(bp, sizeof(*bp),
 	                                      offsetof(BeamformerSharedMemory, parameters), uc,
 	                                      BeamformerSharedMemoryLockKind_Parameters, timeout_ms);
 	return result;
 }
 
 b32
 beamformer_push_parameters_ui(BeamformerUIParameters *bp, i32 timeout_ms)
 {
 	BeamformerUploadContext uc = {0};
 	uc.shared_memory_offset = offsetof(BeamformerSharedMemory, parameters);
 	uc.size = sizeof(g_bp->parameters);
 	uc.kind = BU_KIND_PARAMETERS;
 	b32 result = beamformer_upload_buffer(bp, sizeof(*bp),
 	                                      offsetof(BeamformerSharedMemory, parameters_ui), uc,
 	                                      BeamformerSharedMemoryLockKind_Parameters, timeout_ms);
 	return result;
 }
 
 b32
 beamformer_push_parameters_head(BeamformerParametersHead *bp, i32 timeout_ms)
 {
 	BeamformerUploadContext uc = {0};
 	uc.shared_memory_offset = offsetof(BeamformerSharedMemory, parameters);
 	uc.size = sizeof(g_bp->parameters);
 	uc.kind = BU_KIND_PARAMETERS;
 	b32 result = beamformer_upload_buffer(bp, sizeof(*bp),
 	                                      offsetof(BeamformerSharedMemory, parameters_head), uc,
 	                                      BeamformerSharedMemoryLockKind_Parameters, timeout_ms);
 	return result;
 }
 
 b32
 set_beamformer_parameters(BeamformerParametersV0 *new_bp)
 {
 	b32 result = 1;
 	result &= beamformer_push_channel_mapping((i16 *)new_bp->channel_mapping,
 	                                          countof(new_bp->channel_mapping), 0);
 	result &= beamformer_push_sparse_elements((i16 *)new_bp->uforces_channels,
 	                                          countof(new_bp->uforces_channels), 0);
 	v2 focal_vectors[256];
 	for (u32 i = 0; i < countof(focal_vectors); i++)
 		focal_vectors[i] = (v2){{new_bp->transmit_angles[i], new_bp->focal_depths[i]}};
 	result &= beamformer_push_focal_vectors((f32 *)focal_vectors, countof(focal_vectors), 0);
 	result &= beamformer_push_parameters((BeamformerParameters *)&new_bp->xdc_transform, 0);
 	return result;
 }
 
 b32
 send_data(void *data, u32 data_size)
 {
 	b32 result = 0;
 	if (beamformer_push_data(data, data_size, 0))
 		result = beamformer_start_compute(-1);
 	return result;
 }
 
 function b32
 beamformer_export_buffer(BeamformerExportContext export_context)
 {
 	BeamformWork *work = try_push_work_queue();
 	b32 result = work != 0;
 	if (result) {
 		work->export_context = export_context;
 		work->kind = BeamformerWorkKind_ExportBuffer;
 		work->lock = BeamformerSharedMemoryLockKind_ScratchSpace;
 		beamform_work_queue_push_commit(&g_bp->external_work_queue);
 	}
 	return result;
 }
 
 function b32
 beamformer_read_output(void *out, iz size, i32 timeout_ms)
 {
 	b32 result = 0;
 	if (try_wait_sync(BeamformerSharedMemoryLockKind_ExportSync, timeout_ms)) {
 		if (lib_try_lock(BeamformerSharedMemoryLockKind_ScratchSpace, 0)) {
 			mem_copy(out, (u8 *)g_bp + BEAMFORMER_SCRATCH_OFF, size);
 			lib_release_lock(BeamformerSharedMemoryLockKind_ScratchSpace);
 			result = 1;
 		}
 	}
 	return result;
 }
 
 b32
 beamform_data_synchronized(void *data, u32 data_size, u32 output_points[3], f32 *out_data, i32 timeout_ms)
 {
 	b32 result = 0;
 	if (check_shared_memory()) {
 		output_points[0] = MAX(1, output_points[0]);
 		output_points[1] = MAX(1, output_points[1]);
 		output_points[2] = MAX(1, output_points[2]);
 
 		g_bp->parameters.output_points[0] = output_points[0];
 		g_bp->parameters.output_points[1] = output_points[1];
 		g_bp->parameters.output_points[2] = output_points[2];
 
 		iz output_size = output_points[0] * output_points[1] * output_points[2] * sizeof(f32) * 2;
 		if (output_size <= BEAMFORMER_SCRATCH_SIZE &&
 		    beamformer_push_data_with_compute(data, data_size, 0, 0))
 		{
 			BeamformerExportContext export;
 			export.kind = BeamformerExportKind_BeamformedData;
 			export.size = output_size;
 			if (beamformer_export_buffer(export) &&
 			    lib_try_lock(BeamformerSharedMemoryLockKind_DispatchCompute, 0))
 			{
 				result = beamformer_read_output(out_data, output_size, timeout_ms);
 			}
 		} else {
 			g_lib_last_error = BF_LIB_ERR_KIND_EXPORT_SPACE_OVERFLOW;
 		}
 	}
 	return result;
 }
 
 b32
 beamformer_compute_timings(BeamformerComputeStatsTable *output, i32 timeout_ms)
 {
 	b32 result = 0;
 	if (check_shared_memory()) {
 		static_assert(sizeof(*output) <= BEAMFORMER_SCRATCH_SIZE, "timing table size exceeds scratch space");
 		BeamformerExportContext export;
 		export.kind = BeamformerExportKind_Stats;
 		export.size = sizeof(*output);
 
 		if (beamformer_export_buffer(export) &&
 		    lib_try_lock(BeamformerSharedMemoryLockKind_DispatchCompute, 0))
 		{
 			result = beamformer_read_output(output, sizeof(*output), timeout_ms);
 		}
 	}
 	return result;
 }