/* * Copyright (c) 2025 Miroslav Cimerman * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup hr * @{ */ /** * @file */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "fge.h" #include "io.h" #include "superblock.h" #include "util.h" #include "var.h" loc_srv_t *hr_srv; list_t hr_volumes; fibril_rwlock_t hr_volumes_lock; static service_id_t ctl_sid; static void hr_auto_assemble_srv(ipc_call_t *icall) { HR_DEBUG("%s()", __func__); errno_t rc; size_t size; size_t assembled_cnt = 0; ipc_call_t call; if (!async_data_read_receive(&call, &size)) { async_answer_0(icall, EREFUSED); return; } if (size != sizeof(size_t)) { async_answer_0(icall, EINVAL); return; } rc = hr_util_try_auto_assemble(&assembled_cnt); if (rc != EOK) { async_answer_0(&call, rc); async_answer_0(icall, rc); return; } rc = async_data_read_finalize(&call, &assembled_cnt, size); if (rc != EOK) { async_answer_0(&call, rc); async_answer_0(icall, rc); return; } async_answer_0(icall, EOK); } static void hr_create_srv(ipc_call_t *icall, bool assemble) { HR_DEBUG("%s()", __func__); errno_t rc; size_t i, size; hr_config_t *cfg; hr_volume_t *new_volume; ipc_call_t call; if (!async_data_write_receive(&call, &size)) { async_answer_0(&call, EREFUSED); async_answer_0(icall, EREFUSED); return; } if (size != sizeof(hr_config_t)) { async_answer_0(&call, EINVAL); async_answer_0(icall, EINVAL); return; } cfg = calloc(1, sizeof(hr_config_t)); if (cfg == NULL) { async_answer_0(&call, ENOMEM); async_answer_0(icall, ENOMEM); return; } rc = async_data_write_finalize(&call, cfg, size); if (rc != EOK) { free(cfg); async_answer_0(&call, rc); async_answer_0(icall, rc); return; } /* * If there was a missing device provided * for creation of a new array, abort */ if (!assemble) { for (i = 0; i < cfg->dev_no; i++) { if (cfg->devs[i] == 0) { /* * XXX: own error codes, no need to log this... * its user error not service error */ HR_ERROR("missing device provided for array " "creation, aborting"); free(cfg); async_answer_0(icall, EINVAL); return; } } } rc = hr_create_vol_struct(&new_volume, cfg->level); if (rc != EOK) { free(cfg); async_answer_0(icall, rc); return; } str_cpy(new_volume->devname, HR_DEVNAME_LEN, cfg->devname); for (i = 0; i < cfg->dev_no; i++) new_volume->extents[i].svc_id = cfg->devs[i]; new_volume->level = cfg->level; new_volume->extent_no = cfg->dev_no; rc = hr_init_devs(new_volume); if (rc != EOK) { free(cfg); free(new_volume); async_answer_0(icall, rc); return; } if (assemble) { if (cfg->level != HR_LVL_UNKNOWN) HR_DEBUG("level manually set when assembling, ingoring"); new_volume->level = HR_LVL_UNKNOWN; } if (assemble) { /* just bsize needed for reading metadata later */ rc = hr_check_devs(new_volume, NULL, &new_volume->bsize); if (rc != EOK) goto error; rc = hr_fill_vol_from_meta(new_volume); if (rc != EOK) goto error; } if (!assemble) { new_volume->hr_ops.init(new_volume); if (rc != EOK) goto error; rc = hr_write_meta_to_vol(new_volume); if (rc != EOK) goto error; } rc = new_volume->hr_ops.create(new_volume); if (rc != EOK) goto error; rc = hr_register_volume(new_volume); if (rc != EOK) goto error; fibril_rwlock_write_lock(&hr_volumes_lock); list_append(&new_volume->lvolumes, &hr_volumes); fibril_rwlock_write_unlock(&hr_volumes_lock); if (assemble) { HR_DEBUG("assembled volume \"%s\" (%" PRIun ")\n", new_volume->devname, new_volume->svc_id); } else { HR_DEBUG("created volume \"%s\" (%" PRIun ")\n", new_volume->devname, new_volume->svc_id); } free(cfg); async_answer_0(icall, rc); return; error: free(cfg); hr_destroy_vol_struct(new_volume); async_answer_0(icall, rc); } static void hr_stop_srv(ipc_call_t *icall) { HR_DEBUG("%s()", __func__); errno_t rc = EOK; service_id_t svc_id; long fail_extent; hr_volume_t *vol; svc_id = ipc_get_arg1(icall); fail_extent = (long)ipc_get_arg2(icall); vol = hr_get_volume(svc_id); if (vol == NULL) { async_answer_0(icall, ENOENT); return; } if (fail_extent == -1) { rc = hr_remove_volume(svc_id); if (rc != EOK) { async_answer_0(icall, rc); return; } } else { fibril_rwlock_write_lock(&vol->states_lock); fibril_rwlock_read_lock(&vol->extents_lock); /* TODO: maybe expose extent state callbacks */ hr_update_ext_status(vol, fail_extent, HR_EXT_FAILED); hr_mark_vol_state_dirty(vol); fibril_rwlock_read_unlock(&vol->extents_lock); fibril_rwlock_write_unlock(&vol->states_lock); vol->hr_ops.status_event(vol); } async_answer_0(icall, rc); } static void hr_add_hotspare_srv(ipc_call_t *icall) { HR_DEBUG("%s()", __func__); errno_t rc = EOK; service_id_t vol_svc_id; service_id_t hotspare; hr_volume_t *vol; vol_svc_id = ipc_get_arg1(icall); hotspare = ipc_get_arg2(icall); vol = hr_get_volume(vol_svc_id); if (vol == NULL) { async_answer_0(icall, ENOENT); return; } if (vol->hr_ops.add_hotspare == NULL) { HR_DEBUG("hr_add_hotspare(): not supported on RAID level %d\n", vol->level); async_answer_0(icall, ENOTSUP); return; } rc = vol->hr_ops.add_hotspare(vol, hotspare); async_answer_0(icall, rc); } static void hr_print_status_srv(ipc_call_t *icall) { HR_DEBUG("%s()", __func__); errno_t rc; size_t vol_cnt = 0; hr_vol_info_t info; ipc_call_t call; size_t size; fibril_rwlock_read_lock(&hr_volumes_lock); vol_cnt = list_count(&hr_volumes); if (!async_data_read_receive(&call, &size)) { rc = EREFUSED; goto error; } if (size != sizeof(size_t)) { rc = EINVAL; goto error; } rc = async_data_read_finalize(&call, &vol_cnt, size); if (rc != EOK) goto error; list_foreach(hr_volumes, lvolumes, hr_volume_t, vol) { memcpy(info.extents, vol->extents, sizeof(hr_extent_t) * HR_MAX_EXTENTS); memcpy(info.hotspares, vol->hotspares, sizeof(hr_extent_t) * HR_MAX_HOTSPARES); info.svc_id = vol->svc_id; info.extent_no = vol->extent_no; info.hotspare_no = vol->hotspare_no; info.level = vol->level; /* print usable number of blocks */ info.nblocks = vol->data_blkno; info.strip_size = vol->strip_size; info.bsize = vol->bsize; info.status = vol->status; info.layout = vol->layout; if (!async_data_read_receive(&call, &size)) { rc = EREFUSED; goto error; } if (size != sizeof(hr_vol_info_t)) { rc = EINVAL; goto error; } rc = async_data_read_finalize(&call, &info, size); if (rc != EOK) goto error; } fibril_rwlock_read_unlock(&hr_volumes_lock); async_answer_0(icall, EOK); return; error: fibril_rwlock_read_unlock(&hr_volumes_lock); async_answer_0(&call, rc); async_answer_0(icall, rc); } static void hr_ctl_conn(ipc_call_t *icall, void *arg) { HR_DEBUG("%s()", __func__); async_accept_0(icall); while (true) { ipc_call_t call; async_get_call(&call); sysarg_t method = ipc_get_imethod(&call); if (!method) { async_answer_0(&call, EOK); return; } switch (method) { case HR_CREATE: hr_create_srv(&call, false); break; case HR_ASSEMBLE: hr_create_srv(&call, true); break; case HR_AUTO_ASSEMBLE: hr_auto_assemble_srv(&call); break; case HR_STOP: hr_stop_srv(&call); break; case HR_ADD_HOTSPARE: hr_add_hotspare_srv(&call); break; case HR_STATUS: hr_print_status_srv(&call); break; default: async_answer_0(&call, EINVAL); } } } static void hr_client_conn(ipc_call_t *icall, void *arg) { HR_DEBUG("%s()", __func__); hr_volume_t *vol; service_id_t svc_id = ipc_get_arg2(icall); if (svc_id == ctl_sid) { hr_ctl_conn(icall, arg); } else { HR_DEBUG("bd_conn()\n"); vol = hr_get_volume(svc_id); if (vol == NULL) async_answer_0(icall, ENOENT); bd_conn(icall, &vol->hr_bds); } } int main(int argc, char **argv) { errno_t rc; printf("%s: HelenRAID server\n", NAME); rc = log_init(NAME); if (rc != EOK) { printf("%s: failed to initialize logging\n", NAME); return 1; } fibril_rwlock_initialize(&hr_volumes_lock); list_initialize(&hr_volumes); async_set_fallback_port_handler(hr_client_conn, NULL); rc = loc_server_register(NAME, &hr_srv); if (rc != EOK) { HR_ERROR("failed registering server: %s", str_error(rc)); return EEXIST; } rc = loc_service_register(hr_srv, SERVICE_NAME_HR, &ctl_sid); if (rc != EOK) { HR_ERROR("failed registering service: %s", str_error(rc)); return EEXIST; } printf("%s: accepting connections\n", NAME); task_retval(0); async_manager(); return 0; } /** @} */