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All Rights Reserved. */ /** * DOC: Sample flow of using the ioctl interface provided by the Nitro Enclaves (NE) * kernel driver. * * Usage * ----- * * Load the nitro_enclaves module, setting also the enclave CPU pool. The * enclave CPUs need to be full cores from the same NUMA node. CPU 0 and its * siblings have to remain available for the primary / parent VM, so they * cannot be included in the enclave CPU pool. * * See the cpu list section from the kernel documentation. * https://www.kernel.org/doc/html/latest/admin-guide/kernel-parameters.html#cpu-lists * * insmod drivers/virt/nitro_enclaves/nitro_enclaves.ko * lsmod * * The CPU pool can be set at runtime, after the kernel module is loaded. * * echo <cpu-list> > /sys/module/nitro_enclaves/parameters/ne_cpus * * NUMA and CPU siblings information can be found using: * * lscpu * /proc/cpuinfo * * Check the online / offline CPU list. The CPUs from the pool should be * offlined. * * lscpu * * Check dmesg for any warnings / errors through the NE driver lifetime / usage. * The NE logs contain the "nitro_enclaves" or "pci 0000:00:02.0" pattern. * * dmesg * * Setup hugetlbfs huge pages. The memory needs to be from the same NUMA node as * the enclave CPUs. * * https://www.kernel.org/doc/html/latest/admin-guide/mm/hugetlbpage.html * * By default, the allocation of hugetlb pages are distributed on all possible * NUMA nodes. Use the following configuration files to set the number of huge * pages from a NUMA node: * * /sys/devices/system/node/node<X>/hugepages/hugepages-2048kB/nr_hugepages * /sys/devices/system/node/node<X>/hugepages/hugepages-1048576kB/nr_hugepages * * or, if not on a system with multiple NUMA nodes, can also set the number * of 2 MiB / 1 GiB huge pages using * * /sys/kernel/mm/hugepages/hugepages-2048kB/nr_hugepages * /sys/kernel/mm/hugepages/hugepages-1048576kB/nr_hugepages * * In this example 256 hugepages of 2 MiB are used. * * Build and run the NE sample. * * make -C samples/nitro_enclaves clean * make -C samples/nitro_enclaves * ./samples/nitro_enclaves/ne_ioctl_sample <path_to_enclave_image> * * Unload the nitro_enclaves module. * * rmmod nitro_enclaves * lsmod */ #include <stdio.h> #include <stdlib.h> #include <errno.h> #include <fcntl.h> #include <limits.h> #include <poll.h> #include <pthread.h> #include <string.h> #include <sys/eventfd.h> #include <sys/ioctl.h> #include <sys/mman.h> #include <sys/socket.h> #include <sys/stat.h> #include <sys/types.h> #include <unistd.h> #include <linux/mman.h> #include <linux/nitro_enclaves.h> #include <linux/vm_sockets.h> /** * NE_DEV_NAME - Nitro Enclaves (NE) misc device that provides the ioctl interface. */ #define NE_DEV_NAME "/dev/nitro_enclaves" /** * NE_POLL_WAIT_TIME - Timeout in seconds for each poll event. */ #define NE_POLL_WAIT_TIME (60) /** * NE_POLL_WAIT_TIME_MS - Timeout in milliseconds for each poll event. */ #define NE_POLL_WAIT_TIME_MS (NE_POLL_WAIT_TIME * 1000) /** * NE_SLEEP_TIME - Amount of time in seconds for the process to keep the enclave alive. */ #define NE_SLEEP_TIME (300) /** * NE_DEFAULT_NR_VCPUS - Default number of vCPUs set for an enclave. */ #define NE_DEFAULT_NR_VCPUS (2) /** * NE_MIN_MEM_REGION_SIZE - Minimum size of a memory region - 2 MiB. */ #define NE_MIN_MEM_REGION_SIZE (2 * 1024 * 1024) /** * NE_DEFAULT_NR_MEM_REGIONS - Default number of memory regions of 2 MiB set for * an enclave. */ #define NE_DEFAULT_NR_MEM_REGIONS (256) /** * NE_IMAGE_LOAD_HEARTBEAT_CID - Vsock CID for enclave image loading heartbeat logic. */ #define NE_IMAGE_LOAD_HEARTBEAT_CID (3) /** * NE_IMAGE_LOAD_HEARTBEAT_PORT - Vsock port for enclave image loading heartbeat logic. */ #define NE_IMAGE_LOAD_HEARTBEAT_PORT (9000) /** * NE_IMAGE_LOAD_HEARTBEAT_VALUE - Heartbeat value for enclave image loading. */ #define NE_IMAGE_LOAD_HEARTBEAT_VALUE (0xb7) /** * struct ne_user_mem_region - User space memory region set for an enclave. * @userspace_addr: Address of the user space memory region. * @memory_size: Size of the user space memory region. */ struct ne_user_mem_region { void *userspace_addr; size_t memory_size; }; /** * ne_create_vm() - Create a slot for the enclave VM. * @ne_dev_fd: The file descriptor of the NE misc device. * @slot_uid: The generated slot uid for the enclave. * @enclave_fd : The generated file descriptor for the enclave. * * Context: Process context. * Return: * * 0 on success. * * Negative return value on failure. */ static int ne_create_vm(int ne_dev_fd, unsigned long *slot_uid, int *enclave_fd) { int rc = -EINVAL; *enclave_fd = ioctl(ne_dev_fd, NE_CREATE_VM, slot_uid); if (*enclave_fd < 0) { rc = *enclave_fd; switch (errno) { case NE_ERR_NO_CPUS_AVAIL_IN_POOL: { printf("Error in create VM, no CPUs available in the NE CPU pool\n"); break; } default: printf("Error in create VM [%m]\n"); } return rc; } return 0; } /** * ne_poll_enclave_fd() - Thread function for polling the enclave fd. * @data: Argument provided for the polling function. * * Context: Process context. * Return: * * NULL on success / failure. */ void *ne_poll_enclave_fd(void *data) { int enclave_fd = *(int *)data; struct pollfd fds[1] = {}; int i = 0; int rc = -EINVAL; printf("Running from poll thread, enclave fd %d\n", enclave_fd); fds[0].fd = enclave_fd; fds[0].events = POLLIN | POLLERR | POLLHUP; /* Keep on polling until the current process is terminated. */ while (1) { printf("[iter %d] Polling ...\n", i); rc = poll(fds, 1, NE_POLL_WAIT_TIME_MS); if (rc < 0) { printf("Error in poll [%m]\n"); return NULL; } i++; if (!rc) { printf("Poll: %d seconds elapsed\n", i * NE_POLL_WAIT_TIME); continue; } printf("Poll received value 0x%x\n", fds[0].revents); if (fds[0].revents & POLLHUP) { printf("Received POLLHUP\n"); return NULL; } if (fds[0].revents & POLLNVAL) { printf("Received POLLNVAL\n"); return NULL; } } return NULL; } /** * ne_alloc_user_mem_region() - Allocate a user space memory region for an enclave. * @ne_user_mem_region: User space memory region allocated using hugetlbfs. * * Context: Process context. * Return: * * 0 on success. * * Negative return value on failure. */ static int ne_alloc_user_mem_region(struct ne_user_mem_region *ne_user_mem_region) { /** * Check available hugetlb encodings for different huge page sizes in * include/uapi/linux/mman.h. */ ne_user_mem_region->userspace_addr = mmap(NULL, ne_user_mem_region->memory_size, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANONYMOUS | MAP_HUGETLB | MAP_HUGE_2MB, -1, 0); if (ne_user_mem_region->userspace_addr == MAP_FAILED) { printf("Error in mmap memory [%m]\n"); return -1; } return 0; } /** * ne_load_enclave_image() - Place the enclave image in the enclave memory. * @enclave_fd : The file descriptor associated with the enclave. * @ne_user_mem_regions: User space memory regions allocated for the enclave. * @enclave_image_path : The file path of the enclave image. * * Context: Process context. * Return: * * 0 on success. * * Negative return value on failure. */ static int ne_load_enclave_image(int enclave_fd, struct ne_user_mem_region ne_user_mem_regions[], char *enclave_image_path) { unsigned char *enclave_image = NULL; int enclave_image_fd = -1; size_t enclave_image_size = 0; size_t enclave_memory_size = 0; unsigned long i = 0; size_t image_written_bytes = 0; struct ne_image_load_info image_load_info = { .flags = NE_EIF_IMAGE, }; struct stat image_stat_buf = {}; int rc = -EINVAL; size_t temp_image_offset = 0; for (i = 0; i < NE_DEFAULT_NR_MEM_REGIONS; i++) enclave_memory_size += ne_user_mem_regions[i].memory_size; rc = stat(enclave_image_path, &image_stat_buf); if (rc < 0) { printf("Error in get image stat info [%m]\n"); return rc; } enclave_image_size = image_stat_buf.st_size; if (enclave_memory_size < enclave_image_size) { printf("The enclave memory is smaller than the enclave image size\n"); return -ENOMEM; } rc = ioctl(enclave_fd, NE_GET_IMAGE_LOAD_INFO, &image_load_info); if (rc < 0) { switch (errno) { case NE_ERR_NOT_IN_INIT_STATE: { printf("Error in get image load info, enclave not in init state\n"); break; } case NE_ERR_INVALID_FLAG_VALUE: { printf("Error in get image load info, provided invalid flag\n"); break; } default: printf("Error in get image load info [%m]\n"); } return rc; } printf("Enclave image offset in enclave memory is %lld\n", image_load_info.memory_offset); enclave_image_fd = open(enclave_image_path, O_RDONLY); if (enclave_image_fd < 0) { printf("Error in open enclave image file [%m]\n"); return enclave_image_fd; } enclave_image = mmap(NULL, enclave_image_size, PROT_READ, MAP_PRIVATE, enclave_image_fd, 0); if (enclave_image == MAP_FAILED) { printf("Error in mmap enclave image [%m]\n"); return -1; } temp_image_offset = image_load_info.memory_offset; for (i = 0; i < NE_DEFAULT_NR_MEM_REGIONS; i++) { size_t bytes_to_write = 0; size_t memory_offset = 0; size_t memory_size = ne_user_mem_regions[i].memory_size; size_t remaining_bytes = 0; void *userspace_addr = ne_user_mem_regions[i].userspace_addr; if (temp_image_offset >= memory_size) { temp_image_offset -= memory_size; continue; } else if (temp_image_offset != 0) { memory_offset = temp_image_offset; memory_size -= temp_image_offset; temp_image_offset = 0; } remaining_bytes = enclave_image_size - image_written_bytes; bytes_to_write = memory_size < remaining_bytes ? memory_size : remaining_bytes; memcpy(userspace_addr + memory_offset, enclave_image + image_written_bytes, bytes_to_write); image_written_bytes += bytes_to_write; if (image_written_bytes == enclave_image_size) break; } munmap(enclave_image, enclave_image_size); close(enclave_image_fd); return 0; } /** * ne_set_user_mem_region() - Set a user space memory region for the given enclave. * @enclave_fd : The file descriptor associated with the enclave. * @ne_user_mem_region : User space memory region to be set for the enclave. * * Context: Process context. * Return: * * 0 on success. * * Negative return value on failure. */ static int ne_set_user_mem_region(int enclave_fd, struct ne_user_mem_region ne_user_mem_region) { struct ne_user_memory_region mem_region = { .flags = NE_DEFAULT_MEMORY_REGION, .memory_size = ne_user_mem_region.memory_size, .userspace_addr = (__u64)ne_user_mem_region.userspace_addr, }; int rc = -EINVAL; rc = ioctl(enclave_fd, NE_SET_USER_MEMORY_REGION, &mem_region); if (rc < 0) { switch (errno) { case NE_ERR_NOT_IN_INIT_STATE: { printf("Error in set user memory region, enclave not in init state\n"); break; } case NE_ERR_INVALID_MEM_REGION_SIZE: { printf("Error in set user memory region, mem size not multiple of 2 MiB\n"); break; } case NE_ERR_INVALID_MEM_REGION_ADDR: { printf("Error in set user memory region, invalid user space address\n"); break; } case NE_ERR_UNALIGNED_MEM_REGION_ADDR: { printf("Error in set user memory region, unaligned user space address\n"); break; } case NE_ERR_MEM_REGION_ALREADY_USED: { printf("Error in set user memory region, memory region already used\n"); break; } case NE_ERR_MEM_NOT_HUGE_PAGE: { printf("Error in set user memory region, not backed by huge pages\n"); break; } case NE_ERR_MEM_DIFFERENT_NUMA_NODE: { printf("Error in set user memory region, different NUMA node than CPUs\n"); break; } case NE_ERR_MEM_MAX_REGIONS: { printf("Error in set user memory region, max memory regions reached\n"); break; } case NE_ERR_INVALID_PAGE_SIZE: { printf("Error in set user memory region, has page not multiple of 2 MiB\n"); break; } case NE_ERR_INVALID_FLAG_VALUE: { printf("Error in set user memory region, provided invalid flag\n"); break; } default: printf("Error in set user memory region [%m]\n"); } return rc; } return 0; } /** * ne_free_mem_regions() - Unmap all the user space memory regions that were set * aside for the enclave. * @ne_user_mem_regions: The user space memory regions associated with an enclave. * * Context: Process context. */ static void ne_free_mem_regions(struct ne_user_mem_region ne_user_mem_regions[]) { unsigned int i = 0; for (i = 0; i < NE_DEFAULT_NR_MEM_REGIONS; i++) munmap(ne_user_mem_regions[i].userspace_addr, ne_user_mem_regions[i].memory_size); } /** * ne_add_vcpu() - Add a vCPU to the given enclave. * @enclave_fd : The file descriptor associated with the enclave. * @vcpu_id: vCPU id to be set for the enclave, either provided or * auto-generated (if provided vCPU id is 0). * * Context: Process context. * Return: * * 0 on success. * * Negative return value on failure. */ static int ne_add_vcpu(int enclave_fd, unsigned int *vcpu_id) { int rc = -EINVAL; rc = ioctl(enclave_fd, NE_ADD_VCPU, vcpu_id); if (rc < 0) { switch (errno) { case NE_ERR_NO_CPUS_AVAIL_IN_POOL: { printf("Error in add vcpu, no CPUs available in the NE CPU pool\n"); break; } case NE_ERR_VCPU_ALREADY_USED: { printf("Error in add vcpu, the provided vCPU is already used\n"); break; } case NE_ERR_VCPU_NOT_IN_CPU_POOL: { printf("Error in add vcpu, the provided vCPU is not in the NE CPU pool\n"); break; } case NE_ERR_VCPU_INVALID_CPU_CORE: { printf("Error in add vcpu, the core id of the provided vCPU is invalid\n"); break; } case NE_ERR_NOT_IN_INIT_STATE: { printf("Error in add vcpu, enclave not in init state\n"); break; } case NE_ERR_INVALID_VCPU: { printf("Error in add vcpu, the provided vCPU is out of avail CPUs range\n"); break; } default: printf("Error in add vcpu [%m]\n"); } return rc; } return 0; } /** * ne_start_enclave() - Start the given enclave. * @enclave_fd : The file descriptor associated with the enclave. * @enclave_start_info : Enclave metadata used for starting e.g. vsock CID. * * Context: Process context. * Return: * * 0 on success. * * Negative return value on failure. */ static int ne_start_enclave(int enclave_fd, struct ne_enclave_start_info *enclave_start_info) { int rc = -EINVAL; rc = ioctl(enclave_fd, NE_START_ENCLAVE, enclave_start_info); if (rc < 0) { switch (errno) { case NE_ERR_NOT_IN_INIT_STATE: { printf("Error in start enclave, enclave not in init state\n"); break; } case NE_ERR_NO_MEM_REGIONS_ADDED: { printf("Error in start enclave, no memory regions have been added\n"); break; } case NE_ERR_NO_VCPUS_ADDED: { printf("Error in start enclave, no vCPUs have been added\n"); break; } case NE_ERR_FULL_CORES_NOT_USED: { printf("Error in start enclave, enclave has no full cores set\n"); break; } case NE_ERR_ENCLAVE_MEM_MIN_SIZE: { printf("Error in start enclave, enclave memory is less than min size\n"); break; } case NE_ERR_INVALID_FLAG_VALUE: { printf("Error in start enclave, provided invalid flag\n"); break; } case NE_ERR_INVALID_ENCLAVE_CID: { printf("Error in start enclave, provided invalid enclave CID\n"); break; } default: printf("Error in start enclave [%m]\n"); } return rc; } return 0; } /** * ne_start_enclave_check_booted() - Start the enclave and wait for a heartbeat * from it, on a newly created vsock channel, * to check it has booted. * @enclave_fd : The file descriptor associated with the enclave. * * Context: Process context. * Return: * * 0 on success. * * Negative return value on failure. */ static int ne_start_enclave_check_booted(int enclave_fd) { struct sockaddr_vm client_vsock_addr = {}; int client_vsock_fd = -1; socklen_t client_vsock_len = sizeof(client_vsock_addr); struct ne_enclave_start_info enclave_start_info = {}; struct pollfd fds[1] = {}; int rc = -EINVAL; unsigned char recv_buf = 0; struct sockaddr_vm server_vsock_addr = { .svm_family = AF_VSOCK, .svm_cid = NE_IMAGE_LOAD_HEARTBEAT_CID, .svm_port = NE_IMAGE_LOAD_HEARTBEAT_PORT, }; int server_vsock_fd = -1; server_vsock_fd = socket(AF_VSOCK, SOCK_STREAM, 0); if (server_vsock_fd < 0) { rc = server_vsock_fd; printf("Error in socket [%m]\n"); return rc; } rc = bind(server_vsock_fd, (struct sockaddr *)&server_vsock_addr, sizeof(server_vsock_addr)); if (rc < 0) { printf("Error in bind [%m]\n"); goto out; } rc = listen(server_vsock_fd, 1); if (rc < 0) { printf("Error in listen [%m]\n"); goto out; } rc = ne_start_enclave(enclave_fd, &enclave_start_info); if (rc < 0) goto out; printf("Enclave started, CID %llu\n", enclave_start_info.enclave_cid); fds[0].fd = server_vsock_fd; fds[0].events = POLLIN; rc = poll(fds, 1, NE_POLL_WAIT_TIME_MS); if (rc < 0) { printf("Error in poll [%m]\n"); goto out; } if (!rc) { printf("Poll timeout, %d seconds elapsed\n", NE_POLL_WAIT_TIME); rc = -ETIMEDOUT; goto out; } if ((fds[0].revents & POLLIN) == 0) { printf("Poll received value %d\n", fds[0].revents); rc = -EINVAL; goto out; } rc = accept(server_vsock_fd, (struct sockaddr *)&client_vsock_addr, &client_vsock_len); if (rc < 0) { printf("Error in accept [%m]\n"); goto out; } client_vsock_fd = rc; /* * Read the heartbeat value that the init process in the enclave sends * after vsock connect. */ rc = read(client_vsock_fd, &recv_buf, sizeof(recv_buf)); if (rc < 0) { printf("Error in read [%m]\n"); goto out; } if (rc != sizeof(recv_buf) || recv_buf != NE_IMAGE_LOAD_HEARTBEAT_VALUE) { printf("Read %d instead of %d\n", recv_buf, NE_IMAGE_LOAD_HEARTBEAT_VALUE); goto out; } /* Write the heartbeat value back. */ rc = write(client_vsock_fd, &recv_buf, sizeof(recv_buf)); if (rc < 0) { printf("Error in write [%m]\n"); goto out; } rc = 0; out: close(server_vsock_fd); return rc; } int main(int argc, char *argv[]) { int enclave_fd = -1; unsigned int i = 0; int ne_dev_fd = -1; struct ne_user_mem_region ne_user_mem_regions[NE_DEFAULT_NR_MEM_REGIONS] = {}; unsigned int ne_vcpus[NE_DEFAULT_NR_VCPUS] = {}; int rc = -EINVAL; pthread_t thread_id = 0; unsigned long slot_uid = 0; if (argc != 2) { printf("Usage: %s <path_to_enclave_image>\n", argv[0]); exit(EXIT_FAILURE); } if (strlen(argv[1]) >= PATH_MAX) { printf("The size of the path to enclave image is higher than max path\n"); exit(EXIT_FAILURE); } ne_dev_fd = open(NE_DEV_NAME, O_RDWR | O_CLOEXEC); if (ne_dev_fd < 0) { printf("Error in open NE device [%m]\n"); exit(EXIT_FAILURE); } printf("Creating enclave slot ...\n"); rc = ne_create_vm(ne_dev_fd, &slot_uid, &enclave_fd); close(ne_dev_fd); if (rc < 0) exit(EXIT_FAILURE); printf("Enclave fd %d\n", enclave_fd); rc = pthread_create(&thread_id, NULL, ne_poll_enclave_fd, (void *)&enclave_fd); if (rc < 0) { printf("Error in thread create [%m]\n"); close(enclave_fd); exit(EXIT_FAILURE); } for (i = 0; i < NE_DEFAULT_NR_MEM_REGIONS; i++) { ne_user_mem_regions[i].memory_size = NE_MIN_MEM_REGION_SIZE; rc = ne_alloc_user_mem_region(&ne_user_mem_regions[i]); if (rc < 0) { printf("Error in alloc userspace memory region, iter %d\n", i); goto release_enclave_fd; } } rc = ne_load_enclave_image(enclave_fd, ne_user_mem_regions, argv[1]); if (rc < 0) goto release_enclave_fd; for (i = 0; i < NE_DEFAULT_NR_MEM_REGIONS; i++) { rc = ne_set_user_mem_region(enclave_fd, ne_user_mem_regions[i]); if (rc < 0) { printf("Error in set memory region, iter %d\n", i); goto release_enclave_fd; } } printf("Enclave memory regions were added\n"); for (i = 0; i < NE_DEFAULT_NR_VCPUS; i++) { /* * The vCPU is chosen from the enclave vCPU pool, if the value * of the vcpu_id is 0. */ ne_vcpus[i] = 0; rc = ne_add_vcpu(enclave_fd, &ne_vcpus[i]); if (rc < 0) { printf("Error in add vcpu, iter %d\n", i); goto release_enclave_fd; } printf("Added vCPU %d to the enclave\n", ne_vcpus[i]); } printf("Enclave vCPUs were added\n"); rc = ne_start_enclave_check_booted(enclave_fd); if (rc < 0) { printf("Error in the enclave start / image loading heartbeat logic [rc=%d]\n", rc); goto release_enclave_fd; } printf("Entering sleep for %d seconds ...\n", NE_SLEEP_TIME); sleep(NE_SLEEP_TIME); close(enclave_fd); ne_free_mem_regions(ne_user_mem_regions); exit(EXIT_SUCCESS); release_enclave_fd: close(enclave_fd); ne_free_mem_regions(ne_user_mem_regions); exit(EXIT_FAILURE); } |