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nvdimm: Split label init out from the logic for getting config data
This patch splits the initialization of the label data into two functions. One for doing the init, and another for reading the actual configuration data. The idea behind this is that by doing this we create a symmetry between the getting and setting of config data in that we have a function for both. In addition it will make it easier for us to identify the bits that are related to init versus the pieces that are a wrapper for reading data from the ACPI interface. So for example by splitting things out like this it becomes much more obvious that we were performing checks that weren't necessarily related to the set/get operations such as relying on ndd->data being present when the set and get ops should not care about a locally cached copy of the label area. Reviewed-by: Toshi Kani <toshi.kani@hpe.com> Signed-off-by: Alexander Duyck <alexander.h.duyck@linux.intel.com> Signed-off-by: Dan Williams <dan.j.williams@intel.com>
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@ -75,7 +75,7 @@ static int nvdimm_probe(struct device *dev)
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* DIMM capacity. We fail the dimm probe to prevent regions from
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* attempting to parse the label area.
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*/
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rc = nvdimm_init_config_data(ndd);
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rc = nd_label_data_init(ndd);
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if (rc == -EACCES)
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nvdimm_set_locked(dev);
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if (rc)
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@ -85,55 +85,47 @@ int nvdimm_init_nsarea(struct nvdimm_drvdata *ndd)
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return cmd_rc;
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}
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int nvdimm_init_config_data(struct nvdimm_drvdata *ndd)
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int nvdimm_get_config_data(struct nvdimm_drvdata *ndd, void *buf,
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size_t offset, size_t len)
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{
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struct nvdimm_bus *nvdimm_bus = walk_to_nvdimm_bus(ndd->dev);
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struct nvdimm_bus_descriptor *nd_desc = nvdimm_bus->nd_desc;
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int rc = validate_dimm(ndd), cmd_rc = 0;
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struct nd_cmd_get_config_data_hdr *cmd;
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struct nvdimm_bus_descriptor *nd_desc;
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u32 max_cmd_size, config_size;
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size_t offset;
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size_t max_cmd_size, buf_offset;
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if (rc)
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return rc;
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if (ndd->data)
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return 0;
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if (ndd->nsarea.status || ndd->nsarea.max_xfer == 0
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|| ndd->nsarea.config_size < ND_LABEL_MIN_SIZE) {
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dev_dbg(ndd->dev, "failed to init config data area: (%d:%d)\n",
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ndd->nsarea.max_xfer, ndd->nsarea.config_size);
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if (offset + len > ndd->nsarea.config_size)
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return -ENXIO;
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}
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ndd->data = kvmalloc(ndd->nsarea.config_size, GFP_KERNEL);
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if (!ndd->data)
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return -ENOMEM;
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max_cmd_size = min_t(u32, ndd->nsarea.config_size, ndd->nsarea.max_xfer);
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max_cmd_size = min_t(u32, len, ndd->nsarea.max_xfer);
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cmd = kvzalloc(max_cmd_size + sizeof(*cmd), GFP_KERNEL);
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if (!cmd)
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return -ENOMEM;
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nd_desc = nvdimm_bus->nd_desc;
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for (config_size = ndd->nsarea.config_size, offset = 0;
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config_size; config_size -= cmd->in_length,
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offset += cmd->in_length) {
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cmd->in_length = min(config_size, max_cmd_size);
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cmd->in_offset = offset;
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for (buf_offset = 0; len;
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len -= cmd->in_length, buf_offset += cmd->in_length) {
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size_t cmd_size;
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cmd->in_offset = offset + buf_offset;
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cmd->in_length = min(max_cmd_size, len);
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cmd_size = sizeof(*cmd) + cmd->in_length;
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rc = nd_desc->ndctl(nd_desc, to_nvdimm(ndd->dev),
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ND_CMD_GET_CONFIG_DATA, cmd,
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cmd->in_length + sizeof(*cmd), &cmd_rc);
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ND_CMD_GET_CONFIG_DATA, cmd, cmd_size, &cmd_rc);
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if (rc < 0)
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break;
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if (cmd_rc < 0) {
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rc = cmd_rc;
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break;
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}
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memcpy(ndd->data + offset, cmd->out_buf, cmd->in_length);
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/* out_buf should be valid, copy it into our output buffer */
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memcpy(buf + buf_offset, cmd->out_buf, cmd->in_length);
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}
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dev_dbg(ndd->dev, "len: %zu rc: %d\n", offset, rc);
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kvfree(cmd);
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return rc;
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@ -151,9 +143,6 @@ int nvdimm_set_config_data(struct nvdimm_drvdata *ndd, size_t offset,
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if (rc)
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return rc;
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if (!ndd->data)
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return -ENXIO;
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if (offset + len > ndd->nsarea.config_size)
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return -ENXIO;
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@ -417,6 +417,44 @@ int nd_label_reserve_dpa(struct nvdimm_drvdata *ndd)
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return 0;
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}
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int nd_label_data_init(struct nvdimm_drvdata *ndd)
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{
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size_t config_size, read_size;
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int rc = 0;
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if (ndd->data)
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return 0;
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if (ndd->nsarea.status || ndd->nsarea.max_xfer == 0) {
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dev_dbg(ndd->dev, "failed to init config data area: (%u:%u)\n",
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ndd->nsarea.max_xfer, ndd->nsarea.config_size);
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return -ENXIO;
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}
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/*
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* We need to determine the maximum index area as this is the section
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* we must read and validate before we can start processing labels.
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*
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* If the area is too small to contain the two indexes and 2 labels
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* then we abort.
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*
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* Start at a label size of 128 as this should result in the largest
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* possible namespace index size.
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*/
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ndd->nslabel_size = 128;
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read_size = sizeof_namespace_index(ndd) * 2;
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if (!read_size)
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return -ENXIO;
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/* Allocate config data */
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config_size = ndd->nsarea.config_size;
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ndd->data = kvzalloc(config_size, GFP_KERNEL);
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if (!ndd->data)
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return -ENOMEM;
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return nvdimm_get_config_data(ndd, ndd->data, 0, config_size);
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}
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int nd_label_active_count(struct nvdimm_drvdata *ndd)
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{
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struct nd_namespace_index *nsindex;
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@ -141,6 +141,7 @@ struct nvdimm_drvdata;
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int nd_label_validate(struct nvdimm_drvdata *ndd);
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void nd_label_copy(struct nvdimm_drvdata *ndd, struct nd_namespace_index *dst,
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struct nd_namespace_index *src);
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int nd_label_data_init(struct nvdimm_drvdata *ndd);
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size_t sizeof_namespace_index(struct nvdimm_drvdata *ndd);
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int nd_label_active_count(struct nvdimm_drvdata *ndd);
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struct nd_namespace_label *nd_label_active(struct nvdimm_drvdata *ndd, int n);
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@ -241,6 +241,8 @@ struct nvdimm_drvdata *to_ndd(struct nd_mapping *nd_mapping);
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int nvdimm_check_config_data(struct device *dev);
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int nvdimm_init_nsarea(struct nvdimm_drvdata *ndd);
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int nvdimm_init_config_data(struct nvdimm_drvdata *ndd);
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int nvdimm_get_config_data(struct nvdimm_drvdata *ndd, void *buf,
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size_t offset, size_t len);
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int nvdimm_set_config_data(struct nvdimm_drvdata *ndd, size_t offset,
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void *buf, size_t len);
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long nvdimm_clear_poison(struct device *dev, phys_addr_t phys,
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