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+# An Overview of SPDK Applications {#app_overview}
+
+SPDK is primarily a development kit that delivers libraries and header files for
+use in other applications. However, SPDK also contains a number of applications.
+These applications are primarily used to test the libraries, but many are full
+featured and high quality. The major applications in SPDK are:
+
+- @ref iscsi
+- @ref nvmf
+- @ref vhost
+- SPDK Target (a unified application combining the above three)
+
+There are also a number of tools and examples in the `examples` directory.
+
+The SPDK targets are all based on a common framework so they have much in
+common. The framework defines a concept called a `subsystem` and all
+functionality is implemented in various subsystems. Subsystems have a unified
+initialization and teardown path.
+
+# Configuring SPDK Applications {#app_config}
+
+## Command Line Parameters {#app_cmd_line_args}
+
+The SPDK application framework defines a set of base command line flags for all
+applications that use it. Specific applications may implement additional flags.
+
+Param | Long Param | Type | Default | Description
+-------- | ---------------------- | -------- | ---------------------- | -----------
+-c | --config | string | | @ref cmd_arg_config_file
+-d | --limit-coredump | flag | false | @ref cmd_arg_limit_coredump
+-e | --tpoint-group-mask | integer | 0x0 | @ref cmd_arg_limit_tpoint_group_mask
+-g | --single-file-segments | flag | | @ref cmd_arg_single_file_segments
+-h | --help | flag | | show all available parameters and exit
+-i | --shm-id | integer | | @ref cmd_arg_multi_process
+-m | --cpumask | CPU mask | 0x1 | application @ref cpu_mask
+-n | --mem-channels | integer | all channels | number of memory channels used for DPDK
+-p | --master-core | integer | first core in CPU mask | master (primary) core for DPDK
+-r | --rpc-socket | string | /var/tmp/spdk.sock | RPC listen address
+-s | --mem-size | integer | all hugepage memory | @ref cmd_arg_memory_size
+ | --silence-noticelog | flag | | disable notice level logging to `stderr`
+-u | --no-pci | flag | | @ref cmd_arg_disable_pci_access.
+ | --wait-for-rpc | flag | | @ref cmd_arg_deferred_initialization
+-B | --pci-blacklist | B:D:F | | @ref cmd_arg_pci_blacklist_whitelist.
+-W | --pci-whitelist | B:D:F | | @ref cmd_arg_pci_blacklist_whitelist.
+-R | --huge-unlink | flag | | @ref cmd_arg_huge_unlink
+-L | --traceflag | string | | @ref cmd_arg_debug_log_flags
+
+
+### Configuration file {#cmd_arg_config_file}
+
+Historically, the SPDK applications were configured using a configuration file.
+This is still supported, but is considered deprecated in favor of JSON RPC
+configuration. See @ref jsonrpc for details.
+
+Note that `--config` and `--wait-for-rpc` cannot be used at the same time.
+
+### Limit coredump {#cmd_arg_limit_coredump}
+
+By default, an SPDK application will set resource limits for core file sizes
+to RLIM_INFINITY. Specifying `--limit-coredump` will not set the resource limits.
+
+### Tracepoint group mask {#cmd_arg_limit_tpoint_group_mask}
+
+SPDK has an experimental low overhead tracing framework. Tracepoints in this
+framework are organized into tracepoint groups. By default, all tracepoint
+groups are disabled. `--tpoint-group-mask` can be used to enable a specific
+subset of tracepoint groups in the application.
+
+Note: Additional documentation on the tracepoint framework is in progress.
+
+### Deferred initialization {#cmd_arg_deferred_initialization}
+
+SPDK applications progress through a set of states beginning with `STARTUP` and
+ending with `RUNTIME`.
+
+If the `--wait-for-rpc` parameter is provided SPDK will pause just before starting
+subsystem initialization. This state is called `STARTUP`. The JSON RPC server is
+ready but only a small subsystem of commands are available to set up initialization
+parameters. Those parameters can't be changed after the SPDK application enters
+`RUNTIME` state. When the client finishes configuring the SPDK subsystems it
+needs to issue the @ref rpc_start_subsystem_init RPC command to begin the
+initialization process. After `rpc_start_subsystem_init` returns `true` SPDK
+will enter the `RUNTIME` state and the list of available commands becomes much
+larger.
+
+To see which RPC methods are available in the current state, issue the
+`get_rpc_methods` with the parameter `current` set to `true`.
+
+For more details see @ref jsonrpc documentation.
+
+### Create just one hugetlbfs file {#cmd_arg_single_file_segments}
+
+Instead of creating one hugetlbfs file per page, this option makes SPDK create
+one file per hugepages per socket. This is needed for @ref virtio to be used
+with more than 8 hugepages. See @ref virtio_2mb.
+
+### Multi process mode {#cmd_arg_multi_process}
+
+When `--shm-id` is specified, the application is started in multi-process mode.
+Applications using the same shm-id share their memory and
+[NVMe devices](@ref nvme_multi_process). The first app to start with a given id
+becomes a primary process, with the rest, called secondary processes, only
+attaching to it. When the primary process exits, the secondary ones continue to
+operate, but no new processes can be attached at this point. All processes within
+the same shm-id group must use the same
+[--single-file-segments setting](@ref cmd_arg_single_file_segments).
+
+### Memory size {#cmd_arg_memory_size}
+
+Total size of the hugepage memory to reserve. If DPDK env layer is used, it will
+reserve memory from all available hugetlbfs mounts, starting with the one with
+the highest page size. This option accepts a number of bytes with a possible
+binary prefix, e.g. 1024, 1024M, 1G. The default unit is megabyte.
+
+### Disable PCI access {#cmd_arg_disable_pci_access}
+
+If SPDK is run with PCI access disabled it won't detect any PCI devices. This
+includes primarily NVMe and IOAT devices. Also, the VFIO and UIO kernel modules
+are not required in this mode.
+
+### PCI address blacklist and whitelist {#cmd_arg_pci_blacklist_whitelist}
+
+If blacklist is used, then all devices with the provided PCI address will be
+ignored. If a whitelist is used, only whitelisted devices will be probed.
+`-B` or `-W` can be used more than once, but cannot be mixed together. That is,
+`-B` and `-W` cannot be used at the same time.
+
+### Unlink hugepage files after initialization {#cmd_arg_huge_unlink}
+
+By default, each DPDK-based application tries to remove any orphaned hugetlbfs
+files during its initialization. This option removes hugetlbfs files of the current
+process as soon as they're created, but is not compatible with `--shm-id`.
+
+### Debug log {#cmd_arg_debug_log_flags}
+
+Enable a specific debug log type. This option can be used more than once. A list of
+all available types is provided in the `--help` output, with `--traceflag all`
+enabling all of them. Debug logs are only available in debug builds of SPDK.
+
+## CPU mask {#cpu_mask}
+
+Whenever the `CPU mask` is mentioned it is a string in one of the following formats:
+
+- Case insensitive hexadecimal string with or without "0x" prefix.
+- Comma separated list of CPUs or list of CPU ranges. Use '-' to define range.
+
+### Example
+
+The following CPU masks are equal and correspond to CPUs 0, 1, 2, 8, 9, 10, 11 and 12:
+
+~~~
+0x1f07
+0x1F07
+1f07
+[0,1,2,8-12]
+[0, 1, 2, 8, 9, 10, 11, 12]
+~~~