memcheck/tests/vbit-test/vtest.h - platform/external/valgrind - Gitiles

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

 /*
    This file is part of MemCheck, a heavyweight Valgrind tool for
    detecting memory errors.

    Copyright (C) 2012-2017  Florian Krohm

    This program is free software; you can redistribute it and/or
    modify it under the terms of the GNU General Public License as
    published by the Free Software Foundation; either version 2 of the
    License, or (at your option) any later version.

    This program is distributed in the hope that it will be useful, but
    WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
    02111-1307, USA.

    The GNU General Public License is contained in the file COPYING.
 */

 #ifndef VTEST_H
 #define VTEST_H

 /* Main header file for the V-bit tester */

 #include <stdint.h>   // uint64_t
 #include "libvex.h"   // IROp
 #include "vbits.h"    // vbits_t


 /* How undefinedness propagates from input to output */

 typedef enum {
    // For any undefined input bit, all output bits are defined.
    UNDEF_NONE,

    // For any undefined input bit, all output bits are undefined.
    UNDEF_ALL,

    // For each undefined input bit, the corresponding output bit
    // in the same position is undefined. No other bit is undefined.
    UNDEF_SAME,

    // For each undefined input bit, the corresponding output bit
    // in the same position is undefined. No other bit is undefined.
    // If the corresponding output bit does not exist, the input bit
    // does not cause any output bits to be undefined.
    UNDEF_TRUNC,

    // For each undefined input bit, the corresponding output bit
    // in the same position is undefined. No other bit is undefined.
    // Output bits that do no not have a corresponding input bit are
    // defined.
    UNDEF_ZEXT,

    // For each undefined input bit, the corresponding output bit
    // in the same position is undefined. If the MSB of the input value
    // is undefined, so are all output bits with higher significance
    // than the MSB input bit.
    UNDEF_SEXT,

    // For each undefined input bit, the corresponding output bit
    // and all output bits with higher significance are undefined.
    UNDEF_LEFT,

    UNDEF_CONCAT,  // nHLto2n ops e.g. Iop_32HLto64
    UNDEF_UPPER,   // 2nHIton ops e.g. Iop_64HIto32
    UNDEF_SHL,     // shift-left
    UNDEF_SHR,     // logical shift-right
    UNDEF_SAR,     // arithmetic shift-right
    UNDEF_OR,      // bitwise OR operation
    UNDEF_AND,     // bitwise AND operation

    UNDEF_ORD,     // Iop_CmpORD compare

    /* For each of the following UNDEF_ALL_BxE, E is the number of
     * elements and B is the number of bits in the element.
     *
     * If any bits in one of the E elements is not defined, then the
     * return value has all bits in the corresponding element set to 1.
     */
    UNDEF_ALL_64x2,         // 128-bit vector, two 64-bit elements
    UNDEF_ALL_32x4,         // 128-bit vector, four 32-bit elements
    UNDEF_ALL_16x8,         // 128-bit vector, eight 16-bit elements
    UNDEF_ALL_8x16,         // 128-bit vector, sixteen 8-bit elements

    /* For each of the following UNDEF_ALL_BxE_EVEN, E is the number of
     * elements and B is the number of bits in the element. Elements are
     * numbered from right to left starting with element number 0.
     *
     * If any bits in one of the even numbered elements is not defined, then
     * the return value has all bits in the corresponding element set to 1.
     * The bits in the odd numbered elements are not checked
     */
    UNDEF_ALL_32x4_EVEN,    // 128-bit vector, four 32-bit elements
    UNDEF_ALL_16x8_EVEN,    // 128-bit vector, eight 16-bit elements
    UNDEF_ALL_8x16_EVEN,    // 128-bit vector, sixteen 8-bit elements

    /* For each of the following UNDEF_BxE_TRANSPOSE, E is the number of
     * elements and B is the number of bits in the element.
     *
     * Concatenate bit i from each byte j.  Place concatenated 8 bit value
     * into byte i of the result.  Do for each bit i from 0 to 7 and
     * byte j from 0 to 7 of each 64-bit element.
     */
    UNDEF_64x2_TRANSPOSE,

    /* For each of the following UNDEF_BxE_ROTATE, E is the number of
     * elements and B is the number of bits in the element.
     *
     * The result is the undefined bits in each element rotated by the
     * specified amount.  Bits rotated out of the element are discarded.
     * No additional bits are set to undefined.
     */
    UNDEF_64x2_ROTATE, /* 128-bit vector, two 64-bit elements, rotate
                        * elements left.
                        */
    UNDEF_32x4_ROTATE, /* 128-bit vector, four 32-bit elements, rotate
                        * elements left.
                        */
    UNDEF_16x8_ROTATE, /* 128-bit vector, eight 16-bit elements, rotate
                        * elements left.
                        */
    UNDEF_8x16_ROTATE, /* 128-bit vector, sixteen 8-bit elements, rotate
                        * elements left.
                        */

    /* If the input had some vbits set, the result will have one or more
     * vbits set. Minimal test when the vbit propagation can not be easily
     * calculated.
     */
    UNDEF_SOME,

    /* For UNDEF_NARROW256_AtoB, narrow the elements of size A-bits in
     * the 256-bit source (stored in two 128-bit values) to a 128-bit
     * result with elements of size B-bits.
     *
     * If the source element will fit into the corresponding destination
     * element, then only the undefined bits in the source element are
     * undefined in the corresponding bit position of the destination element.
     *
     * If the source element will not fit into the destination element, then
     * only the lower B undefined bits of the source element will be
     * undefined in the corresponding result element unless the saturate
     * flag is true.  If the saturate flag is true and the element in the
     * source will not fit into the corresponding destination element, then
     * all of the bits in the corresponding destination element are set to one.
     */
    UNDEF_NARROW256_AtoB,

    // For IROps I don't know anything about
    UNDEF_UNKNOWN
 } undef_t;


 // Everything we want to know about an IROp
 typedef struct {
    IROp op;
    const char *name;
    undef_t     undef_kind;
    /* The following two members describe if this operand has immediate
     *  operands. There are a few restrictions:
     *    (1) An operator can have at most one immediate operand.
     *    (2) If there is an immediate operand, it is the right-most operand.
     *  An immediate_index of 0 means there is no immediate operand.
     */
    unsigned    immediate_index;
    unsigned    immediate_type;

    // Indicate whether IROp can be tested on a particular architecture
    unsigned    s390x  : 1;
    unsigned    amd64  : 1;
    unsigned    ppc32  : 1;
    unsigned    ppc64  : 1;
    unsigned    arm    : 1;
    unsigned    arm64  : 1;
    unsigned    x86    : 1;
    unsigned    mips32 : 1;
    unsigned    mips64 : 1;
 } irop_t;


 /* The maximum number of input operands */
 #define MAX_OPERANDS 4

 /* An operand of an IROp (also used for the result) */
 typedef struct {
    IRType  type;
    vbits_t vbits;
    value_t value;
 } opnd_t;


 /* Carries the data needed to execute and evaluate a test. I.e.
    inputs and results (V-bits and actual value). */
 typedef struct {
    opnd_t result;
    opnd_t opnds[MAX_OPERANDS];
    unsigned rounding_mode;
 } test_data_t;


 /* Function prototypes */
 irop_t *get_irop(IROp);
 int  is_floating_point_op_with_rounding_mode(IROp);
 int  get_num_operands(IROp);

 void print_opnd(FILE *, const opnd_t *);

 int test_unary_op(const irop_t *, test_data_t *);
 int test_binary_op(const irop_t *, test_data_t *);
 int test_ternary_op(const irop_t *, test_data_t *);
 int test_qernary_op(const irop_t *, test_data_t *);

 void valgrind_vex_init_for_iri(IRICB *);
 void valgrind_execute_test(const irop_t *, test_data_t *);

 IRICB new_iricb(const irop_t *, test_data_t *);

 void panic(const char *) __attribute__((noreturn));
 void complain(const irop_t *, const test_data_t *, vbits_t expected);

 /* Imported from VEX */
 unsigned sizeof_irtype(IRType);
 void typeof_primop(IROp, IRType *t_dst, IRType *t_arg1, IRType *t_arg2,
                    IRType *t_arg3, IRType *t_arg4);

 static __inline__ unsigned bitsof_irtype(IRType type)
 {
    return type == Ity_I1 ? 1 : sizeof_irtype(type) * 8;
 }


 /* Exported variables */
 extern int verbose;

 #endif // VTEST_H
	/* -- mode: C; c-basic-offset: 3; -- */

	/*
	This file is part of MemCheck, a heavyweight Valgrind tool for
	detecting memory errors.

	Copyright (C) 2012-2017 Florian Krohm

	This program is free software; you can redistribute it and/or
	modify it under the terms of the GNU General Public License as
	published by the Free Software Foundation; either version 2 of the
	License, or (at your option) any later version.

	This program is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
	02111-1307, USA.

	The GNU General Public License is contained in the file COPYING.
	*/

	#ifndef VTEST_H
	#define VTEST_H

	/* Main header file for the V-bit tester */

	#include <stdint.h> // uint64_t
	#include "libvex.h" // IROp
	#include "vbits.h" // vbits_t


	/* How undefinedness propagates from input to output */

	typedef enum {
	// For any undefined input bit, all output bits are defined.
	UNDEF_NONE,

	// For any undefined input bit, all output bits are undefined.
	UNDEF_ALL,

	// For each undefined input bit, the corresponding output bit
	// in the same position is undefined. No other bit is undefined.
	UNDEF_SAME,

	// For each undefined input bit, the corresponding output bit
	// in the same position is undefined. No other bit is undefined.
	// If the corresponding output bit does not exist, the input bit
	// does not cause any output bits to be undefined.
	UNDEF_TRUNC,

	// For each undefined input bit, the corresponding output bit
	// in the same position is undefined. No other bit is undefined.
	// Output bits that do no not have a corresponding input bit are
	// defined.
	UNDEF_ZEXT,

	// For each undefined input bit, the corresponding output bit
	// in the same position is undefined. If the MSB of the input value
	// is undefined, so are all output bits with higher significance
	// than the MSB input bit.
	UNDEF_SEXT,

	// For each undefined input bit, the corresponding output bit
	// and all output bits with higher significance are undefined.
	UNDEF_LEFT,

	UNDEF_CONCAT, // nHLto2n ops e.g. Iop_32HLto64
	UNDEF_UPPER, // 2nHIton ops e.g. Iop_64HIto32
	UNDEF_SHL, // shift-left
	UNDEF_SHR, // logical shift-right
	UNDEF_SAR, // arithmetic shift-right
	UNDEF_OR, // bitwise OR operation
	UNDEF_AND, // bitwise AND operation

	UNDEF_ORD, // Iop_CmpORD compare

	/* For each of the following UNDEF_ALL_BxE, E is the number of
	* elements and B is the number of bits in the element.
	*
	* If any bits in one of the E elements is not defined, then the
	* return value has all bits in the corresponding element set to 1.
	*/
	UNDEF_ALL_64x2, // 128-bit vector, two 64-bit elements
	UNDEF_ALL_32x4, // 128-bit vector, four 32-bit elements
	UNDEF_ALL_16x8, // 128-bit vector, eight 16-bit elements
	UNDEF_ALL_8x16, // 128-bit vector, sixteen 8-bit elements

	/* For each of the following UNDEF_ALL_BxE_EVEN, E is the number of
	* elements and B is the number of bits in the element. Elements are
	* numbered from right to left starting with element number 0.
	*
	* If any bits in one of the even numbered elements is not defined, then
	* the return value has all bits in the corresponding element set to 1.
	* The bits in the odd numbered elements are not checked
	*/
	UNDEF_ALL_32x4_EVEN, // 128-bit vector, four 32-bit elements
	UNDEF_ALL_16x8_EVEN, // 128-bit vector, eight 16-bit elements
	UNDEF_ALL_8x16_EVEN, // 128-bit vector, sixteen 8-bit elements

	/* For each of the following UNDEF_BxE_TRANSPOSE, E is the number of
	* elements and B is the number of bits in the element.
	*
	* Concatenate bit i from each byte j. Place concatenated 8 bit value
	* into byte i of the result. Do for each bit i from 0 to 7 and
	* byte j from 0 to 7 of each 64-bit element.
	*/
	UNDEF_64x2_TRANSPOSE,

	/* For each of the following UNDEF_BxE_ROTATE, E is the number of
	* elements and B is the number of bits in the element.
	*
	* The result is the undefined bits in each element rotated by the
	* specified amount. Bits rotated out of the element are discarded.
	* No additional bits are set to undefined.
	*/
	UNDEF_64x2_ROTATE, /* 128-bit vector, two 64-bit elements, rotate
	* elements left.
	*/
	UNDEF_32x4_ROTATE, /* 128-bit vector, four 32-bit elements, rotate
	* elements left.
	*/
	UNDEF_16x8_ROTATE, /* 128-bit vector, eight 16-bit elements, rotate
	* elements left.
	*/
	UNDEF_8x16_ROTATE, /* 128-bit vector, sixteen 8-bit elements, rotate
	* elements left.
	*/

	/* If the input had some vbits set, the result will have one or more
	* vbits set. Minimal test when the vbit propagation can not be easily
	* calculated.
	*/
	UNDEF_SOME,

	/* For UNDEF_NARROW256_AtoB, narrow the elements of size A-bits in
	* the 256-bit source (stored in two 128-bit values) to a 128-bit
	* result with elements of size B-bits.
	*
	* If the source element will fit into the corresponding destination
	* element, then only the undefined bits in the source element are
	* undefined in the corresponding bit position of the destination element.
	*
	* If the source element will not fit into the destination element, then
	* only the lower B undefined bits of the source element will be
	* undefined in the corresponding result element unless the saturate
	* flag is true. If the saturate flag is true and the element in the
	* source will not fit into the corresponding destination element, then
	* all of the bits in the corresponding destination element are set to one.
	*/
	UNDEF_NARROW256_AtoB,

	// For IROps I don't know anything about
	UNDEF_UNKNOWN
	} undef_t;


	// Everything we want to know about an IROp
	typedef struct {
	IROp op;
	const char *name;
	undef_t undef_kind;
	/* The following two members describe if this operand has immediate
	* operands. There are a few restrictions:
	* (1) An operator can have at most one immediate operand.
	* (2) If there is an immediate operand, it is the right-most operand.
	* An immediate_index of 0 means there is no immediate operand.
	*/
	unsigned immediate_index;
	unsigned immediate_type;

	// Indicate whether IROp can be tested on a particular architecture
	unsigned s390x : 1;
	unsigned amd64 : 1;
	unsigned ppc32 : 1;
	unsigned ppc64 : 1;
	unsigned arm : 1;
	unsigned arm64 : 1;
	unsigned x86 : 1;
	unsigned mips32 : 1;
	unsigned mips64 : 1;
	} irop_t;


	/* The maximum number of input operands */
	#define MAX_OPERANDS 4

	/* An operand of an IROp (also used for the result) */
	typedef struct {
	IRType type;
	vbits_t vbits;
	value_t value;
	} opnd_t;


	/* Carries the data needed to execute and evaluate a test. I.e.
	inputs and results (V-bits and actual value). */
	typedef struct {
	opnd_t result;
	opnd_t opnds[MAX_OPERANDS];
	unsigned rounding_mode;
	} test_data_t;


	/* Function prototypes */
	irop_t *get_irop(IROp);
	int is_floating_point_op_with_rounding_mode(IROp);
	int get_num_operands(IROp);

	void print_opnd(FILE , const opnd_t );

	int test_unary_op(const irop_t , test_data_t );
	int test_binary_op(const irop_t , test_data_t );
	int test_ternary_op(const irop_t , test_data_t );
	int test_qernary_op(const irop_t , test_data_t );

	void valgrind_vex_init_for_iri(IRICB *);
	void valgrind_execute_test(const irop_t , test_data_t );

	IRICB new_iricb(const irop_t , test_data_t );

	void panic(const char *) __attribute__((noreturn));
	void complain(const irop_t , const test_data_t , vbits_t expected);

	/* Imported from VEX */
	unsigned sizeof_irtype(IRType);
	void typeof_primop(IROp, IRType t_dst, IRType t_arg1, IRType *t_arg2,
	IRType t_arg3, IRType t_arg4);

	static __inline__ unsigned bitsof_irtype(IRType type)
	{
	return type == Ity_I1 ? 1 : sizeof_irtype(type) * 8;
	}


	/* Exported variables */
	extern int verbose;

	#endif // VTEST_H