Cleaning memory_pool_callback

Fixes
I guess we can rely on HSA_AMD_MEMORY_POOL_GLOBAL_FLAG_EXTENDED_SCOPE_FINE_GRAINED
2025-10-23 21:19:27 +02:00 · 2025-10-23 21:12:52 +02:00 · 2025-10-23 21:11:25 +02:00 · 2025-10-17 09:05:13 +02:00 · 2025-10-17 08:48:15 +02:00 · 2025-10-17 08:41:21 +02:00
4 changed files with 154 additions and 80 deletions
--- a/src/common/gpu.cpp
+++ b/src/common/gpu.cpp
@@ -101,6 +101,17 @@ char* get_str_bus_width(struct gpu_info* gpu) {
  return string;
 }
 char* get_str_lds_size(struct gpu_info* gpu) {
  // TODO: Show XX KB (XX MB Total) like in cpufetch
  uint32_t size = 3+1+3+1;
  assert(strlen(STRING_UNKNOWN)+1 <= size);
  char* string = (char *) ecalloc(size, sizeof(char));
  sprintf(string, "%d KB", gpu->mem->lds_size / 1024);
  return string;
 }
 char* get_str_memory_clock(struct gpu_info* gpu) {
  return get_freq_as_str_mhz(gpu->mem->freq);
 }
--- a/src/common/gpu.hpp
+++ b/src/common/gpu.hpp
@@ -61,6 +61,7 @@ struct memory {
  int32_t bus_width;
  int32_t freq;
  int32_t clk_mul; // clock multiplier
  int32_t lds_size; // HSA specific for now
 };
 struct gpu_info {
@@ -88,6 +89,7 @@ char* get_str_freq(struct gpu_info* gpu);
 char* get_str_memory_size(struct gpu_info* gpu);
 char* get_str_memory_type(struct gpu_info* gpu);
 char* get_str_bus_width(struct gpu_info* gpu);
 char* get_str_lds_size(struct gpu_info* gpu);
 char* get_str_memory_clock(struct gpu_info* gpu);
 char* get_str_l2(struct gpu_info* gpu);
 char* get_str_peak_performance(struct gpu_info* gpu);
--- a/src/common/printer.cpp
+++ b/src/common/printer.cpp
@@ -32,64 +32,56 @@
 #define MAX_ATTRIBUTES      100
 #define MAX_TERM_SIZE       1024
 typedef struct {
  int id;
  const char *name;
  const char *shortname;
 } AttributeField;
 // AttributeField IDs
 //                         Used by
 enum {
-  ATTRIBUTE_NAME,
+  ATTRIBUTE_NAME,          // ALL
-  ATTRIBUTE_CHIP,
+  ATTRIBUTE_CHIP,          // ALL
-  ATTRIBUTE_UARCH,
+  ATTRIBUTE_UARCH,         // ALL
-  ATTRIBUTE_TECHNOLOGY,
+  ATTRIBUTE_TECHNOLOGY,    // ALL
-  ATTRIBUTE_GT,
+  ATTRIBUTE_FREQUENCY,     // ALL
-  ATTRIBUTE_FREQUENCY,
+  ATTRIBUTE_PEAK,          // ALL
-  ATTRIBUTE_STREAMINGMP,
+  ATTRIBUTE_COMPUTE_UNITS, // HSA
-  ATTRIBUTE_CORESPERMP,
+  ATTRIBUTE_LDS_SIZE,      // HSA
-  ATTRIBUTE_CUDA_CORES,
+  ATTRIBUTE_STREAMINGMP,   // CUDA
-  ATTRIBUTE_TENSOR_CORES,
+  ATTRIBUTE_CORESPERMP,    // CUDA
-  ATTRIBUTE_EUS,
+  ATTRIBUTE_CUDA_CORES,    // CUDA
-  ATTRIBUTE_L2,
+  ATTRIBUTE_TENSOR_CORES,  // CUDA
-  ATTRIBUTE_MEMORY,
+  ATTRIBUTE_L2,            // CUDA
-  ATTRIBUTE_MEMORY_FREQ,
+  ATTRIBUTE_MEMORY,        // CUDA,HSA
-  ATTRIBUTE_BUS_WIDTH,
+  ATTRIBUTE_MEMORY_FREQ,   // CUDA
-  ATTRIBUTE_PEAK,
+  ATTRIBUTE_BUS_WIDTH,     // CUDA,HSA
-  ATTRIBUTE_PEAK_TENSOR,
+  ATTRIBUTE_PEAK_TENSOR,   // CUDA
  ATTRIBUTE_EUS,           // Intel
  ATTRIBUTE_GT,            // Intel
 };
-static const char* ATTRIBUTE_FIELDS [] = {
+static const AttributeField ATTRIBUTE_INFO[] = {
-  "Name:",
+  { ATTRIBUTE_NAME,          "Name:",                   "Name:" },
-  "GPU processor:",
+  { ATTRIBUTE_CHIP,          "GPU processor:",          "Processor:" },
-  "Microarchitecture:",
+  { ATTRIBUTE_UARCH,         "Microarchitecture:",      "uArch:" },
-  "Technology:",
+  { ATTRIBUTE_TECHNOLOGY,    "Technology:",             "Technology:" },
-  "Graphics Tier:",
+  { ATTRIBUTE_FREQUENCY,     "Max Frequency:",          "Max Freq.:" },
-  "Max Frequency:",
+  { ATTRIBUTE_PEAK,          "Peak Performance:",       "Peak Perf.:" },
-  "SMs:",
+  { ATTRIBUTE_COMPUTE_UNITS, "Compute Units (CUs):",    "CUs" },
-  "Cores/SM:",
+  { ATTRIBUTE_LDS_SIZE,      "LDS size:",               "LDS:" },
-  "CUDA Cores:",
+  { ATTRIBUTE_STREAMINGMP,   "SMs:",                    "SMs:" },
-  "Tensor Cores:",
+  { ATTRIBUTE_CORESPERMP,    "Cores/SM:",               "Cores/SM:" },
-  "Execution Units:",
+  { ATTRIBUTE_CUDA_CORES,    "CUDA Cores:",             "CUDA Cores:" },
-  "L2 Size:",
+  { ATTRIBUTE_TENSOR_CORES,  "Tensor Cores:",           "Tensor Cores:" },
-  "Memory:",
+  { ATTRIBUTE_L2,            "L2 Size:",                "L2 Size:" },
-  "Memory frequency:",
+  { ATTRIBUTE_MEMORY,        "Memory:",                 "Memory:" },
-  "Bus width:",
+  { ATTRIBUTE_MEMORY_FREQ,   "Memory frequency:",       "Memory freq.:" },
-  "Peak Performance:",
+  { ATTRIBUTE_BUS_WIDTH,     "Bus width:",              "Bus width:" },
-  "Peak Performance (MMA):",
+  { ATTRIBUTE_PEAK_TENSOR,   "Peak Performance (MMA):", "Peak Perf.(MMA):" },
-};
+  { ATTRIBUTE_EUS,           "Execution Units:",        "EUs:" },
-
+  { ATTRIBUTE_GT,            "Graphics Tier:",          "GT:" },
 static const char* ATTRIBUTE_FIELDS_SHORT [] = {
  "Name:",
  "Processor:",
  "uArch:",
  "Technology:",
  "GT:",
  "Max Freq.:",
  "SMs:",
  "Cores/SM:",
  "CUDA Cores:",
  "Tensor Cores:",
  "EUs:",
  "L2 Size:",
  "Memory:",
  "Memory freq.:",
  "Bus width:",
  "Peak Perf.:",
  "Peak Perf.(MMA):",
 };
 struct terminal {
@@ -207,8 +199,6 @@ bool ascii_fits_screen(int termw, struct ascii_logo logo, int lf) {
 void replace_bgbyfg_color(struct ascii_logo* logo) {
  // Replace background by foreground color
  for(int i=0; i < 2; i++) {
    if(logo->color_ascii[i] == NULL) break;
    if(strcmp(logo->color_ascii[i], C_BG_BLACK) == 0) strcpy(logo->color_ascii[i], C_FG_BLACK);
    else if(strcmp(logo->color_ascii[i], C_BG_RED) == 0) strcpy(logo->color_ascii[i], C_FG_RED);
    else if(strcmp(logo->color_ascii[i], C_BG_GREEN) == 0) strcpy(logo->color_ascii[i], C_FG_GREEN);
@@ -276,13 +266,14 @@ void choose_ascii_art(struct ascii* art, struct color** cs, struct terminal* ter
  }
 }
-uint32_t longest_attribute_length(struct ascii* art, const char** attribute_fields) {
+uint32_t longest_attribute_length(struct ascii* art, bool use_short) {
  uint32_t max = 0;
  uint64_t len = 0;
  for(uint32_t i=0; i < art->n_attributes_set; i++) {
    if(art->attributes[i]->value != NULL) {
-      len = strlen(attribute_fields[art->attributes[i]->type]);
+      const char* str = use_short ? ATTRIBUTE_INFO[art->attributes[i]->type].shortname : ATTRIBUTE_INFO[art->attributes[i]->type].name;
      len = strlen(str);
      if(len > max) max = len;
    }
  }
@@ -306,7 +297,7 @@ uint32_t longest_field_length(struct ascii* art, int la) {
  return max;
 }
-void print_ascii_generic(struct ascii* art, uint32_t la, int32_t text_space, const char** attribute_fields) {
+void print_ascii_generic(struct ascii* art, uint32_t la, int32_t text_space, bool use_short) {
  struct ascii_logo* logo = art->art;
  int attr_to_print = 0;
  int attr_type;
@@ -350,11 +341,13 @@ void print_ascii_generic(struct ascii* art, uint32_t la, int32_t text_space, con
      attr_value = art->attributes[attr_to_print]->value;
      attr_to_print++;
-      space_right = 1 + (la - strlen(attribute_fields[attr_type]));
+      const char* attr_str = use_short ? ATTRIBUTE_INFO[attr_type].shortname : ATTRIBUTE_INFO[attr_type].name;
      space_right = 1 + (la - strlen(attr_str));
      current_space = max(0, text_space);
-      printf("%s%.*s%s", logo->color_text[0], current_space, attribute_fields[attr_type], art->reset);
+      printf("%s%.*s%s", logo->color_text[0], current_space, attr_str, art->reset);
-      current_space = max(0, current_space - (int) strlen(attribute_fields[attr_type]));
+      current_space = max(0, current_space - (int) strlen(attr_str));
      printf("%*s", min(current_space, space_right), "");
      current_space = max(0, current_space - min(current_space, space_right));
      printf("%s%.*s%s", logo->color_text[1], current_space, attr_value, art->reset);
@@ -388,19 +381,19 @@ bool print_gpufetch_intel(struct gpu_info* gpu, STYLE s, struct color** cs, stru
  setAttribute(art, ATTRIBUTE_EUS, eus);
  setAttribute(art, ATTRIBUTE_PEAK, pp);
-  const char** attribute_fields = ATTRIBUTE_FIELDS;
+  bool use_short = false;
-  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
+  uint32_t longest_attribute = longest_attribute_length(art, use_short);
  uint32_t longest_field = longest_field_length(art, longest_attribute);
  choose_ascii_art(art, cs, term, longest_field);
  if(!ascii_fits_screen(term->w, *art->art, longest_field)) {
    // Despite of choosing the smallest logo, the output does not fit
    // Choose the shorter field names and recalculate the longest attr
-    attribute_fields = ATTRIBUTE_FIELDS_SHORT;
+    use_short = true;
-    longest_attribute = longest_attribute_length(art, attribute_fields);
+    longest_attribute = longest_attribute_length(art, use_short);
  }
-  print_ascii_generic(art, longest_attribute, term->w - art->art->width, attribute_fields);
+  print_ascii_generic(art, longest_attribute, term->w - art->art->width, use_short);
  return true;
 }
@@ -457,19 +450,19 @@ bool print_gpufetch_cuda(struct gpu_info* gpu, STYLE s, struct color** cs, struc
    setAttribute(art, ATTRIBUTE_PEAK_TENSOR, pp_tensor);
  }
-  const char** attribute_fields = ATTRIBUTE_FIELDS;
+  bool use_short = false;
-  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
+  uint32_t longest_attribute = longest_attribute_length(art, use_short);
  uint32_t longest_field = longest_field_length(art, longest_attribute);
  choose_ascii_art(art, cs, term, longest_field);
  if(!ascii_fits_screen(term->w, *art->art, longest_field)) {
    // Despite of choosing the smallest logo, the output does not fit
    // Choose the shorter field names and recalculate the longest attr
-    attribute_fields = ATTRIBUTE_FIELDS_SHORT;
+    use_short = true;
-    longest_attribute = longest_attribute_length(art, attribute_fields);
+    longest_attribute = longest_attribute_length(art, use_short);
  }
-  print_ascii_generic(art, longest_attribute, term->w - art->art->width, attribute_fields);
+  print_ascii_generic(art, longest_attribute, term->w - art->art->width, use_short);
  free(manufacturing_process);
  free(max_frequency);
@@ -494,8 +487,11 @@ bool print_gpufetch_amd(struct gpu_info* gpu, STYLE s, struct color** cs, struct
  char* gpu_chip = get_str_chip(gpu->arch);
  char* uarch = get_str_uarch_hsa(gpu->arch);
  char* manufacturing_process = get_str_process(gpu->arch);
-  char* sms = get_str_cu(gpu);
+  char* cus = get_str_cu(gpu);
  char* max_frequency = get_str_freq(gpu);
  char* bus_width = get_str_bus_width(gpu);
  char* mem_size = get_str_memory_size(gpu);
  char* lds_size = get_str_lds_size(gpu);
  setAttribute(art, ATTRIBUTE_NAME, gpu_name);
  if (gpu_chip != NULL) {
@@ -504,21 +500,24 @@ bool print_gpufetch_amd(struct gpu_info* gpu, STYLE s, struct color** cs, struct
  setAttribute(art, ATTRIBUTE_UARCH, uarch);
  setAttribute(art, ATTRIBUTE_TECHNOLOGY, manufacturing_process);
  setAttribute(art, ATTRIBUTE_FREQUENCY, max_frequency);
-  setAttribute(art, ATTRIBUTE_STREAMINGMP, sms);
+  setAttribute(art, ATTRIBUTE_COMPUTE_UNITS, cus);
  setAttribute(art, ATTRIBUTE_LDS_SIZE, lds_size);
  setAttribute(art, ATTRIBUTE_MEMORY, mem_size);
  setAttribute(art, ATTRIBUTE_BUS_WIDTH, bus_width);
-  const char** attribute_fields = ATTRIBUTE_FIELDS;
+  bool use_short = false;
-  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
+  uint32_t longest_attribute = longest_attribute_length(art, use_short);
  uint32_t longest_field = longest_field_length(art, longest_attribute);
  choose_ascii_art(art, cs, term, longest_field);
  if(!ascii_fits_screen(term->w, *art->art, longest_field)) {
    // Despite of choosing the smallest logo, the output does not fit
    // Choose the shorter field names and recalculate the longest attr
-    attribute_fields = ATTRIBUTE_FIELDS_SHORT;
+    use_short = true;
-    longest_attribute = longest_attribute_length(art, attribute_fields);
+    longest_attribute = longest_attribute_length(art, use_short);
  }
-  print_ascii_generic(art, longest_attribute, term->w - art->art->width, attribute_fields);
+  print_ascii_generic(art, longest_attribute, term->w - art->art->width, use_short);
  free(art->attributes);
  free(art);
--- a/src/hsa/hsa.cpp
+++ b/src/hsa/hsa.cpp
@@ -23,6 +23,9 @@ struct agent_info {
  char device_mkt_name[64];
  uint32_t max_clock_freq;
  uint32_t compute_unit;
  uint32_t bus_width;
  uint32_t lds_size;
  uint64_t global_size;
 };
 #define RET_IF_HSA_ERR(err) { \
@@ -40,6 +43,46 @@ struct agent_info {
  }                                                                           \
 }
 hsa_status_t memory_pool_callback(hsa_amd_memory_pool_t pool, void* data) {
  struct agent_info* info = reinterpret_cast<struct agent_info *>(data);
  hsa_amd_segment_t segment;
  hsa_status_t err = hsa_amd_memory_pool_get_info(pool, HSA_AMD_MEMORY_POOL_INFO_SEGMENT, &segment);
  RET_IF_HSA_ERR(err);
  if (segment == HSA_AMD_SEGMENT_GROUP) {
    // LDS memory
    uint32_t size = 0;
    err = hsa_amd_memory_pool_get_info(pool, HSA_AMD_MEMORY_POOL_INFO_SIZE, &size);
    RET_IF_HSA_ERR(err);
    info->lds_size = size;    
  }
  else if (segment == HSA_AMD_SEGMENT_GLOBAL) {
    // Global memory
    uint32_t global_flags = 0;
    err = hsa_amd_memory_pool_get_info(pool, HSA_AMD_MEMORY_POOL_INFO_GLOBAL_FLAGS, &global_flags);
    RET_IF_HSA_ERR(err);
    if (global_flags & HSA_AMD_MEMORY_POOL_GLOBAL_FLAG_EXTENDED_SCOPE_FINE_GRAINED) {
      if (info->global_size != 0) {
        printErr("Found HSA_AMD_MEMORY_POOL_GLOBAL_FLAG_EXTENDED_SCOPE_FINE_GRAINED twice!");
        return HSA_STATUS_ERROR;
      }
      uint64_t size = 0;
      err = hsa_amd_memory_pool_get_info(pool, HSA_AMD_MEMORY_POOL_INFO_SIZE, &size);
      RET_IF_HSA_ERR(err);
      info->global_size = size;
    }    
  }
  return HSA_STATUS_SUCCESS;
 }
 hsa_status_t agent_callback(hsa_agent_t agent, void *data) {
  struct agent_info* info = reinterpret_cast<struct agent_info *>(data);
@@ -62,6 +105,14 @@ hsa_status_t agent_callback(hsa_agent_t agent, void *data) {
    err = hsa_agent_get_info(agent, (hsa_agent_info_t) HSA_AMD_AGENT_INFO_COMPUTE_UNIT_COUNT, &info->compute_unit);
    RET_IF_HSA_ERR(err);
    // According to the documentation, this is deprecated. But what should I be using then?
    err = hsa_agent_get_info(agent, (hsa_agent_info_t) HSA_AMD_AGENT_INFO_MEMORY_WIDTH, &info->bus_width);
    RET_IF_HSA_ERR(err);
    info->global_size = 0;
    err = hsa_amd_agent_iterate_memory_pools(agent, memory_pool_callback, data);
    RET_IF_HSA_ERR(err);
  }
  return HSA_STATUS_SUCCESS;
@@ -75,6 +126,16 @@ struct topology_h* get_topology_info(struct agent_info info) {
  return topo;
 }
 struct memory* get_memory_info(struct gpu_info* gpu, struct agent_info info) {
  struct memory* mem = (struct memory*) emalloc(sizeof(struct memory));
  mem->bus_width = info.bus_width;
  mem->lds_size = info.lds_size;
  mem->size_bytes = info.global_size;
  return mem;
 }
 struct gpu_info* get_gpu_info_hsa(int gpu_idx) {
  struct gpu_info* gpu = (struct gpu_info*) emalloc(sizeof(struct gpu_info));
  gpu->pci = NULL;
@@ -118,6 +179,7 @@ struct gpu_info* get_gpu_info_hsa(int gpu_idx) {
  gpu->name = (char *) emalloc(sizeof(char) * (strlen(info.device_mkt_name) + 1));
  strcpy(gpu->name, info.device_mkt_name);
  gpu->arch = get_uarch_from_hsa(gpu, info.gpu_name);
  gpu->mem = get_memory_info(gpu, info);
  if (gpu->arch == NULL) {
    return NULL;
Author	SHA1	Message	Date
Dr-Noob	e0c843274c	Cleaning memory_pool_callback	2025-10-23 21:19:27 +02:00
Dr-Noob	b543b23f60	Fixes	2025-10-23 21:12:52 +02:00
Dr-Noob	9b519828f4	I guess we can rely on HSA_AMD_MEMORY_POOL_GLOBAL_FLAG_EXTENDED_SCOPE_FINE_GRAINED	2025-10-23 21:11:25 +02:00
Dr-Noob	3b567b9381	Ok so this is not reporting the actual size, Ill need to investigate why	2025-10-17 09:05:13 +02:00
Dr-Noob	e1f03c4e04	Print global memory size	2025-10-17 08:48:15 +02:00
Dr-Noob	046f8c1299	Fixes	2025-10-17 08:41:21 +02:00
Dr-Noob	b434fc6fd0	Printer support	2025-10-17 08:38:37 +02:00
Dr-Noob	5beccaebb0	Adding more info	2025-10-17 08:31:26 +02:00
Dr-Noob	82ea16fc3d	[v0.30] Fix warning in printer	2025-10-16 20:01:14 +02:00
Dr-Noob	6589de9717	[v0.30] Reorganize attributes in printer and add CUs attr for AMD	2025-10-16 19:53:48 +02:00