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devclass_get_maxunit(9)
find the maximum unit number in the class
fmax(3), fmaxf(3), fmaxl(3), fmin(3), fminf(3), fminl(3)
floating-point maximum and minimum functions
getrlimit(2), setrlimit(2)
control maximum system resource consumption
gss_wrap_size_limit(3)
Determine maximum message sizes
quota_open(3), quota_close(3), quota_on(3), quota_off(3), quota_read(3), quota_write_limits(3), quota_write_usage(3), quota_fsname(3), quota_qfname(3), quota_maxid(3), quota_check_path(3), quota_convert(3)
Manipulate quotas
rpc_gss_max_data_length(3)
calculate maximum data size
rpc_gss_svc_max_data_length(3)
calculate maximum data size
DTLS_get_data_mtu(3)
Get maximum data payload size
SSL_CTX_set_min_proto_version(3), SSL_CTX_set_max_proto_version(3), SSL_CTX_get_min_proto_version(3), SSL_CTX_get_max_proto_version(3), SSL_set_min_proto_version(3), SSL_set_max_proto_version(3), SSL_get_min_proto_version(3), SSL_get_max_proto_version(3)
Get and set minimum and maximum supported protocol version
BSctx_set_cs(3)
Set the maximum clique size allowed
BSctx_set_is(3)
Set the maximum i-node size allowed
BSctx_set_max_it(3)
Set the maximum number of iterations to be allowed by the iterative solver
CURLMOPT_MAX_PIPELINE_LENGTH(3)
maximum number of requests in a pipeline
CURLOPT_MAXCONNECTS(3)
maximum connection cache size
CURLOPT_MAXFILESIZE(3)
maximum file size allowed to download
CURLOPT_MAXFILESIZE_LARGE(3)
maximum file size allowed to download
CURLOPT_MAXREDIRS(3)
maximum number of redirects allowed
CURLOPT_TCP_KEEPCNT(3)
Maximum number of TCP keep-alive probes
CURLOPT_TIMEOUT(3)
maximum time the transfer is allowed to complete
CURLOPT_TIMEOUT_MS(3)
maximum time the transfer is allowed to complete
DTLS_get_data_mtu(3)
Get maximum data payload size
DTLS_get_data_mtu(3ossl)
Get maximum data payload size
HPL_dlocmax(3)
finds the maximum entry in matrix column
JOYSTICK_AXIS_INFO(3)
Stores joystick axis information. Allegro game programming library
SDL_JoyAxisEvent(3)
Joystick axis motion event structure
SDL_JoystickGetAxis(3)
Get the current state of an axis
SDL_SemWaitTimeout(3)
Lock a semaphore, but only wait up to a specified maximum time
SSL_CTX_set_min_proto_version(3), SSL_CTX_set_max_proto_version(3), SSL_CTX_get_min_proto_version(3), SSL_CTX_get_max_proto_version(3), SSL_set_min_proto_version(3), SSL_set_max_proto_version(3), SSL_get_min_proto_version(3), SSL_get_max_proto_version(3)
Get and set minimum and maximum supported protocol version
SSL_CTX_set_min_proto_version(3ossl), SSL_CTX_set_max_proto_version(3ossl), SSL_CTX_get_min_proto_version(3ossl), SSL_CTX_get_max_proto_version(3ossl), SSL_set_min_proto_version(3ossl), SSL_set_max_proto_version(3ossl), SSL_get_min_proto_version(3ossl), SSL_get_max_proto_version(3ossl)
Get and set minimum and maximum supported protocol version
Tcl_SetRecursionLimit.tcl86(3), Tcl_SetRecursionLimit(3)
set maximum allowable nesting depth in interpreter
Tcl_SetRecursionLimit.tcl90(3), Tcl_SetRecursionLimit(3)
set maximum allowable nesting depth in interpreter
XExtentsOfFontSet(3)
obtain the maximum extents structure for a font set
XkbKeyGroupsWidth(3)
Computes the maximum width associated with the key corresponding to keycode
XmTextFieldGetMaxLength(3)
A TextField function that accesses the value of the current maximum allowable length of a text string entered from the keyboard "XmTextFieldGetMaxLength" "TextField functions" "XmTextFieldGetMaxLength"
XmTextFieldSetMaxLength(3)
A TextField function that sets the value of the current maximum allowable length of a text string entered from the keyboard "XmTextFieldSetMaxLength" "TextField functions" "XmTextFieldSetMaxLength"
XmTextGetMaxLength(3)
A Text function that accesses the value of the current maximum allowable length of a text string entered from the keyboard "XmTextGetMaxLength" "Text functions" "XmTextGetMaxLength"
XmTextSetMaxLength(3)
A Text function that sets the value of the current maximum allowable length of a text string entered from the keyboard "XmTextSetMaxLength" "Text functions" "XmTextSetMaxLength"
aaxine(1)
an ASCII art video player
al_get_joystick_axis_name(3)
Allegro 5 API
al_get_mouse_state_axis(3)
Allegro 5 API
al_set_mouse_axis(3)
Allegro 5 API
anemotaxis(6)
directional search on a plane
ares_timeout(3)
return maximum time to wait
barman-cloud-backup(1) - Barman-cloud Commands Synopsis 0.0 3.5 barman-cloud-backup [ { -V | --version } ] [ --help ] [ { { -v | --verbose } | { -q | --quiet } } ] [ { -t | --test } ] [ --cloud-provider { aws-s3 | azure-blob-storage | google-cloud-storage } ] [ { { -z | --gzip } | { -j | --bzip2 } | --snappy } ] [ { -h | --host } HOST ] [ { -p | --port } PORT ] [ { -U | --user } USER ] [ { -d | --dbname } DBNAME ] [ { -n | --name } BACKUP_NAME ] [ { -J | --jobs } JOBS ] [ { -S | --max-archive-size } MAX_ARCHIVE_SIZE ] [ --immediate-checkpoint ] [ --min-chunk-size MIN_CHUNK_SIZE ] [ --max-bandwidth MAX_BANDWIDTH ] [ --snapshot-instance SNAPSHOT_INSTANCE ] [ --snapshot-disk NAME ] [ --snapshot-zone GCP_ZONE ] [ -snapshot-gcp-project GCP_PROJECT ] [ --tags TAG [ TAG ... ] ] [ --endpoint-url ENDPOINT_URL ] [ { -P | --aws-profile } AWS_PROFILE ] [ --profile AWS_PROFILE ] [ --read-timeout READ_TIMEOUT ] [ { -e | --encryption } { AES256 | aws:kms } ] [ --sse-kms-key-id SSE_KMS_KEY_ID ] [ --aws-region AWS_REGION ] [ --aws-await-snapshots-timeout AWS_AWAIT_SNAPSHOTS_TIMEOUT ] [ --aws-snapshot-lock-mode { compliance | governance } ] [ --aws-snapshot-lock-duration DAYS ] [ --aws-snapshot-lock-cool-off-period HOURS ] [ --aws-snapshot-lock-expiration-date DATETIME ] [ { --azure-credential | --credential } { azure-cli | managed-identity | default } ] [ --encryption-scope ENCRYPTION_SCOPE ] [ --azure-subscription-id AZURE_SUBSCRIPTION_ID ] [ --azure-resource-group AZURE_RESOURCE_GROUP ] [ --gcp-project GCP_PROJECT ] [ --kms-key-name KMS_KEY_NAME ] [ --gcp-zone GCP_ZONE ] DESTINATION_URL SERVER_NAME Description The barman-cloud-backup script is used to create a local backup of a Postgres server and transfer it to a supported cloud provider, bypassing the Barman server. It can also be utilized as a hook script for copying Barman backups from the Barman server to one of the supported clouds (post_backup_retry_script). This script requires read access to PGDATA and tablespaces, typically run as the postgres user. When used on a Barman server, it requires read access to the directory where Barman backups are stored. If --snapshot- arguments are used and snapshots are supported by the selected cloud provider, the backup will be performed using snapshots of the specified disks (--snapshot-disk). The backup label and metadata will also be uploaded to the cloud. NOTE: 0.0 3.5 For GCP, only authentication with GOOGLE_APPLICATION_CREDENTIALS env is supported. IMPORTANT: 0.0 3.5 The cloud upload may fail if any file larger than the configured --max-archive-size is present in the data directory or tablespaces. However, Postgres files up to 1GB are always allowed, regardless of the --max-archive-size setting. Parameters 0.0 SERVER_NAME Name of the server to be backed up. DESTINATION_URL URL of the cloud destination, such as a bucket in AWS S3. For example: s3://bucket/path/to/folder. -V / --version Show version and exit. --help show this help message and exit. -v / --verbose Increase output verbosity (e.g., -vv is more than -v). -q / --quiet Decrease output verbosity (e.g., -qq is less than -q). -t / --test Test cloud connectivity and exit. --cloud-provider The cloud provider to use as a storage backend. Allowed options: 7.0 (bu 2 aws-s3. (bu 2 azure-blob-storage. (bu 2 google-cloud-storage. -z / --gzip gzip-compress the backup while uploading to the cloud (should not be used with python < 3.2). -j / --bzip2 bzip2-compress the backup while uploading to the cloud (should not be used with python < 3.3). --snappy snappy-compress the backup while uploading to the cloud (requires optional python-snappy library). -h / --host Host or Unix socket for Postgres connection (default: libpq settings). -p / --port Port for Postgres connection (default: libpq settings). -U / --user User name for Postgres connection (default: libpq settings). -d / --dbname Database name or conninfo string for Postgres connection (default: (dqpostgres(dq). -n / --name A name which can be used to reference this backup in commands such as barman-cloud-restore and barman-cloud-backup-delete. -J / --jobs Number of subprocesses to upload data to cloud storage (default: 2). -S / --max-archive-size Maximum size of an archive when uploading to cloud storage (default: 100GB). --immediate-checkpoint Forces the initial checkpoint to be done as quickly as possible. --min-chunk-size Minimum size of an individual chunk when uploading to cloud storage (default: 5MB for aws-s3, 64KB for azure-blob-storage, not applicable for google-cloud-storage). --max-bandwidth The maximum amount of data to be uploaded per second when backing up to object storages (default: 0 - no limit). --snapshot-instance Instance where the disks to be backed up as snapshots are attached. --snapshot-disk Name of a disk from which snapshots should be taken. --tags Tags to be added to all uploaded files in cloud storage, and/or to snapshots created, if snapshots are used. Extra options for the AWS cloud provider 0.0 --endpoint-url Override default S3 endpoint URL with the given one. -P / --aws-profile Profile name (e.g. INI section in AWS credentials file). --profile (deprecated) Profile name (e.g. INI section in AWS credentials file)
replaced by --aws-profile. --read-timeout The time in seconds until a timeout is raised when waiting to read from a connection (defaults to 60 seconds). -e / --encryption The encryption algorithm used when storing the uploaded data in S3. Allowed options: 7.0 (bu 2 AES256. (bu 2 aws:kms. --sse-kms-key-id The AWS KMS key ID that should be used for encrypting the uploaded data in S3. Can be specified using the key ID on its own or using the full ARN for the key. Only allowed if -e / --encryption is set to aws:kms. --aws-region The name of the AWS region containing the EC2 VM and storage volumes defined by the --snapshot-instance and --snapshot-disk arguments. --aws-await-snapshots-timeout The length of time in seconds to wait for snapshots to be created in AWS before timing out (default: 3600 seconds). --aws-snapshot-lock-mode The lock mode for the snapshot. This is only valid if --snapshot-instance and --snapshot-disk are set. Allowed options: 7.0 (bu 2 compliance. (bu 2 governance. --aws-snapshot-lock-duration The lock duration is the period of time (in days) for which the snapshot is to remain locked, ranging from 1 to 36,500. Set either the lock duration or the expiration date (not both). --aws-snapshot-lock-cool-off-period The cooling-off period is an optional period of time (in hours) that you can specify when you lock a snapshot in compliance mode, ranging from 1 to 72. --aws-snapshot-lock-expiration-date The lock duration is determined by an expiration date in the future. It must be at least 1 day after the snapshot creation date and time, using the format YYYY-MM-DDTHH:MM:SS.sssZ. Set either the lock duration or the expiration date (not both). Extra options for the Azure cloud provider 0.0 --azure-credential / --credential Optionally specify the type of credential to use when authenticating with Azure. If omitted then Azure Blob Storage credentials will be obtained from the environment and the default Azure authentication flow will be used for authenticating with all other Azure services. If no credentials can be found in the environment then the default Azure authentication flow will also be used for Azure Blob Storage. Allowed options: 7.0 (bu 2 azure-cli. (bu 2 managed-identity. (bu 2 default. --encryption-scope The name of an encryption scope defined in the Azure Blob Storage service which is to be used to encrypt the data in Azure. --azure-subscription-id The ID of the Azure subscription which owns the instance and storage volumes defined by the --snapshot-instance and --snapshot-disk arguments. --azure-resource-group The name of the Azure resource group to which the compute instance and disks defined by the --snapshot-instance and --snapshot-disk arguments belong. Extra options for GCP cloud provider 0.0 --gcp-project GCP project under which disk snapshots should be stored. --snapshot-gcp-project (deprecated) GCP project under which disk snapshots should be stored - replaced by --gcp-project. --kms-key-name The name of the GCP KMS key which should be used for encrypting the uploaded data in GCS. --gcp-zone Zone of the disks from which snapshots should be taken. --snapshot-zone (deprecated) Zone of the disks from which snapshots should be taken - replaced by --gcp-zone
barman-cloud-backup-delete(1) - Barman-cloud Commands Synopsis 0.0 3.5 barman-cloud-backup-delete [ { -V | --version } ] [ --help ] [ { { -v | --verbose } | { -q | --quiet } } ] [ { -t | --test } ] [ --cloud-provider { aws-s3 | azure-blob-storage | google-cloud-storage } ] [ --endpoint-url ENDPOINT_URL ] [ { -r | --retention-policy } RETENTION_POLICY ] [ { -m | --minimum-redundancy } MINIMUM_REDUNDANCY ] [ { -b | --backup-id } BACKUP_ID] [ --dry-run ] [ { -P | --aws-profile } AWS_PROFILE ] [ --profile AWS_PROFILE ] [ --read-timeout READ_TIMEOUT ] [ { --azure-credential | --credential } { azure-cli | managed-identity | default } ] [--batch-size DELETE_BATCH_SIZE] SOURCE_URL SERVER_NAME Description The barman-cloud-backup-delete script is used to delete one or more backups created with the barman-cloud-backup command from cloud storage and to remove the associated WAL files. Backups can be specified for deletion either by their backup ID (as obtained from barman-cloud-backup-list) or by a retention policy. Retention policies mirror those used by the Barman server, deleting all backups that are not required to meet the specified policy. When a backup is deleted, any unused WAL files associated with that backup are also removed. WALs are considered unused if: 0.0 (bu 2 The WALs predate the begin_wal value of the oldest remaining backup. (bu 2 The WALs are not required by any archival backups stored in the cloud. NOTE: 0.0 3.5 For GCP, only authentication with GOOGLE_APPLICATION_CREDENTIALS env is supported. IMPORTANT: 0.0 3.5 Each backup deletion involves three separate requests to the cloud provider: one for the backup files, one for the backup.info file, and one for the associated WALs. Deleting by retention policy may result in a high volume of delete requests if a large number of backups are accumulated in cloud storage. Parameters 0.0 SERVER_NAME Name of the server that holds the backup to be deleted. SOURCE_URL URL of the cloud source, such as a bucket in AWS S3. For example: s3://bucket/path/to/folder. -V / --version Show version and exit. --help show this help message and exit. -v / --verbose Increase output verbosity (e.g., -vv is more than -v). -q / --quiet Decrease output verbosity (e.g., -qq is less than -q). -t / --test Test cloud connectivity and exit. --cloud-provider The cloud provider to use as a storage backend. Allowed options are: 7.0 (bu 2 aws-s3. (bu 2 azure-blob-storage. (bu 2 google-cloud-storage. -b / --backup-id ID of the backup to be deleted -m / --minimum-redundancy The minimum number of backups that should always be available. -r / --retention-policy If specified, delete all backups eligible for deletion according to the supplied retention policy. Syntax: REDUNDANCY value | RECOVERY WINDOW OF value { DAYS | WEEKS | MONTHS } --batch-size The maximum number of objects to be deleted in a single request to the cloud provider. If unset then the maximum allowed batch size for the specified cloud provider will be used (1000 for aws-s3, 256 for azure-blob-storage and 100 for google-cloud-storage). --dry-run Find the objects which need to be deleted but do not delete them. Extra options for the AWS cloud provider 0.0 --endpoint-url Override default S3 endpoint URL with the given one. -P / --aws-profile Profile name (e.g. INI section in AWS credentials file). --profile (deprecated) Profile name (e.g. INI section in AWS credentials file)
replaced by --aws-profile. --read-timeout The time in seconds until a timeout is raised when waiting to read from a connection (defaults to 60 seconds). Extra options for the Azure cloud provider 0.0 --azure-credential / --credential Optionally specify the type of credential to use when authenticating with Azure. If omitted then Azure Blob Storage credentials will be obtained from the environment and the default Azure authentication flow will be used for authenticating with all other Azure services. If no credentials can be found in the environment then the default Azure authentication flow will also be used for Azure Blob Storage. Allowed options are: 7.0 (bu 2 azure-cli. (bu 2 managed-identity. (bu 2 default
barman-cloud-wal-archive(1) - Barman-cloud Commands Synopsis 0.0 3.5 barman-cloud-wal-archive [ { -V | --version } ] [ --help ] [ { { -v | --verbose } | { -q | --quiet } } ] [ { -t | --test } ] [ --cloud-provider { aws-s3 | azure-blob-storage | google-cloud-storage } ] [ { { -z | --gzip } | { -j | --bzip2 } | --xz | --snappy | --zstd | --lz4 } ] [ --tags TAG [ TAG ... ] ] [ --history-tags HISTORY_TAG [ HISTORY_TAG ... ] ] [ --endpoint-url ENDPOINT_URL ] [ { -P | --aws-profile } AWS_PROFILE ] [ --profile AWS_PROFILE ] [ --read-timeout READ_TIMEOUT ] [ { -e | --encryption } ENCRYPTION ] [ --sse-kms-key-id SSE_KMS_KEY_ID ] [ { --azure-credential | --credential } { azure-cli | managed-identity | default } ] [ --encryption-scope ENCRYPTION_SCOPE ] [ --max-block-size MAX_BLOCK_SIZE ] [ --max-concurrency MAX_CONCURRENCY ] [ --max-single-put-size MAX_SINGLE_PUT_SIZE ] [ --kms-key-name KMS_KEY_NAME ] DESTINATION_URL SERVER_NAME [ WAL_PATH ] Description The barman-cloud-wal-archive command is designed to be used in the archive_command of a Postgres server to directly ship WAL files to cloud storage. NOTE: 0.0 3.5 If you are using Python 2 or unsupported versions of Python 3, avoid using the compression options --gzip or --bzip2. The script cannot restore gzip-compressed WALs on Python < 3.2 or bzip2-compressed WALs on Python < 3.3. This script enables the direct transfer of WAL files to cloud storage, bypassing the Barman server. Additionally, it can be utilized as a hook script for WAL archiving (pre_archive_retry_script). NOTE: 0.0 3.5 For GCP, only authentication with GOOGLE_APPLICATION_CREDENTIALS env is supported. Parameters 0.0 SERVER_NAME Name of the server that will have the WALs archived. DESTINATION_URL URL of the cloud destination, such as a bucket in AWS S3. For example: s3://bucket/path/to/folder. WAL_PATH The value of the (aq%p(aq keyword (according to archive_command). -V / --version Show version and exit. --help show this help message and exit. -v / --verbose Increase output verbosity (e.g., -vv is more than -v). -q / --quiet Decrease output verbosity (e.g., -qq is less than -q). -t / --test Test cloud connectivity and exit. --cloud-provider The cloud provider to use as a storage backend. Allowed options are: 7.0 (bu 2 aws-s3. (bu 2 azure-blob-storage. (bu 2 google-cloud-storage. -z / --gzip gzip-compress the WAL while uploading to the cloud. -j / --bzip2 bzip2-compress the WAL while uploading to the cloud. --xz xz-compress the WAL while uploading to the cloud. --snappy snappy-compress the WAL while uploading to the cloud (requires optional python-snappy library). --zstd zstd-compress the WAL while uploading to the cloud (requires optional zstandard library). --lz4 lz4-compress the WAL while uploading to the cloud (requires optional lz4 library). --tags Tags to be added to archived WAL files in cloud storage. --history-tags Tags to be added to archived history files in cloud storage. Extra options for the AWS cloud provider 0.0 --endpoint-url Override default S3 endpoint URL with the given one. -P / --aws-profile Profile name (e.g. INI section in AWS credentials file). --profile (deprecated) Profile name (e.g. INI section in AWS credentials file)
replaced by --aws-profile. --read-timeout The time in seconds until a timeout is raised when waiting to read from a connection (defaults to 60 seconds). -e / --encryption The encryption algorithm used when storing the uploaded data in S3. Allowed options: 7.0 (bu 2 AES256. (bu 2 aws:kms. --sse-kms-key-id The AWS KMS key ID that should be used for encrypting the uploaded data in S3. Can be specified using the key ID on its own or using the full ARN for the key. Only allowed if -e / --encryption is set to aws:kms. Extra options for the Azure cloud provider 0.0 --azure-credential / --credential Optionally specify the type of credential to use when authenticating with Azure. If omitted then Azure Blob Storage credentials will be obtained from the environment and the default Azure authentication flow will be used for authenticating with all other Azure services. If no credentials can be found in the environment then the default Azure authentication flow will also be used for Azure Blob Storage. Allowed options are: 7.0 (bu 2 azure-cli. (bu 2 managed-identity. (bu 2 default. --encryption-scope The name of an encryption scope defined in the Azure Blob Storage service which is to be used to encrypt the data in Azure. --max-block-size The chunk size to be used when uploading an object via the concurrent chunk method (default: 4MB). --max-concurrency The maximum number of chunks to be uploaded concurrently (default: 1). --max-single-put-size Maximum size for which the Azure client will upload an object in a single request (default: 64MB). If this is set lower than the Postgres WAL segment size after any applied compression then the concurrent chunk upload method for WAL archiving will be used. Extra options for GCP cloud provider 0.0 --kms-key-name The name of the GCP KMS key which should be used for encrypting the uploaded data in GCS
btsixad(8)
Driver for Sixaxis gamepad connected over Bluetooth
coax(1)
determine impedance of a coaxial structure, where the inner may be offset from the centre if necessary
critter(6), Critical Mass(6)
Space shootemup resembling Galaxian
dbh_set_size(3), dbh_set_recordsize(3)
set maximum or current record size
dualcoax(1)
determine impedance of a coaxial structure with two concentric dielectrics
dymaxionmap(6)
An animation of Buckminster Fuller's unwrapped icosahedral globe
faxspool(1)
queue and convert files for faxing with sendfax(8)
galaxis(6)
rescue lifeboats lost in interstellar space
galaxy(6)
draws spinning galaxies
get_sound_input_cap_rate(3)
Returns the maximum sample frequency for recording. Allegro game programming library
get_x_rotate_matrix(3), get_x_rotate_matrix_f(3)
Construct X axis rotation matrices. Allegro game programming library
get_x_rotate_quat(3), get_y_rotate_quat(3), get_z_rotate_quat(3)
Construct axis rotation quaternions. Allegro game programming library
get_y_rotate_matrix(3), get_y_rotate_matrix_f(3)
Construct Y axis rotation matrices. Allegro game programming library
get_z_rotate_matrix(3), get_z_rotate_matrix_f(3)
Construct Z axis rotation matrices. Allegro game programming library
gleLathe(3)
Sweep using a Z-axis shear to create an arbitrary contour along a helical path
gleLathe(3gle)
Sweep using a Z-axis shear to create an arbitrary contour along a helical path
gmx-densmap(1)
Calculate 2D planar or axial-radial density maps
joystick_getaxis(3), joystick_getbutton(3)
query the current state of a joystick
kdata_xmax(3), kdata_ymax(3)
find maxima in a data source
ldns_rr_descriptor(3), ldns_rr_descript(3), ldns_rr_descriptor_minimum(3), ldns_rr_descriptor_maximum(3), ldns_rr_descriptor_field_type(3)
rdata field descriptors
libinput-measure-fuzz(1)
measure absolute axis fuzz
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