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Improve FPU Tag Word reconstruction on i386 to indicate register states.
Improve the code reconstructing en_tw in struct fpreg32 from FXSAVE results so that all register states are indicated correctly. The previous code unconditionally mapped non-empty register state to 'normalized value' constant. The new code explicitly distinguishes the 'zero value' and 'special value' constants as well. This improves consistency between real FSAVE and translation from FXSAVE, and ensures that tests using PT_GETFPREGS can rely on a single correct value independently of the underlying implementation. PR: 250454 Sponsored by: The FreeBSD Foundation Obtained from: Moritz Systems Submitted by: Michał Górny <mgorny@moritz.systems> Discussed with: emaste MFC after: 1 week Differential revision: https://reviews.freebsd.org/D26856
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Notes:
svn2git
2020-12-20 02:59:44 +00:00
svn path=/head/; revision=366904
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@ -145,7 +145,11 @@ fill_fpregs32(struct thread *td, struct fpreg32 *regs)
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struct save87 *sv_87;
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struct env87 *penv_87;
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struct envxmm *penv_xmm;
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int i;
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struct fpacc87 *fx_reg;
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int i, st;
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uint64_t mantissa;
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uint16_t tw, exp;
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uint8_t ab_tw;
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bzero(regs, sizeof(*regs));
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sv_87 = (struct save87 *)regs;
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@ -171,13 +175,39 @@ fill_fpregs32(struct thread *td, struct fpreg32 *regs)
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/* Entry into the kernel always sets TF_HASSEGS */
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penv_87->en_fos = td->td_frame->tf_ds;
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/* FPU registers and tags */
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penv_87->en_tw = 0xffff;
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for (i = 0; i < 8; ++i) {
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sv_87->sv_ac[i] = sv_fpu->sv_fp[i].fp_acc;
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if ((penv_xmm->en_tw & (1 << i)) != 0)
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penv_87->en_tw &= ~(3 << i * 2);
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/*
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* FPU registers and tags.
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* For ST(i), i = fpu_reg - top; we start with fpu_reg=7.
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*/
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st = 7 - ((penv_xmm->en_sw >> 11) & 7);
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ab_tw = penv_xmm->en_tw;
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tw = 0;
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for (i = 0x80; i != 0; i >>= 1) {
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sv_87->sv_ac[st] = sv_fpu->sv_fp[st].fp_acc;
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tw <<= 2;
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if ((ab_tw & i) != 0) {
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/* Non-empty - we need to check ST(i) */
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fx_reg = &sv_fpu->sv_fp[st].fp_acc;
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/* The first 64 bits contain the mantissa. */
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mantissa = *((uint64_t *)fx_reg->fp_bytes);
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/*
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* The final 16 bits contain the sign bit and the exponent.
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* Mask the sign bit since it is of no consequence to these
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* tests.
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*/
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exp = *((uint16_t *)&fx_reg->fp_bytes[8]) & 0x7fff;
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if (exp == 0) {
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if (mantissa == 0)
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tw |= 1; /* Zero */
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else
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tw |= 2; /* Denormal */
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} else if (exp == 0x7fff)
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tw |= 2; /* Infinity or NaN */
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} else
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tw |= 3; /* Empty */
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st = (st - 1) & 7;
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}
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penv_87->en_tw = tw;
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return (0);
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}
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@ -1154,7 +1154,11 @@ npx_fill_fpregs_xmm1(struct savexmm *sv_xmm, struct save87 *sv_87)
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{
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struct env87 *penv_87;
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struct envxmm *penv_xmm;
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int i;
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struct fpacc87 *fx_reg;
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int i, st;
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uint64_t mantissa;
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uint16_t tw, exp;
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uint8_t ab_tw;
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penv_87 = &sv_87->sv_env;
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penv_xmm = &sv_xmm->sv_env;
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@ -1168,14 +1172,39 @@ npx_fill_fpregs_xmm1(struct savexmm *sv_xmm, struct save87 *sv_87)
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penv_87->en_foo = penv_xmm->en_foo;
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penv_87->en_fos = penv_xmm->en_fos;
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/* FPU registers and tags */
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penv_87->en_tw = 0xffff;
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for (i = 0; i < 8; ++i) {
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sv_87->sv_ac[i] = sv_xmm->sv_fp[i].fp_acc;
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if ((penv_xmm->en_tw & (1 << i)) != 0)
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/* zero and special are set as valid */
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penv_87->en_tw &= ~(3 << i * 2);
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/*
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* FPU registers and tags.
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* For ST(i), i = fpu_reg - top; we start with fpu_reg=7.
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*/
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st = 7 - ((penv_xmm->en_sw >> 11) & 7);
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ab_tw = penv_xmm->en_tw;
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tw = 0;
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for (i = 0x80; i != 0; i >>= 1) {
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sv_87->sv_ac[st] = sv_xmm->sv_fp[st].fp_acc;
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tw <<= 2;
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if (ab_tw & i) {
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/* Non-empty - we need to check ST(i) */
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fx_reg = &sv_xmm->sv_fp[st].fp_acc;
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/* The first 64 bits contain the mantissa. */
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mantissa = *((uint64_t *)fx_reg->fp_bytes);
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/*
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* The final 16 bits contain the sign bit and the exponent.
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* Mask the sign bit since it is of no consequence to these
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* tests.
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*/
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exp = *((uint16_t *)&fx_reg->fp_bytes[8]) & 0x7fff;
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if (exp == 0) {
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if (mantissa == 0)
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tw |= 1; /* Zero */
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else
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tw |= 2; /* Denormal */
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} else if (exp == 0x7fff)
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tw |= 2; /* Infinity or NaN */
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} else
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tw |= 3; /* Empty */
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st = (st - 1) & 7;
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}
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penv_87->en_tw = tw;
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}
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void
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