tests/s390x_features.c - platform/external/valgrind - Git at Google

 /* -*- mode: C; c-basic-offset: 3; -*- */

 #include <setjmp.h>
 #include <signal.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <assert.h>
 #include <ctype.h>     // isspace
 #include <fcntl.h>     // open
 #include <unistd.h>    // lseek
 #include <sys/stat.h>  // S_IRUSR

 // This file determines s390x features a processor supports.
 //
 // We return:
 // - 0 if the machine provides the asked-for feature and the cpu
 //     model, if specified, matches the machine
 // - 1 the machine does not provide the asked-for feature or the
 //     cpu model, if specified, does not match the machine
 // - 1 for an unknown cpu model in /proc/cpu_info
 // - 2 if the asked-for feature isn't recognised (this will be the case for
 //     any feature if run on a non-s390x machine).
 // - 3 if there was a usage error (it also prints an error message).
 //
 // USAGE:
 //
 //    s390x_features <feature> [<machine-model>]
 //
 // The machine_model is optional and it can be something like:
 //
 //   z9        -- Host needs to be a z9 (and nothing else)
 //   z9:       -- Host needs to be a z9 or any later model
 //   :z9       -- Host needs to be a model up to and including z9
 //   z900:z9   -- Host needs to be at least a z900 and at most a z9.
 //                Any model in between is OK, too.

 jmp_buf env;

 #if defined(VGA_s390x)

 void handle_sigill(int signum)
 {
    longjmp(env, 1);
 }

 unsigned long long stfle(void)
 {

    unsigned long long ret;

    signal(SIGILL, handle_sigill);
    if (setjmp(env)) {
       /* stfle not available: assume no facilities */
       return 0;
    } else {
       asm volatile("lghi 0, 0\n"
                    ".insn s,0xb2b00000,%0\n" /* stfle */
       : "=Q" (ret)::"0", "cc");
       return ret;
    }
 }


 /* Read /proc/cpuinfo. Look for lines like these

       processor 0: version = FF,  identification = 0117C9,  machine = 2064

    and return the machine model or NULL on error.
    Adapted from function VG_(get_machine_model) in coregrind/m_machine.c */

 typedef struct {
    const char *cpuinfo_name;
    const char *real_name;
 } model_info;

 /* Array needs to be sorted chronologically. Oldest to newest */
 model_info models[] = {
    { "2064", "z900"   },
    { "2066", "z800"   },
    { "2084", "z990"   },
    { "2086", "z890"   },
    { "2094", "z9-EC"  },
    { "2096", "z9-BC"  },
    { "2097", "z10-EC" },
    { "2098", "z10-BC" },
    { "2817", "z196"   },
    { "2818", "z114"   },
    { "2827", "zEC12"  },
    { "2828", "zBC12"  },
 };


 /* Locate a machine model by name. Name can be either the cpuinfo
    name or the external name. */
 static model_info *locate_model(const char *name)
 {
    model_info *p;

    /* Try cpuinfo name first */
    for (p = models; p != models + sizeof models / sizeof models[0]; ++p) {
       if (strcmp(p->cpuinfo_name, name) == 0) return p;  // found it
    }

    /* Now try external name */
    for (p = models; p != models + sizeof models / sizeof models[0]; ++p) {
       if (strcmp(p->real_name, name) == 0) return p;  // found it
    }

    return NULL;
 }


 static model_info *get_host(void)
 {
    int    n, fh;
    size_t num_bytes, file_buf_size;
    char  *p, *m, *model_name, *file_buf;
    model_info *model;

    /* Slurp contents of /proc/cpuinfo into FILE_BUF */
    fh = open("/proc/cpuinfo", O_RDONLY, S_IRUSR);
    if (fh < 0) return NULL;

    /* Determine the size of /proc/cpuinfo.
       Work around broken-ness in /proc file system implementation.
       fstat returns a zero size for /proc/cpuinfo although it is
       claimed to be a regular file. */
    num_bytes = 0;
    file_buf_size = 1000;
    file_buf = malloc(file_buf_size + 1);

    while (42) {
       n = read(fh, file_buf, file_buf_size);
       if (n < 0) break;

       num_bytes += n;
       if (n < file_buf_size) break;  /* reached EOF */
    }

    if (n < 0) num_bytes = 0;   /* read error; ignore contents */

    if (num_bytes > file_buf_size) {
       free(file_buf);
       lseek(fh, 0, SEEK_SET);
       file_buf = malloc(num_bytes + 1);
       n = read(fh, file_buf, num_bytes);
       if (n < 0) num_bytes = 0;
    }

    file_buf[num_bytes] = '\0';
    close(fh);

    /* Parse file */
    model = models + sizeof models / sizeof models[0];
    for (p = file_buf; *p; ++p) {
       /* Beginning of line */
       if (strncmp(p, "processor", sizeof "processor" - 1 ) != 0) continue;

       m = strstr(p, "machine");
       if (m == NULL) continue;

       p = m + sizeof "machine" - 1;
       while (isspace(*p) || *p == '=') {
          if (*p == '\n') goto next_line;
          ++p;
       }

       model_name = p;
       for (n = 0; n < sizeof models / sizeof models[0]; ++n) {
          model_info *mm = models + n;
          size_t len = strlen(mm->cpuinfo_name);
          if (strncmp(mm->cpuinfo_name, model_name, len) == 0 &&
              isspace(model_name[len])) {
             /* In case there are different CPUs in this cluster return the
                one with the dewest capabilities ("oldest" model). */
             if (mm < model) model = mm;
             p = model_name + len;
             break;
          }
       }
       /* Skip until end-of-line */
       while (*p != '\n')
          ++p;
    next_line: ;
    }

    free(file_buf);

    if (model == models + sizeof models / sizeof models[0]) return NULL;

    return model;
 }


 /* Convenience macro that maps the facility bit number as given in the
    Principles of Ops "facility indications" section to a bit mask */
 #define FAC_BIT(x)   (1ULL << (63 - (x)))

 static int go(char *feature, char *cpu)
 {
    unsigned long long facilities;
    unsigned long long match;
    model_info *host, *from, *to, *p;
    char *colon;

    facilities = stfle();

    if        (strcmp(feature, "s390x-zarch") == 0 ) {
       match = (facilities & FAC_BIT(1)) && (facilities & FAC_BIT(2));
    } else if (strcmp(feature, "s390x-n3") == 0 ) {
       match = facilities & FAC_BIT(0);
    } else if (strcmp(feature, "s390x-stfle") == 0 ) {
       match = facilities & FAC_BIT(7);
    } else if (strcmp(feature, "s390x-ldisp") == 0 ) {
       match = (facilities & FAC_BIT(18)) && (facilities & FAC_BIT(19));
    } else if (strcmp(feature, "s390x-eimm") == 0 ) {
       match = facilities & FAC_BIT(21);
    } else if (strcmp(feature, "s390x-stckf") == 0 ) {
       match = facilities & FAC_BIT(25);
    } else if (strcmp(feature, "s390x-genins") == 0 ) {
       match = facilities & FAC_BIT(34);
    } else if (strcmp(feature, "s390x-exrl") == 0 ) {
       match = facilities & FAC_BIT(35);
    } else if (strcmp(feature, "s390x-etf3") == 0 ) {
       match = facilities & FAC_BIT(30);
    } else if (strcmp(feature, "s390x-fpext") == 0 ) {
       match = facilities & FAC_BIT(37);
    } else if (strcmp(feature, "s390x-dfp") == 0 ) {
       match = facilities & FAC_BIT(42);
    } else if (strcmp(feature, "s390x-pfpo") == 0 ) {
       match = facilities & FAC_BIT(44);
    } else {
       return 2;          // Unrecognised feature.
    }

    if (match == 0) return 1;   // facility not provided

    /* Host provides facility. If no CPU was specified, we're done. */
    if (cpu == NULL) return 0;

    host = get_host();
    if (host == NULL) return 1;  // unknown model

    //   printf("host = %s (%s)\n", host->cpuinfo_name, host->real_name);

    /* Determine interval of models in which to search for HOST. */
    from = to = NULL;
    colon = strchr(cpu, ':');

    if (colon == NULL) {
       // match exact
       from = to = locate_model(cpu);
    } else if (colon == cpu) {
       // :NAME  match machines up to and including CPU
       from = models;
       to   = locate_model(cpu + 1);
    } else if (colon[1] == '\0') {
       // NAME:  match machines beginning with CPU or later
       *colon = '\0';
       from = locate_model(cpu);
       to   = models + sizeof models / sizeof models[0] - 1;
       *colon = ':';
    } else {
       // NAME:NAME  match machines in interval
       *colon = '\0';
       from = locate_model(cpu);
       to   = locate_model(colon + 1);
       *colon = ':';
    }

    if (from == NULL || to == NULL || from > to) {
       fprintf(stderr, "invalid cpu specification '%s'\n", cpu);
       return 3;
    }

 #if 0
    printf("from  %s (%s)  to  %s (%s)\n", from->cpuinfo_name, from->real_name,
           to->cpuinfo_name, to->real_name);
 #endif

    /* Search for HOST. */
    for (p = from; p <= to; ++p) {
       if (p == host) return 0;
    }

    return 1; // host does not match CPU specification
 }

 #else

 static int go(char *feature, char *cpu)
 {
    return 2;      // Feature not recognised (non-s390x machine!)
 }

 #endif


 //---------------------------------------------------------------------------
 // main
 //---------------------------------------------------------------------------
 int main(int argc, char **argv)
 {
    int rc, inverted = 0;

    if (argc < 2 || argc > 3) {
       fprintf( stderr, "usage: s390x_features <feature> [<machine-model>]\n" );
       exit(3);                // Usage error.
    }

    if (argv[1][0] == '!') {
       assert(argv[2] == NULL);   // not allowed
       inverted = 1;
       ++argv[1];
    }

    rc = go(argv[1], argv[2]);

    if (inverted) {
       switch (rc) {
       case 0: rc = 1; break;
       case 1: rc = 0; break;
       case 2: rc = 2; break;
       }
    }

    //   printf("rc = %d\n", rc);

    return rc;
 }
	/* -- mode: C; c-basic-offset: 3; -- */

	#include <setjmp.h>
	#include <signal.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <assert.h>
	#include <ctype.h> // isspace
	#include <fcntl.h> // open
	#include <unistd.h> // lseek
	#include <sys/stat.h> // S_IRUSR

	// This file determines s390x features a processor supports.
	//
	// We return:
	// - 0 if the machine provides the asked-for feature and the cpu
	// model, if specified, matches the machine
	// - 1 the machine does not provide the asked-for feature or the
	// cpu model, if specified, does not match the machine
	// - 1 for an unknown cpu model in /proc/cpu_info
	// - 2 if the asked-for feature isn't recognised (this will be the case for
	// any feature if run on a non-s390x machine).
	// - 3 if there was a usage error (it also prints an error message).
	//
	// USAGE:
	//
	// s390x_features <feature> [<machine-model>]
	//
	// The machine_model is optional and it can be something like:
	//
	// z9 -- Host needs to be a z9 (and nothing else)
	// z9: -- Host needs to be a z9 or any later model
	// :z9 -- Host needs to be a model up to and including z9
	// z900:z9 -- Host needs to be at least a z900 and at most a z9.
	// Any model in between is OK, too.

	jmp_buf env;

	#if defined(VGA_s390x)

	void handle_sigill(int signum)
	{
	longjmp(env, 1);
	}

	unsigned long long stfle(void)
	{

	unsigned long long ret;

	signal(SIGILL, handle_sigill);
	if (setjmp(env)) {
	/* stfle not available: assume no facilities */
	return 0;
	} else {
	asm volatile("lghi 0, 0\n"
	".insn s,0xb2b00000,%0\n" /* stfle */
	: "=Q" (ret)::"0", "cc");
	return ret;
	}
	}


	/* Read /proc/cpuinfo. Look for lines like these

	processor 0: version = FF, identification = 0117C9, machine = 2064

	and return the machine model or NULL on error.
	Adapted from function VG_(get_machine_model) in coregrind/m_machine.c */

	typedef struct {
	const char *cpuinfo_name;
	const char *real_name;
	} model_info;

	/* Array needs to be sorted chronologically. Oldest to newest */
	model_info models[] = {
	{ "2064", "z900" },
	{ "2066", "z800" },
	{ "2084", "z990" },
	{ "2086", "z890" },
	{ "2094", "z9-EC" },
	{ "2096", "z9-BC" },
	{ "2097", "z10-EC" },
	{ "2098", "z10-BC" },
	{ "2817", "z196" },
	{ "2818", "z114" },
	{ "2827", "zEC12" },
	{ "2828", "zBC12" },
	};


	/* Locate a machine model by name. Name can be either the cpuinfo
	name or the external name. */
	static model_info locate_model(const char name)
	{
	model_info *p;

	/* Try cpuinfo name first */
	for (p = models; p != models + sizeof models / sizeof models[0]; ++p) {
	if (strcmp(p->cpuinfo_name, name) == 0) return p; // found it
	}

	/* Now try external name */
	for (p = models; p != models + sizeof models / sizeof models[0]; ++p) {
	if (strcmp(p->real_name, name) == 0) return p; // found it
	}

	return NULL;
	}


	static model_info *get_host(void)
	{
	int n, fh;
	size_t num_bytes, file_buf_size;
	char p, m, model_name, file_buf;
	model_info *model;

	/* Slurp contents of /proc/cpuinfo into FILE_BUF */
	fh = open("/proc/cpuinfo", O_RDONLY, S_IRUSR);
	if (fh < 0) return NULL;

	/* Determine the size of /proc/cpuinfo.
	Work around broken-ness in /proc file system implementation.
	fstat returns a zero size for /proc/cpuinfo although it is
	claimed to be a regular file. */
	num_bytes = 0;
	file_buf_size = 1000;
	file_buf = malloc(file_buf_size + 1);

	while (42) {
	n = read(fh, file_buf, file_buf_size);
	if (n < 0) break;

	num_bytes += n;
	if (n < file_buf_size) break; /* reached EOF */
	}

	if (n < 0) num_bytes = 0; /* read error; ignore contents */

	if (num_bytes > file_buf_size) {
	free(file_buf);
	lseek(fh, 0, SEEK_SET);
	file_buf = malloc(num_bytes + 1);
	n = read(fh, file_buf, num_bytes);
	if (n < 0) num_bytes = 0;
	}

	file_buf[num_bytes] = '\0';
	close(fh);

	/* Parse file */
	model = models + sizeof models / sizeof models[0];
	for (p = file_buf; *p; ++p) {
	/* Beginning of line */
	if (strncmp(p, "processor", sizeof "processor" - 1 ) != 0) continue;

	m = strstr(p, "machine");
	if (m == NULL) continue;

	p = m + sizeof "machine" - 1;
	while (isspace(p) \|\| p == '=') {
	if (*p == '\n') goto next_line;
	++p;
	}

	model_name = p;
	for (n = 0; n < sizeof models / sizeof models[0]; ++n) {
	model_info *mm = models + n;
	size_t len = strlen(mm->cpuinfo_name);
	if (strncmp(mm->cpuinfo_name, model_name, len) == 0 &&
	isspace(model_name[len])) {
	/* In case there are different CPUs in this cluster return the
	one with the dewest capabilities ("oldest" model). */
	if (mm < model) model = mm;
	p = model_name + len;
	break;
	}
	}
	/* Skip until end-of-line */
	while (*p != '\n')
	++p;
	next_line: ;
	}

	free(file_buf);

	if (model == models + sizeof models / sizeof models[0]) return NULL;

	return model;
	}


	/* Convenience macro that maps the facility bit number as given in the
	Principles of Ops "facility indications" section to a bit mask */
	#define FAC_BIT(x) (1ULL << (63 - (x)))

	static int go(char feature, char cpu)
	{
	unsigned long long facilities;
	unsigned long long match;
	model_info host, from, to, p;
	char *colon;

	facilities = stfle();

	if (strcmp(feature, "s390x-zarch") == 0 ) {
	match = (facilities & FAC_BIT(1)) && (facilities & FAC_BIT(2));
	} else if (strcmp(feature, "s390x-n3") == 0 ) {
	match = facilities & FAC_BIT(0);
	} else if (strcmp(feature, "s390x-stfle") == 0 ) {
	match = facilities & FAC_BIT(7);
	} else if (strcmp(feature, "s390x-ldisp") == 0 ) {
	match = (facilities & FAC_BIT(18)) && (facilities & FAC_BIT(19));
	} else if (strcmp(feature, "s390x-eimm") == 0 ) {
	match = facilities & FAC_BIT(21);
	} else if (strcmp(feature, "s390x-stckf") == 0 ) {
	match = facilities & FAC_BIT(25);
	} else if (strcmp(feature, "s390x-genins") == 0 ) {
	match = facilities & FAC_BIT(34);
	} else if (strcmp(feature, "s390x-exrl") == 0 ) {
	match = facilities & FAC_BIT(35);
	} else if (strcmp(feature, "s390x-etf3") == 0 ) {
	match = facilities & FAC_BIT(30);
	} else if (strcmp(feature, "s390x-fpext") == 0 ) {
	match = facilities & FAC_BIT(37);
	} else if (strcmp(feature, "s390x-dfp") == 0 ) {
	match = facilities & FAC_BIT(42);
	} else if (strcmp(feature, "s390x-pfpo") == 0 ) {
	match = facilities & FAC_BIT(44);
	} else {
	return 2; // Unrecognised feature.
	}

	if (match == 0) return 1; // facility not provided

	/* Host provides facility. If no CPU was specified, we're done. */
	if (cpu == NULL) return 0;

	host = get_host();
	if (host == NULL) return 1; // unknown model

	// printf("host = %s (%s)\n", host->cpuinfo_name, host->real_name);

	/* Determine interval of models in which to search for HOST. */
	from = to = NULL;
	colon = strchr(cpu, ':');

	if (colon == NULL) {
	// match exact
	from = to = locate_model(cpu);
	} else if (colon == cpu) {
	// :NAME match machines up to and including CPU
	from = models;
	to = locate_model(cpu + 1);
	} else if (colon[1] == '\0') {
	// NAME: match machines beginning with CPU or later
	*colon = '\0';
	from = locate_model(cpu);
	to = models + sizeof models / sizeof models[0] - 1;
	*colon = ':';
	} else {
	// NAME:NAME match machines in interval
	*colon = '\0';
	from = locate_model(cpu);
	to = locate_model(colon + 1);
	*colon = ':';
	}

	if (from == NULL \|\| to == NULL \|\| from > to) {
	fprintf(stderr, "invalid cpu specification '%s'\n", cpu);
	return 3;
	}

	#if 0
	printf("from %s (%s) to %s (%s)\n", from->cpuinfo_name, from->real_name,
	to->cpuinfo_name, to->real_name);
	#endif

	/* Search for HOST. */
	for (p = from; p <= to; ++p) {
	if (p == host) return 0;
	}

	return 1; // host does not match CPU specification
	}

	#else

	static int go(char feature, char cpu)
	{
	return 2; // Feature not recognised (non-s390x machine!)
	}

	#endif


	//---------------------------------------------------------------------------
	// main
	//---------------------------------------------------------------------------
	int main(int argc, char **argv)
	{
	int rc, inverted = 0;

	if (argc < 2 \|\| argc > 3) {
	fprintf( stderr, "usage: s390x_features <feature> [<machine-model>]\n" );
	exit(3); // Usage error.
	}

	if (argv[1][0] == '!') {
	assert(argv[2] == NULL); // not allowed
	inverted = 1;
	++argv[1];
	}

	rc = go(argv[1], argv[2]);

	if (inverted) {
	switch (rc) {
	case 0: rc = 1; break;
	case 1: rc = 0; break;
	case 2: rc = 2; break;
	}
	}

	// printf("rc = %d\n", rc);

	return rc;
	}