/* * Intel MIC Platform Software Stack (MPSS) * * Copyright(c) 2013 Intel Corporation. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License, version 2, as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * The full GNU General Public License is included in this distribution in * the file called "COPYING". * * Intel MIC User Space Tools. */ #define _GNU_SOURCE #include <stdlib.h> #include <fcntl.h> #include <getopt.h> #include <assert.h> #include <unistd.h> #include <stdbool.h> #include <signal.h> #include <poll.h> #include <features.h> #include <sys/types.h> #include <sys/stat.h> #include <sys/mman.h> #include <sys/socket.h> #include <linux/virtio_ring.h> #include <linux/virtio_net.h> #include <linux/virtio_console.h> #include <linux/virtio_blk.h> #include <linux/version.h> #include "mpssd.h" #include <linux/mic_ioctl.h> #include <linux/mic_common.h> #include <tools/endian.h> static void *init_mic(void *arg); static FILE *logfp; static struct mic_info mic_list; #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) #define min_t(type, x, y) ({ \ type __min1 = (x); \ type __min2 = (y); \ __min1 < __min2 ? __min1 : __min2; }) /* align addr on a size boundary - adjust address up/down if needed */ #define _ALIGN_DOWN(addr, size) ((addr)&(~((size)-1))) #define _ALIGN_UP(addr, size) _ALIGN_DOWN(addr + size - 1, size) /* align addr on a size boundary - adjust address up if needed */ #define _ALIGN(addr, size) _ALIGN_UP(addr, size) /* to align the pointer to the (next) page boundary */ #define PAGE_ALIGN(addr) _ALIGN(addr, PAGE_SIZE) #define ACCESS_ONCE(x) (*(volatile typeof(x) *)&(x)) #define GSO_ENABLED 1 #define MAX_GSO_SIZE (64 * 1024) #define ETH_H_LEN 14 #define MAX_NET_PKT_SIZE (_ALIGN_UP(MAX_GSO_SIZE + ETH_H_LEN, 64)) #define MIC_DEVICE_PAGE_END 0x1000 #ifndef VIRTIO_NET_HDR_F_DATA_VALID #define VIRTIO_NET_HDR_F_DATA_VALID 2 /* Csum is valid */ #endif static struct { struct mic_device_desc dd; struct mic_vqconfig vqconfig[2]; __u32 host_features, guest_acknowledgements; struct virtio_console_config cons_config; } virtcons_dev_page = { .dd = { .type = VIRTIO_ID_CONSOLE, .num_vq = ARRAY_SIZE(virtcons_dev_page.vqconfig), .feature_len = sizeof(virtcons_dev_page.host_features), .config_len = sizeof(virtcons_dev_page.cons_config), }, .vqconfig[0] = { .num = htole16(MIC_VRING_ENTRIES), }, .vqconfig[1] = { .num = htole16(MIC_VRING_ENTRIES), }, }; static struct { struct mic_device_desc dd; struct mic_vqconfig vqconfig[2]; __u32 host_features, guest_acknowledgements; struct virtio_net_config net_config; } virtnet_dev_page = { .dd = { .type = VIRTIO_ID_NET, .num_vq = ARRAY_SIZE(virtnet_dev_page.vqconfig), .feature_len = sizeof(virtnet_dev_page.host_features), .config_len = sizeof(virtnet_dev_page.net_config), }, .vqconfig[0] = { .num = htole16(MIC_VRING_ENTRIES), }, .vqconfig[1] = { .num = htole16(MIC_VRING_ENTRIES), }, #if GSO_ENABLED .host_features = htole32( 1 << VIRTIO_NET_F_CSUM | 1 << VIRTIO_NET_F_GSO | 1 << VIRTIO_NET_F_GUEST_TSO4 | 1 << VIRTIO_NET_F_GUEST_TSO6 | 1 << VIRTIO_NET_F_GUEST_ECN), #else .host_features = 0, #endif }; static const char *mic_config_dir = "/etc/mpss"; static const char *virtblk_backend = "VIRTBLK_BACKEND"; static struct { struct mic_device_desc dd; struct mic_vqconfig vqconfig[1]; __u32 host_features, guest_acknowledgements; struct virtio_blk_config blk_config; } virtblk_dev_page = { .dd = { .type = VIRTIO_ID_BLOCK, .num_vq = ARRAY_SIZE(virtblk_dev_page.vqconfig), .feature_len = sizeof(virtblk_dev_page.host_features), .config_len = sizeof(virtblk_dev_page.blk_config), }, .vqconfig[0] = { .num = htole16(MIC_VRING_ENTRIES), }, .host_features = htole32(1<<VIRTIO_BLK_F_SEG_MAX), .blk_config = { .seg_max = htole32(MIC_VRING_ENTRIES - 2), .capacity = htole64(0), } }; static char *myname; static int tap_configure(struct mic_info *mic, char *dev) { pid_t pid; char *ifargv[7]; char ipaddr[IFNAMSIZ]; int ret = 0; pid = fork(); if (pid == 0) { ifargv[0] = "ip"; ifargv[1] = "link"; ifargv[2] = "set"; ifargv[3] = dev; ifargv[4] = "up"; ifargv[5] = NULL; mpsslog("Configuring %s\n", dev); ret = execvp("ip", ifargv); if (ret < 0) { mpsslog("%s execvp failed errno %s\n", mic->name, strerror(errno)); return ret; } } if (pid < 0) { mpsslog("%s fork failed errno %s\n", mic->name, strerror(errno)); return ret; } ret = waitpid(pid, NULL, 0); if (ret < 0) { mpsslog("%s waitpid failed errno %s\n", mic->name, strerror(errno)); return ret; } snprintf(ipaddr, IFNAMSIZ, "172.31.%d.254/24", mic->id + 1); pid = fork(); if (pid == 0) { ifargv[0] = "ip"; ifargv[1] = "addr"; ifargv[2] = "add"; ifargv[3] = ipaddr; ifargv[4] = "dev"; ifargv[5] = dev; ifargv[6] = NULL; mpsslog("Configuring %s ipaddr %s\n", dev, ipaddr); ret = execvp("ip", ifargv); if (ret < 0) { mpsslog("%s execvp failed errno %s\n", mic->name, strerror(errno)); return ret; } } if (pid < 0) { mpsslog("%s fork failed errno %s\n", mic->name, strerror(errno)); return ret; } ret = waitpid(pid, NULL, 0); if (ret < 0) { mpsslog("%s waitpid failed errno %s\n", mic->name, strerror(errno)); return ret; } mpsslog("MIC name %s %s %d DONE!\n", mic->name, __func__, __LINE__); return 0; } static int tun_alloc(struct mic_info *mic, char *dev) { struct ifreq ifr; int fd, err; #if GSO_ENABLED unsigned offload; #endif fd = open("/dev/net/tun", O_RDWR); if (fd < 0) { mpsslog("Could not open /dev/net/tun %s\n", strerror(errno)); goto done; } memset(&ifr, 0, sizeof(ifr)); ifr.ifr_flags = IFF_TAP | IFF_NO_PI | IFF_VNET_HDR; if (*dev) strncpy(ifr.ifr_name, dev, IFNAMSIZ); err = ioctl(fd, TUNSETIFF, (void *)&ifr); if (err < 0) { mpsslog("%s %s %d TUNSETIFF failed %s\n", mic->name, __func__, __LINE__, strerror(errno)); close(fd); return err; } #if GSO_ENABLED offload = TUN_F_CSUM | TUN_F_TSO4 | TUN_F_TSO6 | TUN_F_TSO_ECN; err = ioctl(fd, TUNSETOFFLOAD, offload); if (err < 0) { mpsslog("%s %s %d TUNSETOFFLOAD failed %s\n", mic->name, __func__, __LINE__, strerror(errno)); close(fd); return err; } #endif strcpy(dev, ifr.ifr_name); mpsslog("Created TAP %s\n", dev); done: return fd; } #define NET_FD_VIRTIO_NET 0 #define NET_FD_TUN 1 #define MAX_NET_FD 2 static void set_dp(struct mic_info *mic, int type, void *dp) { switch (type) { case VIRTIO_ID_CONSOLE: mic->mic_console.console_dp = dp; return; case VIRTIO_ID_NET: mic->mic_net.net_dp = dp; return; case VIRTIO_ID_BLOCK: mic->mic_virtblk.block_dp = dp; return; } mpsslog("%s %s %d not found\n", mic->name, __func__, type); assert(0); } static void *get_dp(struct mic_info *mic, int type) { switch (type) { case VIRTIO_ID_CONSOLE: return mic->mic_console.console_dp; case VIRTIO_ID_NET: return mic->mic_net.net_dp; case VIRTIO_ID_BLOCK: return mic->mic_virtblk.block_dp; } mpsslog("%s %s %d not found\n", mic->name, __func__, type); assert(0); return NULL; } static struct mic_device_desc *get_device_desc(struct mic_info *mic, int type) { struct mic_device_desc *d; int i; void *dp = get_dp(mic, type); for (i = sizeof(struct mic_bootparam); i < PAGE_SIZE; i += mic_total_desc_size(d)) { d = dp + i; /* End of list */ if (d->type == 0) break; if (d->type == -1) continue; mpsslog("%s %s d-> type %d d %p\n", mic->name, __func__, d->type, d); if (d->type == (__u8)type) return d; } mpsslog("%s %s %d not found\n", mic->name, __func__, type); return NULL; } /* See comments in vhost.c for explanation of next_desc() */ static unsigned next_desc(struct vring_desc *desc) { unsigned int next; if (!(le16toh(desc->flags) & VRING_DESC_F_NEXT)) return -1U; next = le16toh(desc->next); return next; } /* Sum up all the IOVEC length */ static ssize_t sum_iovec_len(struct mic_copy_desc *copy) { ssize_t sum = 0; int i; for (i = 0; i < copy->iovcnt; i++) sum += copy->iov[i].iov_len; return sum; } static inline void verify_out_len(struct mic_info *mic, struct mic_copy_desc *copy) { if (copy->out_len != sum_iovec_len(copy)) { mpsslog("%s %s %d BUG copy->out_len 0x%x len 0x%zx\n", mic->name, __func__, __LINE__, copy->out_len, sum_iovec_len(copy)); assert(copy->out_len == sum_iovec_len(copy)); } } /* Display an iovec */ static void disp_iovec(struct mic_info *mic, struct mic_copy_desc *copy, const char *s, int line) { int i; for (i = 0; i < copy->iovcnt; i++) mpsslog("%s %s %d copy->iov[%d] addr %p len 0x%zx\n", mic->name, s, line, i, copy->iov[i].iov_base, copy->iov[i].iov_len); } static inline __u16 read_avail_idx(struct mic_vring *vr) { return ACCESS_ONCE(vr->info->avail_idx); } static inline void txrx_prepare(int type, bool tx, struct mic_vring *vr, struct mic_copy_desc *copy, ssize_t len) { copy->vr_idx = tx ? 0 : 1; copy->update_used = true; if (type == VIRTIO_ID_NET) copy->iov[1].iov_len = len - sizeof(struct virtio_net_hdr); else copy->iov[0].iov_len = len; } /* Central API which triggers the copies */ static int mic_virtio_copy(struct mic_info *mic, int fd, struct mic_vring *vr, struct mic_copy_desc *copy) { int ret; ret = ioctl(fd, MIC_VIRTIO_COPY_DESC, copy); if (ret) { mpsslog("%s %s %d errno %s ret %d\n", mic->name, __func__, __LINE__, strerror(errno), ret); } return ret; } static inline unsigned _vring_size(unsigned int num, unsigned long align) { return ((sizeof(struct vring_desc) * num + sizeof(__u16) * (3 + num) + align - 1) & ~(align - 1)) + sizeof(__u16) * 3 + sizeof(struct vring_used_elem) * num; } /* * This initialization routine requires at least one * vring i.e. vr0. vr1 is optional. */ static void * init_vr(struct mic_info *mic, int fd, int type, struct mic_vring *vr0, struct mic_vring *vr1, int num_vq) { int vr_size; char *va; vr_size = PAGE_ALIGN(_vring_size(MIC_VRING_ENTRIES, MIC_VIRTIO_RING_ALIGN) + sizeof(struct _mic_vring_info)); va = mmap(NULL, MIC_DEVICE_PAGE_END + vr_size * num_vq, PROT_READ, MAP_SHARED, fd, 0); if (MAP_FAILED == va) { mpsslog("%s %s %d mmap failed errno %s\n", mic->name, __func__, __LINE__, strerror(errno)); goto done; } set_dp(mic, type, va); vr0->va = (struct mic_vring *)&va[MIC_DEVICE_PAGE_END]; vr0->info = vr0->va + _vring_size(MIC_VRING_ENTRIES, MIC_VIRTIO_RING_ALIGN); vring_init(&vr0->vr, MIC_VRING_ENTRIES, vr0->va, MIC_VIRTIO_RING_ALIGN); mpsslog("%s %s vr0 %p vr0->info %p vr_size 0x%x vring 0x%x ", __func__, mic->name, vr0->va, vr0->info, vr_size, _vring_size(MIC_VRING_ENTRIES, MIC_VIRTIO_RING_ALIGN)); mpsslog("magic 0x%x expected 0x%x\n", le32toh(vr0->info->magic), MIC_MAGIC + type); assert(le32toh(vr0->info->magic) == MIC_MAGIC + type); if (vr1) { vr1->va = (struct mic_vring *) &va[MIC_DEVICE_PAGE_END + vr_size]; vr1->info = vr1->va + _vring_size(MIC_VRING_ENTRIES, MIC_VIRTIO_RING_ALIGN); vring_init(&vr1->vr, MIC_VRING_ENTRIES, vr1->va, MIC_VIRTIO_RING_ALIGN); mpsslog("%s %s vr1 %p vr1->info %p vr_size 0x%x vring 0x%x ", __func__, mic->name, vr1->va, vr1->info, vr_size, _vring_size(MIC_VRING_ENTRIES, MIC_VIRTIO_RING_ALIGN)); mpsslog("magic 0x%x expected 0x%x\n", le32toh(vr1->info->magic), MIC_MAGIC + type + 1); assert(le32toh(vr1->info->magic) == MIC_MAGIC + type + 1); } done: return va; } static int wait_for_card_driver(struct mic_info *mic, int fd, int type) { struct pollfd pollfd; int err; struct mic_device_desc *desc = get_device_desc(mic, type); __u8 prev_status; if (!desc) return -ENODEV; prev_status = desc->status; pollfd.fd = fd; mpsslog("%s %s Waiting .... desc-> type %d status 0x%x\n", mic->name, __func__, type, desc->status); while (1) { pollfd.events = POLLIN; pollfd.revents = 0; err = poll(&pollfd, 1, -1); if (err < 0) { mpsslog("%s %s poll failed %s\n", mic->name, __func__, strerror(errno)); continue; } if (pollfd.revents) { if (desc->status != prev_status) { mpsslog("%s %s Waiting... desc-> type %d " "status 0x%x\n", mic->name, __func__, type, desc->status); prev_status = desc->status; } if (desc->status & VIRTIO_CONFIG_S_DRIVER_OK) { mpsslog("%s %s poll.revents %d\n", mic->name, __func__, pollfd.revents); mpsslog("%s %s desc-> type %d status 0x%x\n", mic->name, __func__, type, desc->status); break; } } } return 0; } /* Spin till we have some descriptors */ static void spin_for_descriptors(struct mic_info *mic, struct mic_vring *vr) { __u16 avail_idx = read_avail_idx(vr); while (avail_idx == le16toh(ACCESS_ONCE(vr->vr.avail->idx))) { #ifdef DEBUG mpsslog("%s %s waiting for desc avail %d info_avail %d\n", mic->name, __func__, le16toh(vr->vr.avail->idx), vr->info->avail_idx); #endif sched_yield(); } } static void * virtio_net(void *arg) { static __u8 vnet_hdr[2][sizeof(struct virtio_net_hdr)]; static __u8 vnet_buf[2][MAX_NET_PKT_SIZE] __attribute__ ((aligned(64))); struct iovec vnet_iov[2][2] = { { { .iov_base = vnet_hdr[0], .iov_len = sizeof(vnet_hdr[0]) }, { .iov_base = vnet_buf[0], .iov_len = sizeof(vnet_buf[0]) } }, { { .iov_base = vnet_hdr[1], .iov_len = sizeof(vnet_hdr[1]) }, { .iov_base = vnet_buf[1], .iov_len = sizeof(vnet_buf[1]) } }, }; struct iovec *iov0 = vnet_iov[0], *iov1 = vnet_iov[1]; struct mic_info *mic = (struct mic_info *)arg; char if_name[IFNAMSIZ]; struct pollfd net_poll[MAX_NET_FD]; struct mic_vring tx_vr, rx_vr; struct mic_copy_desc copy; struct mic_device_desc *desc; int err; snprintf(if_name, IFNAMSIZ, "mic%d", mic->id); mic->mic_net.tap_fd = tun_alloc(mic, if_name); if (mic->mic_net.tap_fd < 0) goto done; if (tap_configure(mic, if_name)) goto done; mpsslog("MIC name %s id %d\n", mic->name, mic->id); net_poll[NET_FD_VIRTIO_NET].fd = mic->mic_net.virtio_net_fd; net_poll[NET_FD_VIRTIO_NET].events = POLLIN; net_poll[NET_FD_TUN].fd = mic->mic_net.tap_fd; net_poll[NET_FD_TUN].events = POLLIN; if (MAP_FAILED == init_vr(mic, mic->mic_net.virtio_net_fd, VIRTIO_ID_NET, &tx_vr, &rx_vr, virtnet_dev_page.dd.num_vq)) { mpsslog("%s init_vr failed %s\n", mic->name, strerror(errno)); goto done; } copy.iovcnt = 2; desc = get_device_desc(mic, VIRTIO_ID_NET); while (1) { ssize_t len; net_poll[NET_FD_VIRTIO_NET].revents = 0; net_poll[NET_FD_TUN].revents = 0; /* Start polling for data from tap and virtio net */ err = poll(net_poll, 2, -1); if (err < 0) { mpsslog("%s poll failed %s\n", __func__, strerror(errno)); continue; } if (!(desc->status & VIRTIO_CONFIG_S_DRIVER_OK)) { err = wait_for_card_driver(mic, mic->mic_net.virtio_net_fd, VIRTIO_ID_NET); if (err) { mpsslog("%s %s %d Exiting...\n", mic->name, __func__, __LINE__); break; } } /* * Check if there is data to be read from TUN and write to * virtio net fd if there is. */ if (net_poll[NET_FD_TUN].revents & POLLIN) { copy.iov = iov0; len = readv(net_poll[NET_FD_TUN].fd, copy.iov, copy.iovcnt); if (len > 0) { struct virtio_net_hdr *hdr = (struct virtio_net_hdr *)vnet_hdr[0]; /* Disable checksums on the card since we are on a reliable PCIe link */ hdr->flags |= VIRTIO_NET_HDR_F_DATA_VALID; #ifdef DEBUG mpsslog("%s %s %d hdr->flags 0x%x ", mic->name, __func__, __LINE__, hdr->flags); mpsslog("copy.out_len %d hdr->gso_type 0x%x\n", copy.out_len, hdr->gso_type); #endif #ifdef DEBUG disp_iovec(mic, copy, __func__, __LINE__); mpsslog("%s %s %d read from tap 0x%lx\n", mic->name, __func__, __LINE__, len); #endif spin_for_descriptors(mic, &tx_vr); txrx_prepare(VIRTIO_ID_NET, 1, &tx_vr, ©, len); err = mic_virtio_copy(mic, mic->mic_net.virtio_net_fd, &tx_vr, ©); if (err < 0) { mpsslog("%s %s %d mic_virtio_copy %s\n", mic->name, __func__, __LINE__, strerror(errno)); } if (!err) verify_out_len(mic, ©); #ifdef DEBUG disp_iovec(mic, copy, __func__, __LINE__); mpsslog("%s %s %d wrote to net 0x%lx\n", mic->name, __func__, __LINE__, sum_iovec_len(©)); #endif /* Reinitialize IOV for next run */ iov0[1].iov_len = MAX_NET_PKT_SIZE; } else if (len < 0) { disp_iovec(mic, ©, __func__, __LINE__); mpsslog("%s %s %d read failed %s ", mic->name, __func__, __LINE__, strerror(errno)); mpsslog("cnt %d sum %zd\n", copy.iovcnt, sum_iovec_len(©)); } } /* * Check if there is data to be read from virtio net and * write to TUN if there is. */ if (net_poll[NET_FD_VIRTIO_NET].revents & POLLIN) { while (rx_vr.info->avail_idx != le16toh(rx_vr.vr.avail->idx)) { copy.iov = iov1; txrx_prepare(VIRTIO_ID_NET, 0, &rx_vr, ©, MAX_NET_PKT_SIZE + sizeof(struct virtio_net_hdr)); err = mic_virtio_copy(mic, mic->mic_net.virtio_net_fd, &rx_vr, ©); if (!err) { #ifdef DEBUG struct virtio_net_hdr *hdr = (struct virtio_net_hdr *) vnet_hdr[1]; mpsslog("%s %s %d hdr->flags 0x%x, ", mic->name, __func__, __LINE__, hdr->flags); mpsslog("out_len %d gso_type 0x%x\n", copy.out_len, hdr->gso_type); #endif /* Set the correct output iov_len */ iov1[1].iov_len = copy.out_len - sizeof(struct virtio_net_hdr); verify_out_len(mic, ©); #ifdef DEBUG disp_iovec(mic, copy, __func__, __LINE__); mpsslog("%s %s %d ", mic->name, __func__, __LINE__); mpsslog("read from net 0x%lx\n", sum_iovec_len(copy)); #endif len = writev(net_poll[NET_FD_TUN].fd, copy.iov, copy.iovcnt); if (len != sum_iovec_len(©)) { mpsslog("Tun write failed %s ", strerror(errno)); mpsslog("len 0x%zx ", len); mpsslog("read_len 0x%zx\n", sum_iovec_len(©)); } else { #ifdef DEBUG disp_iovec(mic, ©, __func__, __LINE__); mpsslog("%s %s %d ", mic->name, __func__, __LINE__); mpsslog("wrote to tap 0x%lx\n", len); #endif } } else { mpsslog("%s %s %d mic_virtio_copy %s\n", mic->name, __func__, __LINE__, strerror(errno)); break; } } } if (net_poll[NET_FD_VIRTIO_NET].revents & POLLERR) mpsslog("%s: %s: POLLERR\n", __func__, mic->name); } done: pthread_exit(NULL); } /* virtio_console */ #define VIRTIO_CONSOLE_FD 0 #define MONITOR_FD (VIRTIO_CONSOLE_FD + 1) #define MAX_CONSOLE_FD (MONITOR_FD + 1) /* must be the last one + 1 */ #define MAX_BUFFER_SIZE PAGE_SIZE static void * virtio_console(void *arg) { static __u8 vcons_buf[2][PAGE_SIZE]; struct iovec vcons_iov[2] = { { .iov_base = vcons_buf[0], .iov_len = sizeof(vcons_buf[0]) }, { .iov_base = vcons_buf[1], .iov_len = sizeof(vcons_buf[1]) }, }; struct iovec *iov0 = &vcons_iov[0], *iov1 = &vcons_iov[1]; struct mic_info *mic = (struct mic_info *)arg; int err; struct pollfd console_poll[MAX_CONSOLE_FD]; int pty_fd; char *pts_name; ssize_t len; struct mic_vring tx_vr, rx_vr; struct mic_copy_desc copy; struct mic_device_desc *desc; pty_fd = posix_openpt(O_RDWR); if (pty_fd < 0) { mpsslog("can't open a pseudoterminal master device: %s\n", strerror(errno)); goto _return; } pts_name = ptsname(pty_fd); if (pts_name == NULL) { mpsslog("can't get pts name\n"); goto _close_pty; } printf("%s console message goes to %s\n", mic->name, pts_name); mpsslog("%s console message goes to %s\n", mic->name, pts_name); err = grantpt(pty_fd); if (err < 0) { mpsslog("can't grant access: %s %s\n", pts_name, strerror(errno)); goto _close_pty; } err = unlockpt(pty_fd); if (err < 0) { mpsslog("can't unlock a pseudoterminal: %s %s\n", pts_name, strerror(errno)); goto _close_pty; } console_poll[MONITOR_FD].fd = pty_fd; console_poll[MONITOR_FD].events = POLLIN; console_poll[VIRTIO_CONSOLE_FD].fd = mic->mic_console.virtio_console_fd; console_poll[VIRTIO_CONSOLE_FD].events = POLLIN; if (MAP_FAILED == init_vr(mic, mic->mic_console.virtio_console_fd, VIRTIO_ID_CONSOLE, &tx_vr, &rx_vr, virtcons_dev_page.dd.num_vq)) { mpsslog("%s init_vr failed %s\n", mic->name, strerror(errno)); goto _close_pty; } copy.iovcnt = 1; desc = get_device_desc(mic, VIRTIO_ID_CONSOLE); for (;;) { console_poll[MONITOR_FD].revents = 0; console_poll[VIRTIO_CONSOLE_FD].revents = 0; err = poll(console_poll, MAX_CONSOLE_FD, -1); if (err < 0) { mpsslog("%s %d: poll failed: %s\n", __func__, __LINE__, strerror(errno)); continue; } if (!(desc->status & VIRTIO_CONFIG_S_DRIVER_OK)) { err = wait_for_card_driver(mic, mic->mic_console.virtio_console_fd, VIRTIO_ID_CONSOLE); if (err) { mpsslog("%s %s %d Exiting...\n", mic->name, __func__, __LINE__); break; } } if (console_poll[MONITOR_FD].revents & POLLIN) { copy.iov = iov0; len = readv(pty_fd, copy.iov, copy.iovcnt); if (len > 0) { #ifdef DEBUG disp_iovec(mic, copy, __func__, __LINE__); mpsslog("%s %s %d read from tap 0x%lx\n", mic->name, __func__, __LINE__, len); #endif spin_for_descriptors(mic, &tx_vr); txrx_prepare(VIRTIO_ID_CONSOLE, 1, &tx_vr, ©, len); err = mic_virtio_copy(mic, mic->mic_console.virtio_console_fd, &tx_vr, ©); if (err < 0) { mpsslog("%s %s %d mic_virtio_copy %s\n", mic->name, __func__, __LINE__, strerror(errno)); } if (!err) verify_out_len(mic, ©); #ifdef DEBUG disp_iovec(mic, copy, __func__, __LINE__); mpsslog("%s %s %d wrote to net 0x%lx\n", mic->name, __func__, __LINE__, sum_iovec_len(copy)); #endif /* Reinitialize IOV for next run */ iov0->iov_len = PAGE_SIZE; } else if (len < 0) { disp_iovec(mic, ©, __func__, __LINE__); mpsslog("%s %s %d read failed %s ", mic->name, __func__, __LINE__, strerror(errno)); mpsslog("cnt %d sum %zd\n", copy.iovcnt, sum_iovec_len(©)); } } if (console_poll[VIRTIO_CONSOLE_FD].revents & POLLIN) { while (rx_vr.info->avail_idx != le16toh(rx_vr.vr.avail->idx)) { copy.iov = iov1; txrx_prepare(VIRTIO_ID_CONSOLE, 0, &rx_vr, ©, PAGE_SIZE); err = mic_virtio_copy(mic, mic->mic_console.virtio_console_fd, &rx_vr, ©); if (!err) { /* Set the correct output iov_len */ iov1->iov_len = copy.out_len; verify_out_len(mic, ©); #ifdef DEBUG disp_iovec(mic, copy, __func__, __LINE__); mpsslog("%s %s %d ", mic->name, __func__, __LINE__); mpsslog("read from net 0x%lx\n", sum_iovec_len(copy)); #endif len = writev(pty_fd, copy.iov, copy.iovcnt); if (len != sum_iovec_len(©)) { mpsslog("Tun write failed %s ", strerror(errno)); mpsslog("len 0x%zx ", len); mpsslog("read_len 0x%zx\n", sum_iovec_len(©)); } else { #ifdef DEBUG disp_iovec(mic, copy, __func__, __LINE__); mpsslog("%s %s %d ", mic->name, __func__, __LINE__); mpsslog("wrote to tap 0x%lx\n", len); #endif } } else { mpsslog("%s %s %d mic_virtio_copy %s\n", mic->name, __func__, __LINE__, strerror(errno)); break; } } } if (console_poll[NET_FD_VIRTIO_NET].revents & POLLERR) mpsslog("%s: %s: POLLERR\n", __func__, mic->name); } _close_pty: close(pty_fd); _return: pthread_exit(NULL); } static void add_virtio_device(struct mic_info *mic, struct mic_device_desc *dd) { char path[PATH_MAX]; int fd, err; snprintf(path, PATH_MAX, "/dev/mic%d", mic->id); fd = open(path, O_RDWR); if (fd < 0) { mpsslog("Could not open %s %s\n", path, strerror(errno)); return; } err = ioctl(fd, MIC_VIRTIO_ADD_DEVICE, dd); if (err < 0) { mpsslog("Could not add %d %s\n", dd->type, strerror(errno)); close(fd); return; } switch (dd->type) { case VIRTIO_ID_NET: mic->mic_net.virtio_net_fd = fd; mpsslog("Added VIRTIO_ID_NET for %s\n", mic->name); break; case VIRTIO_ID_CONSOLE: mic->mic_console.virtio_console_fd = fd; mpsslog("Added VIRTIO_ID_CONSOLE for %s\n", mic->name); break; case VIRTIO_ID_BLOCK: mic->mic_virtblk.virtio_block_fd = fd; mpsslog("Added VIRTIO_ID_BLOCK for %s\n", mic->name); break; } } static bool set_backend_file(struct mic_info *mic) { FILE *config; char buff[PATH_MAX], *line, *evv, *p; snprintf(buff, PATH_MAX, "%s/mpssd%03d.conf", mic_config_dir, mic->id); config = fopen(buff, "r"); if (config == NULL) return false; do { /* look for "virtblk_backend=XXXX" */ line = fgets(buff, PATH_MAX, config); if (line == NULL) break; if (*line == '#') continue; p = strchr(line, '\n'); if (p) *p = '\0'; } while (strncmp(line, virtblk_backend, strlen(virtblk_backend)) != 0); fclose(config); if (line == NULL) return false; evv = strchr(line, '='); if (evv == NULL) return false; mic->mic_virtblk.backend_file = malloc(strlen(evv) + 1); if (mic->mic_virtblk.backend_file == NULL) { mpsslog("%s %d can't allocate memory\n", mic->name, mic->id); return false; } strcpy(mic->mic_virtblk.backend_file, evv + 1); return true; } #define SECTOR_SIZE 512 static bool set_backend_size(struct mic_info *mic) { mic->mic_virtblk.backend_size = lseek(mic->mic_virtblk.backend, 0, SEEK_END); if (mic->mic_virtblk.backend_size < 0) { mpsslog("%s: can't seek: %s\n", mic->name, mic->mic_virtblk.backend_file); return false; } virtblk_dev_page.blk_config.capacity = mic->mic_virtblk.backend_size / SECTOR_SIZE; if ((mic->mic_virtblk.backend_size % SECTOR_SIZE) != 0) virtblk_dev_page.blk_config.capacity++; virtblk_dev_page.blk_config.capacity = htole64(virtblk_dev_page.blk_config.capacity); return true; } static bool open_backend(struct mic_info *mic) { if (!set_backend_file(mic)) goto _error_exit; mic->mic_virtblk.backend = open(mic->mic_virtblk.backend_file, O_RDWR); if (mic->mic_virtblk.backend < 0) { mpsslog("%s: can't open: %s\n", mic->name, mic->mic_virtblk.backend_file); goto _error_free; } if (!set_backend_size(mic)) goto _error_close; mic->mic_virtblk.backend_addr = mmap(NULL, mic->mic_virtblk.backend_size, PROT_READ|PROT_WRITE, MAP_SHARED, mic->mic_virtblk.backend, 0L); if (mic->mic_virtblk.backend_addr == MAP_FAILED) { mpsslog("%s: can't map: %s %s\n", mic->name, mic->mic_virtblk.backend_file, strerror(errno)); goto _error_close; } return true; _error_close: close(mic->mic_virtblk.backend); _error_free: free(mic->mic_virtblk.backend_file); _error_exit: return false; } static void close_backend(struct mic_info *mic) { munmap(mic->mic_virtblk.backend_addr, mic->mic_virtblk.backend_size); close(mic->mic_virtblk.backend); free(mic->mic_virtblk.backend_file); } static bool start_virtblk(struct mic_info *mic, struct mic_vring *vring) { if (((unsigned long)&virtblk_dev_page.blk_config % 8) != 0) { mpsslog("%s: blk_config is not 8 byte aligned.\n", mic->name); return false; } add_virtio_device(mic, &virtblk_dev_page.dd); if (MAP_FAILED == init_vr(mic, mic->mic_virtblk.virtio_block_fd, VIRTIO_ID_BLOCK, vring, NULL, virtblk_dev_page.dd.num_vq)) { mpsslog("%s init_vr failed %s\n", mic->name, strerror(errno)); return false; } return true; } static void stop_virtblk(struct mic_info *mic) { int vr_size, ret; vr_size = PAGE_ALIGN(_vring_size(MIC_VRING_ENTRIES, MIC_VIRTIO_RING_ALIGN) + sizeof(struct _mic_vring_info)); ret = munmap(mic->mic_virtblk.block_dp, MIC_DEVICE_PAGE_END + vr_size * virtblk_dev_page.dd.num_vq); if (ret < 0) mpsslog("%s munmap errno %d\n", mic->name, errno); close(mic->mic_virtblk.virtio_block_fd); } static __u8 header_error_check(struct vring_desc *desc) { if (le32toh(desc->len) != sizeof(struct virtio_blk_outhdr)) { mpsslog("%s() %d: length is not sizeof(virtio_blk_outhd)\n", __func__, __LINE__); return -EIO; } if (!(le16toh(desc->flags) & VRING_DESC_F_NEXT)) { mpsslog("%s() %d: alone\n", __func__, __LINE__); return -EIO; } if (le16toh(desc->flags) & VRING_DESC_F_WRITE) { mpsslog("%s() %d: not read\n", __func__, __LINE__); return -EIO; } return 0; } static int read_header(int fd, struct virtio_blk_outhdr *hdr, __u32 desc_idx) { struct iovec iovec; struct mic_copy_desc copy; iovec.iov_len = sizeof(*hdr); iovec.iov_base = hdr; copy.iov = &iovec; copy.iovcnt = 1; copy.vr_idx = 0; /* only one vring on virtio_block */ copy.update_used = false; /* do not update used index */ return ioctl(fd, MIC_VIRTIO_COPY_DESC, ©); } static int transfer_blocks(int fd, struct iovec *iovec, __u32 iovcnt) { struct mic_copy_desc copy; copy.iov = iovec; copy.iovcnt = iovcnt; copy.vr_idx = 0; /* only one vring on virtio_block */ copy.update_used = false; /* do not update used index */ return ioctl(fd, MIC_VIRTIO_COPY_DESC, ©); } static __u8 status_error_check(struct vring_desc *desc) { if (le32toh(desc->len) != sizeof(__u8)) { mpsslog("%s() %d: length is not sizeof(status)\n", __func__, __LINE__); return -EIO; } return 0; } static int write_status(int fd, __u8 *status) { struct iovec iovec; struct mic_copy_desc copy; iovec.iov_base = status; iovec.iov_len = sizeof(*status); copy.iov = &iovec; copy.iovcnt = 1; copy.vr_idx = 0; /* only one vring on virtio_block */ copy.update_used = true; /* Update used index */ return ioctl(fd, MIC_VIRTIO_COPY_DESC, ©); } #ifndef VIRTIO_BLK_T_GET_ID #define VIRTIO_BLK_T_GET_ID 8 #endif static void * virtio_block(void *arg) { struct mic_info *mic = (struct mic_info *)arg; int ret; struct pollfd block_poll; struct mic_vring vring; __u16 avail_idx; __u32 desc_idx; struct vring_desc *desc; struct iovec *iovec, *piov; __u8 status; __u32 buffer_desc_idx; struct virtio_blk_outhdr hdr; void *fos; for (;;) { /* forever */ if (!open_backend(mic)) { /* No virtblk */ for (mic->mic_virtblk.signaled = 0; !mic->mic_virtblk.signaled;) sleep(1); continue; } /* backend file is specified. */ if (!start_virtblk(mic, &vring)) goto _close_backend; iovec = malloc(sizeof(*iovec) * le32toh(virtblk_dev_page.blk_config.seg_max)); if (!iovec) { mpsslog("%s: can't alloc iovec: %s\n", mic->name, strerror(ENOMEM)); goto _stop_virtblk; } block_poll.fd = mic->mic_virtblk.virtio_block_fd; block_poll.events = POLLIN; for (mic->mic_virtblk.signaled = 0; !mic->mic_virtblk.signaled;) { block_poll.revents = 0; /* timeout in 1 sec to see signaled */ ret = poll(&block_poll, 1, 1000); if (ret < 0) { mpsslog("%s %d: poll failed: %s\n", __func__, __LINE__, strerror(errno)); continue; } if (!(block_poll.revents & POLLIN)) { #ifdef DEBUG mpsslog("%s %d: block_poll.revents=0x%x\n", __func__, __LINE__, block_poll.revents); #endif continue; } /* POLLIN */ while (vring.info->avail_idx != le16toh(vring.vr.avail->idx)) { /* read header element */ avail_idx = vring.info->avail_idx & (vring.vr.num - 1); desc_idx = le16toh( vring.vr.avail->ring[avail_idx]); desc = &vring.vr.desc[desc_idx]; #ifdef DEBUG mpsslog("%s() %d: avail_idx=%d ", __func__, __LINE__, vring.info->avail_idx); mpsslog("vring.vr.num=%d desc=%p\n", vring.vr.num, desc); #endif status = header_error_check(desc); ret = read_header( mic->mic_virtblk.virtio_block_fd, &hdr, desc_idx); if (ret < 0) { mpsslog("%s() %d %s: ret=%d %s\n", __func__, __LINE__, mic->name, ret, strerror(errno)); break; } /* buffer element */ piov = iovec; status = 0; fos = mic->mic_virtblk.backend_addr + (hdr.sector * SECTOR_SIZE); buffer_desc_idx = next_desc(desc); desc_idx = buffer_desc_idx; for (desc = &vring.vr.desc[buffer_desc_idx]; desc->flags & VRING_DESC_F_NEXT; desc_idx = next_desc(desc), desc = &vring.vr.desc[desc_idx]) { piov->iov_len = desc->len; piov->iov_base = fos; piov++; fos += desc->len; } /* Returning NULLs for VIRTIO_BLK_T_GET_ID. */ if (hdr.type & ~(VIRTIO_BLK_T_OUT | VIRTIO_BLK_T_GET_ID)) { /* VIRTIO_BLK_T_IN - does not do anything. Probably for documenting. VIRTIO_BLK_T_SCSI_CMD - for virtio_scsi. VIRTIO_BLK_T_FLUSH - turned off in config space. VIRTIO_BLK_T_BARRIER - defined but not used in anywhere. */ mpsslog("%s() %d: type %x ", __func__, __LINE__, hdr.type); mpsslog("is not supported\n"); status = -ENOTSUP; } else { ret = transfer_blocks( mic->mic_virtblk.virtio_block_fd, iovec, piov - iovec); if (ret < 0 && status != 0) status = ret; } /* write status and update used pointer */ if (status != 0) status = status_error_check(desc); ret = write_status( mic->mic_virtblk.virtio_block_fd, &status); #ifdef DEBUG mpsslog("%s() %d: write status=%d on desc=%p\n", __func__, __LINE__, status, desc); #endif } } free(iovec); _stop_virtblk: stop_virtblk(mic); _close_backend: close_backend(mic); } /* forever */ pthread_exit(NULL); } static void reset(struct mic_info *mic) { #define RESET_TIMEOUT 120 int i = RESET_TIMEOUT; setsysfs(mic->name, "state", "reset"); while (i) { char *state; state = readsysfs(mic->name, "state"); if (!state) goto retry; mpsslog("%s: %s %d state %s\n", mic->name, __func__, __LINE__, state); if (!strcmp(state, "ready")) { free(state); break; } free(state); retry: sleep(1); i--; } } static int get_mic_shutdown_status(struct mic_info *mic, char *shutdown_status) { if (!strcmp(shutdown_status, "nop")) return MIC_NOP; if (!strcmp(shutdown_status, "crashed")) return MIC_CRASHED; if (!strcmp(shutdown_status, "halted")) return MIC_HALTED; if (!strcmp(shutdown_status, "poweroff")) return MIC_POWER_OFF; if (!strcmp(shutdown_status, "restart")) return MIC_RESTART; mpsslog("%s: BUG invalid status %s\n", mic->name, shutdown_status); /* Invalid state */ assert(0); }; static int get_mic_state(struct mic_info *mic) { char *state = NULL; enum mic_states mic_state; while (!state) { state = readsysfs(mic->name, "state"); sleep(1); } mpsslog("%s: %s %d state %s\n", mic->name, __func__, __LINE__, state); if (!strcmp(state, "ready")) { mic_state = MIC_READY; } else if (!strcmp(state, "booting")) { mic_state = MIC_BOOTING; } else if (!strcmp(state, "online")) { mic_state = MIC_ONLINE; } else if (!strcmp(state, "shutting_down")) { mic_state = MIC_SHUTTING_DOWN; } else if (!strcmp(state, "reset_failed")) { mic_state = MIC_RESET_FAILED; } else if (!strcmp(state, "resetting")) { mic_state = MIC_RESETTING; } else { mpsslog("%s: BUG invalid state %s\n", mic->name, state); assert(0); } free(state); return mic_state; }; static void mic_handle_shutdown(struct mic_info *mic) { #define SHUTDOWN_TIMEOUT 60 int i = SHUTDOWN_TIMEOUT; char *shutdown_status; while (i) { shutdown_status = readsysfs(mic->name, "shutdown_status"); if (!shutdown_status) { sleep(1); continue; } mpsslog("%s: %s %d shutdown_status %s\n", mic->name, __func__, __LINE__, shutdown_status); switch (get_mic_shutdown_status(mic, shutdown_status)) { case MIC_RESTART: mic->restart = 1; case MIC_HALTED: case MIC_POWER_OFF: case MIC_CRASHED: free(shutdown_status); goto reset; default: break; } free(shutdown_status); sleep(1); i--; } reset: if (!i) mpsslog("%s: %s %d timing out waiting for shutdown_status %s\n", mic->name, __func__, __LINE__, shutdown_status); reset(mic); } static int open_state_fd(struct mic_info *mic) { char pathname[PATH_MAX]; int fd; snprintf(pathname, PATH_MAX - 1, "%s/%s/%s", MICSYSFSDIR, mic->name, "state"); fd = open(pathname, O_RDONLY); if (fd < 0) mpsslog("%s: opening file %s failed %s\n", mic->name, pathname, strerror(errno)); return fd; } static int block_till_state_change(int fd, struct mic_info *mic) { struct pollfd ufds[1]; char value[PAGE_SIZE]; int ret; ufds[0].fd = fd; ufds[0].events = POLLERR | POLLPRI; ret = poll(ufds, 1, -1); if (ret < 0) { mpsslog("%s: %s %d poll failed %s\n", mic->name, __func__, __LINE__, strerror(errno)); return ret; } ret = lseek(fd, 0, SEEK_SET); if (ret < 0) { mpsslog("%s: %s %d Failed to seek to 0: %s\n", mic->name, __func__, __LINE__, strerror(errno)); return ret; } ret = read(fd, value, sizeof(value)); if (ret < 0) { mpsslog("%s: %s %d Failed to read sysfs entry: %s\n", mic->name, __func__, __LINE__, strerror(errno)); return ret; } return 0; } static void * mic_config(void *arg) { struct mic_info *mic = (struct mic_info *)arg; int fd, ret, stat = 0; fd = open_state_fd(mic); if (fd < 0) { mpsslog("%s: %s %d open state fd failed %s\n", mic->name, __func__, __LINE__, strerror(errno)); goto exit; } do { ret = block_till_state_change(fd, mic); if (ret < 0) { mpsslog("%s: %s %d block_till_state_change error %s\n", mic->name, __func__, __LINE__, strerror(errno)); goto close_exit; } switch (get_mic_state(mic)) { case MIC_SHUTTING_DOWN: mic_handle_shutdown(mic); break; case MIC_READY: case MIC_RESET_FAILED: ret = kill(mic->pid, SIGTERM); mpsslog("%s: %s %d kill pid %d ret %d\n", mic->name, __func__, __LINE__, mic->pid, ret); if (!ret) { ret = waitpid(mic->pid, &stat, WIFSIGNALED(stat)); mpsslog("%s: %s %d waitpid ret %d pid %d\n", mic->name, __func__, __LINE__, ret, mic->pid); } if (mic->boot_on_resume) { setsysfs(mic->name, "state", "boot"); mic->boot_on_resume = 0; } goto close_exit; default: break; } } while (1); close_exit: close(fd); exit: init_mic(mic); pthread_exit(NULL); } static void set_cmdline(struct mic_info *mic) { char buffer[PATH_MAX]; int len; len = snprintf(buffer, PATH_MAX, "clocksource=tsc highres=off nohz=off "); len += snprintf(buffer + len, PATH_MAX, "cpufreq_on;corec6_off;pc3_off;pc6_off "); len += snprintf(buffer + len, PATH_MAX, "ifcfg=static;address,172.31.%d.1;netmask,255.255.255.0", mic->id + 1); setsysfs(mic->name, "cmdline", buffer); mpsslog("%s: Command line: \"%s\"\n", mic->name, buffer); snprintf(buffer, PATH_MAX, "172.31.%d.1", mic->id + 1); mpsslog("%s: IPADDR: \"%s\"\n", mic->name, buffer); } static void set_log_buf_info(struct mic_info *mic) { int fd; off_t len; char system_map[] = "/lib/firmware/mic/System.map"; char *map, *temp, log_buf[17] = {'\0'}; fd = open(system_map, O_RDONLY); if (fd < 0) { mpsslog("%s: Opening System.map failed: %d\n", mic->name, errno); return; } len = lseek(fd, 0, SEEK_END); if (len < 0) { mpsslog("%s: Reading System.map size failed: %d\n", mic->name, errno); close(fd); return; } map = mmap(NULL, len, PROT_READ, MAP_PRIVATE, fd, 0); if (map == MAP_FAILED) { mpsslog("%s: mmap of System.map failed: %d\n", mic->name, errno); close(fd); return; } temp = strstr(map, "__log_buf"); if (!temp) { mpsslog("%s: __log_buf not found: %d\n", mic->name, errno); munmap(map, len); close(fd); return; } strncpy(log_buf, temp - 19, 16); setsysfs(mic->name, "log_buf_addr", log_buf); mpsslog("%s: log_buf_addr: %s\n", mic->name, log_buf); temp = strstr(map, "log_buf_len"); if (!temp) { mpsslog("%s: log_buf_len not found: %d\n", mic->name, errno); munmap(map, len); close(fd); return; } strncpy(log_buf, temp - 19, 16); setsysfs(mic->name, "log_buf_len", log_buf); mpsslog("%s: log_buf_len: %s\n", mic->name, log_buf); munmap(map, len); close(fd); } static void change_virtblk_backend(int x, siginfo_t *siginfo, void *p) { struct mic_info *mic; for (mic = mic_list.next; mic != NULL; mic = mic->next) mic->mic_virtblk.signaled = 1/* true */; } static void set_mic_boot_params(struct mic_info *mic) { set_log_buf_info(mic); set_cmdline(mic); } static void * init_mic(void *arg) { struct mic_info *mic = (struct mic_info *)arg; struct sigaction ignore = { .sa_flags = 0, .sa_handler = SIG_IGN }; struct sigaction act = { .sa_flags = SA_SIGINFO, .sa_sigaction = change_virtblk_backend, }; char buffer[PATH_MAX]; int err, fd; /* * Currently, one virtio block device is supported for each MIC card * at a time. Any user (or test) can send a SIGUSR1 to the MIC daemon. * The signal informs the virtio block backend about a change in the * configuration file which specifies the virtio backend file name on * the host. Virtio block backend then re-reads the configuration file * and switches to the new block device. This signalling mechanism may * not be required once multiple virtio block devices are supported by * the MIC daemon. */ sigaction(SIGUSR1, &ignore, NULL); retry: fd = open_state_fd(mic); if (fd < 0) { mpsslog("%s: %s %d open state fd failed %s\n", mic->name, __func__, __LINE__, strerror(errno)); sleep(2); goto retry; } if (mic->restart) { snprintf(buffer, PATH_MAX, "boot"); setsysfs(mic->name, "state", buffer); mpsslog("%s restarting mic %d\n", mic->name, mic->restart); mic->restart = 0; } while (1) { while (block_till_state_change(fd, mic)) { mpsslog("%s: %s %d block_till_state_change error %s\n", mic->name, __func__, __LINE__, strerror(errno)); sleep(2); continue; } if (get_mic_state(mic) == MIC_BOOTING) break; } mic->pid = fork(); switch (mic->pid) { case 0: add_virtio_device(mic, &virtcons_dev_page.dd); add_virtio_device(mic, &virtnet_dev_page.dd); err = pthread_create(&mic->mic_console.console_thread, NULL, virtio_console, mic); if (err) mpsslog("%s virtcons pthread_create failed %s\n", mic->name, strerror(err)); err = pthread_create(&mic->mic_net.net_thread, NULL, virtio_net, mic); if (err) mpsslog("%s virtnet pthread_create failed %s\n", mic->name, strerror(err)); err = pthread_create(&mic->mic_virtblk.block_thread, NULL, virtio_block, mic); if (err) mpsslog("%s virtblk pthread_create failed %s\n", mic->name, strerror(err)); sigemptyset(&act.sa_mask); err = sigaction(SIGUSR1, &act, NULL); if (err) mpsslog("%s sigaction SIGUSR1 failed %s\n", mic->name, strerror(errno)); while (1) sleep(60); case -1: mpsslog("fork failed MIC name %s id %d errno %d\n", mic->name, mic->id, errno); break; default: err = pthread_create(&mic->config_thread, NULL, mic_config, mic); if (err) mpsslog("%s mic_config pthread_create failed %s\n", mic->name, strerror(err)); } return NULL; } static void start_daemon(void) { struct mic_info *mic; int err; for (mic = mic_list.next; mic; mic = mic->next) { set_mic_boot_params(mic); err = pthread_create(&mic->init_thread, NULL, init_mic, mic); if (err) mpsslog("%s init_mic pthread_create failed %s\n", mic->name, strerror(err)); } while (1) sleep(60); } static int init_mic_list(void) { struct mic_info *mic = &mic_list; struct dirent *file; DIR *dp; int cnt = 0; dp = opendir(MICSYSFSDIR); if (!dp) return 0; while ((file = readdir(dp)) != NULL) { if (!strncmp(file->d_name, "mic", 3)) { mic->next = calloc(1, sizeof(struct mic_info)); if (mic->next) { mic = mic->next; mic->id = atoi(&file->d_name[3]); mic->name = malloc(strlen(file->d_name) + 16); if (mic->name) strcpy(mic->name, file->d_name); mpsslog("MIC name %s id %d\n", mic->name, mic->id); cnt++; } } } closedir(dp); return cnt; } void mpsslog(char *format, ...) { va_list args; char buffer[4096]; char ts[52], *ts1; time_t t; if (logfp == NULL) return; va_start(args, format); vsprintf(buffer, format, args); va_end(args); time(&t); ts1 = ctime_r(&t, ts); ts1[strlen(ts1) - 1] = '\0'; fprintf(logfp, "%s: %s", ts1, buffer); fflush(logfp); } int main(int argc, char *argv[]) { int cnt; pid_t pid; myname = argv[0]; logfp = fopen(LOGFILE_NAME, "a+"); if (!logfp) { fprintf(stderr, "cannot open logfile '%s'\n", LOGFILE_NAME); exit(1); } pid = fork(); switch (pid) { case 0: break; case -1: exit(2); default: exit(0); } mpsslog("MIC Daemon start\n"); cnt = init_mic_list(); if (cnt == 0) { mpsslog("MIC module not loaded\n"); exit(3); } mpsslog("MIC found %d devices\n", cnt); start_daemon(); exit(0); }