GLdc/samples/profiler.c

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C
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#include <stdbool.h>
#include <assert.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <dirent.h>
#include <kos/thread.h>
#include <dc/fs_dcload.h>
static char OUTPUT_FILENAME[128];
static kthread_t* THREAD;
static volatile bool PROFILER_RUNNING = false;
static volatile bool PROFILER_RECORDING = false;
#define BASE_ADDRESS 0x8c010000
#define BUCKET_SIZE 10000
#define INTERVAL_IN_MS 10
/* Simple hash table of samples. An array of Samples
* but, each sample in that array can be the head of
* a linked list of other samples */
typedef struct Arc {
uint32_t pc;
uint32_t pr; // Caller return address
uint32_t count;
struct Arc* next;
} Arc;
static Arc ARCS[BUCKET_SIZE];
/* Hashing function for two uint32_ts */
#define HASH_PAIR(x, y) ((x * 0x1f1f1f1f) ^ y)
#define BUFFER_SIZE (1024 * 8) // 8K buffer
const static size_t MAX_ARC_COUNT = BUFFER_SIZE / sizeof(Arc);
static size_t ARC_COUNT = 0;
static bool WRITE_TO_STDOUT = false;
static bool write_samples(const char* path);
static bool write_samples_to_stdout();
static void clear_samples();
static Arc* new_arc(uint32_t PC, uint32_t PR) {
Arc* s = (Arc*) malloc(sizeof(Arc));
s->count = 1;
s->pc = PC;
s->pr = PR;
s->next = NULL;
++ARC_COUNT;
return s;
}
static void record_thread(uint32_t PC, uint32_t PR) {
uint32_t bucket = HASH_PAIR(PC, PR) % BUCKET_SIZE;
Arc* s = &ARCS[bucket];
if(s->pc) {
/* Initialized sample in this bucket,
* does it match though? */
while(s->pc != PC || s->pr != PR) {
if(s->next) {
s = s->next;
} else {
s->next = new_arc(PC, PR);
return; // We're done
}
}
s->count++;
} else {
/* Initialize this sample */
s->count = 1;
s->pc = PC;
s->pr = PR;
s->next = NULL;
++ARC_COUNT;
}
}
static int thd_each_cb(kthread_t* thd, void* data) {
(void) data;
/* Only record the main thread (for now) */
if(strcmp(thd->label, "[kernel]") != 0) {
return 0;
}
/* The idea is that if this code right here is running in the profiling
* thread, then all the PCs from the other threads are
* current. Obviouly thought between iterations the
* PC will change so it's not like this is a true snapshot
* in time across threads */
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int old = irq_disable();
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uint32_t PC = thd->context.pc;
uint32_t PR = thd->context.pr;
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irq_restore(old);
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record_thread(PC, PR);
return 0;
}
static void record_samples() {
/* Go through all the active threads and increase
* the sample count for the PC for each of them */
size_t initial = ARC_COUNT;
/* Note: This is a function added to kallistios-nitro that's
* not yet available upstream */
thd_each(&thd_each_cb, NULL);
if(ARC_COUNT >= MAX_ARC_COUNT) {
/* TIME TO FLUSH! */
if(!write_samples(OUTPUT_FILENAME)) {
fprintf(stderr, "Error writing samples\n");
}
}
/* We log when the number of PCs recorded hits a certain increment */
if((initial != ARC_COUNT) && ((ARC_COUNT % 1000) == 0)) {
printf("-- %d arcs recorded...\n", ARC_COUNT);
}
}
/* Declared in KOS in fs_dcload.c */
int fs_dcload_detected();
extern int dcload_type;
#define GMON_COOKIE "gmon"
#define GMON_VERSION 1
typedef struct {
char cookie[4]; // 'g','m','o','n'
int32_t version; // 1
char spare[3 * 4]; // Padding
} GmonHeader;
typedef struct {
uint32_t low_pc;
uint32_t high_pc;
uint32_t hist_size;
uint32_t prof_rate;
char dimen[15]; /* phys. dim., usually "seconds" */
char dimen_abbrev; /* usually 's' for "seconds" */
} GmonHistHeader;
typedef struct {
unsigned char tag; // GMON_TAG_TIME_HIST = 0, GMON_TAG_CG_ARC = 1, GMON_TAG_BB_COUNT = 2
size_t ncounts; // Number of address/count pairs in this sequence
} GmonBBHeader;
typedef struct {
uint32_t from_pc; /* address within caller's body */
uint32_t self_pc; /* address within callee's body */
uint32_t count; /* number of arc traversals */
} GmonArc;
static bool init_sample_file(const char* path) {
printf("Detecting dcload... ");
if(!fs_dcload_detected() && dcload_type != DCLOAD_TYPE_NONE) {
printf("[Not Found]\n");
WRITE_TO_STDOUT = true;
return false;
} else {
printf("[Found]\n");
}
FILE* out = fopen(path, "w");
if(!out) {
WRITE_TO_STDOUT = true;
return false;
}
/* Write the GMON header */
GmonHeader header;
memcpy(&header.cookie[0], GMON_COOKIE, sizeof(header.cookie));
header.version = 1;
memset(header.spare, '\0', sizeof(header.spare));
fwrite(&header, sizeof(header), 1, out);
fclose(out);
return true;
}
#define ROUNDDOWN(x,y) (((x)/(y))*(y))
#define ROUNDUP(x,y) ((((x)+(y)-1)/(y))*(y))
static bool write_samples(const char* path) {
/* Appends the samples to the output file in gmon format
*
* We iterate the data twice, first generating arcs, then generating
* basic block counts. While we do that though we calculate the data
* for the histogram so we don't need a third iteration */
if(WRITE_TO_STDOUT) {
write_samples_to_stdout();
return true;
}
extern char _etext;
const uint32_t HISTFRACTION = 8;
/* We know the lowest address, it's the same for all DC games */
uint32_t lowest_address = ROUNDDOWN(BASE_ADDRESS, HISTFRACTION);
/* We need to calculate the highest address though */
uint32_t highest_address = ROUNDUP((uint32_t) &_etext, HISTFRACTION);
/* Histogram data */
const int BIN_COUNT = ((highest_address - lowest_address) / HISTFRACTION);
uint16_t* bins = (uint16_t*) malloc(BIN_COUNT * sizeof(uint16_t));
memset(bins, 0, sizeof(uint16_t) * BIN_COUNT);
FILE* out = fopen(path, "r+"); /* Append, as init_sample_file would have created the file */
if(!out) {
fprintf(stderr, "-- Error writing samples to output file\n");
return false;
}
// Seek to the end of the file
fseek(out, 0, SEEK_END);
printf("-- Writing %d arcs\n", ARC_COUNT);
uint8_t tag = 1;
#ifndef NDEBUG
size_t written = 0;
#endif
/* Write arcs */
Arc* root = ARCS;
for(int i = 0; i < BUCKET_SIZE; ++i) {
if(root->pc) {
GmonArc arc;
arc.from_pc = root->pr;
arc.self_pc = root->pc;
arc.count = root->count;
/* Write the root sample if it has a program counter */
fwrite(&tag, sizeof(tag), 1, out);
fwrite(&arc, sizeof(GmonArc), 1, out);
#ifndef NDEBUG
++written;
#endif
/* If there's a next pointer, traverse the list */
Arc* s = root->next;
while(s) {
arc.from_pc = s->pr;
arc.self_pc = s->pc;
arc.count = s->count;
/* Write the root sample if it has a program counter */
fwrite(&tag, sizeof(tag), 1, out);
fwrite(&arc, sizeof(GmonArc), 1, out);
#ifndef NDEBUG
++written;
#endif
s = s->next;
}
}
root++;
}
uint32_t histogram_range = highest_address - lowest_address;
uint32_t bin_size = histogram_range / BIN_COUNT;
root = ARCS;
for(int i = 0; i < BUCKET_SIZE; ++i) {
if(root->pc) {
printf("Incrementing %d for %x. ", (root->pc - lowest_address) / bin_size, (unsigned int) root->pc);
bins[(root->pc - lowest_address) / bin_size]++;
printf("Now: %d\n", (int) bins[(root->pc - lowest_address) / bin_size]);
/* If there's a next pointer, traverse the list */
Arc* s = root->next;
while(s) {
assert(s->pc);
bins[(s->pc - lowest_address) / bin_size]++;
s = s->next;
}
}
root++;
}
/* Write histogram now that we have all the information we need */
GmonHistHeader hist_header;
hist_header.low_pc = lowest_address;
hist_header.high_pc = highest_address;
hist_header.hist_size = BIN_COUNT;
hist_header.prof_rate = INTERVAL_IN_MS;
strcpy(hist_header.dimen, "seconds");
hist_header.dimen_abbrev = 's';
unsigned char hist_tag = 0;
fwrite(&hist_tag, sizeof(hist_tag), 1, out);
fwrite(&hist_header, sizeof(hist_header), 1, out);
fwrite(bins, sizeof(uint16_t), BIN_COUNT, out);
fclose(out);
free(bins);
/* We should have written all the recorded samples */
assert(written == ARC_COUNT);
clear_samples();
return true;
}
static bool write_samples_to_stdout() {
/* Write samples to stdout as a CSV file
* for processing */
printf("--------------\n");
printf("\"PC\", \"PR\", \"COUNT\"\n");
Arc* root = ARCS;
for(int i = 0; i < BUCKET_SIZE; ++i) {
Arc* s = root;
while(s->next) {
printf("\"%x\", \"%x\", \"%d\"\n", (unsigned int) s->pc, (unsigned int) s->pr, (unsigned int) s->count);
s = s->next;
}
root++;
}
printf("--------------\n");
return true;
}
static void* run(void* args) {
printf("-- Entered profiler thread!\n");
while(PROFILER_RUNNING){
if(PROFILER_RECORDING) {
record_samples();
usleep(INTERVAL_IN_MS * 1000); //usleep takes milliseconds
}
}
printf("-- Profiler thread finished!\n");
return NULL;
}
void profiler_init(const char* output) {
/* Store the filename */
strncpy(OUTPUT_FILENAME, output, sizeof(OUTPUT_FILENAME));
/* Initialize the file */
printf("Creating samples file...\n");
if(!init_sample_file(OUTPUT_FILENAME)) {
printf("Read-only filesytem. Writing samples to stdout\n");
}
printf("Creating profiler thread...\n");
// Initialize the samples to zero
memset(ARCS, 0, sizeof(ARCS));
PROFILER_RUNNING = true;
THREAD = thd_create(0, run, NULL);
/* Lower priority is... er, higher */
thd_set_prio(THREAD, PRIO_DEFAULT / 2);
printf("Thread started.\n");
}
void profiler_start() {
assert(PROFILER_RUNNING);
if(PROFILER_RECORDING) {
return;
}
PROFILER_RECORDING = true;
printf("Starting profiling...\n");
}
static void clear_samples() {
/* Free the samples we've collected to start again */
Arc* root = ARCS;
for(int i = 0; i < BUCKET_SIZE; ++i) {
Arc* s = root;
Arc* next = s->next;
// While we have a next pointer
while(next) {
s = next; // Point S at it
next = s->next; // Store the new next pointer
free(s); // Free S
}
// We've wiped the chain so we can now clear the root
// which is statically allocated
root->next = NULL;
root++;
}
// Wipe the lot
memset(ARCS, 0, sizeof(ARCS));
ARC_COUNT = 0;
}
bool profiler_stop() {
if(!PROFILER_RECORDING) {
return false;
}
printf("Stopping profiling...\n");
PROFILER_RECORDING = false;
if(!write_samples(OUTPUT_FILENAME)) {
printf("ERROR WRITING SAMPLES (RO filesystem?)! Outputting to stdout\n");
return false;
}
return true;
}
void profiler_clean_up() {
profiler_stop(); // Make sure everything is stopped
PROFILER_RUNNING = false;
thd_join(THREAD, NULL);
}