--- title: "GDAL Config Quick Reference" output: rmarkdown::html_vignette: toc: true vignette: > %\VignetteIndexEntry{GDAL Config Quick Reference} %\VignetteEngine{knitr::rmarkdown} %\VignetteEncoding{UTF-8} --- ```{r, include = FALSE} knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ``` ## Overview Configuration options are essentially global variables the user can set. They are used to alter the default behavior of certain raster format drivers, and in some cases the GDAL core. A large number of configuration options are available. An overall discussion along with full list of available options and where they apply is in the GDAL documentation at https://gdal.org/user/configoptions.html. This quick reference covers a small subset of configuration options that may be useful in common scenarios, with links to topic-specific documentation provided by the GDAL project. Options can be set from R with `gdalraster::set_config_option()`. Note that specific usage is context dependent. Passing `value = ""` (empty string) will unset a value previously set by `set_config_option()`: ```r library(gdalraster) set_config_option("GDAL_NUM_THREADS", "ALL_CPUS") # unset: set_config_option("GDAL_NUM_THREADS", "") ``` ## General options GDAL doc: https://gdal.org/user/configoptions.html#general-options **`GDAL_RASTERIO_RESAMPLING`** The `$read()` method of a `GDALRaster` object will perform automatic resampling if the specified output size (`out_xsize * out_ysize`) is different than the size of the source region being read (`xsize * ysize`). In that case, resampling can be configured to override the default `NEAR` to one of `BILINEAR`, `CUBIC`, `CUBICSPLINE`, `LANCZOS`, `AVERAGE`, `MODE`, `RMS`, or `GAUSS`: ```r # bilinear interpolation (2x2 neighborhood of pixels) set_config_option("GDAL_RASTERIO_RESAMPLING", "BILINEAR") ``` **`CPL_TMPDIR`** By default, temporary files are written into the current working directory. This can be changed with: ```r set_config_option("CPL_TMPDIR", "") # tmpdir to use ``` ## Performance and caching GDAL doc: https://gdal.org/user/configoptions.html#performance-and-caching **`GDAL_NUM_THREADS`** Sets the number of worker threads to be used by GDAL operations that support multithreading. This affects several different parts of GDAL including multi-threaded compression for GeoTiff and SOZip, and multithreaded computation during `warp()` (see topics below). **`GDAL_CACHEMAX`** The size limit of the block cache is set upon first use (first I/O). Setting `GDAL_CACHEMAX` after that point will not resize the cache. It is a per-session setting. If `GDAL_CACHEMAX` has not been set upon first use of the cache, then the default cache size (`5%` of physical RAM) will be in effect for the current session. See also [GDAL Block Cache](https://usdaforestservice.github.io/gdalraster/articles/gdal-block-cache.html). ```r # set to a specific size in MB set_config_option("GDAL_CACHEMAX", "800") # or percent of physical RAM set_config_option("GDAL_CACHEMAX", "10%") ``` **`GDAL_MAX_DATASET_POOL_SIZE`** The default number of datasets that can be opened simultaneously by the `GDALProxyPool` mechanism (used by VRT for example) is `100`. This can be increased to get better random I/O performance with VRT mosaics made of numerous underlying raster files. Note: on Linux systems, the number of file handles that can be opened by a process is generally limited to `1024`. This is currently clamped between `2` and `1000`. Also note that [`gdalwarp` increases the pool size to `450`](https://gdal.org/drivers/raster/vrt.html#performance-considerations): ```r # default is 100 set_config_option("GDAL_MAX_DATASET_POOL_SIZE", "450") ``` **`PG_USE_COPY`** This configures PostgreSQL/PostGIS to use `COPY` for inserting data which is significantly faster than `INSERT`. This can increase performance substantially when using `gdalraster::polygonize()` to write polygons to PostGIS vector. See also [GDAL configuration options for PostgreSQL](https://gdal.org/drivers/vector/pg.html#configuration-options). ```r # use COPY for inserting to PostGIS set_config_option("PG_USE_COPY", "YES") ``` **`SQLITE_USE_OGR_VFS`** For the SQLite-based formats GeoPackage (.gpkg) and Spatialite (.sqlite), setting `SQLITE_USE_OGR_VFS` enables extra buffering/caching by the GDAL/OGR I/O layer and can speed up I/O. Be aware that no file locking will occur if this option is activated, so concurrent edits may lead to database corruption. This setting may increase performance substantially when using `gdalraster::polygonize()` to write polygons to a vector layer in these formats. Additional configuration and performance hints for SQLite databases are in the driver documentation at: https://gdal.org/drivers/vector/sqlite.html#configuration-options. ```r # SQLite: GPKG (.gpkg) and Spatialite (.sqlite) # enable extra buffering/caching by the GDAL/OGR I/O layer set_config_option("SQLITE_USE_OGR_VFS", "YES") ``` **`OGR_SQLITE_JOURNAL`** SQLite is a transactional DBMS. When many `INSERT` statements are executed in close sequence, application code may group them into large batches within transactions in order to get optimal performance. By default, if no transaction is explicitly started, SQLite will autocommit on every statement which will be slow. The `OGR_SQLITE_JOURNAL` option configures operation of the rollback journal that implements transactions in SQLite. The [SQLite documentation](https://www.sqlite.org/pragma.html#pragma_journal_mode) describes the default operation: > The DELETE journaling mode is the normal behavior. In the DELETE mode, the rollback journal is deleted at the conclusion of each transaction. Indeed, the delete operation is the action that causes the transaction to commit. The `DELETE` mode requires file system I/O so performance is degraded if many `INSERT`s are autocommitted individually. Using `MEMORY` journaling mode (or even `OFF`) can be much faster in this case: > The MEMORY journaling mode stores the rollback journal in volatile RAM. This saves disk I/O but at the expense of database safety and integrity. If the application using SQLite crashes in the middle of a transaction when the MEMORY journaling mode is set, then the database file will very likely go corrupt. See the SQLite documentation for all available [journal modes](https://www.sqlite.org/pragma.html#pragma_journal_mode). This setting also applies when using `gdalraster::polygonize()` to write polygons to a vector layer in GeoPackage (.gpkg) or Spatialite (.sqlite) formats (see `SQLITE_USE_OGR_VFS` above). ```r # configure SQLite to store the rollback journal in RAM set_config_option("OGR_SQLITE_JOURNAL", "MEMORY") ``` ## Networking GDAL doc: https://gdal.org/user/configoptions.html#networking-options **`CPL_VSIL_USE_TEMP_FILE_FOR_RANDOM_WRITE`** Whether to use a local temporary file to support random writes in certain virtual file systems. The temporary file will be located in `CPL_TMPDIR` (see above). ```r # YES|NO to use a temp file set_config_option("CPL_VSIL_USE_TEMP_FILE_FOR_RANDOM_WRITE", "YES") ``` ## PROJ GDAL doc: https://gdal.org/user/configoptions.html#proj-options **`OSR_DEFAULT_AXIS_MAPPING_STRATEGY`** This option can be set to either `TRADITIONAL_GIS_ORDER` or `AUTHORITY_COMPLIANT`. GDAL >= 3.5 defaults to `AUTHORITY_COMPLIANT`. Determines whether to honor the declared axis mapping of a CRS or override it with the traditional GIS ordering (x = longitude, y = latitude). **`OSR_WKT_FORMAT`** As of GDAL 3.0, the default format for exporting a spatial reference definition to Well Known Text is WKT 1. This can be overridden with: ```r # SFSQL/WKT1_SIMPLE/WKT1/WKT1_GDAL/WKT1_ESRI/WKT2_2015/WKT2_2018/WKT2/DEFAULT set_config_option("OSR_WKT_FORMAT", "WKT2") ``` ## Warp GDAL doc: https://gdal.org/programs/gdalwarp.html#memory-usage The [performance and caching](#performance-and-caching) topic above generally applies to processing with `gdalraster::warp()` (reproject/resample/crop/mosaic). **`GDAL_NUM_THREADS`** Multithreaded computation in `warp()` can be enabled with: ```r # note this also affects several other parts of GDAL set_config_option("GDAL_NUM_THREADS", "4") # number of threads or ALL_CPUS ``` Increasing the memory available to `warp()` may also increase performance (i.e., the options passed in `cl_arg` include a value like `c("-wm", "1000")`). The warp memory specified by `"-wm"` is shared among all threads. It is especially beneficial to increase this value when running `warp()` with multithreading enabled. Multithreading could also be enabled by including a GDAL warp option in `cl_arg` with `c("-wo", "NUM_THREADS=")` greater than 1, which is equivalent to setting the `GDAL_NUM_THREADS` configuration option as shown above. This option can be combined with the [`-multi` command-line argument](https://gdal.org/programs/gdalwarp.html#cmdoption-gdalwarp-multi) passed to `warp()` in `cl_arg`. With `-multi`, two threads will be used to process chunks of the raster and perform input/output operation simultaneously, whereas the `GDAL_NUM_THREADS` configuration option affects computation separately. **`GDAL_CACHEMAX`** Increasing the size of the I/O block cache may also help. This can be done by setting `GDAL_CACHEMAX` as described in the [performance and caching](#performance-and-caching) topic above. ## GeoTIFF GDAL doc: https://gdal.org/drivers/raster/gtiff.html#configuration-options The behavior of the GTiff driver is highly configurable, including with respect to overview creation. For full discussion, see the link above and also the documentation for the [`gdaladdo`](https://gdal.org/programs/gdaladdo.html) command-line utility. **`GDAL_NUM_THREADS`** The GTiff driver supports multi-threaded compression (default is compression in the main thread). GDAL documentation states that it is worth it for slow compression algorithms such as `DEFLATE` or `LZMA`. Starting with GDAL 3.6, this option also enables multi-threaded decoding when read requests intersect several tiles/strips: ```r # specify the number of worker threads or ALL_CPUS # note this also affects several other parts of GDAL set_config_option("GDAL_NUM_THREADS", "ALL_CPUS") ``` **`COMPRESS_OVERVIEW`** Raster overviews (a.k.a. pyramids) can be built with the `$buildOverviews()` method of a `GDALRaster` object. It may be desirable to compress the overviews when building: ```r # applies to external overviews (.ovr), and internal overviews if GDAL >= 3.6 # LZW is a good default but several other compression algorithms are available set_config_option("COMPRESS_OVERVIEW", "LZW") ``` **`PREDICTOR_OVERVIEW`** Sets the predictor to use for overviews with `LZW`, `DEFLATE` and `ZSTD` compression. The default is `1` (no predictor), `2` is horizontal differencing and `3` is floating point prediction. `PREDICTOR=2` is only supported for 8, 16, 32 and 64 bit samples (support for 64 bit was added in libtiff > 4.3.0). `PREDICTOR=3` is only supported for 16, 32 and 64 bit floating-point data. ```r # horizontal differencing set_config_option("PREDICTOR_OVERVIEW", "2") ``` ## HTTP/HTTPS GDAL doc: [/vsicurl/](https://gdal.org/user/configoptions.html#networking-options) (HTTP/HTTPS random access) **`GDAL_HTTP_CONNECTTIMEOUT`** Maximum delay for connection to be established before being aborted. ```r # max delay for connection establishment in seconds set_config_option("GDAL_HTTP_CONNECTTIMEOUT", "") ``` **`GDAL_HTTP_TIMEOUT`** Maximum delay for the whole request to complete before being aborted. ```r # max delay for whole request completion in seconds set_config_option("GDAL_HTTP_TIMEOUT", "") ``` **`CPL_VSIL_CURL_CHUNK_SIZE`** Partial downloads (requires the HTTP server to support random reading) are done with a 16 KB granularity by default. The chunk size can be configured with this option. If the driver detects sequential reading, it will progressively increase the chunk size up to 128 times `CPL_VSIL_CURL_CHUNK_SIZE` (so 2 MB by default) to improve download performance. When increasing the value of `CPL_VSIL_CURL_CHUNK_SIZE` to optimize sequential reading, it is recommended to increase `CPL_VSIL_CURL_CACHE_SIZE` as well to 128 times the value of `CPL_VSIL_CURL_CHUNK_SIZE`. ```r # chunk size in bytes set_config_option("CPL_VSIL_CURL_CHUNK_SIZE", "") ``` **`CPL_VSIL_CURL_CACHE_SIZE`** A global least-recently-used cache of 16 MB shared among all downloaded content is used, and content in it may be reused after a file handle has been closed and reopen, during the life-time of the process or until `vsi_curl_clear_cache()` is called. The size of this global LRU cache can be modified with: ```r # size in bytes defaults to 16 MB set_config_option("CPL_VSIL_CURL_CACHE_SIZE", "") ``` ## AWS S3 buckets GDAL doc: [/vsis3/](https://gdal.org/user/virtual_file_systems.html#vsis3-aws-s3-files) (AWS S3 file system handler) **`AWS_NO_SIGN_REQUEST`** Request signing can be disabled for public buckets that do not require an AWS account: ```r # public bucket no AWS account required set_config_option("AWS_NO_SIGN_REQUEST", "YES") ``` **`AWS_ACCESS_KEY_ID`** **`AWS_SECRET_ACCESS_KEY`** **`AWS_SESSION_TOKEN`** **`AWS_REQUEST_PAYER`** If authentication is required, configure credentials with: ```r set_config_option("AWS_ACCESS_KEY_ID", "") # key ID set_config_option("AWS_SECRET_ACCESS_KEY", "") # secret access key # used for validation if using temporary credentials: set_config_option("AWS_SESSION_TOKEN", "") # session token # if requester pays: set_config_option("AWS_REQUEST_PAYER", "") # requester ``` **`AWS_REGION`** Sets the AWS region to which requests should be sent. Defaults to `us-east-1`. ```r # specify region set_config_option("AWS_REGION", "us-west-2") ``` ## Google Cloud Storage GDAL doc: [/vsigs/](https://gdal.org/user/virtual_file_systems.html#vsigs-google-cloud-storage-files) (Google Cloud Storage files) ## Microsoft Azure Blob GDAL doc: [/vsiaz/](https://gdal.org/user/virtual_file_systems.html#vsiaz-microsoft-azure-blob-files) (Microsoft Azure Blob files) Recognized filenames are of the form `/vsiaz/container/key`, where `container` is the name of the container and `key` is the object "key", i.e. a filename potentially containing subdirectories. **`AZURE_NO_SIGN_REQUEST`** Controls whether requests are signed. ```r # public access set_config_option("AZURE_NO_SIGN_REQUEST", "YES") ``` **`AZURE_STORAGE_CONNECTION_STRING`** Credential string provided in the Access Keys section of the administrative interface, containing both the account name and a secret key. ```r set_config_option("AZURE_STORAGE_CONNECTION_STRING", "") ``` Several other authentication methods are possible for Azure. See the GDAL documentation for details. ## Microsoft Azure Data Lake GDAL doc: [/vsiadls/](https://gdal.org/user/virtual_file_systems.html#vsiadls-microsoft-azure-data-lake-storage-gen2) (Microsoft Azure Data Lake Storage Gen2) ## SOZip GDAL doc: [/vsizip/](https://gdal.org/user/virtual_file_systems.html#vsizip-zip-archives) (Seek-Optimized ZIP files, GDAL >= 3.7) The function `gdalraster::addFilesInZip()` can be used to create new or append to existing ZIP files, potentially using the seek optimization extension. Function arguments are available for the options below, or the configuration options can be set to change the default behavior. **`GDAL_NUM_THREADS`** The `GDAL_NUM_THREADS` configuration option can be set to `ALL_CPUS` or an integer value to specify the number of threads to use for SOZip-compressed files. This option is similarly described above for compression in [GeoTiff](#geotiff). Note that this option also affects several other parts of GDAL. **`CPL_SOZIP_ENABLED`** Defaults to `AUTO`. Determines whether the SOZip optimization should be enabled. If `AUTO`, SOZip will be enabled for uncompressed files larger than `CPL_SOZIP_MIN_FILE_SIZE`. ```r # SOZip optimization defaults to AUTO set_config_option("CPL_SOZIP_ENABLED", "YES") ``` **`CPL_SOZIP_MIN_FILE_SIZE`** Defaults to `1M`. Determines the minimum file size for SOZip to be automatically enabled. Specified in bytes, or `K`, `M` or `G` suffix can be used respectively to specify a value in kilobytes, megabytes or gigabytes. ```r # SOZip minimum file size set_config_option("CPL_SOZIP_MIN_FILE_SIZE", "100K") ```