source: libcfa/src/device/cpu.cfa @ 145dcd5

ADTast-experimentalenumforall-pointer-decaypthread-emulationqualifiedEnum
Last change on this file since 145dcd5 was 07a1e7a, checked in by Thierry Delisle <tdelisle@…>, 3 years ago

Added cpu info for which cache the map referes to.

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File size: 13.2 KB
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[96f002c1]1//
2// Cforall Version 1.0.0 Copyright (C) 2021 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
7// topology.cfa -- read the data structure
8//
9// Author           : Thierry Delisle
10// Created On       : Thu Jun 10 16:13:07 2021
11// Last Modified By :
12// Last Modified On :
13// Update Count     :
14//
15
16#include "device/cpu.hfa"
17
18#include <math.hfa>
19#include <stdlib.hfa>
20
21#include <errno.h>
22#include <stdio.h>
23#include <string.h>
24#include <unistd.h>
25
26extern "C" {
27        #include <dirent.h>
28        #include <sys/types.h>
29        #include <sys/stat.h>
30        #include <fcntl.h>
31}
32
[33608cb]33#include "algorithms/range_iterator.hfa"
34
[96f002c1]35// search a string for character 'character' but looking atmost at len
36// chars
37static const char * strnchr(const char * str, int character, size_t len) {
38        return (const char *)memchr(str, character, strnlen(str, len));
39}
40
41// Check if have string matches the want string
42// ignoring any characters that are longer than the want string
43static bool strmatch(const char * want, char * have) {
44        size_t w = strlen(want);
45        return strncmp(want, have, w) == 0;
46}
47
48typedef const char * idx_range_t;
49
50// read the value of a string and evaluate it
51// get the end pointer and make sure it is all evaluated
52static unsigned read_value(idx_range_t map, size_t len, const char ** end) {
53        unsigned long val = strtoul(map, (char**)end, 10);
54        /* paranoid */ __attribute__((unused)) size_t read = (*end - map);
55        /* paranoid */ verifyf(read <= len, "String '%s' passed with inconsistent length %zu", map, len);
56        /* paranoid */ verifyf(read == len, "String %.*s not entirely a number, %zu chars left", (int)len, map, len - read);
57        return val;
58}
59
60// Evaluate the width of a comma seperated list of idx
61// for example 'A-B,C-D,E,F' has a width of '(B-A) + (D-C) + 1 + 1'
62// Also has an (non-optional) end ptr like strtoul and friends
63//
64// FIXME : the current implementation only supports 1 comma
65static unsigned read_width(idx_range_t map, size_t len, const char ** end) {
66        // Do we have a comma
67        const char * comma = strnchr(map, ',', len);
68        if(comma != 0p) {
69                // We do! recurse and sum the widths
70                const char * _;
71                size_t split = comma - map;
72                unsigned lhs = read_width(map, split, &_);
73                unsigned rhs = read_width(comma + 1, len - split - 1, end);
74                return lhs + rhs;
75        }
76
77        // No commas, check for a range
78        const char * dash = strnchr(map, '-', len);
79        if(dash != 0p) {
80                const char * _;
81                size_t split = dash - map;
82                unsigned lhs = read_value(map, split, &_);
83                unsigned rhs = read_value(dash + 1, len - split - 1, end);
84                return rhs - lhs + 1;
85        }
86
87        // No range, no comma, just a single value
88        // It's width is 1 and we can consume everything
89        /* paranoid */ verifyf( ({strtoul(map, (char**)end, 10); *end == (map + len); }), "Value in range '%.*s' not a number", (int)len, map);
90        *end = map + len;
91        return 1;
92}
93
94// go through a directory calling fn on each file
95static int iterate_dir( const char * path, void (*fn)(struct dirent * ent) ) {
96        // open the directory
97        DIR *dir = opendir(path);
98        if(dir == 0p) { return ENOTDIR; }
99
100        // call fn for each
101        struct dirent * ent;
102        while ((ent = readdir(dir)) != 0p) {
103                fn( ent );
104        }
105
106        // no longer need this
107        closedir(dir);
108        return 0;
109}
110
111// count the number of directories with the specified prefix
112// the directories counted have the form '[prefix]N' where prefix is the parameter
113// and N is an base 10 integer.
114static int count_prefix_dirs(const char * path, const char * prefix) {
115        // read the directory and find the cpu count
116        // and make sure everything is as expected
117        int max = -1;
118        int count = 0;
119        void lambda(struct dirent * ent) {
120                // were are looking for prefixX, where X is a number
121                // check that it starts with 'cpu
122                char * s = strstr(ent->d_name, prefix);
123                if(s == 0p) { return; }
124                if(s != ent->d_name) { return; }
125
126                // check that the next part is a number
127                s += strlen(prefix);
128                char * end;
129                long int val = strtol(s, &end, 10);
130                if(*end != '\0' || val < 0) { return; }
131
132                // check that it's a directory
133                if(ent->d_type != DT_DIR) { return; }
134
135                // it's a match!
136                max = max(val, max);
137                count++;
138        }
[8157bde]139        int ret = iterate_dir(path, lambda);
140        if(ret == ENOTDIR) return 0;
[96f002c1]141
142        /* paranoid */ verifyf(count == max + 1, "Inconsistent %s count, counted %d, but max %s was %d", prefix, count, prefix, (int)max);
143
144        return count;
145}
146
147// Count number of cpus in the system
[33608cb]148static [int, const char *] count_cpus(void) {
[ab4a595]149        const char * fpath = "/sys/devices/system/cpu/online";
[96f002c1]150        int fd = open(fpath, 0, O_RDONLY);
151        /* paranoid */ verifyf(fd >= 0, "Could not open file %s", fpath);
152
153        char buff[128];
154        ssize_t r = read(fd, buff, 128);
155        /* paranoid */ verifyf(r > 0, "Could not read file %s", fpath);
156        /* paranoid */ verify( buff[r-1] == '\n' );
157        buff[r-1] = '\0';
158
159        /* paranoid */ __attribute__((unused)) int ret =
160        close(fd);
161        /* paranoid */ verifyf(ret == 0, "Could not close file %s", fpath);
162
163        const char * _;
[33608cb]164        return [read_width(buff, r - 1, &_), strndup(buff, r - 1)];
[96f002c1]165}
166
167// Count number of cache *indexes* in the system
168// cache indexes are distinct from cache level as Data or Instruction cache
169// can share a level but not an index
170// PITFALL: assumes all cpus have the same indexes as cpu0
171static int count_cache_indexes(void) {
172        return count_prefix_dirs("/sys/devices/system/cpu/cpu0/cache", "index");
173}
174
175
176// read information about a spcficic cache index/cpu file into the output buffer
177static size_t read_cpuidxinfo_into(unsigned cpu, unsigned idx, const char * file, char * out, size_t out_len) {
178        // Pick the file we want and read it
179        char buf[128];
180        /* paranoid */ __attribute__((unused)) int len =
181        snprintf(buf, 128, "/sys/devices/system/cpu/cpu%u/cache/index%u/%s", cpu, idx, file);
182        /* paranoid */ verifyf(len > 0, "Could not generate '%s' filename for cpu %u, index %u", file, cpu, idx);
183
184        int fd = open(buf, 0, O_RDONLY);
185        /* paranoid */ verifyf(fd > 0, "Could not open file '%s'", buf);
186
187        ssize_t r = read(fd, out, out_len);
188        /* paranoid */ verifyf(r > 0, "Could not read file '%s'", buf);
189
190        /* paranoid */ __attribute__((unused)) int ret =
191        close(fd);
192        /* paranoid */ verifyf(ret == 0, "Could not close file '%s'", buf);
193        return r;
194}
195
196// Iterate over the cache indexes of a given cpu
197typedef void (*handle_func_t)(unsigned idx, unsigned char level, idx_range_t range, size_t len);
198static void foreach_cacheidx(unsigned cpu, unsigned idxs, handle_func_t handle) {
199        for(i; idxs) {
200                unsigned idx = idxs - 1 - i;
201                char buf[32];
202
203                // Type says what kind of cache this is,
204                // Options are: Unified, Data, Instruction
205                read_cpuidxinfo_into(cpu, idx, "type", buf, 32);
206                if((!strmatch("Unified", buf)) && (!strmatch("Data", buf))) {
207                        // We don't care about instruction caches
208                        continue;
209                }
210
211                // Level is the cache level: higher means bigger and slower
212                read_cpuidxinfo_into(cpu, idx, "level", buf, 32);
213                char * end;
214                unsigned long level = strtoul(buf, &end, 10);
215                /* paranoid */ verifyf(level <= 250, "Cpu %u has more than 250 levels of cache, this is not supported", cpu);
216
217                // shared_cpu_list is a range of cpus that share this particular cache
218                size_t n = read_cpuidxinfo_into(cpu, idx, "shared_cpu_list", buf, 32);
219                /* paranoid */ verify( buf[n-1] == '\n' );
220                buf[n-1] = '\0';
221
222                // Simply call the functor
223                handle(idx, level, buf, n - 1);
224        }
225}
226
227
228struct raw_cache_instance {
[8157bde]229        idx_range_t range;      // A text description of the cpus covered
230        unsigned width;         // The number of cpus covered
231        unsigned char level;    // the cache level
[96f002c1]232        // FIXME add at least size and type
233};
234
235static void  ?{}(raw_cache_instance & this) { this.range = 0p;}
236static void ^?{}(raw_cache_instance & this) { free(this.range);}
237
[8157bde]238// Returns a 2D array of instances of size [cpu count][cache levels]
239// where cache level doesn't include instruction caches
[33608cb]240raw_cache_instance ** build_raw_cache_table(unsigned cpus_c, idx_range_t cpus, unsigned idxs, unsigned cache_levels)
[96f002c1]241{
[33608cb]242        raw_cache_instance ** raw = alloc(cpus_c, '\0'`fill);
243
244        RangeIter rc = { cpus };
245        while(moveNext(rc)) {
246                unsigned i = rc.com;
247                raw[i] = alloc(cache_levels);
248                void addcache(unsigned fidx, unsigned char level, idx_range_t range, size_t len) {
249                        /* paranoid */ verifyf(level <= cache_levels, "Unexpected cache level %d on cpu %u index %u", (int)level, i, fidx);
250
251                        unsigned idx = cache_levels - level;
252                        raw_cache_instance & r = raw[i][idx];
253                        r.range = strndup(range, len);
254                        r.level = level;
255                        const char * end;
256                        r.width = read_width(range, len, &end);
[96f002c1]257                }
[33608cb]258                foreach_cacheidx(i, idxs, addcache);
[96f002c1]259        }
260
261        return raw;
262}
263
[cf85f96]264struct llc_map_t {
265        raw_cache_instance * raw;
266        unsigned count;
267        unsigned start;
268};
269
[96f002c1]270// returns an allocate list of all the different distinct last level caches
[33608cb]271static [*llc_map_t, size_t cnt] distinct_llcs(idx_range_t cpus, unsigned llc_idx, raw_cache_instance ** raw) {
[96f002c1]272        // Allocate at least one element
[cf85f96]273        llc_map_t* ranges = alloc();
[96f002c1]274        size_t range_cnt = 1;
275
[33608cb]276        RangeIter rc = { cpus };
277        __attribute__((unused)) bool ret =
278        moveNext(rc);
279        /* paranoid */ verify( ret );
280        /* paranoid */ verify( rc.com >= 0 );
281
[96f002c1]282        // Initialize with element 0
[33608cb]283        ranges->raw = &raw[rc.com][llc_idx];
[cf85f96]284        ranges->count = 0;
285        ranges->start = -1u;
[96f002c1]286
287        // Go over all other cpus
[33608cb]288        CPU_LOOP: while(moveNext(rc)) {
289                unsigned i = rc.com;
[96f002c1]290                // Check if the range is already there
[cf85f96]291                raw_cache_instance * candidate = &raw[i][llc_idx];
[96f002c1]292                for(j; range_cnt) {
[cf85f96]293                        llc_map_t & exist = ranges[j];
[96f002c1]294                        // If the range is already there just jump to the next cpu
[cf85f96]295                        if(0 == strcmp(candidate->range, exist.raw->range)) continue CPU_LOOP;
[96f002c1]296                }
297
298                // The range wasn't there, added to the list
299                ranges = alloc(range_cnt + 1, ranges`realloc);
[cf85f96]300                ranges[range_cnt].raw = candidate;
301                ranges[range_cnt].count = 0;
302                ranges[range_cnt].start = -1u;
[96f002c1]303                range_cnt++;
304        }
305
306        // return what we have
307        return [ranges, range_cnt];
308}
309
310struct cpu_pairing_t {
311        unsigned cpu;
[cf85f96]312        unsigned id;
[96f002c1]313};
314
315int ?<?( cpu_pairing_t lhs, cpu_pairing_t rhs ) {
[cf85f96]316        return lhs.id < rhs.id;
[96f002c1]317}
318
[33608cb]319static [[]cpu_pairing_t] get_cpu_pairings(unsigned cpus_c, idx_range_t cpus, raw_cache_instance ** raw, llc_map_t * maps, size_t map_cnt) {
320        cpu_pairing_t * pairings = alloc(cpus_c);
[96f002c1]321
[33608cb]322        RangeIter rc = { cpus };
323        CPU_LOOP: while(moveNext(rc)) {
324                unsigned i = rc.com;
[96f002c1]325                pairings[i].cpu = i;
326                idx_range_t want = raw[i][0].range;
327                MAP_LOOP: for(j; map_cnt) {
[cf85f96]328                        if(0 != strcmp(want, maps[j].raw->range)) continue MAP_LOOP;
[96f002c1]329
[cf85f96]330                        pairings[i].id = j;
[96f002c1]331                        continue CPU_LOOP;
332                }
333
334                /* paranoid */ verifyf( false, "Cpu %u map doesn't match", i );
335        }
336
337        return pairings;
338}
339
[cf85f96]340#include <fstream.hfa>
341
[96f002c1]342extern "C" {
343        void __cfaabi_device_startup( void ) {
[33608cb]344                int cpus_c;
345                const char * cpus;
346                [cpus_c, cpus] = count_cpus();
347                #if defined(__CFA_WITH_VERIFY__)
348                // Verify that the mapping is self consistant.
349                {
350                        RangeIter rc = { cpus };
351                        while(moveNext(rc)) {
352                                unsigned i = rc.com;
353                                verify(cpus_c > i);
354                        }
355                }
356                #endif
357
[96f002c1]358                int idxs = count_cache_indexes();
359
360                // Count actual cache levels
361                unsigned cache_levels = 0;
362                unsigned llc = 0;
[8157bde]363                if (idxs != 0) {
[96f002c1]364                        unsigned char prev = -1u;
365                        void first(unsigned idx, unsigned char level, const char * map, size_t len) {
366                                /* paranoid */ verifyf(level < prev, "Index %u of cpu 0 has cache levels out of order: %u then %u", idx, (unsigned)prev, (unsigned)level);
367                                llc = max(llc, level);
368                                prev = level;
369                                cache_levels++;
370                        }
371                        foreach_cacheidx(0, idxs, first);
372                }
373
374                // Read in raw data
[33608cb]375                raw_cache_instance ** raw = build_raw_cache_table(cpus_c, cpus, idxs, cache_levels);
[96f002c1]376
377                // Find number of distinct cache instances
[cf85f96]378                llc_map_t * maps;
[96f002c1]379                size_t map_cnt;
380                [maps, map_cnt] =  distinct_llcs(cpus, cache_levels - llc, raw);
381
[45fde9f]382                #if defined(__CFA_WITH_VERIFY__)
[cf85f96]383                // Verify that the caches cover the all the cpus
[45fde9f]384                {
[cf85f96]385                        unsigned width1 = 0;
386                        unsigned width2 = 0;
[45fde9f]387                        for(i; map_cnt) {
388                                const char * _;
[cf85f96]389                                width1 += read_width(maps[i].raw->range, strlen(maps[i].raw->range), &_);
390                                width2 += maps[i].raw->width;
[45fde9f]391                        }
[33608cb]392                        verify(width1 == cpus_c);
393                        verify(width2 == cpus_c);
[45fde9f]394                }
395                #endif
[96f002c1]396
397                // Get mappings from cpu to cache instance
[33608cb]398                cpu_pairing_t * pairings = get_cpu_pairings(cpus_c, cpus, raw, maps, map_cnt);
[96f002c1]399
400                // Sort by cache instance
[33608cb]401                qsort(pairings, cpus_c);
[96f002c1]402
[cf85f96]403                {
404                        unsigned it = 0;
[33608cb]405                        RangeIter rc = { cpus };
406                        while(moveNext(rc)) {
407                                unsigned i = rc.com;
[cf85f96]408                                unsigned llc_id = pairings[i].id;
409                                if(maps[llc_id].start == -1u) {
410                                        maps[llc_id].start = it;
411                                        it += maps[llc_id].raw->width;
412                                        /* paranoid */ verify(maps[llc_id].start < it);
413                                        /* paranoid */ verify(it != -1u);
414                                }
415                        }
[33608cb]416                        /* paranoid */ verify(it == cpus_c);
[cf85f96]417                }
[96f002c1]418
[cf85f96]419                // From the mappings build the actual cpu map we want
[33608cb]420                struct cpu_map_entry_t * entries = alloc(cpus_c);
421                for(i; cpus_c) { entries[i].count = 0; }
422
423                RangeIter rc = { cpus };
424                while(moveNext(rc)) {
425                        unsigned i = rc.com;
[cf85f96]426                        /* paranoid */ verify(pairings[i].id < map_cnt);
[96f002c1]427                        unsigned c = pairings[i].cpu;
[cf85f96]428                        unsigned llc_id = pairings[i].id;
429                        unsigned start = maps[llc_id].start;
[07a1e7a]430                        entries[c].count = maps[llc_id].raw->width;
[cf85f96]431                        entries[c].start = start;
[07a1e7a]432                        entries[c].self  = start + (maps[llc_id].count++);
433                        entries[c].cache = llc_id;
[96f002c1]434                }
435
436                // get rid of the temporary data
437                free(maps);
438                free(pairings);
439
[33608cb]440                for(i; cpus_c) {
441                        if( raw[i] ) for(j; cache_levels) {
[96f002c1]442                                ^(raw[i][j]){};
443                        }
444                        free(raw[i]);
445                }
446                free(raw);
447
448                cpu_info.llc_map = entries;
[33608cb]449                cpu_info.hthrd_count = cpus_c;
[8157bde]450                cpu_info.llc_count = map_cnt;
[96f002c1]451        }
452
453        void __cfaabi_device_shutdown( void ) {
454                free(cpu_info.llc_map);
455        }
[72bd9cd]456}
457
458cpu_info_t cpu_info;
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