LXR linux/tools/testing/selftests/x86/test_syscall

   1// SPDX-License-Identifier: GPL-2.0-only
   2/*
   3 * 32-bit syscall ABI conformance test.
   4 *
   5 * Copyright (c) 2015 Denys Vlasenko
   6 */
   7/*
   8 * Can be built statically:
   9 * gcc -Os -Wall -static -m32 test_syscall_vdso.c thunks_32.S
  10 */
  11#undef _GNU_SOURCE
  12#define _GNU_SOURCE 1
  13#undef __USE_GNU
  14#define __USE_GNU 1
  15#include <unistd.h>
  16#include <stdlib.h>
  17#include <string.h>
  18#include <stdio.h>
  19#include <signal.h>
  20#include <sys/types.h>
  21#include <sys/select.h>
  22#include <sys/time.h>
  23#include <elf.h>
  24#include <sys/ptrace.h>
  25#include <sys/wait.h>
  26
  27#if !defined(__i386__)
  28int main(int argc, char **argv, char **envp)
  29{
  30        printf("[SKIP]\tNot a 32-bit x86 userspace\n");
  31        return 0;
  32}
  33#else
  34
  35long syscall_addr;
  36long get_syscall(char **envp)
  37{
  38        Elf32_auxv_t *auxv;
  39        while (*envp++ != NULL)
  40                continue;
  41        for (auxv = (void *)envp; auxv->a_type != AT_NULL; auxv++)
  42                if (auxv->a_type == AT_SYSINFO)
  43                        return auxv->a_un.a_val;
  44        printf("[WARN]\tAT_SYSINFO not supplied\n");
  45        return 0;
  46}
  47
  48asm (
  49        "       .pushsection .text\n"
  50        "       .global int80\n"
  51        "int80:\n"
  52        "       int     $0x80\n"
  53        "       ret\n"
  54        "       .popsection\n"
  55);
  56extern char int80;
  57
  58struct regs64 {
  59        uint64_t rax, rbx, rcx, rdx;
  60        uint64_t rsi, rdi, rbp, rsp;
  61        uint64_t r8,  r9,  r10, r11;
  62        uint64_t r12, r13, r14, r15;
  63};
  64struct regs64 regs64;
  65int kernel_is_64bit;
  66
  67asm (
  68        "       .pushsection .text\n"
  69        "       .code64\n"
  70        "get_regs64:\n"
  71        "       push    %rax\n"
  72        "       mov     $regs64, %eax\n"
  73        "       pop     0*8(%rax)\n"
  74        "       movq    %rbx, 1*8(%rax)\n"
  75        "       movq    %rcx, 2*8(%rax)\n"
  76        "       movq    %rdx, 3*8(%rax)\n"
  77        "       movq    %rsi, 4*8(%rax)\n"
  78        "       movq    %rdi, 5*8(%rax)\n"
  79        "       movq    %rbp, 6*8(%rax)\n"
  80        "       movq    %rsp, 7*8(%rax)\n"
  81        "       movq    %r8,  8*8(%rax)\n"
  82        "       movq    %r9,  9*8(%rax)\n"
  83        "       movq    %r10, 10*8(%rax)\n"
  84        "       movq    %r11, 11*8(%rax)\n"
  85        "       movq    %r12, 12*8(%rax)\n"
  86        "       movq    %r13, 13*8(%rax)\n"
  87        "       movq    %r14, 14*8(%rax)\n"
  88        "       movq    %r15, 15*8(%rax)\n"
  89        "       ret\n"
  90        "poison_regs64:\n"
  91        "       movq    $0x7f7f7f7f, %r8\n"
  92        "       shl     $32, %r8\n"
  93        "       orq     $0x7f7f7f7f, %r8\n"
  94        "       movq    %r8, %r9\n"
  95        "       incq    %r9\n"
  96        "       movq    %r9, %r10\n"
  97        "       incq    %r10\n"
  98        "       movq    %r10, %r11\n"
  99        "       incq    %r11\n"
 100        "       movq    %r11, %r12\n"
 101        "       incq    %r12\n"
 102        "       movq    %r12, %r13\n"
 103        "       incq    %r13\n"
 104        "       movq    %r13, %r14\n"
 105        "       incq    %r14\n"
 106        "       movq    %r14, %r15\n"
 107        "       incq    %r15\n"
 108        "       ret\n"
 109        "       .code32\n"
 110        "       .popsection\n"
 111);
 112extern void get_regs64(void);
 113extern void poison_regs64(void);
 114extern unsigned long call64_from_32(void (*function)(void));
 115void print_regs64(void)
 116{
 117        if (!kernel_is_64bit)
 118                return;
 119        printf("ax:%016llx bx:%016llx cx:%016llx dx:%016llx\n", regs64.rax,  regs64.rbx,  regs64.rcx,  regs64.rdx);
 120        printf("si:%016llx di:%016llx bp:%016llx sp:%016llx\n", regs64.rsi,  regs64.rdi,  regs64.rbp,  regs64.rsp);
 121        printf(" 8:%016llx  9:%016llx 10:%016llx 11:%016llx\n", regs64.r8 ,  regs64.r9 ,  regs64.r10,  regs64.r11);
 122        printf("12:%016llx 13:%016llx 14:%016llx 15:%016llx\n", regs64.r12,  regs64.r13,  regs64.r14,  regs64.r15);
 123}
 124
 125int check_regs64(void)
 126{
 127        int err = 0;
 128        int num = 8;
 129        uint64_t *r64 = &regs64.r8;
 130        uint64_t expected = 0x7f7f7f7f7f7f7f7fULL;
 131
 132        if (!kernel_is_64bit)
 133                return 0;
 134
 135        do {
 136                if (*r64 == expected++)
 137                        continue; /* register did not change */
 138                if (syscall_addr != (long)&int80) {
 139                        /*
 140                         * Non-INT80 syscall entrypoints are allowed to clobber R8+ regs:
 141                         * either clear them to 0, or for R11, load EFLAGS.
 142                         */
 143                        if (*r64 == 0)
 144                                continue;
 145                        if (num == 11) {
 146                                printf("[NOTE]\tR11 has changed:%016llx - assuming clobbered by SYSRET insn\n", *r64);
 147                                continue;
 148                        }
 149                } else {
 150                        /*
 151                         * INT80 syscall entrypoint can be used by
 152                         * 64-bit programs too, unlike SYSCALL/SYSENTER.
 153                         * Therefore it must preserve R12+
 154                         * (they are callee-saved registers in 64-bit C ABI).
 155                         *
 156                         * Starting in Linux 4.17 (and any kernel that
 157                         * backports the change), R8..11 are preserved.
 158                         * Historically (and probably unintentionally), they
 159                         * were clobbered or zeroed.
 160                         */
 161                }
 162                printf("[FAIL]\tR%d has changed:%016llx\n", num, *r64);
 163                err++;
 164        } while (r64++, ++num < 16);
 165
 166        if (!err)
 167                printf("[OK]\tR8..R15 did not leak kernel data\n");
 168        return err;
 169}
 170
 171int nfds;
 172fd_set rfds;
 173fd_set wfds;
 174fd_set efds;
 175struct timespec timeout;
 176sigset_t sigmask;
 177struct {
 178        sigset_t *sp;
 179        int sz;
 180} sigmask_desc;
 181
 182void prep_args()
 183{
 184        nfds = 42;
 185        FD_ZERO(&rfds);
 186        FD_ZERO(&wfds);
 187        FD_ZERO(&efds);
 188        FD_SET(0, &rfds);
 189        FD_SET(1, &wfds);
 190        FD_SET(2, &efds);
 191        timeout.tv_sec = 0;
 192        timeout.tv_nsec = 123;
 193        sigemptyset(&sigmask);
 194        sigaddset(&sigmask, SIGINT);
 195        sigaddset(&sigmask, SIGUSR2);
 196        sigaddset(&sigmask, SIGRTMAX);
 197        sigmask_desc.sp = &sigmask;
 198        sigmask_desc.sz = 8; /* bytes */
 199}
 200
 201static void print_flags(const char *name, unsigned long r)
 202{
 203        static const char *bitarray[] = {
 204        "\n" ,"c\n" ,/* Carry Flag */
 205        "0 " ,"1 "  ,/* Bit 1 - always on */
 206        ""   ,"p "  ,/* Parity Flag */
 207        "0 " ,"3? " ,
 208        ""   ,"a "  ,/* Auxiliary carry Flag */
 209        "0 " ,"5? " ,
 210        ""   ,"z "  ,/* Zero Flag */
 211        ""   ,"s "  ,/* Sign Flag */
 212        ""   ,"t "  ,/* Trap Flag */
 213        ""   ,"i "  ,/* Interrupt Flag */
 214        ""   ,"d "  ,/* Direction Flag */
 215        ""   ,"o "  ,/* Overflow Flag */
 216        "0 " ,"1 "  ,/* I/O Privilege Level (2 bits) */
 217        "0"  ,"1"   ,/* I/O Privilege Level (2 bits) */
 218        ""   ,"n "  ,/* Nested Task */
 219        "0 " ,"15? ",
 220        ""   ,"r "  ,/* Resume Flag */
 221        ""   ,"v "  ,/* Virtual Mode */
 222        ""   ,"ac " ,/* Alignment Check/Access Control */
 223        ""   ,"vif ",/* Virtual Interrupt Flag */
 224        ""   ,"vip ",/* Virtual Interrupt Pending */
 225        ""   ,"id " ,/* CPUID detection */
 226        NULL
 227        };
 228        const char **bitstr;
 229        int bit;
 230
 231        printf("%s=%016lx ", name, r);
 232        bitstr = bitarray + 42;
 233        bit = 21;
 234        if ((r >> 22) != 0)
 235                printf("(extra bits are set) ");
 236        do {
 237                if (bitstr[(r >> bit) & 1][0])
 238                        fputs(bitstr[(r >> bit) & 1], stdout);
 239                bitstr -= 2;
 240                bit--;
 241        } while (bit >= 0);
 242}
 243
 244int run_syscall(void)
 245{
 246        long flags, bad_arg;
 247
 248        prep_args();
 249
 250        if (kernel_is_64bit)
 251                call64_from_32(poison_regs64);
 252        /*print_regs64();*/
 253
 254        asm("\n"
 255        /* Try 6-arg syscall: pselect. It should return quickly */
 256        "       push    %%ebp\n"
 257        "       mov     $308, %%eax\n"     /* PSELECT */
 258        "       mov     nfds, %%ebx\n"     /* ebx  arg1 */
 259        "       mov     $rfds, %%ecx\n"    /* ecx  arg2 */
 260        "       mov     $wfds, %%edx\n"    /* edx  arg3 */
 261        "       mov     $efds, %%esi\n"    /* esi  arg4 */
 262        "       mov     $timeout, %%edi\n" /* edi  arg5 */
 263        "       mov     $sigmask_desc, %%ebp\n" /* %ebp arg6 */
 264        "       push    $0x200ed7\n"      /* set almost all flags */
 265        "       popf\n"         /* except TF, IOPL, NT, RF, VM, AC, VIF, VIP */
 266        "       call    *syscall_addr\n"
 267        /* Check that registers are not clobbered */
 268        "       pushf\n"
 269        "       pop     %%eax\n"
 270        "       cld\n"
 271        "       cmp     nfds, %%ebx\n"     /* ebx  arg1 */
 272        "       mov     $1, %%ebx\n"
 273        "       jne     1f\n"
 274        "       cmp     $rfds, %%ecx\n"    /* ecx  arg2 */
 275        "       mov     $2, %%ebx\n"
 276        "       jne     1f\n"
 277        "       cmp     $wfds, %%edx\n"    /* edx  arg3 */
 278        "       mov     $3, %%ebx\n"
 279        "       jne     1f\n"
 280        "       cmp     $efds, %%esi\n"    /* esi  arg4 */
 281        "       mov     $4, %%ebx\n"
 282        "       jne     1f\n"
 283        "       cmp     $timeout, %%edi\n" /* edi  arg5 */
 284        "       mov     $5, %%ebx\n"
 285        "       jne     1f\n"
 286        "       cmpl    $sigmask_desc, %%ebp\n" /* %ebp arg6 */
 287        "       mov     $6, %%ebx\n"
 288        "       jne     1f\n"
 289        "       mov     $0, %%ebx\n"
 290        "1:\n"
 291        "       pop     %%ebp\n"
 292        : "=a" (flags), "=b" (bad_arg)
 293        :
 294        : "cx", "dx", "si", "di"
 295        );
 296
 297        if (kernel_is_64bit) {
 298                memset(&regs64, 0x77, sizeof(regs64));
 299                call64_from_32(get_regs64);
 300                /*print_regs64();*/
 301        }
 302
 303        /*
 304         * On paravirt kernels, flags are not preserved across syscalls.
 305         * Thus, we do not consider it a bug if some are changed.
 306         * We just show ones which do.
 307         */
 308        if ((0x200ed7 ^ flags) != 0) {
 309                print_flags("[WARN]\tFlags before", 0x200ed7);
 310                print_flags("[WARN]\tFlags  after", flags);
 311                print_flags("[WARN]\tFlags change", (0x200ed7 ^ flags));
 312        }
 313
 314        if (bad_arg) {
 315                printf("[FAIL]\targ#%ld clobbered\n", bad_arg);
 316                return 1;
 317        }
 318        printf("[OK]\tArguments are preserved across syscall\n");
 319
 320        return check_regs64();
 321}
 322
 323int run_syscall_twice()
 324{
 325        int exitcode = 0;
 326        long sv;
 327
 328        if (syscall_addr) {
 329                printf("[RUN]\tExecuting 6-argument 32-bit syscall via VDSO\n");
 330                exitcode = run_syscall();
 331        }
 332        sv = syscall_addr;
 333        syscall_addr = (long)&int80;
 334        printf("[RUN]\tExecuting 6-argument 32-bit syscall via INT 80\n");
 335        exitcode += run_syscall();
 336        syscall_addr = sv;
 337        return exitcode;
 338}
 339
 340void ptrace_me()
 341{
 342        pid_t pid;
 343
 344        fflush(NULL);
 345        pid = fork();
 346        if (pid < 0)
 347                exit(1);
 348        if (pid == 0) {
 349                /* child */
 350                if (ptrace(PTRACE_TRACEME, 0L, 0L, 0L) != 0)
 351                        exit(0);
 352                raise(SIGSTOP);
 353                return;
 354        }
 355        /* parent */
 356        printf("[RUN]\tRunning tests under ptrace\n");
 357        while (1) {
 358                int status;
 359                pid = waitpid(-1, &status, __WALL);
 360                if (WIFEXITED(status))
 361                        exit(WEXITSTATUS(status));
 362                if (WIFSIGNALED(status))
 363                        exit(WTERMSIG(status));
 364                if (pid <= 0 || !WIFSTOPPED(status)) /* paranoia */
 365                        exit(255);
 366                /*
 367                 * Note: we do not inject sig = WSTOPSIG(status).
 368                 * We probably should, but careful: do not inject SIGTRAP
 369                 * generated by syscall entry/exit stops.
 370                 * That kills the child.
 371                 */
 372                ptrace(PTRACE_SYSCALL, pid, 0L, 0L /*sig*/);
 373        }
 374}
 375
 376int main(int argc, char **argv, char **envp)
 377{
 378        int exitcode = 0;
 379        int cs;
 380
 381        asm("\n"
 382        "       movl    %%cs, %%eax\n"
 383        : "=a" (cs)
 384        );
 385        kernel_is_64bit = (cs == 0x23);
 386        if (!kernel_is_64bit)
 387                printf("[NOTE]\tNot a 64-bit kernel, won't test R8..R15 leaks\n");
 388
 389        /* This only works for non-static builds:
 390         * syscall_addr = dlsym(dlopen("linux-gate.so.1", RTLD_NOW), "__kernel_vsyscall");
 391         */
 392        syscall_addr = get_syscall(envp);
 393
 394        exitcode += run_syscall_twice();
 395        ptrace_me();
 396        exitcode += run_syscall_twice();
 397
 398        return exitcode;
 399}
 400#endif
 401