valgrind/none/tests/s390x/cu21.c - nest-cam/4320010/valgrind - Git at Google

 #include <stdint.h>
 #include <inttypes.h>
 #include <stdlib.h>
 #include <string.h>
 #include <stdio.h>
 #include "opcodes.h"

 #ifndef M3
 #define M3 0
 #endif

 /* The abstracted result of an CU21 insn */
 typedef struct {
    uint64_t addr1;  // target
    uint64_t len1;
    uint64_t addr2;  // source
    uint64_t len2;
    uint32_t cc;
 } cu21_t;

 /* Define various input buffers. */

 /* U+0000 to U+007f:  Result is 1 byte for each uint16_t */
 uint16_t pattern1[] = {
    0x0000, 0x007f,    /* corner cases */
    0x0047, 0x0056, 0x0045, 0x0021, 0x007b, 0x003a /* misc */
 };

 /* U+0080 to U+07ff:  Result is 2 bytes for each uint16_t */
 uint16_t pattern2[] = {
    0x0080, 0x07ff,    /* corner cases */
    0x07df, 0x008f, 0x0100, 0x017f, 0x052f, 0x0600, 0x06ff /* misc */
 };

 /* U+0800 to U+d7ff:  Result is 3 bytes for each uint16_t
    U+dc00 to U+ffff:  Result is 3 bytes for each uint16_t */
 uint16_t pattern3[] = {
    0x0800, 0xd7ff,    /* corner cases */
    0xdc00, 0xffff,    /* corner cases */
    0x083f, 0x1a21, 0x1b10, 0x2200, 0x225e, 0x22c9, 0xe001  /* misc */
 };

 /* U+d800 to U+dbff:  Result is 4 bytes for each uint16_t pair */
 uint16_t pattern4[] = {
    0xd800, 0xdc00,    /* left  corner case */
    0xdbff, 0xdfff,    /* right corner case */
    0xdada, 0xdddd, 0xdeaf, 0xdcdc  /* misc */
 };

 /* Invalid low surrogate */
 uint16_t invalid[] = { 0xd801, 0x0098 };

 /* Mixed bytes */
 uint16_t mixed[] = {
    0x0078 /* 1 byte */,
    0x0200 /* 2 bytes */,
    0xffff /* 3 bytes */,
    0xd800, 0xdc01 /* 4 bytes */
 };

 /* This is the buffer for the converted bytes. */
 uint8_t buff[1000];  /* Large so we con'don't have to worry about it */

 void write_and_check(uint16_t *, unsigned, unsigned);


 static cu21_t
 do_cu21(uint8_t *dst, uint64_t dst_len, uint16_t *src, uint64_t src_len)
 {
    int cc = 42;
    cu21_t regs;

    /* build up the register pairs */
    register uint16_t *source     asm("4") = src;
    register uint64_t  source_len asm("5") = src_len;
    register uint8_t  *dest       asm("2") = dst;
    register uint64_t  dest_len   asm("3") = dst_len;

    asm volatile(
                 CU21(M3,2,4)
                 "ipm %2\n\t"
                 "srl %2,28\n\t"
                 : "+d"(dest), "+d"(source), "=d"(cc),
                   "+d"(source_len), "+d"(dest_len)
                 :
                 : "memory", "cc");

    /* Capture register contents at end of cu21 */
    regs.addr1 = (uint64_t)dest;
    regs.len1  = dest_len;
    regs.addr2 = (uint64_t)source;
    regs.len2  = source_len;
    regs.cc = cc;

    return regs;
 }

 void
 run_test(uint8_t *dst, uint64_t dst_len, uint16_t *src, uint64_t src_len)
 {
    int i;
    cu21_t result;

    result = do_cu21(dst, dst_len, src, src_len);

    // Write out the converted bytes, if any
    printf("UTF8: ");
    if (dst_len - result.len1 == 0)
       printf(" <none>");
    else
       for (i = 0; i < dst_len - result.len1; i++) {
          printf(" %02x", dst[i]);
       }
    printf("\n");

    printf("  cc = %d\n", result.cc);
    if (dst != NULL)
       printf("  dst address difference: %"PRId64, result.addr1 - (uint64_t)dst);
    printf("  dst len: %"PRId64"\n", result.len1);

    if (src != NULL)
       printf("  src address difference: %"PRId64, result.addr2 - (uint64_t)src);
    printf("  src len: %"PRId64"\n", result.len2);
 }

 int main()
 {
    /* Length == 0, no memory should be read or written */
    printf("\n------------- test1 ----------------\n");
    run_test(NULL, 0, NULL, 0);

    /* Test exhaustion of source length (source bytes are valid) */
    printf("\n------------- test2.1 ----------------\n");

    /* No character will be written to BUFF, i.e. loop in jitted code
       is not iterated */
    run_test(buff, sizeof buff, NULL,     1);
    run_test(buff, sizeof buff, pattern1, 1);
    run_test(buff, sizeof buff, pattern2, 1);
    run_test(buff, sizeof buff, pattern3, 1);
    run_test(buff, sizeof buff, pattern4, 1);
    run_test(buff, sizeof buff, pattern4, 2);
    run_test(buff, sizeof buff, pattern4, 3);

    printf("\n------------- test2.2 ----------------\n");
    /* At least one character will be written to BUFF, i.e. loop in jitted
       code is iterated */
    run_test(buff, sizeof buff, pattern1, 3);
    run_test(buff, sizeof buff, pattern2, 5);
    run_test(buff, sizeof buff, pattern3, 7);
    run_test(buff, sizeof buff, pattern4, 9);
    run_test(buff, sizeof buff, pattern4, 10);
    run_test(buff, sizeof buff, pattern4, 11);

    /* Test exhaustion of destination length (source bytes are valid) */
    printf("\n------------- test3.1 ----------------\n");

    /* No character will be written to BUFF, i.e. loop in jitted code
       is not iterated */

    /* Want to write a single byte */
    run_test(NULL, 0, pattern1, sizeof pattern1);

    /* Want to write two bytes */
    run_test(NULL, 0, pattern2, sizeof pattern2);
    run_test(NULL, 1, pattern2, sizeof pattern2);

    /* Want to write three bytes */
    run_test(NULL, 0, pattern3, sizeof pattern3);
    run_test(NULL, 1, pattern3, sizeof pattern3);
    run_test(NULL, 2, pattern3, sizeof pattern3);

    /* Want to write four bytes */
    run_test(NULL, 0, pattern4, sizeof pattern4);
    run_test(NULL, 1, pattern4, sizeof pattern4);
    run_test(NULL, 2, pattern4, sizeof pattern4);
    run_test(NULL, 3, pattern4, sizeof pattern4);

    printf("\n------------- test3.2 ----------------\n");
    /* At least one character will be written to BUFF, i.e. loop in jitted
       code is iterated */
    run_test(buff, 3, pattern1, sizeof pattern1);

    run_test(buff, 5, pattern2, sizeof pattern2);

    run_test(buff, 7, pattern3, sizeof pattern3);
    run_test(buff, 8, pattern3, sizeof pattern3);

    run_test(buff,  9, pattern4, sizeof pattern4);
    run_test(buff, 10, pattern4, sizeof pattern4);
    run_test(buff, 11, pattern4, sizeof pattern4);

    /* When both operands are exhausted, cc=0 takes precedence.
       (test1 tests this for len == 0) */
    printf("\n------------- test4 ----------------\n");
    run_test(buff, 6, pattern1, 6);

    /* Input has invalid low surrogate. */
    printf("\n------------- test5 ----------------\n");
    run_test(buff, sizeof buff, invalid, sizeof invalid);
    run_test(buff, 0, invalid, sizeof invalid);

    /* Convert all pattern buffers */
    printf("\n------------- test6 ----------------\n");
    run_test(buff, sizeof buff, pattern1, sizeof pattern1);
    run_test(buff, sizeof buff, pattern2, sizeof pattern2);
    run_test(buff, sizeof buff, pattern3, sizeof pattern3);
    run_test(buff, sizeof buff, pattern4, sizeof pattern4);
    run_test(buff, sizeof buff, mixed,    sizeof mixed);

    /* Make sure we only write the exact number of bytes (and not more) */
    uint16_t pat[2];

    /* Write 1 byte */
    printf("\n------------- test7.1 ----------------\n");
    pat[0] = 0x10;
    write_and_check(pat, 2, 1);

    /* Write 2 bytes */
    printf("\n------------- test7.2 ----------------\n");
    pat[0] = 0x8f;
    write_and_check(pat, 2, 2);

    /* Write 3 bytes */
    printf("\n------------- test7.3 ----------------\n");
    pat[0] = 0x842;
    write_and_check(pat, 2, 3);

    /* Write 4 bytes */
    printf("\n------------- test7.4 ----------------\n");
    pat[0] = 0xd842;
    pat[1] = 0xdc42;
    write_and_check(pat, 2, 4);

    return 0;
 }


 void
 write_and_check_aux(uint16_t *input, unsigned num_input_bytes,
                     unsigned num_expected_output_bytes,
                     unsigned fill_byte)
 {
    int num_errors, i;

    /* Fill output buffer with FILL_BYTE */
    memset(buff, fill_byte, sizeof buff);

    /* Execute cu21 */
    run_test(buff, sizeof buff, input, num_input_bytes);

    /* Make sure the rest of the buffer is unmodified.  */
    num_errors = 0;
    for (i = num_expected_output_bytes; i < sizeof buff; ++i)
       if (buff[i] != fill_byte) ++num_errors;
    if (num_errors)
       fprintf(stderr, "*** wrote more than %u bytes\n",
               num_expected_output_bytes);
 }

 void
 write_and_check(uint16_t *input, unsigned num_input_bytes,
                 unsigned num_expected_output_bytes)
 {
    write_and_check_aux(input, num_input_bytes, num_expected_output_bytes, 0x0);

    /* Run again with different fill pattern to make sure we did not write
       an extra 0x0 byte */
    write_and_check_aux(input, num_input_bytes, num_expected_output_bytes, 0xFF);
 }
	#include <stdint.h>
	#include <inttypes.h>
	#include <stdlib.h>
	#include <string.h>
	#include <stdio.h>
	#include "opcodes.h"

	#ifndef M3
	#define M3 0
	#endif

	/* The abstracted result of an CU21 insn */
	typedef struct {
	uint64_t addr1; // target
	uint64_t len1;
	uint64_t addr2; // source
	uint64_t len2;
	uint32_t cc;
	} cu21_t;

	/* Define various input buffers. */

	/* U+0000 to U+007f: Result is 1 byte for each uint16_t */
	uint16_t pattern1[] = {
	0x0000, 0x007f, /* corner cases */
	0x0047, 0x0056, 0x0045, 0x0021, 0x007b, 0x003a /* misc */
	};

	/* U+0080 to U+07ff: Result is 2 bytes for each uint16_t */
	uint16_t pattern2[] = {
	0x0080, 0x07ff, /* corner cases */
	0x07df, 0x008f, 0x0100, 0x017f, 0x052f, 0x0600, 0x06ff /* misc */
	};

	/* U+0800 to U+d7ff: Result is 3 bytes for each uint16_t
	U+dc00 to U+ffff: Result is 3 bytes for each uint16_t */
	uint16_t pattern3[] = {
	0x0800, 0xd7ff, /* corner cases */
	0xdc00, 0xffff, /* corner cases */
	0x083f, 0x1a21, 0x1b10, 0x2200, 0x225e, 0x22c9, 0xe001 /* misc */
	};

	/* U+d800 to U+dbff: Result is 4 bytes for each uint16_t pair */
	uint16_t pattern4[] = {
	0xd800, 0xdc00, /* left corner case */
	0xdbff, 0xdfff, /* right corner case */
	0xdada, 0xdddd, 0xdeaf, 0xdcdc /* misc */
	};

	/* Invalid low surrogate */
	uint16_t invalid[] = { 0xd801, 0x0098 };

	/* Mixed bytes */
	uint16_t mixed[] = {
	0x0078 /* 1 byte */,
	0x0200 /* 2 bytes */,
	0xffff /* 3 bytes */,
	0xd800, 0xdc01 /* 4 bytes */
	};

	/* This is the buffer for the converted bytes. */
	uint8_t buff[1000]; /* Large so we con'don't have to worry about it */

	void write_and_check(uint16_t *, unsigned, unsigned);


	static cu21_t
	do_cu21(uint8_t dst, uint64_t dst_len, uint16_t src, uint64_t src_len)
	{
	int cc = 42;
	cu21_t regs;

	/* build up the register pairs */
	register uint16_t *source asm("4") = src;
	register uint64_t source_len asm("5") = src_len;
	register uint8_t *dest asm("2") = dst;
	register uint64_t dest_len asm("3") = dst_len;

	asm volatile(
	CU21(M3,2,4)
	"ipm %2\n\t"
	"srl %2,28\n\t"
	: "+d"(dest), "+d"(source), "=d"(cc),
	"+d"(source_len), "+d"(dest_len)
	:
	: "memory", "cc");

	/* Capture register contents at end of cu21 */
	regs.addr1 = (uint64_t)dest;
	regs.len1 = dest_len;
	regs.addr2 = (uint64_t)source;
	regs.len2 = source_len;
	regs.cc = cc;

	return regs;
	}

	void
	run_test(uint8_t dst, uint64_t dst_len, uint16_t src, uint64_t src_len)
	{
	int i;
	cu21_t result;

	result = do_cu21(dst, dst_len, src, src_len);

	// Write out the converted bytes, if any
	printf("UTF8: ");
	if (dst_len - result.len1 == 0)
	printf(" <none>");
	else
	for (i = 0; i < dst_len - result.len1; i++) {
	printf(" %02x", dst[i]);
	}
	printf("\n");

	printf(" cc = %d\n", result.cc);
	if (dst != NULL)
	printf(" dst address difference: %"PRId64, result.addr1 - (uint64_t)dst);
	printf(" dst len: %"PRId64"\n", result.len1);

	if (src != NULL)
	printf(" src address difference: %"PRId64, result.addr2 - (uint64_t)src);
	printf(" src len: %"PRId64"\n", result.len2);
	}

	int main()
	{
	/* Length == 0, no memory should be read or written */
	printf("\n------------- test1 ----------------\n");
	run_test(NULL, 0, NULL, 0);

	/* Test exhaustion of source length (source bytes are valid) */
	printf("\n------------- test2.1 ----------------\n");

	/* No character will be written to BUFF, i.e. loop in jitted code
	is not iterated */
	run_test(buff, sizeof buff, NULL, 1);
	run_test(buff, sizeof buff, pattern1, 1);
	run_test(buff, sizeof buff, pattern2, 1);
	run_test(buff, sizeof buff, pattern3, 1);
	run_test(buff, sizeof buff, pattern4, 1);
	run_test(buff, sizeof buff, pattern4, 2);
	run_test(buff, sizeof buff, pattern4, 3);

	printf("\n------------- test2.2 ----------------\n");
	/* At least one character will be written to BUFF, i.e. loop in jitted
	code is iterated */
	run_test(buff, sizeof buff, pattern1, 3);
	run_test(buff, sizeof buff, pattern2, 5);
	run_test(buff, sizeof buff, pattern3, 7);
	run_test(buff, sizeof buff, pattern4, 9);
	run_test(buff, sizeof buff, pattern4, 10);
	run_test(buff, sizeof buff, pattern4, 11);

	/* Test exhaustion of destination length (source bytes are valid) */
	printf("\n------------- test3.1 ----------------\n");

	/* No character will be written to BUFF, i.e. loop in jitted code
	is not iterated */

	/* Want to write a single byte */
	run_test(NULL, 0, pattern1, sizeof pattern1);

	/* Want to write two bytes */
	run_test(NULL, 0, pattern2, sizeof pattern2);
	run_test(NULL, 1, pattern2, sizeof pattern2);

	/* Want to write three bytes */
	run_test(NULL, 0, pattern3, sizeof pattern3);
	run_test(NULL, 1, pattern3, sizeof pattern3);
	run_test(NULL, 2, pattern3, sizeof pattern3);

	/* Want to write four bytes */
	run_test(NULL, 0, pattern4, sizeof pattern4);
	run_test(NULL, 1, pattern4, sizeof pattern4);
	run_test(NULL, 2, pattern4, sizeof pattern4);
	run_test(NULL, 3, pattern4, sizeof pattern4);

	printf("\n------------- test3.2 ----------------\n");
	/* At least one character will be written to BUFF, i.e. loop in jitted
	code is iterated */
	run_test(buff, 3, pattern1, sizeof pattern1);

	run_test(buff, 5, pattern2, sizeof pattern2);

	run_test(buff, 7, pattern3, sizeof pattern3);
	run_test(buff, 8, pattern3, sizeof pattern3);

	run_test(buff, 9, pattern4, sizeof pattern4);
	run_test(buff, 10, pattern4, sizeof pattern4);
	run_test(buff, 11, pattern4, sizeof pattern4);

	/* When both operands are exhausted, cc=0 takes precedence.
	(test1 tests this for len == 0) */
	printf("\n------------- test4 ----------------\n");
	run_test(buff, 6, pattern1, 6);

	/* Input has invalid low surrogate. */
	printf("\n------------- test5 ----------------\n");
	run_test(buff, sizeof buff, invalid, sizeof invalid);
	run_test(buff, 0, invalid, sizeof invalid);

	/* Convert all pattern buffers */
	printf("\n------------- test6 ----------------\n");
	run_test(buff, sizeof buff, pattern1, sizeof pattern1);
	run_test(buff, sizeof buff, pattern2, sizeof pattern2);
	run_test(buff, sizeof buff, pattern3, sizeof pattern3);
	run_test(buff, sizeof buff, pattern4, sizeof pattern4);
	run_test(buff, sizeof buff, mixed, sizeof mixed);

	/* Make sure we only write the exact number of bytes (and not more) */
	uint16_t pat[2];

	/* Write 1 byte */
	printf("\n------------- test7.1 ----------------\n");
	pat[0] = 0x10;
	write_and_check(pat, 2, 1);

	/* Write 2 bytes */
	printf("\n------------- test7.2 ----------------\n");
	pat[0] = 0x8f;
	write_and_check(pat, 2, 2);

	/* Write 3 bytes */
	printf("\n------------- test7.3 ----------------\n");
	pat[0] = 0x842;
	write_and_check(pat, 2, 3);

	/* Write 4 bytes */
	printf("\n------------- test7.4 ----------------\n");
	pat[0] = 0xd842;
	pat[1] = 0xdc42;
	write_and_check(pat, 2, 4);

	return 0;
	}


	void
	write_and_check_aux(uint16_t *input, unsigned num_input_bytes,
	unsigned num_expected_output_bytes,
	unsigned fill_byte)
	{
	int num_errors, i;

	/* Fill output buffer with FILL_BYTE */
	memset(buff, fill_byte, sizeof buff);

	/* Execute cu21 */
	run_test(buff, sizeof buff, input, num_input_bytes);

	/* Make sure the rest of the buffer is unmodified. */
	num_errors = 0;
	for (i = num_expected_output_bytes; i < sizeof buff; ++i)
	if (buff[i] != fill_byte) ++num_errors;
	if (num_errors)
	fprintf(stderr, "*** wrote more than %u bytes\n",
	num_expected_output_bytes);
	}

	void
	write_and_check(uint16_t *input, unsigned num_input_bytes,
	unsigned num_expected_output_bytes)
	{
	write_and_check_aux(input, num_input_bytes, num_expected_output_bytes, 0x0);

	/* Run again with different fill pattern to make sure we did not write
	an extra 0x0 byte */
	write_and_check_aux(input, num_input_bytes, num_expected_output_bytes, 0xFF);
	}