Re: [PATCH 4/4] kvm-unit-tests: VMX: Add test cases for instruction interception

[Jan Kiszka]

On 2013-08-13 17:56, Arthur Chunqi Li wrote:
> Add test cases for instruction interception, including three types:
> 1. Primary Processor-Based VM-Execution Controls (HLT/INVLPG/MWAIT/
> RDPMC/RDTSC/MONITOR/PAUSE)
> 2. Secondary Processor-Based VM-Execution Controls (WBINVD)
> 3. No control flag (CPUID/INVD)
> 
> Signed-off-by: Arthur Chunqi Li <yzt...@gmail.com>
> ---
>  x86/vmx.c       |    3 +-
>  x86/vmx.h       |    7 ++++
>  x86/vmx_tests.c |  117 
> +++++++++++++++++++++++++++++++++++++++++++++++++++++++
>  3 files changed, 125 insertions(+), 2 deletions(-)
> 
> diff --git a/x86/vmx.c b/x86/vmx.c
> index ca36d35..c346070 100644
> --- a/x86/vmx.c
> +++ b/x86/vmx.c
> @@ -336,8 +336,7 @@ static void init_vmx(void)
>                       : MSR_IA32_VMX_ENTRY_CTLS);
>       ctrl_cpu_rev[0].val = rdmsr(basic.ctrl ? MSR_IA32_VMX_TRUE_PROC
>                       : MSR_IA32_VMX_PROCBASED_CTLS);
> -     if (ctrl_cpu_rev[0].set & CPU_SECONDARY)
> -             ctrl_cpu_rev[1].val = rdmsr(MSR_IA32_VMX_PROCBASED_CTLS2);
> +     ctrl_cpu_rev[1].val = rdmsr(MSR_IA32_VMX_PROCBASED_CTLS2);
>       if (ctrl_cpu_rev[1].set & CPU_EPT || ctrl_cpu_rev[1].set & CPU_VPID)
>               ept_vpid.val = rdmsr(MSR_IA32_VMX_EPT_VPID_CAP);
>  
> diff --git a/x86/vmx.h b/x86/vmx.h
> index dba8b20..d81d25d 100644
> --- a/x86/vmx.h
> +++ b/x86/vmx.h
> @@ -354,6 +354,9 @@ enum Ctrl0 {
>       CPU_INTR_WINDOW         = 1ul << 2,
>       CPU_HLT                 = 1ul << 7,
>       CPU_INVLPG              = 1ul << 9,
> +     CPU_MWAIT               = 1ul << 10,
> +     CPU_RDPMC               = 1ul << 11,
> +     CPU_RDTSC               = 1ul << 12,
>       CPU_CR3_LOAD            = 1ul << 15,
>       CPU_CR3_STORE           = 1ul << 16,
>       CPU_TPR_SHADOW          = 1ul << 21,
> @@ -361,6 +364,8 @@ enum Ctrl0 {
>       CPU_IO                  = 1ul << 24,
>       CPU_IO_BITMAP           = 1ul << 25,
>       CPU_MSR_BITMAP          = 1ul << 28,
> +     CPU_MONITOR             = 1ul << 29,
> +     CPU_PAUSE               = 1ul << 30,
>       CPU_SECONDARY           = 1ul << 31,
>  };
>  
> @@ -368,6 +373,8 @@ enum Ctrl1 {
>       CPU_EPT                 = 1ul << 1,
>       CPU_VPID                = 1ul << 5,
>       CPU_URG                 = 1ul << 7,
> +     CPU_WBINVD              = 1ul << 6,
> +     CPU_RDRAND              = 1ul << 11,
>  };
>  
>  #define SAVE_GPR                             \
> diff --git a/x86/vmx_tests.c b/x86/vmx_tests.c
> index ad28c4c..66187f4 100644
> --- a/x86/vmx_tests.c
> +++ b/x86/vmx_tests.c
> @@ -20,6 +20,13 @@ static inline void set_stage(u32 s)
>       asm volatile("mov %0, stage\n\t"::"r"(s):"memory", "cc");
>  }
>  
> +static inline u32 get_stage()
> +{
> +     u32 s;
> +     asm volatile("mov stage, %0\n\t":"=r"(s)::"memory", "cc");
> +     return s;
> +}

Tagging "stage" volatile will obsolete this special assembly.

> +
>  void basic_init()
>  {
>  }
> @@ -638,6 +645,114 @@ static int iobmp_exit_handler()
>       return VMX_TEST_VMEXIT;
>  }
>  
> +asm(
> +     "insn_hlt: hlt;ret\n\t"
> +     "insn_invlpg: invlpg 0x12345678;ret\n\t"
> +     "insn_mwait: mwait;ret\n\t"
> +     "insn_rdpmc: rdpmc;ret\n\t"
> +     "insn_rdtsc: rdtsc;ret\n\t"
> +     "insn_monitor: monitor;ret\n\t"
> +     "insn_pause: pause;ret\n\t"
> +     "insn_wbinvd: wbinvd;ret\n\t"
> +     "insn_cpuid: cpuid;ret\n\t"
> +     "insn_invd: invd;ret\n\t"
> +);
> +extern void insn_hlt();
> +extern void insn_invlpg();
> +extern void insn_mwait();
> +extern void insn_rdpmc();
> +extern void insn_rdtsc();
> +extern void insn_monitor();
> +extern void insn_pause();
> +extern void insn_wbinvd();
> +extern void insn_cpuid();
> +extern void insn_invd();
> +
> +u32 cur_insn;
> +
> +struct insn_table {
> +     const char *name;
> +     u32 flag;
> +     void (*insn_func)();
> +     u32 type;

What do the "type" values mean?

> +     u32 reason;
> +     ulong exit_qual;
> +     u32 insn_info;

For none of the instructions you test, EXI_INST_INFO will have valid
content on exit. So you must not check it anyway.

> +};
> +
> +static struct insn_table insn_table[] = {
> +     // Flags for Primary Processor-Based VM-Execution Controls
> +     {"HLT",  CPU_HLT, insn_hlt, 0, 12, 0, 0},
> +     {"INVLPG", CPU_INVLPG, insn_invlpg, 0, 14, 0x12345678, 0},
> +     {"MWAIT", CPU_MWAIT, insn_mwait, 0, 36, 0, 0},
> +     {"RDPMC", CPU_RDPMC, insn_rdpmc, 0, 15, 0, 0},
> +     {"RDTSC", CPU_RDTSC, insn_rdtsc, 0, 16, 0, 0},
> +     {"MONITOR", CPU_MONITOR, insn_monitor, 0, 39, 0, 0},
> +     {"PAUSE", CPU_PAUSE, insn_pause, 0, 40, 0, 0},
> +     // Flags for Secondary Processor-Based VM-Execution Controls
> +     {"WBINVD", CPU_WBINVD, insn_wbinvd, 1, 54, 0, 0},
> +     // Flags for Non-Processor-Based
> +     {"CPUID", 0, insn_cpuid, 2, 10, 0, 0},
> +     {"INVD", 0, insn_invd, 2, 13, 0, 0},
> +     {NULL},
> +};
> +
> +static void insn_intercept_init()
> +{
> +     u32 ctrl_cpu[2];
> +
> +     ctrl_cpu[0] = vmcs_read(CPU_EXEC_CTRL0);
> +     ctrl_cpu[0] |= CPU_HLT | CPU_INVLPG | CPU_MWAIT | CPU_RDPMC | CPU_RDTSC 
> |
> +             CPU_MONITOR | CPU_PAUSE | CPU_SECONDARY;
> +     ctrl_cpu[0] &= ctrl_cpu_rev[0].clr;
> +     vmcs_write(CPU_EXEC_CTRL0, ctrl_cpu[0]);
> +     ctrl_cpu[1] = vmcs_read(CPU_EXEC_CTRL1);
> +     ctrl_cpu[1] |= CPU_WBINVD | CPU_RDRAND;
> +     ctrl_cpu[1] &= ctrl_cpu_rev[1].clr;
> +     vmcs_write(CPU_EXEC_CTRL1, ctrl_cpu[1]);
> +}
> +
> +static void insn_intercept_main()
> +{
> +     cur_insn = 0;
> +     while(insn_table[cur_insn].name != NULL) {
> +             set_stage(cur_insn);
> +             if ((insn_table[cur_insn].type == 0 && !(ctrl_cpu_rev[0].clr & 
> insn_table[cur_insn].flag)) ||
> +                     (insn_table[cur_insn].type == 1 && 
> !(ctrl_cpu_rev[1].clr & insn_table[cur_insn].flag))) {
> +                     printf("\tCPU_CTRL.CPU_%s is not supported.\n", 
> insn_table[cur_insn].name);


Coding style, specifically overlong lines.

> +             } else {
> +                     insn_table[cur_insn].insn_func();
> +                     if (stage != cur_insn + 1)
> +                             report(insn_table[cur_insn].name, 0);

Would be good to test the inverse as well, i.e. the intercept-free
execution.

> +             }
> +             cur_insn ++;
> +     }
> +}
> +
> +static int insn_intercept_exit_handler()
> +{
> +     u64 guest_rip;
> +     u32 reason;
> +     ulong exit_qual;
> +     u32 insn_len;
> +     u32 insn_info;
> +
> +     guest_rip = vmcs_read(GUEST_RIP);
> +     reason = vmcs_read(EXI_REASON) & 0xff;
> +     exit_qual = vmcs_read(EXI_QUALIFICATION);
> +     insn_len = vmcs_read(EXI_INST_LEN);
> +     insn_info = vmcs_read(EXI_INST_INFO);
> +     if (cur_insn == get_stage() &&
> +                     insn_table[cur_insn].reason == reason &&
> +                     insn_table[cur_insn].exit_qual == exit_qual &&
> +                     insn_table[cur_insn].insn_info == insn_info) {
> +             report(insn_table[cur_insn].name, 1);
> +             set_stage(stage + 1);
> +     }
> +     vmcs_write(GUEST_RIP, guest_rip + insn_len);
> +     return VMX_TEST_RESUME;
> +}
> +
>  /* name/init/guest_main/exit_handler/syscall_handler/guest_regs
>     basic_* just implement some basic functions */
>  struct vmx_test vmx_tests[] = {
> @@ -653,5 +768,7 @@ struct vmx_test vmx_tests[] = {
>               cr_shadowing_exit_handler, basic_syscall_handler, {0} },
>       { "I/O bitmap", iobmp_init, iobmp_main, iobmp_exit_handler,
>               basic_syscall_handler, {0} },
> +     { "instruction intercept", insn_intercept_init, insn_intercept_main,
> +             insn_intercept_exit_handler, basic_syscall_handler, {0} },
>       { NULL, NULL, NULL, NULL, NULL, {0} },
>  };
> 

Jan

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