1ae1fae34SPekka Enberg #include "kvm/kvm.h" 2ae1fae34SPekka Enberg 36c7d8514SPekka Enberg #include <linux/kvm.h> 4f5ab5f67SPekka Enberg 5f5ab5f67SPekka Enberg #include <asm/bootparam.h> 6f5ab5f67SPekka Enberg 7ae1fae34SPekka Enberg #include <sys/ioctl.h> 81f9cff23SPekka Enberg #include <inttypes.h> 91f9cff23SPekka Enberg #include <sys/mman.h> 102da26a59SPekka Enberg #include <stdbool.h> 1106e41eeaSPekka Enberg #include <limits.h> 12f5ab5f67SPekka Enberg #include <stdarg.h> 13b8f6afcdSPekka Enberg #include <stdlib.h> 14f5ab5f67SPekka Enberg #include <string.h> 150d1f17ecSPekka Enberg #include <unistd.h> 161f9cff23SPekka Enberg #include <stdio.h> 17b8f6afcdSPekka Enberg #include <fcntl.h> 18b8f6afcdSPekka Enberg 19ad054a21SCyrill Gorcunov #include "util.h" 20ad054a21SCyrill Gorcunov 211f9cff23SPekka Enberg /* 221f9cff23SPekka Enberg * Compatibility code. Remove this when we move to tools/kvm. 231f9cff23SPekka Enberg */ 241f9cff23SPekka Enberg #ifndef KVM_EXIT_INTERNAL_ERROR 251f9cff23SPekka Enberg # define KVM_EXIT_INTERNAL_ERROR 17 261f9cff23SPekka Enberg #endif 271f9cff23SPekka Enberg 28ae1fae34SPekka Enberg #define DEFINE_KVM_EXIT_REASON(reason) [reason] = #reason 290d1f17ecSPekka Enberg 30ae1fae34SPekka Enberg const char *kvm_exit_reasons[] = { 31ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_UNKNOWN), 32ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_EXCEPTION), 33ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_IO), 34ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_HYPERCALL), 35ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_DEBUG), 36ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_HLT), 37ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_MMIO), 38ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_IRQ_WINDOW_OPEN), 39ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_SHUTDOWN), 40ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_FAIL_ENTRY), 41ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_INTR), 42ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_SET_TPR), 43ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_TPR_ACCESS), 44ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_S390_SIEIC), 45ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_S390_RESET), 46ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_DCR), 47ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_NMI), 48ae1fae34SPekka Enberg DEFINE_KVM_EXIT_REASON(KVM_EXIT_INTERNAL_ERROR), 499b1fb1c3SPekka Enberg }; 509b1fb1c3SPekka Enberg 51ae1fae34SPekka Enberg static inline void *guest_addr_to_host(struct kvm *self, unsigned long offset) 52ae1fae34SPekka Enberg { 53ae1fae34SPekka Enberg return self->ram_start + offset; 54ae1fae34SPekka Enberg } 55ae1fae34SPekka Enberg 56ae1fae34SPekka Enberg static bool kvm__supports_extension(struct kvm *self, unsigned int extension) 57b8f6afcdSPekka Enberg { 5828fa19c0SPekka Enberg int ret; 59b8f6afcdSPekka Enberg 6073ac60e6SPekka Enberg ret = ioctl(self->sys_fd, KVM_CHECK_EXTENSION, extension); 614076b041SPekka Enberg if (ret < 0) 624076b041SPekka Enberg return false; 634076b041SPekka Enberg 644076b041SPekka Enberg return ret; 654076b041SPekka Enberg } 664076b041SPekka Enberg 674076b041SPekka Enberg static struct kvm *kvm__new(void) 684076b041SPekka Enberg { 694076b041SPekka Enberg struct kvm *self = calloc(1, sizeof *self); 704076b041SPekka Enberg 714076b041SPekka Enberg if (!self) 724076b041SPekka Enberg die("out of memory"); 734076b041SPekka Enberg 744076b041SPekka Enberg return self; 754076b041SPekka Enberg } 764076b041SPekka Enberg 77ae1fae34SPekka Enberg struct kvm *kvm__init(void) 784076b041SPekka Enberg { 792b0e3342SPekka Enberg struct kvm_userspace_memory_region mem; 804076b041SPekka Enberg struct kvm *self; 810d1f17ecSPekka Enberg long page_size; 821f9cff23SPekka Enberg int mmap_size; 834076b041SPekka Enberg int ret; 844076b041SPekka Enberg 854076b041SPekka Enberg self = kvm__new(); 864076b041SPekka Enberg 8773ac60e6SPekka Enberg self->sys_fd = open("/dev/kvm", O_RDWR); 8873ac60e6SPekka Enberg if (self->sys_fd < 0) 89f5ab5f67SPekka Enberg die_perror("open"); 90b8f6afcdSPekka Enberg 9173ac60e6SPekka Enberg ret = ioctl(self->sys_fd, KVM_GET_API_VERSION, 0); 926c7d8514SPekka Enberg if (ret != KVM_API_VERSION) 93f5ab5f67SPekka Enberg die_perror("KVM_API_VERSION ioctl"); 946c7d8514SPekka Enberg 9573ac60e6SPekka Enberg self->vm_fd = ioctl(self->sys_fd, KVM_CREATE_VM, 0); 9673ac60e6SPekka Enberg if (self->vm_fd < 0) 97f5ab5f67SPekka Enberg die_perror("KVM_CREATE_VM ioctl"); 9828fa19c0SPekka Enberg 994076b041SPekka Enberg if (!kvm__supports_extension(self, KVM_CAP_USER_MEMORY)) 100f5ab5f67SPekka Enberg die("KVM_CAP_USER_MEMORY is not supported"); 1012da26a59SPekka Enberg 1020d1f17ecSPekka Enberg self->ram_size = 64UL * 1024UL * 1024UL; 1030d1f17ecSPekka Enberg 1040d1f17ecSPekka Enberg page_size = sysconf(_SC_PAGESIZE); 1050d1f17ecSPekka Enberg if (posix_memalign(&self->ram_start, page_size, self->ram_size) != 0) 1060d1f17ecSPekka Enberg die("out of memory"); 1070d1f17ecSPekka Enberg 1082b0e3342SPekka Enberg mem = (struct kvm_userspace_memory_region) { 1092b0e3342SPekka Enberg .slot = 0, 1102b0e3342SPekka Enberg .guest_phys_addr = 0x0UL, 1110d1f17ecSPekka Enberg .memory_size = self->ram_size, 1120d1f17ecSPekka Enberg .userspace_addr = (unsigned long) self->ram_start, 1132b0e3342SPekka Enberg }; 1142b0e3342SPekka Enberg 11573ac60e6SPekka Enberg ret = ioctl(self->vm_fd, KVM_SET_USER_MEMORY_REGION, &mem, 1); 1162b0e3342SPekka Enberg if (ret < 0) 117f5ab5f67SPekka Enberg die_perror("KVM_SET_USER_MEMORY_REGION ioctl"); 1182b0e3342SPekka Enberg 119895c2fefSPekka Enberg if (!kvm__supports_extension(self, KVM_CAP_SET_TSS_ADDR)) 120f5ab5f67SPekka Enberg die("KVM_CAP_SET_TSS_ADDR is not supported"); 121895c2fefSPekka Enberg 12273ac60e6SPekka Enberg ret = ioctl(self->vm_fd, KVM_SET_TSS_ADDR, 0xfffbd000); 123895c2fefSPekka Enberg if (ret < 0) 124f5ab5f67SPekka Enberg die_perror("KVM_SET_TSS_ADDR ioctl"); 125895c2fefSPekka Enberg 12673ac60e6SPekka Enberg self->vcpu_fd = ioctl(self->vm_fd, KVM_CREATE_VCPU, 0); 1272b0e3342SPekka Enberg if (self->vcpu_fd < 0) 128f5ab5f67SPekka Enberg die_perror("KVM_CREATE_VCPU ioctl"); 1292b0e3342SPekka Enberg 1301f9cff23SPekka Enberg mmap_size = ioctl(self->sys_fd, KVM_GET_VCPU_MMAP_SIZE, 0); 1311f9cff23SPekka Enberg if (mmap_size < 0) 132f5ab5f67SPekka Enberg die_perror("KVM_GET_VCPU_MMAP_SIZE ioctl"); 1331f9cff23SPekka Enberg 1341f9cff23SPekka Enberg self->kvm_run = mmap(NULL, mmap_size, PROT_READ|PROT_WRITE, MAP_SHARED, self->vcpu_fd, 0); 1351f9cff23SPekka Enberg if (self->kvm_run == MAP_FAILED) 1361f9cff23SPekka Enberg die("unable to mmap vcpu fd"); 1371f9cff23SPekka Enberg 1384076b041SPekka Enberg return self; 1394076b041SPekka Enberg } 1404076b041SPekka Enberg 141ae1fae34SPekka Enberg void kvm__enable_singlestep(struct kvm *self) 142aee6632eSPekka Enberg { 143aee6632eSPekka Enberg struct kvm_guest_debug debug = { 144aee6632eSPekka Enberg .control = KVM_GUESTDBG_ENABLE | KVM_GUESTDBG_SINGLESTEP, 145aee6632eSPekka Enberg }; 146aee6632eSPekka Enberg 147aee6632eSPekka Enberg if (ioctl(self->vcpu_fd, KVM_SET_GUEST_DEBUG, &debug) < 0) 148b625d4b6SCyrill Gorcunov warning("KVM_SET_GUEST_DEBUG failed"); 149aee6632eSPekka Enberg } 150aee6632eSPekka Enberg 151009b0758SPekka Enberg static inline uint32_t segment_to_flat(uint16_t selector, uint16_t offset) 152009b0758SPekka Enberg { 153009b0758SPekka Enberg return ((uint32_t)selector << 4) + (uint32_t) offset; 154009b0758SPekka Enberg } 155009b0758SPekka Enberg 1564311c21dSPekka Enberg /* 1574311c21dSPekka Enberg * HACK ALERT! KVM seems to be unable to run 16-bit real mode if 'cs' selector 1584311c21dSPekka Enberg * does not equal to 0xf000 at the beginning. To work around that, we need a 1594311c21dSPekka Enberg * 'reset vector' at 0xf000:0xfff0 that has an hard-coded jump to 0x000:0x7c000 1604311c21dSPekka Enberg * where we also load the Linux kernel boot sector and setup code. 1614311c21dSPekka Enberg */ 1624311c21dSPekka Enberg 1635d67eaf6SPekka Enberg #define RESET_VECTOR_CS 0xf000 1645d67eaf6SPekka Enberg #define RESET_VECTOR_IP 0xfff0 1652a601aafSPekka Enberg 1665d67eaf6SPekka Enberg static unsigned char reset_vector_code[] = { 0xea, 0x00, 0x7c, 0x00, 0x00 }; 1672a601aafSPekka Enberg 1685d67eaf6SPekka Enberg static void load_reset_vector(struct kvm *self) 1695d67eaf6SPekka Enberg { 1705d67eaf6SPekka Enberg void *p; 1715d67eaf6SPekka Enberg 1725d67eaf6SPekka Enberg p = guest_addr_to_host(self, segment_to_flat(RESET_VECTOR_CS, RESET_VECTOR_IP)); 1735d67eaf6SPekka Enberg 1745d67eaf6SPekka Enberg memcpy(p, reset_vector_code, ARRAY_SIZE(reset_vector_code)); 1755d67eaf6SPekka Enberg } 1765d67eaf6SPekka Enberg 1775d67eaf6SPekka Enberg #define BOOT_LOADER_CS 0x0000 1785d67eaf6SPekka Enberg #define BOOT_LOADER_IP 0x7c00 179009b0758SPekka Enberg 1807fb218bdSPekka Enberg static int load_flat_binary(struct kvm *kvm, int fd) 181009b0758SPekka Enberg { 182009b0758SPekka Enberg void *p; 183009b0758SPekka Enberg int nr; 184009b0758SPekka Enberg 185009b0758SPekka Enberg if (lseek(fd, 0, SEEK_SET) < 0) 186009b0758SPekka Enberg die_perror("lseek"); 187009b0758SPekka Enberg 1885d67eaf6SPekka Enberg p = guest_addr_to_host(kvm, segment_to_flat(BOOT_LOADER_CS, BOOT_LOADER_IP)); 189009b0758SPekka Enberg 190009b0758SPekka Enberg while ((nr = read(fd, p, 65536)) > 0) 191009b0758SPekka Enberg p += nr; 192009b0758SPekka Enberg 1937fb218bdSPekka Enberg return true; 194009b0758SPekka Enberg } 195009b0758SPekka Enberg 1967fb218bdSPekka Enberg /* 1977fb218bdSPekka Enberg * The protected mode kernel part of a modern bzImage is loaded at 1 MB by 1987fb218bdSPekka Enberg * default. 1997fb218bdSPekka Enberg */ 2007fb218bdSPekka Enberg #define BZ_KERNEL_START 0x100000UL 201ae1fae34SPekka Enberg 202ae1fae34SPekka Enberg static const char *BZIMAGE_MAGIC = "HdrS"; 203ae1fae34SPekka Enberg 20410943d14SPekka Enberg #define BZ_DEFAULT_SETUP_SECTS 4 20510943d14SPekka Enberg 2067fb218bdSPekka Enberg static bool load_bzimage(struct kvm *kvm, int fd) 207ae1fae34SPekka Enberg { 20810943d14SPekka Enberg unsigned long setup_sects; 209ae1fae34SPekka Enberg struct boot_params boot; 2107fb218bdSPekka Enberg ssize_t setup_size; 211ae1fae34SPekka Enberg void *p; 212ae1fae34SPekka Enberg int nr; 213ae1fae34SPekka Enberg 2145d67eaf6SPekka Enberg /* 2155d67eaf6SPekka Enberg * See Documentation/x86/boot.txt for details no bzImage on-disk and 2165d67eaf6SPekka Enberg * memory layout. 2175d67eaf6SPekka Enberg */ 2185d67eaf6SPekka Enberg 219009b0758SPekka Enberg if (lseek(fd, 0, SEEK_SET) < 0) 220009b0758SPekka Enberg die_perror("lseek"); 221009b0758SPekka Enberg 222ae1fae34SPekka Enberg read(fd, &boot, sizeof(boot)); 223ae1fae34SPekka Enberg 224ae1fae34SPekka Enberg if (memcmp(&boot.hdr.header, BZIMAGE_MAGIC, strlen(BZIMAGE_MAGIC)) != 0) 2257fb218bdSPekka Enberg return false; 226ae1fae34SPekka Enberg 227e93ab78aSPekka Enberg if (lseek(fd, 0, SEEK_SET) < 0) 228e93ab78aSPekka Enberg die_perror("lseek"); 229e93ab78aSPekka Enberg 23010943d14SPekka Enberg setup_sects = boot.hdr.setup_sects + 1; 23110943d14SPekka Enberg if (setup_sects == 0) 23210943d14SPekka Enberg setup_sects = BZ_DEFAULT_SETUP_SECTS; 23310943d14SPekka Enberg 234*54d4a626SPekka Enberg setup_size = setup_sects << 9; 2355d67eaf6SPekka Enberg p = guest_addr_to_host(kvm, segment_to_flat(BOOT_LOADER_CS, BOOT_LOADER_IP)); 236ae1fae34SPekka Enberg 2377fb218bdSPekka Enberg if (read(fd, p, setup_size) != setup_size) 2387fb218bdSPekka Enberg die_perror("read"); 2397fb218bdSPekka Enberg 2407fb218bdSPekka Enberg p = guest_addr_to_host(kvm, BZ_KERNEL_START); 241ae1fae34SPekka Enberg 242ae1fae34SPekka Enberg while ((nr = read(fd, p, 65536)) > 0) 243ae1fae34SPekka Enberg p += nr; 244ae1fae34SPekka Enberg 2457fb218bdSPekka Enberg return true; 246ae1fae34SPekka Enberg } 247ae1fae34SPekka Enberg 2487fb218bdSPekka Enberg bool kvm__load_kernel(struct kvm *kvm, const char *kernel_filename) 249ae1fae34SPekka Enberg { 2507fb218bdSPekka Enberg bool ret; 251ae1fae34SPekka Enberg int fd; 252ae1fae34SPekka Enberg 253ae1fae34SPekka Enberg fd = open(kernel_filename, O_RDONLY); 254ae1fae34SPekka Enberg if (fd < 0) 255ae1fae34SPekka Enberg die("unable to open kernel"); 256ae1fae34SPekka Enberg 257ae1fae34SPekka Enberg ret = load_bzimage(kvm, fd); 258009b0758SPekka Enberg if (ret) 259009b0758SPekka Enberg goto found_kernel; 260ae1fae34SPekka Enberg 261009b0758SPekka Enberg ret = load_flat_binary(kvm, fd); 262009b0758SPekka Enberg if (ret) 263009b0758SPekka Enberg goto found_kernel; 264009b0758SPekka Enberg 265009b0758SPekka Enberg die("%s is not a valid bzImage or flat binary", kernel_filename); 266009b0758SPekka Enberg 267009b0758SPekka Enberg found_kernel: 268ae1fae34SPekka Enberg return ret; 269ae1fae34SPekka Enberg } 270ae1fae34SPekka Enberg 27106e41eeaSPekka Enberg static inline uint64_t ip_flat_to_real(struct kvm *self, uint64_t ip) 27206e41eeaSPekka Enberg { 27306e41eeaSPekka Enberg uint64_t cs = self->sregs.cs.selector; 27406e41eeaSPekka Enberg 27506e41eeaSPekka Enberg return ip - (cs << 4); 27606e41eeaSPekka Enberg } 27706e41eeaSPekka Enberg 27806e41eeaSPekka Enberg static inline uint64_t ip_real_to_flat(struct kvm *self, uint64_t ip) 27906e41eeaSPekka Enberg { 28006e41eeaSPekka Enberg uint64_t cs = self->sregs.cs.selector; 28106e41eeaSPekka Enberg 28206e41eeaSPekka Enberg return ip + (cs << 4); 28306e41eeaSPekka Enberg } 28406e41eeaSPekka Enberg 2857fb218bdSPekka Enberg void kvm__reset_vcpu(struct kvm *self) 286ae1fae34SPekka Enberg { 2875d67eaf6SPekka Enberg load_reset_vector(self); 2885d67eaf6SPekka Enberg 28953602077SPekka Enberg self->sregs = (struct kvm_sregs) { 29053602077SPekka Enberg .cr0 = 0x60000010ULL, 29153602077SPekka Enberg .cs = (struct kvm_segment) { 2925d67eaf6SPekka Enberg .selector = RESET_VECTOR_CS, 29353602077SPekka Enberg .base = 0xffff0000UL, 29453602077SPekka Enberg .limit = 0xffffU, 29553602077SPekka Enberg .type = 0x0bU, 29653602077SPekka Enberg .present = 1, 29753602077SPekka Enberg .dpl = 0x03, 29853602077SPekka Enberg .s = 1, 29953602077SPekka Enberg }, 30053602077SPekka Enberg .ss = (struct kvm_segment) { 30153602077SPekka Enberg .limit = 0xffffU, 30253602077SPekka Enberg .type = 0x03U, 30353602077SPekka Enberg .present = 1, 30453602077SPekka Enberg .dpl = 0x03, 30553602077SPekka Enberg .s = 1, 30653602077SPekka Enberg }, 30753602077SPekka Enberg .ds = (struct kvm_segment) { 30853602077SPekka Enberg .limit = 0xffffU, 30953602077SPekka Enberg .type = 0x03U, 31053602077SPekka Enberg .present = 1, 31153602077SPekka Enberg .dpl = 0x03, 31253602077SPekka Enberg .s = 1, 31353602077SPekka Enberg }, 31453602077SPekka Enberg .es = (struct kvm_segment) { 31553602077SPekka Enberg .limit = 0xffffU, 31653602077SPekka Enberg .type = 0x03U, 31753602077SPekka Enberg .present = 1, 31853602077SPekka Enberg .dpl = 0x03, 31953602077SPekka Enberg .s = 1, 32053602077SPekka Enberg }, 32153602077SPekka Enberg .fs = (struct kvm_segment) { 32253602077SPekka Enberg .limit = 0xffffU, 32353602077SPekka Enberg .type = 0x03U, 32453602077SPekka Enberg .present = 1, 32553602077SPekka Enberg .dpl = 0x03, 32653602077SPekka Enberg .s = 1, 32753602077SPekka Enberg }, 32853602077SPekka Enberg .gs = (struct kvm_segment) { 32953602077SPekka Enberg .limit = 0xffffU, 33053602077SPekka Enberg .type = 0x03U, 33153602077SPekka Enberg .present = 1, 33253602077SPekka Enberg .dpl = 0x03, 33353602077SPekka Enberg .s = 1, 33453602077SPekka Enberg }, 33553602077SPekka Enberg .tr = (struct kvm_segment) { 33653602077SPekka Enberg .limit = 0xffffU, 33753602077SPekka Enberg .present = 1, 33853602077SPekka Enberg .type = 0x03U, 33953602077SPekka Enberg }, 34053602077SPekka Enberg .ldt = (struct kvm_segment) { 34153602077SPekka Enberg .limit = 0xffffU, 34253602077SPekka Enberg .present = 1, 3437085d935SPekka Enberg .type = 0x02U, 34453602077SPekka Enberg }, 34553602077SPekka Enberg .gdt = (struct kvm_dtable) { 34653602077SPekka Enberg .limit = 0xffffU, 34753602077SPekka Enberg }, 34853602077SPekka Enberg .idt = (struct kvm_dtable) { 34953602077SPekka Enberg .limit = 0xffffU, 35053602077SPekka Enberg }, 35153602077SPekka Enberg }; 35253602077SPekka Enberg 35353602077SPekka Enberg if (ioctl(self->vcpu_fd, KVM_SET_SREGS, &self->sregs) < 0) 35453602077SPekka Enberg die_perror("KVM_SET_SREGS failed"); 35506e41eeaSPekka Enberg 35606e41eeaSPekka Enberg self->regs = (struct kvm_regs) { 3575d67eaf6SPekka Enberg .rip = RESET_VECTOR_IP, 35806e41eeaSPekka Enberg /* We start the guest in 16-bit real mode */ 35906e41eeaSPekka Enberg .rflags = 0x0000000000000002ULL, 36006e41eeaSPekka Enberg }; 36106e41eeaSPekka Enberg 36206e41eeaSPekka Enberg if (self->regs.rip > USHRT_MAX) 36306e41eeaSPekka Enberg die("ip 0x%" PRIx64 " is too high for real mode", (uint64_t) self->regs.rip); 36406e41eeaSPekka Enberg 36506e41eeaSPekka Enberg if (ioctl(self->vcpu_fd, KVM_SET_REGS, &self->regs) < 0) 36606e41eeaSPekka Enberg die_perror("KVM_SET_REGS failed"); 36706e41eeaSPekka Enberg 368ae1fae34SPekka Enberg } 369ae1fae34SPekka Enberg 370ae1fae34SPekka Enberg void kvm__run(struct kvm *self) 371ae1fae34SPekka Enberg { 372ae1fae34SPekka Enberg if (ioctl(self->vcpu_fd, KVM_RUN, 0) < 0) 373ae1fae34SPekka Enberg die_perror("KVM_RUN failed"); 374ae1fae34SPekka Enberg } 375ae1fae34SPekka Enberg 376ae1fae34SPekka Enberg static void kvm__emulate_io_out(struct kvm *self, uint16_t port, void *data, int size, uint32_t count) 377ae1fae34SPekka Enberg { 378ae1fae34SPekka Enberg fprintf(stderr, "%s port=%x, size=%d, count=%" PRIu32 "\n", __func__, port, size, count); 379ae1fae34SPekka Enberg } 380ae1fae34SPekka Enberg 381ae1fae34SPekka Enberg static void kvm__emulate_io_in(struct kvm *self, uint16_t port, void *data, int size, uint32_t count) 382ae1fae34SPekka Enberg { 383ae1fae34SPekka Enberg fprintf(stderr, "%s port=%x, size=%d, count=%" PRIu32 "\n", __func__, port, size, count); 384ae1fae34SPekka Enberg } 385ae1fae34SPekka Enberg 386ae1fae34SPekka Enberg void kvm__emulate_io(struct kvm *self, uint16_t port, void *data, int direction, int size, uint32_t count) 387ae1fae34SPekka Enberg { 388ae1fae34SPekka Enberg if (direction == KVM_EXIT_IO_IN) 389ae1fae34SPekka Enberg kvm__emulate_io_in(self, port, data, size, count); 390ae1fae34SPekka Enberg else 391ae1fae34SPekka Enberg kvm__emulate_io_out(self, port, data, size, count); 392ae1fae34SPekka Enberg } 393ae1fae34SPekka Enberg 39453602077SPekka Enberg static void print_segment(const char *name, struct kvm_segment *seg) 39553602077SPekka Enberg { 396ce556636SPekka Enberg printf(" %s %04" PRIx16 " %016" PRIx64 " %08" PRIx32 " %02" PRIx8 " %x %x %x %x %x %x %x\n", 39753602077SPekka Enberg name, (uint16_t) seg->selector, (uint64_t) seg->base, (uint32_t) seg->limit, 398ce556636SPekka Enberg (uint8_t) seg->type, seg->present, seg->dpl, seg->db, seg->s, seg->l, seg->g, seg->avl); 39953602077SPekka Enberg } 40053602077SPekka Enberg 401ae1fae34SPekka Enberg void kvm__show_registers(struct kvm *self) 4027118d2caSPekka Enberg { 40353602077SPekka Enberg unsigned long cr0, cr2, cr3; 40453602077SPekka Enberg unsigned long cr4, cr8; 4057118d2caSPekka Enberg unsigned long rax, rbx, rcx; 4067118d2caSPekka Enberg unsigned long rdx, rsi, rdi; 4077118d2caSPekka Enberg unsigned long rbp, r8, r9; 4087118d2caSPekka Enberg unsigned long r10, r11, r12; 4097118d2caSPekka Enberg unsigned long r13, r14, r15; 4107118d2caSPekka Enberg unsigned long rip, rsp; 41153602077SPekka Enberg struct kvm_sregs sregs; 412a2fe6199SPekka Enberg unsigned long rflags; 4137118d2caSPekka Enberg struct kvm_regs regs; 414ce5e0ecbSPekka Enberg int i; 4157118d2caSPekka Enberg 4167118d2caSPekka Enberg if (ioctl(self->vcpu_fd, KVM_GET_REGS, ®s) < 0) 4177118d2caSPekka Enberg die("KVM_GET_REGS failed"); 4187118d2caSPekka Enberg 419a2fe6199SPekka Enberg rflags = regs.rflags; 420a2fe6199SPekka Enberg 4217118d2caSPekka Enberg rip = regs.rip; rsp = regs.rsp; 4227118d2caSPekka Enberg rax = regs.rax; rbx = regs.rbx; rcx = regs.rcx; 4237118d2caSPekka Enberg rdx = regs.rdx; rsi = regs.rsi; rdi = regs.rdi; 4247118d2caSPekka Enberg rbp = regs.rbp; r8 = regs.r8; r9 = regs.r9; 4257118d2caSPekka Enberg r10 = regs.r10; r11 = regs.r11; r12 = regs.r12; 4267118d2caSPekka Enberg r13 = regs.r13; r14 = regs.r14; r15 = regs.r15; 4277118d2caSPekka Enberg 4287118d2caSPekka Enberg printf("Registers:\n"); 4292177ec43SPekka Enberg printf(" rip: %016lx rsp: %016lx flags: %016lx\n", rip, rsp, rflags); 4307118d2caSPekka Enberg printf(" rax: %016lx ebx: %016lx ecx: %016lx\n", rax, rbx, rcx); 4317118d2caSPekka Enberg printf(" rdx: %016lx rsi: %016lx rdi: %016lx\n", rdx, rsi, rdi); 4327118d2caSPekka Enberg printf(" rbp: %016lx r8: %016lx r9: %016lx\n", rbp, r8, r9); 4337118d2caSPekka Enberg printf(" r10: %016lx r11: %016lx r12: %016lx\n", r10, r11, r12); 4347118d2caSPekka Enberg printf(" r13: %016lx r14: %016lx r15: %016lx\n", r13, r14, r15); 43553602077SPekka Enberg 43653602077SPekka Enberg if (ioctl(self->vcpu_fd, KVM_GET_SREGS, &sregs) < 0) 43753602077SPekka Enberg die("KVM_GET_REGS failed"); 43853602077SPekka Enberg 43953602077SPekka Enberg cr0 = sregs.cr0; cr2 = sregs.cr2; cr3 = sregs.cr3; 44053602077SPekka Enberg cr4 = sregs.cr4; cr8 = sregs.cr8; 44153602077SPekka Enberg 44253602077SPekka Enberg printf(" cr0: %016lx cr2: %016lx cr3: %016lx\n", cr0, cr2, cr3); 44353602077SPekka Enberg printf(" cr4: %016lx cr8: %016lx\n", cr4, cr8); 444ce5e0ecbSPekka Enberg printf("Segment registers:\n"); 445ce556636SPekka Enberg printf(" register selector base limit type p dpl db s l g avl\n"); 44653602077SPekka Enberg print_segment("cs ", &sregs.cs); 44753602077SPekka Enberg print_segment("ss ", &sregs.ss); 44853602077SPekka Enberg print_segment("ds ", &sregs.ds); 44953602077SPekka Enberg print_segment("es ", &sregs.es); 45053602077SPekka Enberg print_segment("fs ", &sregs.fs); 45153602077SPekka Enberg print_segment("gs ", &sregs.gs); 452ce5e0ecbSPekka Enberg print_segment("tr ", &sregs.tr); 453ce5e0ecbSPekka Enberg print_segment("ldt", &sregs.ldt); 454ce5e0ecbSPekka Enberg printf(" [ efer: %016lx apic base: %016lx ]\n", (uint64_t) sregs.efer, (uint64_t) sregs.apic_base); 455ce5e0ecbSPekka Enberg printf("Interrupt bitmap:\n"); 456ce5e0ecbSPekka Enberg printf(" "); 457ce5e0ecbSPekka Enberg for (i = 0; i < (KVM_NR_INTERRUPTS + 63) / 64; i++) 458ce5e0ecbSPekka Enberg printf("%016lx ", (uint64_t) sregs.interrupt_bitmap[i]); 459ce5e0ecbSPekka Enberg printf("\n"); 4607118d2caSPekka Enberg } 4617118d2caSPekka Enberg 462ae1fae34SPekka Enberg void kvm__show_code(struct kvm *self) 4636f10be05SPekka Enberg { 4646f10be05SPekka Enberg unsigned int code_bytes = 64; 4656f10be05SPekka Enberg unsigned int code_prologue = code_bytes * 43 / 64; 4666f10be05SPekka Enberg unsigned int code_len = code_bytes; 4676f10be05SPekka Enberg unsigned char c; 468ae1fae34SPekka Enberg unsigned int i; 4696f10be05SPekka Enberg uint8_t *ip; 4706f10be05SPekka Enberg 4712a601aafSPekka Enberg if (ioctl(self->vcpu_fd, KVM_GET_REGS, &self->regs) < 0) 4722a601aafSPekka Enberg die("KVM_GET_REGS failed"); 4732a601aafSPekka Enberg 4742a601aafSPekka Enberg if (ioctl(self->vcpu_fd, KVM_GET_SREGS, &self->sregs) < 0) 4752a601aafSPekka Enberg die("KVM_GET_SREGS failed"); 4762a601aafSPekka Enberg 47706e41eeaSPekka Enberg ip = guest_addr_to_host(self, ip_real_to_flat(self, self->regs.rip) - code_prologue); 4786f10be05SPekka Enberg 4796f10be05SPekka Enberg printf("Code: "); 4806f10be05SPekka Enberg 4816f10be05SPekka Enberg for (i = 0; i < code_len; i++, ip++) { 4826e8abc38SPekka Enberg c = *ip; 4836e8abc38SPekka Enberg 48406e41eeaSPekka Enberg if (ip == guest_addr_to_host(self, ip_real_to_flat(self, self->regs.rip))) 4856f10be05SPekka Enberg printf("<%02x> ", c); 4866f10be05SPekka Enberg else 4876f10be05SPekka Enberg printf("%02x ", c); 4886f10be05SPekka Enberg } 4896f10be05SPekka Enberg 4906f10be05SPekka Enberg printf("\n"); 4916f10be05SPekka Enberg } 492