/* Copyright (c) 2012-2014 DataLab, s.l. This file is part of GlusterFS. This file is licensed to you under your choice of the GNU Lesser General Public License, version 3 or any later version (LGPLv3 or later), or the GNU General Public License, version 2 (GPLv2), in all cases as published by the Free Software Foundation. */ #include "xlator.h" #include "defaults.h" #include "ec-helpers.h" #include "ec-common.h" #include "ec-combine.h" #include "ec-method.h" #include "ec-fops.h" /* FOP: flush */ int32_t ec_flush_cbk(call_frame_t * frame, void * cookie, xlator_t * this, int32_t op_ret, int32_t op_errno, dict_t * xdata) { ec_fop_data_t * fop = NULL; ec_cbk_data_t * cbk = NULL; int32_t idx = (int32_t)(uintptr_t)cookie; VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, frame->local, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = frame->local; ec_trace("CBK", fop, "idx=%d, frame=%p, op_ret=%d, op_errno=%d", idx, frame, op_ret, op_errno); cbk = ec_cbk_data_allocate(frame, this, fop, GF_FOP_FLUSH, idx, op_ret, op_errno); if (cbk != NULL) { if (xdata != NULL) { cbk->xdata = dict_ref(xdata); if (cbk->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } ec_combine(cbk, NULL); } out: if (fop != NULL) { ec_complete(fop); } return 0; } void ec_wind_flush(ec_t * ec, ec_fop_data_t * fop, int32_t idx) { ec_trace("WIND", fop, "idx=%d", idx); STACK_WIND_COOKIE(fop->frame, ec_flush_cbk, (void *)(uintptr_t)idx, ec->xl_list[idx], ec->xl_list[idx]->fops->flush, fop->fd, fop->xdata); } int32_t ec_manager_flush(ec_fop_data_t * fop, int32_t state) { ec_cbk_data_t * cbk; switch (state) { case EC_STATE_INIT: case EC_STATE_LOCK: ec_lock_prepare_fd(fop, fop->fd, 0); ec_lock(fop); return EC_STATE_DISPATCH; case EC_STATE_DISPATCH: ec_flush_size_version(fop); return EC_STATE_DELAYED_START; case EC_STATE_DELAYED_START: ec_dispatch_all(fop); return EC_STATE_PREPARE_ANSWER; case EC_STATE_PREPARE_ANSWER: cbk = fop->answer; if (cbk != NULL) { if (!ec_dict_combine(cbk, EC_COMBINE_XDATA)) { if (cbk->op_ret >= 0) { cbk->op_ret = -1; cbk->op_errno = EIO; } } if (cbk->op_ret < 0) { ec_fop_set_error(fop, cbk->op_errno); } } else { ec_fop_set_error(fop, EIO); } return EC_STATE_REPORT; case EC_STATE_REPORT: cbk = fop->answer; GF_ASSERT(cbk != NULL); if (fop->cbks.flush != NULL) { fop->cbks.flush(fop->req_frame, fop, fop->xl, cbk->op_ret, cbk->op_errno, cbk->xdata); } return EC_STATE_LOCK_REUSE; case -EC_STATE_INIT: case -EC_STATE_LOCK: case -EC_STATE_DISPATCH: case -EC_STATE_PREPARE_ANSWER: case -EC_STATE_REPORT: GF_ASSERT(fop->error != 0); if (fop->cbks.flush != NULL) { fop->cbks.flush(fop->req_frame, fop, fop->xl, -1, fop->error, NULL); } return EC_STATE_LOCK_REUSE; case -EC_STATE_LOCK_REUSE: case EC_STATE_LOCK_REUSE: ec_lock_reuse(fop); return EC_STATE_UNLOCK; case -EC_STATE_UNLOCK: case EC_STATE_UNLOCK: ec_unlock(fop); return EC_STATE_END; default: gf_log(fop->xl->name, GF_LOG_ERROR, "Unhandled state %d for %s", state, ec_fop_name(fop->id)); return EC_STATE_END; } } void ec_flush(call_frame_t * frame, xlator_t * this, uintptr_t target, int32_t minimum, fop_flush_cbk_t func, void * data, fd_t * fd, dict_t * xdata) { ec_cbk_t callback = { .flush = func }; ec_fop_data_t * fop = NULL; int32_t error = EIO; gf_log("ec", GF_LOG_TRACE, "EC(FLUSH) %p", frame); VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = ec_fop_data_allocate(frame, this, GF_FOP_FLUSH, EC_FLAG_UPDATE_FD, target, minimum, ec_wind_flush, ec_manager_flush, callback, data); if (fop == NULL) { goto out; } fop->use_fd = 1; if (fd != NULL) { fop->fd = fd_ref(fd); if (fop->fd == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "file descriptor."); goto out; } } if (xdata != NULL) { fop->xdata = dict_ref(xdata); if (fop->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } error = 0; out: if (fop != NULL) { ec_manager(fop, error); } else { func(frame, NULL, this, -1, EIO, NULL); } } /* FOP: fsync */ int32_t ec_combine_fsync(ec_fop_data_t * fop, ec_cbk_data_t * dst, ec_cbk_data_t * src) { if (!ec_iatt_combine(dst->iatt, src->iatt, 2)) { gf_log(fop->xl->name, GF_LOG_NOTICE, "Mismatching iatt in " "answers of 'GF_FOP_FSYNC'"); return 0; } return 1; } int32_t ec_fsync_cbk(call_frame_t * frame, void * cookie, xlator_t * this, int32_t op_ret, int32_t op_errno, struct iatt * prebuf, struct iatt * postbuf, dict_t * xdata) { ec_fop_data_t * fop = NULL; ec_cbk_data_t * cbk = NULL; int32_t idx = (int32_t)(uintptr_t)cookie; VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, frame->local, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = frame->local; ec_trace("CBK", fop, "idx=%d, frame=%p, op_ret=%d, op_errno=%d", idx, frame, op_ret, op_errno); cbk = ec_cbk_data_allocate(frame, this, fop, GF_FOP_FSYNC, idx, op_ret, op_errno); if (cbk != NULL) { if (op_ret >= 0) { if (prebuf != NULL) { cbk->iatt[0] = *prebuf; } if (postbuf != NULL) { cbk->iatt[1] = *postbuf; } } if (xdata != NULL) { cbk->xdata = dict_ref(xdata); if (cbk->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } ec_combine(cbk, ec_combine_fsync); } out: if (fop != NULL) { ec_complete(fop); } return 0; } void ec_wind_fsync(ec_t * ec, ec_fop_data_t * fop, int32_t idx) { ec_trace("WIND", fop, "idx=%d", idx); STACK_WIND_COOKIE(fop->frame, ec_fsync_cbk, (void *)(uintptr_t)idx, ec->xl_list[idx], ec->xl_list[idx]->fops->fsync, fop->fd, fop->int32, fop->xdata); } int32_t ec_manager_fsync(ec_fop_data_t * fop, int32_t state) { ec_cbk_data_t * cbk; switch (state) { case EC_STATE_INIT: case EC_STATE_LOCK: ec_lock_prepare_fd(fop, fop->fd, 0); ec_lock(fop); return EC_STATE_GET_SIZE_AND_VERSION; case EC_STATE_GET_SIZE_AND_VERSION: ec_get_size_version(fop); return EC_STATE_DISPATCH; case EC_STATE_DISPATCH: ec_flush_size_version(fop); return EC_STATE_DELAYED_START; case EC_STATE_DELAYED_START: ec_dispatch_all(fop); return EC_STATE_PREPARE_ANSWER; case EC_STATE_PREPARE_ANSWER: cbk = fop->answer; if (cbk != NULL) { if (!ec_dict_combine(cbk, EC_COMBINE_XDATA)) { if (cbk->op_ret >= 0) { cbk->op_ret = -1; cbk->op_errno = EIO; } } if (cbk->op_ret < 0) { ec_fop_set_error(fop, cbk->op_errno); } else { ec_iatt_rebuild(fop->xl->private, cbk->iatt, 2, cbk->count); cbk->iatt[0].ia_size = fop->pre_size; cbk->iatt[1].ia_size = fop->post_size; } } else { ec_fop_set_error(fop, EIO); } return EC_STATE_REPORT; case EC_STATE_REPORT: cbk = fop->answer; GF_ASSERT(cbk != NULL); if (fop->cbks.fsync != NULL) { fop->cbks.fsync(fop->req_frame, fop, fop->xl, cbk->op_ret, cbk->op_errno, &cbk->iatt[0], &cbk->iatt[1], cbk->xdata); } return EC_STATE_LOCK_REUSE; case -EC_STATE_INIT: case -EC_STATE_LOCK: case -EC_STATE_GET_SIZE_AND_VERSION: case -EC_STATE_DISPATCH: case -EC_STATE_PREPARE_ANSWER: case -EC_STATE_REPORT: GF_ASSERT(fop->error != 0); if (fop->cbks.fsync != NULL) { fop->cbks.fsync(fop->req_frame, fop, fop->xl, -1, fop->error, NULL, NULL, NULL); } return EC_STATE_LOCK_REUSE; case -EC_STATE_LOCK_REUSE: case EC_STATE_LOCK_REUSE: ec_lock_reuse(fop); return EC_STATE_UNLOCK; case -EC_STATE_UNLOCK: case EC_STATE_UNLOCK: ec_unlock(fop); return EC_STATE_END; default: gf_log(fop->xl->name, GF_LOG_ERROR, "Unhandled state %d for %s", state, ec_fop_name(fop->id)); return EC_STATE_END; } } void ec_fsync(call_frame_t * frame, xlator_t * this, uintptr_t target, int32_t minimum, fop_fsync_cbk_t func, void * data, fd_t * fd, int32_t datasync, dict_t * xdata) { ec_cbk_t callback = { .fsync = func }; ec_fop_data_t * fop = NULL; int32_t error = EIO; gf_log("ec", GF_LOG_TRACE, "EC(FSYNC) %p", frame); VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = ec_fop_data_allocate(frame, this, GF_FOP_FSYNC, EC_FLAG_UPDATE_FD, target, minimum, ec_wind_fsync, ec_manager_fsync, callback, data); if (fop == NULL) { goto out; } fop->use_fd = 1; fop->int32 = datasync; if (fd != NULL) { fop->fd = fd_ref(fd); if (fop->fd == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "file descriptor."); goto out; } } if (xdata != NULL) { fop->xdata = dict_ref(xdata); if (fop->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } error = 0; out: if (fop != NULL) { ec_manager(fop, error); } else { func(frame, NULL, this, -1, EIO, NULL, NULL, NULL); } } /* FOP: fsyncdir */ int32_t ec_fsyncdir_cbk(call_frame_t * frame, void * cookie, xlator_t * this, int32_t op_ret, int32_t op_errno, dict_t * xdata) { ec_fop_data_t * fop = NULL; ec_cbk_data_t * cbk = NULL; int32_t idx = (int32_t)(uintptr_t)cookie; VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, frame->local, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = frame->local; ec_trace("CBK", fop, "idx=%d, frame=%p, op_ret=%d, op_errno=%d", idx, frame, op_ret, op_errno); cbk = ec_cbk_data_allocate(frame, this, fop, GF_FOP_FSYNCDIR, idx, op_ret, op_errno); if (cbk != NULL) { if (xdata != NULL) { cbk->xdata = dict_ref(xdata); if (cbk->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } ec_combine(cbk, NULL); } out: if (fop != NULL) { ec_complete(fop); } return 0; } void ec_wind_fsyncdir(ec_t * ec, ec_fop_data_t * fop, int32_t idx) { ec_trace("WIND", fop, "idx=%d", idx); STACK_WIND_COOKIE(fop->frame, ec_fsyncdir_cbk, (void *)(uintptr_t)idx, ec->xl_list[idx], ec->xl_list[idx]->fops->fsyncdir, fop->fd, fop->int32, fop->xdata); } int32_t ec_manager_fsyncdir(ec_fop_data_t * fop, int32_t state) { ec_cbk_data_t * cbk; switch (state) { case EC_STATE_INIT: case EC_STATE_LOCK: ec_lock_prepare_fd(fop, fop->fd, 0); ec_lock(fop); return EC_STATE_DISPATCH; case EC_STATE_DISPATCH: ec_flush_size_version(fop); return EC_STATE_DELAYED_START; case EC_STATE_DELAYED_START: ec_dispatch_all(fop); return EC_STATE_PREPARE_ANSWER; case EC_STATE_PREPARE_ANSWER: cbk = fop->answer; if (cbk != NULL) { if (!ec_dict_combine(cbk, EC_COMBINE_XDATA)) { if (cbk->op_ret >= 0) { cbk->op_ret = -1; cbk->op_errno = EIO; } } if (cbk->op_ret < 0) { ec_fop_set_error(fop, cbk->op_errno); } } else { ec_fop_set_error(fop, EIO); } return EC_STATE_REPORT; case EC_STATE_REPORT: cbk = fop->answer; GF_ASSERT(cbk != NULL); if (fop->cbks.fsyncdir != NULL) { fop->cbks.fsyncdir(fop->req_frame, fop, fop->xl, cbk->op_ret, cbk->op_errno, cbk->xdata); } return EC_STATE_LOCK_REUSE; case -EC_STATE_INIT: case -EC_STATE_LOCK: case -EC_STATE_DISPATCH: case -EC_STATE_PREPARE_ANSWER: case -EC_STATE_REPORT: GF_ASSERT(fop->error != 0); if (fop->cbks.fsyncdir != NULL) { fop->cbks.fsyncdir(fop->req_frame, fop, fop->xl, -1, fop->error, NULL); } return EC_STATE_LOCK_REUSE; case -EC_STATE_LOCK_REUSE: case EC_STATE_LOCK_REUSE: ec_lock_reuse(fop); return EC_STATE_UNLOCK; case -EC_STATE_UNLOCK: case EC_STATE_UNLOCK: ec_unlock(fop); return EC_STATE_END; default: gf_log(fop->xl->name, GF_LOG_ERROR, "Unhandled state %d for %s", state, ec_fop_name(fop->id)); return EC_STATE_END; } } void ec_fsyncdir(call_frame_t * frame, xlator_t * this, uintptr_t target, int32_t minimum, fop_fsyncdir_cbk_t func, void * data, fd_t * fd, int32_t datasync, dict_t * xdata) { ec_cbk_t callback = { .fsyncdir = func }; ec_fop_data_t * fop = NULL; int32_t error = EIO; gf_log("ec", GF_LOG_TRACE, "EC(FSYNCDIR) %p", frame); VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = ec_fop_data_allocate(frame, this, GF_FOP_FSYNCDIR, EC_FLAG_UPDATE_FD, target, minimum, ec_wind_fsyncdir, ec_manager_fsyncdir, callback, data); if (fop == NULL) { goto out; } fop->use_fd = 1; fop->int32 = datasync; if (fd != NULL) { fop->fd = fd_ref(fd); if (fop->fd == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "file descriptor."); goto out; } } if (xdata != NULL) { fop->xdata = dict_ref(xdata); if (fop->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } error = 0; out: if (fop != NULL) { ec_manager(fop, error); } else { func(frame, NULL, this, -1, EIO, NULL); } } /* FOP: lookup */ void ec_lookup_rebuild(ec_t * ec, ec_fop_data_t * fop, ec_cbk_data_t * cbk) { ec_cbk_data_t * ans = NULL; ec_inode_t * ctx = NULL; ec_lock_t * lock = NULL; data_t * data = NULL; uint8_t * buff = NULL; uint64_t size = 0; int32_t i = 0, have_size = 0; if (cbk->op_ret < 0) { return; } ec_dict_del_number(cbk->xdata, EC_XATTR_VERSION, &cbk->version); if (ec_loc_update(fop->xl, &fop->loc[0], cbk->inode, &cbk->iatt[0]) != 0) { cbk->op_ret = -1; cbk->op_errno = EIO; return; } LOCK(&cbk->inode->lock); ctx = __ec_inode_get(cbk->inode, fop->xl); if ((ctx != NULL) && (ctx->inode_lock != NULL)) { lock = ctx->inode_lock; cbk->version = lock->version; if (lock->have_size) { size = lock->size; have_size = 1; } } UNLOCK(&cbk->inode->lock); if (cbk->iatt[0].ia_type == IA_IFREG) { uint8_t * blocks[cbk->count]; uint32_t values[cbk->count]; cbk->size = cbk->iatt[0].ia_size; ec_dict_del_number(cbk->xdata, EC_XATTR_SIZE, &cbk->iatt[0].ia_size); if (have_size) { cbk->iatt[0].ia_size = size; } size = UINT64_MAX; for (i = 0, ans = cbk; (ans != NULL) && (i < ec->fragments); ans = ans->next) { if (!ans->dirty) { data = dict_get(ans->xdata, GF_CONTENT_KEY); if (data != NULL) { values[i] = ans->idx; blocks[i] = (uint8_t *)data->data; if (size > data->len) { size = data->len; } i++; } } } if (i >= ec->fragments) { size -= size % ec->fragment_size; if (size > 0) { buff = GF_MALLOC(size * ec->fragments, gf_common_mt_char); if (buff != NULL) { size = ec_method_decode(size, ec->fragments, values, blocks, buff); if (size > fop->size) { size = fop->size; } if (size > cbk->iatt[0].ia_size) { size = cbk->iatt[0].ia_size; } if (dict_set_bin(cbk->xdata, GF_CONTENT_KEY, buff, size) != 0) { GF_FREE(buff); buff = NULL; gf_log(fop->xl->name, GF_LOG_WARNING, "Lookup " "read-ahead " "failed"); } } else { gf_log(fop->xl->name, GF_LOG_WARNING, "Lookup read-ahead " "failed"); } } } if (buff == NULL) { dict_del(cbk->xdata, GF_CONTENT_KEY); } } } int32_t ec_combine_lookup(ec_fop_data_t * fop, ec_cbk_data_t * dst, ec_cbk_data_t * src) { if (!ec_iatt_combine(dst->iatt, src->iatt, 2)) { gf_log(fop->xl->name, GF_LOG_NOTICE, "Mismatching iatt in " "answers of 'GF_FOP_LOOKUP'"); return 0; } return 1; } int32_t ec_lookup_cbk(call_frame_t * frame, void * cookie, xlator_t * this, int32_t op_ret, int32_t op_errno, inode_t * inode, struct iatt * buf, dict_t * xdata, struct iatt * postparent) { ec_fop_data_t * fop = NULL; ec_cbk_data_t * cbk = NULL; int32_t idx = (int32_t)(uintptr_t)cookie; VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, frame->local, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = frame->local; ec_trace("CBK", fop, "idx=%d, frame=%p, op_ret=%d, op_errno=%d", idx, frame, op_ret, op_errno); cbk = ec_cbk_data_allocate(frame, this, fop, GF_FOP_LOOKUP, idx, op_ret, op_errno); if (cbk != NULL) { if (op_ret >= 0) { if (inode != NULL) { cbk->inode = inode_ref(inode); if (cbk->inode == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference an inode."); goto out; } } if (buf != NULL) { cbk->iatt[0] = *buf; } if (postparent != NULL) { cbk->iatt[1] = *postparent; } } if (xdata != NULL) { uint64_t dirty; cbk->xdata = dict_ref(xdata); if (cbk->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } if (ec_dict_del_number(cbk->xdata, EC_XATTR_DIRTY, &dirty) == 0) { cbk->dirty = dirty != 0; } } ec_combine(cbk, ec_combine_lookup); } out: if (fop != NULL) { ec_complete(fop); } return 0; } void ec_wind_lookup(ec_t * ec, ec_fop_data_t * fop, int32_t idx) { ec_trace("WIND", fop, "idx=%d", idx); STACK_WIND_COOKIE(fop->frame, ec_lookup_cbk, (void *)(uintptr_t)idx, ec->xl_list[idx], ec->xl_list[idx]->fops->lookup, &fop->loc[0], fop->xdata); } int32_t ec_manager_lookup(ec_fop_data_t * fop, int32_t state) { ec_cbk_data_t * cbk; switch (state) { case EC_STATE_INIT: if (fop->xdata == NULL) { fop->xdata = dict_new(); if (fop->xdata == NULL) { gf_log(fop->xl->name, GF_LOG_ERROR, "Unable to prepare " "lookup request"); fop->error = EIO; return EC_STATE_REPORT; } } else { uint64_t size; if (dict_get_uint64(fop->xdata, GF_CONTENT_KEY, &size) == 0) { fop->size = size; size = ec_adjust_size(fop->xl->private, size, 1); if (dict_set_uint64(fop->xdata, GF_CONTENT_KEY, size) != 0) { gf_log("ec", GF_LOG_DEBUG, "Unable to update lookup " "content size"); } } } if ((dict_set_uint64(fop->xdata, EC_XATTR_SIZE, 0) != 0) || (dict_set_uint64(fop->xdata, EC_XATTR_VERSION, 0) != 0) || (dict_set_uint64(fop->xdata, EC_XATTR_DIRTY, 0) != 0)) { gf_log(fop->xl->name, GF_LOG_ERROR, "Unable to prepare lookup " "request"); fop->error = EIO; return EC_STATE_REPORT; } /* Fall through */ case EC_STATE_DISPATCH: ec_dispatch_all(fop); return EC_STATE_PREPARE_ANSWER; case EC_STATE_PREPARE_ANSWER: cbk = fop->answer; if (cbk != NULL) { if (!ec_dict_combine(cbk, EC_COMBINE_XDATA)) { if (cbk->op_ret >= 0) { cbk->op_ret = -1; cbk->op_errno = EIO; } } if (cbk->op_ret < 0) { ec_fop_set_error(fop, cbk->op_errno); } else { ec_iatt_rebuild(fop->xl->private, cbk->iatt, 2, cbk->count); ec_lookup_rebuild(fop->xl->private, fop, cbk); } } else { ec_fop_set_error(fop, EIO); } return EC_STATE_REPORT; case EC_STATE_REPORT: cbk = fop->answer; GF_ASSERT(cbk != NULL); if (fop->cbks.lookup != NULL) { fop->cbks.lookup(fop->req_frame, fop, fop->xl, cbk->op_ret, cbk->op_errno, cbk->inode, &cbk->iatt[0], cbk->xdata, &cbk->iatt[1]); } return EC_STATE_END; case -EC_STATE_INIT: case -EC_STATE_DISPATCH: case -EC_STATE_PREPARE_ANSWER: case -EC_STATE_REPORT: GF_ASSERT(fop->error != 0); if (fop->cbks.lookup != NULL) { fop->cbks.lookup(fop->req_frame, fop, fop->xl, -1, fop->error, NULL, NULL, NULL, NULL); } return EC_STATE_END; default: gf_log(fop->xl->name, GF_LOG_ERROR, "Unhandled state %d for %s", state, ec_fop_name(fop->id)); return EC_STATE_END; } } void ec_lookup(call_frame_t * frame, xlator_t * this, uintptr_t target, int32_t minimum, fop_lookup_cbk_t func, void * data, loc_t * loc, dict_t * xdata) { ec_cbk_t callback = { .lookup = func }; ec_fop_data_t * fop = NULL; int32_t error = EIO; gf_log("ec", GF_LOG_TRACE, "EC(LOOKUP) %p", frame); VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = ec_fop_data_allocate(frame, this, GF_FOP_LOOKUP, 0, target, minimum, ec_wind_lookup, ec_manager_lookup, callback, data); if (fop == NULL) { goto out; } if (loc != NULL) { if (loc_copy(&fop->loc[0], loc) != 0) { gf_log(this->name, GF_LOG_ERROR, "Failed to copy a location."); goto out; } } if (xdata != NULL) { fop->xdata = dict_ref(xdata); if (fop->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } error = 0; out: if (fop != NULL) { ec_manager(fop, error); } else { func(frame, NULL, this, -1, EIO, NULL, NULL, NULL, NULL); } } /* FOP: statfs */ int32_t ec_combine_statfs(ec_fop_data_t * fop, ec_cbk_data_t * dst, ec_cbk_data_t * src) { ec_statvfs_combine(&dst->statvfs, &src->statvfs); return 1; } int32_t ec_statfs_cbk(call_frame_t * frame, void * cookie, xlator_t * this, int32_t op_ret, int32_t op_errno, struct statvfs * buf, dict_t * xdata) { ec_fop_data_t * fop = NULL; ec_cbk_data_t * cbk = NULL; int32_t idx = (int32_t)(uintptr_t)cookie; VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, frame->local, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = frame->local; ec_trace("CBK", fop, "idx=%d, frame=%p, op_ret=%d, op_errno=%d", idx, frame, op_ret, op_errno); cbk = ec_cbk_data_allocate(frame, this, fop, GF_FOP_STATFS, idx, op_ret, op_errno); if (cbk != NULL) { if (op_ret >= 0) { if (buf != NULL) { cbk->statvfs = *buf; } } if (xdata != NULL) { cbk->xdata = dict_ref(xdata); if (cbk->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } ec_combine(cbk, ec_combine_statfs); } out: if (fop != NULL) { ec_complete(fop); } return 0; } void ec_wind_statfs(ec_t * ec, ec_fop_data_t * fop, int32_t idx) { ec_trace("WIND", fop, "idx=%d", idx); STACK_WIND_COOKIE(fop->frame, ec_statfs_cbk, (void *)(uintptr_t)idx, ec->xl_list[idx], ec->xl_list[idx]->fops->statfs, &fop->loc[0], fop->xdata); } int32_t ec_manager_statfs(ec_fop_data_t * fop, int32_t state) { ec_cbk_data_t * cbk; switch (state) { case EC_STATE_INIT: case EC_STATE_DISPATCH: ec_dispatch_all(fop); return EC_STATE_PREPARE_ANSWER; case EC_STATE_PREPARE_ANSWER: cbk = fop->answer; if (cbk != NULL) { if (!ec_dict_combine(cbk, EC_COMBINE_XDATA)) { if (cbk->op_ret >= 0) { cbk->op_ret = -1; cbk->op_errno = EIO; } } if (cbk->op_ret < 0) { ec_fop_set_error(fop, cbk->op_errno); } else { ec_t * ec = fop->xl->private; cbk->statvfs.f_blocks *= ec->fragments; cbk->statvfs.f_bfree *= ec->fragments; cbk->statvfs.f_bavail *= ec->fragments; } } else { ec_fop_set_error(fop, EIO); } return EC_STATE_REPORT; case EC_STATE_REPORT: cbk = fop->answer; GF_ASSERT(cbk != NULL); if (fop->cbks.statfs != NULL) { fop->cbks.statfs(fop->req_frame, fop, fop->xl, cbk->op_ret, cbk->op_errno, &cbk->statvfs, cbk->xdata); } return EC_STATE_END; case -EC_STATE_INIT: case -EC_STATE_DISPATCH: case -EC_STATE_PREPARE_ANSWER: case -EC_STATE_REPORT: GF_ASSERT(fop->error != 0); if (fop->cbks.statfs != NULL) { fop->cbks.statfs(fop->req_frame, fop, fop->xl, -1, fop->error, NULL, NULL); } return EC_STATE_END; default: gf_log(fop->xl->name, GF_LOG_ERROR, "Unhandled state %d for %s", state, ec_fop_name(fop->id)); return EC_STATE_END; } } void ec_statfs(call_frame_t * frame, xlator_t * this, uintptr_t target, int32_t minimum, fop_statfs_cbk_t func, void * data, loc_t * loc, dict_t * xdata) { ec_cbk_t callback = { .statfs = func }; ec_fop_data_t * fop = NULL; int32_t error = EIO; gf_log("ec", GF_LOG_TRACE, "EC(STATFS) %p", frame); VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = ec_fop_data_allocate(frame, this, GF_FOP_STATFS, 0, target, minimum, ec_wind_statfs, ec_manager_statfs, callback, data); if (fop == NULL) { goto out; } if (loc != NULL) { if (loc_copy(&fop->loc[0], loc) != 0) { gf_log(this->name, GF_LOG_ERROR, "Failed to copy a location."); goto out; } } if (xdata != NULL) { fop->xdata = dict_ref(xdata); if (fop->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } error = 0; out: if (fop != NULL) { ec_manager(fop, error); } else { func(frame, NULL, this, -1, EIO, NULL, NULL); } } /* FOP: xattrop */ int32_t ec_combine_xattrop(ec_fop_data_t * fop, ec_cbk_data_t * dst, ec_cbk_data_t * src) { if (!ec_dict_compare(dst->dict, src->dict)) { gf_log(fop->xl->name, GF_LOG_NOTICE, "Mismatching dictionary in " "answers of 'GF_FOP_XATTROP'"); return 0; } return 1; } int32_t ec_xattrop_cbk(call_frame_t * frame, void * cookie, xlator_t * this, int32_t op_ret, int32_t op_errno, dict_t * xattr, dict_t * xdata) { ec_fop_data_t * fop = NULL; ec_cbk_data_t * cbk = NULL; int32_t idx = (int32_t)(uintptr_t)cookie; VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, frame->local, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = frame->local; ec_trace("CBK", fop, "idx=%d, frame=%p, op_ret=%d, op_errno=%d", idx, frame, op_ret, op_errno); cbk = ec_cbk_data_allocate(frame, this, fop, GF_FOP_XATTROP, idx, op_ret, op_errno); if (cbk != NULL) { if (op_ret >= 0) { if (xattr != NULL) { cbk->dict = dict_ref(xattr); if (cbk->dict == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } } if (xdata != NULL) { uint64_t dirty; cbk->xdata = dict_ref(xdata); if (cbk->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } if (ec_dict_del_number(cbk->xdata, EC_XATTR_DIRTY, &dirty) == 0) { cbk->dirty = dirty != 0; } } ec_combine(cbk, ec_combine_xattrop); } out: if (fop != NULL) { ec_complete(fop); } return 0; } void ec_wind_xattrop(ec_t * ec, ec_fop_data_t * fop, int32_t idx) { ec_trace("WIND", fop, "idx=%d", idx); STACK_WIND_COOKIE(fop->frame, ec_xattrop_cbk, (void *)(uintptr_t)idx, ec->xl_list[idx], ec->xl_list[idx]->fops->xattrop, &fop->loc[0], fop->xattrop_flags, fop->dict, fop->xdata); } int32_t ec_manager_xattrop(ec_fop_data_t * fop, int32_t state) { ec_cbk_data_t * cbk; switch (state) { case EC_STATE_INIT: case EC_STATE_LOCK: if (fop->fd == NULL) { ec_lock_prepare_inode(fop, &fop->loc[0], 1); } else { ec_lock_prepare_fd(fop, fop->fd, 1); } ec_lock(fop); return EC_STATE_DISPATCH; case EC_STATE_DISPATCH: ec_dispatch_all(fop); return EC_STATE_PREPARE_ANSWER; case EC_STATE_PREPARE_ANSWER: cbk = fop->answer; if (cbk != NULL) { if (!ec_dict_combine(cbk, EC_COMBINE_XDATA) || ((cbk->op_ret >= 0) && !ec_dict_combine(cbk, EC_COMBINE_DICT))) { if (cbk->op_ret >= 0) { cbk->op_ret = -1; cbk->op_errno = EIO; } } if (cbk->op_ret < 0) { ec_fop_set_error(fop, cbk->op_errno); } } else { ec_fop_set_error(fop, EIO); } return EC_STATE_REPORT; case EC_STATE_REPORT: cbk = fop->answer; GF_ASSERT(cbk != NULL); if (fop->id == GF_FOP_XATTROP) { if (fop->cbks.xattrop != NULL) { fop->cbks.xattrop(fop->req_frame, fop, fop->xl, cbk->op_ret, cbk->op_errno, cbk->dict, cbk->xdata); } } else { if (fop->cbks.fxattrop != NULL) { fop->cbks.fxattrop(fop->req_frame, fop, fop->xl, cbk->op_ret, cbk->op_errno, cbk->dict, cbk->xdata); } } return EC_STATE_LOCK_REUSE; case -EC_STATE_INIT: case -EC_STATE_LOCK: case -EC_STATE_DISPATCH: case -EC_STATE_PREPARE_ANSWER: case -EC_STATE_REPORT: GF_ASSERT(fop->error != 0); if (fop->id == GF_FOP_XATTROP) { if (fop->cbks.xattrop != NULL) { fop->cbks.xattrop(fop->req_frame, fop, fop->xl, -1, fop->error, NULL, NULL); } } else { if (fop->cbks.fxattrop != NULL) { fop->cbks.fxattrop(fop->req_frame, fop, fop->xl, -1, fop->error, NULL, NULL); } } return EC_STATE_LOCK_REUSE; case -EC_STATE_LOCK_REUSE: case EC_STATE_LOCK_REUSE: ec_lock_reuse(fop); return EC_STATE_UNLOCK; case -EC_STATE_UNLOCK: case EC_STATE_UNLOCK: ec_unlock(fop); return EC_STATE_END; default: gf_log(fop->xl->name, GF_LOG_ERROR, "Unhandled state %d for %s", state, ec_fop_name(fop->id)); return EC_STATE_END; } } void ec_xattrop(call_frame_t * frame, xlator_t * this, uintptr_t target, int32_t minimum, fop_xattrop_cbk_t func, void * data, loc_t * loc, gf_xattrop_flags_t optype, dict_t * xattr, dict_t * xdata) { ec_cbk_t callback = { .xattrop = func }; ec_fop_data_t * fop = NULL; int32_t error = EIO; gf_log("ec", GF_LOG_TRACE, "EC(XATTROP) %p", frame); VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = ec_fop_data_allocate(frame, this, GF_FOP_XATTROP, EC_FLAG_UPDATE_LOC_INODE, target, minimum, ec_wind_xattrop, ec_manager_xattrop, callback, data); if (fop == NULL) { goto out; } fop->xattrop_flags = optype; if (loc != NULL) { if (loc_copy(&fop->loc[0], loc) != 0) { gf_log(this->name, GF_LOG_ERROR, "Failed to copy a location."); goto out; } } if (xattr != NULL) { fop->dict = dict_ref(xattr); if (fop->dict == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } if (xdata != NULL) { fop->xdata = dict_ref(xdata); if (fop->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } error = 0; out: if (fop != NULL) { ec_manager(fop, error); } else { func(frame, NULL, this, -1, EIO, NULL, NULL); } } /* FOP: fxattrop */ int32_t ec_fxattrop_cbk(call_frame_t * frame, void * cookie, xlator_t * this, int32_t op_ret, int32_t op_errno, dict_t * xattr, dict_t * xdata) { ec_fop_data_t * fop = NULL; ec_cbk_data_t * cbk = NULL; int32_t idx = (int32_t)(uintptr_t)cookie; VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, frame->local, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = frame->local; ec_trace("CBK", fop, "idx=%d, frame=%p, op_ret=%d, op_errno=%d", idx, frame, op_ret, op_errno); cbk = ec_cbk_data_allocate(frame, this, fop, GF_FOP_FXATTROP, idx, op_ret, op_errno); if (cbk != NULL) { if (op_ret >= 0) { if (xattr != NULL) { cbk->dict = dict_ref(xattr); if (cbk->dict == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } } if (xdata != NULL) { cbk->xdata = dict_ref(xdata); if (cbk->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } ec_combine(cbk, ec_combine_xattrop); } out: if (fop != NULL) { ec_complete(fop); } return 0; } void ec_wind_fxattrop(ec_t * ec, ec_fop_data_t * fop, int32_t idx) { ec_trace("WIND", fop, "idx=%d", idx); STACK_WIND_COOKIE(fop->frame, ec_fxattrop_cbk, (void *)(uintptr_t)idx, ec->xl_list[idx], ec->xl_list[idx]->fops->fxattrop, fop->fd, fop->xattrop_flags, fop->dict, fop->xdata); } void ec_fxattrop(call_frame_t * frame, xlator_t * this, uintptr_t target, int32_t minimum, fop_fxattrop_cbk_t func, void * data, fd_t * fd, gf_xattrop_flags_t optype, dict_t * xattr, dict_t * xdata) { ec_cbk_t callback = { .fxattrop = func }; ec_fop_data_t * fop = NULL; int32_t error = EIO; gf_log("ec", GF_LOG_TRACE, "EC(FXATTROP) %p", frame); VALIDATE_OR_GOTO(this, out); GF_VALIDATE_OR_GOTO(this->name, frame, out); GF_VALIDATE_OR_GOTO(this->name, this->private, out); fop = ec_fop_data_allocate(frame, this, GF_FOP_FXATTROP, EC_FLAG_UPDATE_FD_INODE, target, minimum, ec_wind_fxattrop, ec_manager_xattrop, callback, data); if (fop == NULL) { goto out; } fop->use_fd = 1; fop->xattrop_flags = optype; if (fd != NULL) { fop->fd = fd_ref(fd); if (fop->fd == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "file descriptor."); goto out; } } if (xattr != NULL) { fop->dict = dict_ref(xattr); if (fop->dict == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } if (xdata != NULL) { fop->xdata = dict_ref(xdata); if (fop->xdata == NULL) { gf_log(this->name, GF_LOG_ERROR, "Failed to reference a " "dictionary."); goto out; } } error = 0; out: if (fop != NULL) { ec_manager(fop, error); } else { func(frame, NULL, this, -1, EIO, NULL, NULL); } }