static int perf_dev_fasync (int fd, struct file *p_file, int on) { int result; struct file_operations *fops; fops=file_ops(p_file); if (!fops || !fops->fasync) return -EIO; result = fops->fasync (fd, p_file, on); return result; }
static int perf_dev_open (struct inode *p_inode, struct file *p_file) { struct file_operations * fops; int result=0; int cpuid = DEV_CPUID(p_inode->i_rdev); int dev_type = DEV_TYPE(p_inode->i_rdev); /* check minor */ if (dev_type >= sizeof(fops_table)/sizeof(fops_table[0])){ printk(KERN_DEBUG "perf_dev:dev_type is too large:%d\n", dev_type); return -EINVAL; } if (cpuid>=smp_num_cpus) { printk(KERN_DEBUG "perf_dev:cpuid is too large:%d\n", cpuid); return -EINVAL; } /* save the fops table to p_file->private_data. */ if (!p_file->private_data) { p_file->private_data = kmalloc(sizeof(struct perf_dev_data), GFP_ATOMIC); if (!p_file->private_data) return -ENOMEM; memset(p_file->private_data,0,sizeof(struct perf_dev_data)); store_fops(p_file, dev_type); } fops = file_ops(p_file); /* sanity check */ if (!fops) { printk(KERN_DEBUG "perf_dev:invaild fops table\n"); kfree(p_file->private_data); p_file->private_data=NULL; return -EINVAL; } if (fops->open) { /* do open */ result = fops->open (p_inode, p_file); if (result <0) { kfree(p_file->private_data); p_file->private_data=NULL; return result; } } MOD_INC_USE_COUNT; return result; }
static unsigned int perf_dev_poll (struct file *p_file, poll_table * p_wait) { int result; struct file_operations *fops; fops=file_ops(p_file); if (!fops || !fops->poll) return -EIO; result = fops->poll (p_file, p_wait); return result; }
static int perf_dev_ioctl (struct inode *p_inode, struct file *p_file, unsigned int cmd, unsigned long arg) { int result; struct file_operations *fops; fops=file_ops(p_file); if (!fops || !fops->ioctl) return -EIO; if (cmd == PERF_IOCINTERNAL) return -EINVAL; result = fops->ioctl (p_inode, p_file, cmd, arg); return result; }
static ssize_t perf_dev_read(struct file *p_file, char * p_buffer, size_t count, loff_t * p_pos) { int result; struct file_operations *fops; fops=file_ops(p_file); if (!fops || !fops->read) return -EIO; result = fops->read (p_file, p_buffer, count, p_pos); return result; }
static int perf_dev_release (struct inode *p_inode, struct file *p_file) { int result = 0; struct file_operations *fops; fops=file_ops(p_file); if (fops && fops->release) result = fops->release (p_inode, p_file); if (p_file->private_data) { kfree(p_file->private_data); p_file->private_data=NULL; } MOD_DEC_USE_COUNT; return result; }
void handle_request(worker_type_t wtype) { const char *param, *p_method, *p_uri; char *argp; unsigned int plen; int cluster_readonly = 0, s2sreq = 0; if(sx_hashfs_cluster_get_mode(hashfs, &cluster_readonly)) { CRIT("Failed to get cluster operating mode"); quit_errmsg(500, "Internal error: failed to check cluster operating mode"); } if(sx_hashfs_distcheck(hashfs) < 0) { CRIT("Failed to reload distribution"); quit_errmsg(503, "Internal error: failed to load distribution"); } if(sx_hashfs_is_orphan(hashfs)) quit_errmsg(410, "This node is no longer a cluster member"); msg_new_id(); verb = VERB_UNSUP; p_method = FCGX_GetParam("REQUEST_METHOD", envp); if(p_method) { plen = strlen(p_method); switch(plen) { case 3: if(!memcmp(p_method, "GET", 4)) verb = VERB_GET; else if(!memcmp(p_method, "PUT", 4)) verb = VERB_PUT; break; case 4: if(!memcmp(p_method, "HEAD", 5)) verb = VERB_HEAD; else if(!memcmp(p_method, "POST", 5)) verb = VERB_POST; break; case 6: if(!memcmp(p_method, "DELETE", 7)) verb = VERB_DELETE; break; case 7: if(!memcmp(p_method, "OPTIONS", 8)) { CGI_PUTS("Allow: GET,HEAD,OPTIONS,PUT,DELETE\r\nContent-Length: 0\r\n\r\n"); return; } break; } } if(verb == VERB_UNSUP) quit_errmsg(405, "Method Not Allowed"); if(content_len()<0 || (verb != VERB_PUT && content_len())) quit_errmsg(400, "Invalid Content-Length: must be positive and method must be PUT"); p_uri = param = FCGX_GetParam("REQUEST_URI", envp); if(!p_uri) quit_errmsg(400, "No URI provided"); plen = strlen(p_uri); if(*p_uri != '/') quit_errmsg(400, "URI must start with /"); if(plen > sizeof(reqbuf) - 1) quit_errmsg(414, "URL too long: request line must be <8k"); do { param++; plen--; } while(*param == '/'); if(!strncmp(param, ".s2s/", lenof(".s2s/"))) { param += lenof(".s2s/"); plen -= lenof(".s2s/"); while(*param == '/') { param++; plen--; } s2sreq = 1; } if(wtype == WORKER_S2S && !s2sreq) WARN("Misconfiguration detected. Please make sure your restricted-socket config option is properly set."); /* FIXME: we could detect the opposite kind of mismatch * at the cost of extra complications in the wtype definition * I prefer to privilege simplicity at this point */ memcpy(reqbuf, param, plen+1); argp = memchr(reqbuf, '?', plen); nargs = 0; if(argp) { unsigned int argslen = plen - (argp - reqbuf); plen = argp - reqbuf; do { *argp = '\0'; argp++; argslen--; } while(*argp == '?'); if(!argslen) argp = NULL; else { do { char *nextarg; if(nargs >= MAX_ARGS) quit_errmsg(414, "Too many parameters"); nextarg = memchr(argp, '&', argslen); if(nextarg) { do { *nextarg = '\0'; nextarg++; } while(*nextarg == '&'); } if(*argp) { if(!(args[nargs] = inplace_urldecode(argp, 0, 0, NULL, 1))) quit_errmsg(400, "Invalid URL encoding"); if(sxi_utf8_validate_len(args[nargs]) < 0) quit_errmsg(400, "Parameters with invalid utf-8 encoding"); nargs++; } argslen -= nextarg - argp; argp = nextarg; } while (argp); } } while(plen && reqbuf[plen-1] == '/') { plen--; reqbuf[plen] = '\0'; } path = memchr(reqbuf, '/', plen); if(path) { do { *path = '\0'; path ++; } while(*path == '/'); if(!*path) path = NULL; } volume = *reqbuf ? reqbuf : NULL; int forbidden = 0; if((volume && !inplace_urldecode(volume, '/', 0, &forbidden, 0)) || (path && !inplace_urldecode(path, '/', '/', &forbidden, 0))) { if (forbidden) quit_errmsg(400, "Volume or path with forbidden %2f or %00"); else quit_errmsg(400, "Invalid URL encoding"); } int vlen = volume ? sxi_utf8_validate_len(volume) : 0; int flen = path ? strlen(path) : 0; if (vlen < 0 || flen < 0) quit_errmsg(400, "URL with invalid utf-8 encoding"); if (is_reserved()) { /* No UTF8/url-encoding used on reserved volumes, allow higher limit. * Otherwise we hit the 1024 limit with batch requests already */ if (path && strlen(path) > SXLIMIT_MAX_FILENAME_LEN * 3) { msg_set_reason("Path too long: filename must be <%d bytes (%ld)", SXLIMIT_MAX_FILENAME_LEN*3+ 1, strlen(path)); quit_errmsg(414, msg_get_reason()); } } else { if (flen > SXLIMIT_MAX_FILENAME_LEN) { msg_set_reason("Path too long: filename must be <%d bytes (%d)", SXLIMIT_MAX_FILENAME_LEN + 1, flen); quit_errmsg(414, msg_get_reason()); } } if (volume && strlen(volume) > SXLIMIT_MAX_VOLNAME_LEN) { msg_set_reason("Volume name too long: must be <= %d bytes", SXLIMIT_MAX_VOLNAME_LEN); quit_errmsg(414, msg_get_reason()); } body_ctx = sxi_md_init(); if (!body_ctx || !sxi_sha1_init(body_ctx)) quit_errmsg(500, "Failed to initialize crypto engine"); hmac_ctx = sxi_hmac_sha1_init(); if (!hmac_ctx) quit_errmsg(503, "Cannot initialize crypto library"); authed = AUTH_NOTAUTH; role = PRIV_NONE; /* Begin auth check */ uint8_t buf[AUTHTOK_BIN_LEN], key[AUTH_KEY_LEN]; unsigned int blen = sizeof(buf); time_t reqdate, now; param = FCGX_GetParam("HTTP_AUTHORIZATION", envp); if(!param || strlen(param) != lenof("SKY ") + AUTHTOK_ASCII_LEN || strncmp(param, "SKY ", 4)) { if(volume) { send_authreq(); return; } quit_home(); } if(sxi_b64_dec_core(param+4, buf, &blen) || blen != sizeof(buf)) { send_authreq(); return; } memcpy(user, buf, sizeof(user)); memcpy(rhmac, buf+20, sizeof(rhmac)); if(sx_hashfs_get_user_info(hashfs, user, &uid, key, &role, NULL, &user_quota) != OK) /* no such user */ { DEBUG("No such user: %s", param+4); send_authreq(); return; } DEBUG("Request from uid %lld", (long long)uid); if(cluster_readonly && (verb == VERB_PUT || verb == VERB_DELETE) && !has_priv(PRIV_CLUSTER) && !has_priv(PRIV_ADMIN)) quit_errmsg(503, "Cluster is in read-only mode"); if(s2sreq && !has_priv(PRIV_CLUSTER)) { send_authreq(); return; } if(!sxi_hmac_sha1_init_ex(hmac_ctx, key, sizeof(key))) { WARN("hmac_init failed"); quit_errmsg(500, "Failed to initialize crypto engine"); } if(!sxi_hmac_sha1_update_str(hmac_ctx, p_method)) quit_errmsg(500, "Crypto error authenticating the request"); if(!sxi_hmac_sha1_update_str(hmac_ctx, p_uri+1)) quit_errmsg(500, "Crypto error authenticating the request"); param = FCGX_GetParam("HTTP_DATE", envp); if(!param) quit_errmsg(400, "Missing Date: header"); if(httpdate_to_time_t(param, &reqdate)) quit_errmsg(400, "Date header in wrong format"); now = time(NULL); if(reqdate < now - MAX_CLOCK_DRIFT * 60 || reqdate > now + MAX_CLOCK_DRIFT * 60) { CGI_PUTS("WWW-Authenticate: SKY realm=\"SXCLOCK\"\r\n"); quit_errmsg(401, "Client clock drifted more than "STRIFY(MAX_CLOCK_DRIFT)" minutes"); } if(!sxi_hmac_sha1_update_str(hmac_ctx, param)) quit_errmsg(500, "Crypto error authenticating the request"); if(!content_len()) { /* If no body is present, complete authentication now */ uint8_t chmac[20]; unsigned int chmac_len = 20; if(!sxi_hmac_sha1_update_str(hmac_ctx, "da39a3ee5e6b4b0d3255bfef95601890afd80709")) quit_errmsg(500, "Crypto error authenticating the request"); if(!sxi_hmac_sha1_final(hmac_ctx, chmac, &chmac_len)) quit_errmsg(500, "Crypto error authenticating the request"); if(!hmac_compare(chmac, rhmac, sizeof(rhmac))) { authed = AUTH_OK; } else { /* WARN("auth mismatch"); */ send_authreq(); return; } } else /* Otherwise set it as pending */ authed = AUTH_BODYCHECK; if(has_priv(PRIV_CLUSTER) && sx_hashfs_uses_secure_proto(hashfs) != is_https() && !sx_storage_is_bare(hashfs)) { /* programmed nodes: must obey cluster SSL mode * unprogrammed nodes: can use SSL instead of non-SSL, * it is the cluster's responsibility to initiate programming via SSL, * as the unprogrammed node would accept both * * */ WARN("hashfs use-ssl: %d, https: %d, is_bare: %d", sx_hashfs_uses_secure_proto(hashfs), is_https(), sx_storage_is_bare(hashfs)); quit_errmsg(403, sx_hashfs_uses_secure_proto(hashfs) ? "Cluster operations require SECURE mode" : "Cluster operations require INSECURE mode"); } if(!volume) cluster_ops(); else if(!path) volume_ops(); else file_ops(); if(authed == AUTH_BODYCHECKING) DEBUG("Bad request signature"); sxi_hmac_sha1_cleanup(&hmac_ctx); sxi_md_cleanup(&body_ctx); }
void handle_request(void) { const char *param; char *argp; unsigned int plen; msg_new_id(); verb = VERB_UNSUP; param = FCGX_GetParam("REQUEST_METHOD", envp); if(param) { plen = strlen(param); switch(plen) { case 3: if(!memcmp(param, "GET", 4)) verb = VERB_GET; else if(!memcmp(param, "PUT", 4)) verb = VERB_PUT; break; case 4: if(!memcmp(param, "HEAD", 5)) verb = VERB_HEAD; else if(!memcmp(param, "POST", 5)) verb = VERB_POST; break; case 6: if(!memcmp(param, "DELETE", 7)) verb = VERB_DELETE; break; case 7: if(!memcmp(param, "OPTIONS", 8)) { CGI_PUTS("Allow: GET,HEAD,OPTIONS,PUT,DELETE\r\nContent-Length: 0\r\n\r\n"); return; } break; } } if(verb == VERB_UNSUP) quit_errmsg(405, "Method Not Allowed"); if(content_len()<0 || (verb != VERB_PUT && content_len())) quit_errmsg(400, "Invalid Content-Length: must be positive and method must be PUT"); param = FCGX_GetParam("REQUEST_URI", envp); if(!param) quit_errmsg(400, "No URI provided"); plen = strlen(param); if(*param != '/') quit_errmsg(400, "URI must start with /"); if(plen > sizeof(reqbuf) - 1) quit_errmsg(414, "URL too long: request line must be <8k"); do { param++; plen--; } while(*param == '/'); memcpy(reqbuf, param, plen+1); argp = memchr(reqbuf, '?', plen); nargs = 0; if(argp) { unsigned int argslen = plen - (argp - reqbuf); plen = argp - reqbuf; do { *argp = '\0'; argp++; argslen--; } while(*argp == '?'); if(!argslen) argp = NULL; else { do { char *nextarg; if(nargs >= MAX_ARGS) quit_errmsg(414, "Too many parameters"); nextarg = memchr(argp, '&', argslen); if(nextarg) { do { *nextarg = '\0'; nextarg++; } while(*nextarg == '&'); } if(*argp) { if(!(args[nargs] = inplace_urldecode(argp, 0, 0, NULL))) quit_errmsg(400, "Invalid URL encoding"); if(utf8_validate_len(args[nargs]) < 0) quit_errmsg(400, "Parameters with invalid utf-8 encoding"); nargs++; } argslen -= nextarg - argp; argp = nextarg; } while (argp); } } while(plen && reqbuf[plen-1] == '/') { plen--; reqbuf[plen] = '\0'; } path = memchr(reqbuf, '/', plen); if(path) { do { *path = '\0'; path ++; } while(*path == '/'); if(!*path) path = NULL; } volume = *reqbuf ? reqbuf : NULL; int forbidden = 0; if((volume && !inplace_urldecode(volume, '/', 0, &forbidden)) || (path && !inplace_urldecode(path, '/', '/', &forbidden))) { if (forbidden) quit_errmsg(400, "Volume or path with forbidden %2f or %00"); else quit_errmsg(400, "Invalid URL encoding"); } int vlen = volume ? utf8_validate_len(volume) : 0; int flen = path ? utf8_validate_len(path) : 0; if (vlen < 0 || flen < 0) quit_errmsg(400, "URL with invalid utf-8 encoding"); if (is_reserved()) { /* No UTF8 used on reserved volumes, allow higher limit. * Otherwise we hit the 512 limit with batch requests already */ if (path && strlen(path) > SXLIMIT_MAX_FILENAME_LEN * 12) { msg_set_reason("Path too long: filename must be <%d characters (%ld)", SXLIMIT_MAX_FILENAME_LEN*12+ 1, strlen(path)); quit_errmsg(414, msg_get_reason()); } } else { if (flen > SXLIMIT_MAX_FILENAME_LEN) { msg_set_reason("Path too long: filename must be <%d UTF8 characters (%d)", SXLIMIT_MAX_FILENAME_LEN + 1, flen); quit_errmsg(414, msg_get_reason()); } } if (volume && strlen(volume) > SXLIMIT_MAX_VOLNAME_LEN) { msg_set_reason("Volume name too long: must be <= %d bytes", SXLIMIT_MAX_VOLNAME_LEN); quit_errmsg(414, msg_get_reason()); } if(!EVP_DigestInit(&body_ctx, EVP_sha1())) quit_errmsg(500, "Failed to initialize crypto engine"); HMAC_CTX_init(&hmac_ctx); authed = AUTH_NOTAUTH; role = PRIV_NONE; auth_begin(); if(has_priv(PRIV_CLUSTER) && sx_hashfs_uses_secure_proto(hashfs) != is_https() && !sx_storage_is_bare(hashfs)) { /* programmed nodes: must obey cluster SSL mode * unprogrammed nodes: can use SSL instead of non-SSL, * it is the cluster's responsibility to initiate programming via SSL, * as the unprogrammed node would accept both * * */ WARN("hashfs use-ssl: %d, https: %d, is_bare: %d", sx_hashfs_uses_secure_proto(hashfs), is_https(), sx_storage_is_bare(hashfs)); quit_errmsg(403, sx_hashfs_uses_secure_proto(hashfs) ? "Cluster operations require SECURE mode" : "Cluster operations require INSECURE mode"); } int dc = sx_hashfs_distcheck(hashfs); if(dc < 0) { CRIT("Failed to reload distribution"); /* MODHDIST: should die here */ } if(!volume) cluster_ops(); else if(!path) volume_ops(); else file_ops(); if(authed == AUTH_BODYCHECKING) WARN("FIXME: Security fail"); HMAC_CTX_cleanup(&hmac_ctx); EVP_MD_CTX_cleanup(&body_ctx); }