Re: [Xen-devel] [PATCH v2 11/12] xenctx: Dump registers via hvm info if available.

[Don Slutz <dslutz@xxxxxxxxxxx>]

On 11/06/13 15:35, Andrew Cooper wrote:
> On 06/11/13 20:08, Don Slutz wrote:
> > From: Don Slutz <Don@xxxxxxxxxxxxxxx>
> >
> > This allows the output of registers that are not available in the
> > not HVM view.
> >
> > Look up symbols for various registers as kernel data.
> >
> > Also a minor check that ip, sp, and cr3 are the same.
> >
> > Signed-off-by: Don Slutz <Don@xxxxxxxxxxxxxxx>
> What about tools/misc/xen-hvmctx ?
1st I have heard of it.  Will look into this.
> This is a particularly awkward tool where we have two tools in different
> subtrees which do about 80% the same thing.
80% looks high to me (xenctx does  do  stack, code, and symbol table also), but 
I do agree that having 2 tools to do 1 thing (display cpu registers) is 
confusing.
> I would certainly not object if someone were to merge these two tools
> into one.  It is particularly awkward as xen-hvmctx ends up being
> installed into /usr/sbin/ and is therefore on the $PATH, while xenctx
> ends up off the $PATH in /usr/lib/xen/bin/
The way I would do this is to make 1 source file, delete the 2nd, and install 
the same code as both xenctx and xen-hvmctx.  argv[0] can be decoded and the 
default action adjusted based on the name. In this case there would be command 
line options to get the current old output for each tool.
     -Don Slutz
> I am also fairly sure we have other examples of tools like this with
> sightly different variants living in different locations.
>
> ~Andrew
>
> > ---
> >   tools/xentrace/xenctx.c |  284 ++++++++++++++++++++++++++++++++++++++++++++++-
> >   1 files changed, 282 insertions(+), 2 deletions(-)
> >
> > diff --git a/tools/xentrace/xenctx.c b/tools/xentrace/xenctx.c
> > index 6ec9c74..d3cbb22 100644
> > --- a/tools/xentrace/xenctx.c
> > +++ b/tools/xentrace/xenctx.c
> > @@ -415,6 +415,247 @@ static void print_ctx(vcpu_guest_context_any_t *ctx)
> >           print_ctx_64(&ctx->x64);
> >   }
> >   
> > +#if defined(__i386__) || defined(__x86_64__)
> > +static void print_cpuctx_regs64(struct hvm_hw_cpu *ctx)
> > +{
> > +    printf("rip: %016"PRIx64, ctx->rip);
> > +    print_symbol(ctx->rip, KERNEL_TEXT_ADDR);
> > +    print_flags(ctx->rflags);
> > +    printf("rsp: %016"PRIx64"\n", ctx->rsp);
> > +
> > +    printf("rax: %016"PRIx64"\t", ctx->rax);
> > +    printf("rcx: %016"PRIx64"\t", ctx->rcx);
> > +    printf("rdx: %016"PRIx64"\n", ctx->rdx);
> > +
> > +    printf("rbx: %016"PRIx64"\t", ctx->rbx);
> > +    printf("rsi: %016"PRIx64"\t", ctx->rsi);
> > +    printf("rdi: %016"PRIx64"\n", ctx->rdi);
> > +
> > +    printf("rbp: %016"PRIx64"\t", ctx->rbp);
> > +    printf(" r8: %016"PRIx64"\t", ctx->r8);
> > +    printf(" r9: %016"PRIx64"\n", ctx->r9);
> > +
> > +    printf("r10: %016"PRIx64"\t", ctx->r10);
> > +    printf("r11: %016"PRIx64"\t", ctx->r11);
> > +    printf("r12: %016"PRIx64"\n", ctx->r12);
> > +
> > +    printf("r13: %016"PRIx64"\t", ctx->r13);
> > +    printf("r14: %016"PRIx64"\t", ctx->r14);
> > +    printf("r15: %016"PRIx64"\n", ctx->r15);
> > +
> > +    printf("  cs: %04x @ %016"PRIx64, ctx->cs_sel, ctx->cs_base);
> > +    if (ctx->cs_base)
> > +        print_symbol(ctx->cs_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->cs_limit, ctx->cs_arbytes);
> > +    printf("  ss: %04x @ %016"PRIx64, ctx->ss_sel, ctx->ss_base);
> > +    if (ctx->ss_base)
> > +        print_symbol(ctx->ss_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->ss_limit, ctx->ss_arbytes);
> > +    printf("  ds: %04x @ %016"PRIx64, ctx->ds_sel, ctx->ds_base);
> > +    if (ctx->ds_base)
> > +        print_symbol(ctx->ds_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->ds_limit, ctx->ds_arbytes);
> > +    printf("  es: %04x @ %016"PRIx64, ctx->es_sel, ctx->es_base);
> > +    if (ctx->es_base)
> > +        print_symbol(ctx->es_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->es_limit, ctx->es_arbytes);
> > +    printf("  fs: %04x @ %016"PRIx64, ctx->fs_sel, ctx->fs_base);
> > +    if (ctx->fs_base)
> > +        print_symbol(ctx->fs_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->fs_limit, ctx->fs_arbytes);
> > +    printf("  gs: %04x @ %016"PRIx64"\\%016"PRIx64, ctx->gs_sel,
> > +           ctx->gs_base, ctx->shadow_gs);
> > +    if (ctx->gs_base)
> > +        print_symbol(ctx->gs_base, KERNEL_DATA_ADDR);
> > +    printf("\\");
> > +    if (ctx->shadow_gs)
> > +        print_symbol(ctx->shadow_gs, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->gs_limit, ctx->gs_arbytes);
> > +
> > +    if (xenctx.disp_all) {
> > +        printf("  tr: %04x @ %016"PRIx64, ctx->tr_sel, ctx->tr_base);
> > +        if (ctx->tr_base)
> > +            print_symbol(ctx->tr_base, KERNEL_DATA_ADDR);
> > +        printf("\n           /%08x(%x)\n", ctx->tr_limit, ctx->tr_arbytes);
> > +        printf(" ldt: %04x @ %016"PRIx64, ctx->ldtr_sel, ctx->ldtr_base);
> > +        if (ctx->ldtr_base)
> > +            print_symbol(ctx->ldtr_base, KERNEL_DATA_ADDR);
> > +        printf("\n           /%08x(%x)\n", ctx->ldtr_limit, ctx->ldtr_arbytes);
> > +        printf("\n");
> > +        printf("cr0: %08"PRIx64"\n", ctx->cr0);
> > +        printf("cr2: %08"PRIx64, ctx->cr2);
> > +        print_symbol(ctx->cr2, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("cr3: %08"PRIx64"\n", ctx->cr3);
> > +        printf("cr4: %08"PRIx64"\n", ctx->cr4);
> > +        printf("\n");
> > +        printf("dr0: %08"PRIx64, ctx->dr0);
> > +        print_symbol(ctx->dr0, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr1: %08"PRIx64, ctx->dr1);
> > +        print_symbol(ctx->dr1, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr2: %08"PRIx64, ctx->dr2);
> > +        print_symbol(ctx->dr2, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr3: %08"PRIx64, ctx->dr3);
> > +        print_symbol(ctx->dr3, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr6: %08"PRIx64"\n", ctx->dr6);
> > +        printf("dr7: %08"PRIx64"\n", ctx->dr7);
> > +        printf("\n");
> > +        printf("gdt: %016"PRIx64"/%lx", ctx->gdtr_base, 
> > (long)(ctx->gdtr_limit));
> > +        print_symbol(ctx->gdtr_base, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("idt: %016"PRIx64"/%lx", ctx->idtr_base, 
> > (long)(ctx->idtr_limit));
> > +        print_symbol(ctx->idtr_base, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("\n");
> > +        printf(" EFER: %08"PRIx64" flags: %08"PRIx64"\n",
> > +               ctx->msr_efer, ctx->msr_flags);
> > +        printf("SYSENTER cs: %08"PRIx64" esp: %08"PRIx64" eip: %08"PRIx64,
> > +               ctx->sysenter_cs, ctx->sysenter_esp, ctx->sysenter_eip);
> > +        print_symbol(ctx->sysenter_eip, KERNEL_TEXT_ADDR);
> > +        printf("\n");
> > +        printf(" STAR: %08"PRIx64" SFMASK: %08"PRIx64"\n",
> > +               ctx->msr_star, ctx->msr_syscall_mask);
> > +        printf("LSTAR: %08"PRIx64, ctx->msr_lstar);
> > +        print_symbol(ctx->msr_lstar, KERNEL_TEXT_ADDR);
> > +        printf("\n");
> > +        printf("CSTAR: %08"PRIx64, ctx->msr_cstar);
> > +        print_symbol(ctx->msr_cstar, KERNEL_TEXT_ADDR);
> > +        printf("\n");
> > +        printf("\n");
> > +        printf("\n");
> > +        printf(" tsc: %016"PRIx64"\n", ctx->tsc);
> > +        printf("\n");
> > +        printf("\n");
> > +        printf("pending_event: %lx  pending_vector: %lx\n",
> > +               (long)(ctx->pending_event), (long)(ctx->pending_vector));
> > +        printf("pending error_code: %lx\n\n", (long)(ctx->error_code));
> > +    }
> > +}
> > +
> > +static void print_cpuctx_regs32(struct hvm_hw_cpu *ctx)
> > +{
> > +    printf("cs:eip: %04x:%08x", ctx->cs_sel, (uint32_t)ctx->rip);
> > +    print_symbol((uint32_t)ctx->rip, KERNEL_TEXT_ADDR);
> > +    print_flags((uint32_t)ctx->rflags);
> > +    printf("ss:esp: %04x:%08x\n", ctx->ss_sel, (uint32_t)ctx->rsp);
> > +    printf("\n");
> > +
> > +    printf("eax: %08x\t", (uint32_t)ctx->rax);
> > +    printf("ebx: %08x\t", (uint32_t)ctx->rbx);
> > +    printf("ecx: %08x\t", (uint32_t)ctx->rcx);
> > +    printf("edx: %08x\n", (uint32_t)ctx->rdx);
> > +
> > +    printf("esi: %08x\t", (uint32_t)ctx->rsi);
> > +    printf("edi: %08x\t", (uint32_t)ctx->rdi);
> > +    printf("ebp: %08x\n", (uint32_t)ctx->rbp);
> > +    printf("\n");
> > +
> > +    printf("  cs: %04x @ %08"PRIx64, ctx->cs_sel, ctx->cs_base);
> > +    if (ctx->cs_base)
> > +        print_symbol(ctx->cs_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->cs_limit, ctx->cs_arbytes);
> > +    printf("  ss: %04x @ %08"PRIx64, ctx->ss_sel, ctx->ss_base);
> > +    if (ctx->ss_base)
> > +        print_symbol(ctx->ss_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->ss_limit, ctx->ss_arbytes);
> > +    printf("  ds: %04x @ %08"PRIx64, ctx->ds_sel, ctx->ds_base);
> > +    if (ctx->ds_base)
> > +        print_symbol(ctx->ds_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->ds_limit, ctx->ds_arbytes);
> > +    printf("  es: %04x @ %08"PRIx64, ctx->es_sel, ctx->es_base);
> > +    if (ctx->es_base)
> > +        print_symbol(ctx->es_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->es_limit, ctx->es_arbytes);
> > +    printf("  fs: %04x @ %08"PRIx64, ctx->fs_sel, ctx->fs_base);
> > +    if (ctx->fs_base)
> > +        print_symbol(ctx->fs_base, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->fs_limit, ctx->fs_arbytes);
> > +    printf("  gs: %04x @ %08"PRIx64"\\%08"PRIx64, ctx->gs_sel,
> > +           ctx->gs_base, ctx->shadow_gs);
> > +    if (ctx->gs_base)
> > +        print_symbol(ctx->gs_base, KERNEL_DATA_ADDR);
> > +    printf("\\");
> > +    if (ctx->shadow_gs)
> > +        print_symbol(ctx->shadow_gs, KERNEL_DATA_ADDR);
> > +    printf("\n           /%08x(%x)\n", ctx->gs_limit, ctx->gs_arbytes);
> > +
> > +    if (xenctx.disp_all) {
> > +        printf("  tr: %04x @ %08"PRIx64, ctx->tr_sel, ctx->tr_base);
> > +        if (ctx->tr_base)
> > +            print_symbol(ctx->tr_base, KERNEL_DATA_ADDR);
> > +        printf("\n           /%08x(%x)\n", ctx->tr_limit, ctx->tr_arbytes);
> > +        printf(" ldt: %04x @ %08"PRIx64, ctx->ldtr_sel, ctx->ldtr_base);
> > +        if (ctx->ldtr_base)
> > +            print_symbol(ctx->ldtr_base, KERNEL_DATA_ADDR);
> > +        printf("\n           /%08x(%x)\n", ctx->ldtr_limit, ctx->ldtr_arbytes);
> > +        printf("\n");
> > +        printf("cr0: %08"PRIx64"\n", ctx->cr0);
> > +        printf("cr2: %08"PRIx64, ctx->cr2);
> > +        print_symbol(ctx->cr2, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("cr3: %08"PRIx64"\n", ctx->cr3);
> > +        printf("cr4: %08"PRIx64"\n", ctx->cr4);
> > +        printf("\n");
> > +        printf("dr0: %08"PRIx64, ctx->dr0);
> > +        print_symbol(ctx->dr0, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr1: %08"PRIx64, ctx->dr1);
> > +        print_symbol(ctx->dr1, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr2: %08"PRIx64, ctx->dr2);
> > +        print_symbol(ctx->dr2, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr3: %08"PRIx64, ctx->dr3);
> > +        print_symbol(ctx->dr3, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("dr6: %08"PRIx64"\n", ctx->dr6);
> > +        printf("dr7: %08"PRIx64"\n", ctx->dr7);
> > +        printf("\n");
> > +        printf("gdt: %08"PRIx64"/%lx", ctx->gdtr_base, 
> > (long)(ctx->gdtr_limit));
> > +        print_symbol(ctx->gdtr_base, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("idt: %08"PRIx64"/%lx", ctx->idtr_base, 
> > (long)(ctx->idtr_limit));
> > +        print_symbol(ctx->idtr_base, KERNEL_DATA_ADDR);
> > +        printf("\n");
> > +        printf("\n");
> > +        printf(" EFER: %08"PRIx64" flags: %08"PRIx64"\n",
> > +               ctx->msr_efer, ctx->msr_flags);
> > +        printf("SYSENTER cs: %08"PRIx64" esp: %08"PRIx64" eip: %08"PRIx64,
> > +               ctx->sysenter_cs, ctx->sysenter_esp, ctx->sysenter_eip);
> > +        print_symbol(ctx->sysenter_eip, KERNEL_TEXT_ADDR);
> > +        printf("\n");
> > +        printf(" STAR: %08"PRIx64" SFMASK: %08"PRIx64"\n",
> > +               ctx->msr_star, ctx->msr_syscall_mask);
> > +        printf("LSTAR: %08"PRIx64, ctx->msr_lstar);
> > +        print_symbol(ctx->msr_lstar, KERNEL_TEXT_ADDR);
> > +        printf("\n");
> > +        printf("CSTAR: %08"PRIx64, ctx->msr_cstar);
> > +        print_symbol(ctx->msr_cstar, KERNEL_TEXT_ADDR);
> > +        printf("\n");
> > +        printf("\n");
> > +        printf(" tsc: %016"PRIx64"\n", ctx->tsc);
> > +        printf("\n");
> > +        printf("\n");
> > +        printf("pending_event: %lx  pending_vector: %lx\n",
> > +               (long)(ctx->pending_event), (long)(ctx->pending_vector));
> > +        printf("pending error_code: %lx\n\n", (long)(ctx->error_code));
> > +    }
> > +}
> > +
> > +static void print_cpuctx(struct hvm_hw_cpu *ctx)
> > +{
> > +    if (guest_word_size == 8)
> > +        print_cpuctx_regs64(ctx);
> > +    else
> > +        print_cpuctx_regs32(ctx);
> > +
> > +}
> > +#endif
> > +
> >   #define NONPROT_MODE_SEGMENT_SHIFT 4
> >   
> >   static guest_word_t instr_pointer(vcpu_guest_context_any_t *ctx)
> > @@ -887,6 +1128,9 @@ static int print_stack(vcpu_guest_context_any_t *ctx, int 
> > vcpu, int width, guest
> >   static void dump_ctx(int vcpu, guest_word_t mem_addr, guest_word_t stk_addr)
> >   {
> >       vcpu_guest_context_any_t ctx;
> > +#if defined(__i386__) || defined(__x86_64__)
> > +    struct hvm_hw_cpu cpuctx;
> > +#endif
> >   
> >       if (xc_vcpu_getcontext(xenctx.xc_handle, xenctx.domid, vcpu, &ctx) < 0) {
> >           perror("xc_vcpu_getcontext");
> > @@ -896,7 +1140,6 @@ static void dump_ctx(int vcpu, guest_word_t mem_addr, 
> > guest_word_t stk_addr)
> >   #if defined(__i386__) || defined(__x86_64__)
> >       {
> >           if (xenctx.dominfo.hvm) {
> > -            struct hvm_hw_cpu cpuctx;
> >               xen_capabilities_info_t xen_caps = "";
> >               if (xc_domain_hvm_getcontext_partial(
> >                       xenctx.xc_handle, xenctx.domid, HVM_SAVE_CODE(CPU),
> > @@ -931,7 +1174,44 @@ static void dump_ctx(int vcpu, guest_word_t mem_addr, 
> > guest_word_t stk_addr)
> >   #endif
> >       } else {
> >           if (!stk_addr) {
> > -            print_ctx(&ctx);
> > +#if defined(__i386__) || defined(__x86_64__)
> > +            if (xenctx.dominfo.hvm && ctxt_word_size == 8) {
> > +                if (guest_word_size == 4) {
> > +                    if ((((uint32_t)ctx.x64.user_regs.eip) != cpuctx.rip) ||
> > +                        (((uint32_t)ctx.x64.user_regs.esp) != cpuctx.rsp) ||
> > +                        (((uint32_t)ctx.x64.ctrlreg[3]) != cpuctx.cr3)) {
> > +                        fprintf(stderr, "Regs mismatch ip=%llx vs %llx sp=%llx vs 
> > %llx cr3=%llx vs %llx\n",
> > +                                (long long)((uint32_t)ctx.x64.user_regs.eip),
> > +                                (long long)cpuctx.rip,
> > +                                (long long)((uint32_t)ctx.x64.user_regs.esp),
> > +                                (long long)cpuctx.rsp,
> > +                                (long long)((uint32_t)ctx.x64.ctrlreg[3]),
> > +                                (long long)cpuctx.cr3);
> > +                        fprintf(stdout, "=============Regs mismatch 
> > start=============\n");
> > +                        print_ctx(&ctx);
> > +                        fprintf(stdout, "=============Regs mismatch 
> > end=============\n");
> > +                    }
> > +                } else {
> > +                    if ((ctx.x64.user_regs.eip != cpuctx.rip) ||
> > +                        (ctx.x64.user_regs.esp != cpuctx.rsp) ||
> > +                        (ctx.x64.ctrlreg[3] != cpuctx.cr3)) {
> > +                        fprintf(stderr, "Regs mismatch ip=%llx vs %llx sp=%llx vs 
> > %llx cr3=%llx vs %llx\n",
> > +                                (long long)ctx.x64.user_regs.eip,
> > +                                (long long)cpuctx.rip,
> > +                                (long long)ctx.x64.user_regs.esp,
> > +                                (long long)cpuctx.rsp,
> > +                                (long long)ctx.x64.ctrlreg[3],
> > +                                (long long)cpuctx.cr3);
> > +                        fprintf(stdout, "=============Regs mismatch 
> > start=============\n");
> > +                        print_ctx(&ctx);
> > +                        fprintf(stdout, "=============Regs mismatch 
> > end=============\n");
> > +                    }
> > +                }
> > +                print_cpuctx(&cpuctx);
> > +            }
> > +            else
> > +#endif
> > +                print_ctx(&ctx);
> >           }
> >   #ifndef NO_TRANSLATION
> >           if (!stk_addr) {

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