Zowe YAML server configuration file reference
Zowe YAML server configuration file reference
Zowe v3 uses a YAML configuration file for server installation, configuration, and runtime. This file is usually referred to as the Zowe configuration YAML file or the zowe.yaml
file. YAML is a human-friendly data serialization language for all programming languages. To learn more about YAML specifications, see https://yaml.org/. For a free, offline YAML validator to help validate your syntax, download the Red Hat's VS Code YAML extension.
Content within the YAML file is documented by and validated against schema files which are shipped within Zowe and extended by Zowe extensions. For details on the schema technology and where to find the schema files within our source code, see Using the Configuration Manager.
In the following sections, we refer to configuration keys by using the concatenation of key names and dots. For example, if you want to update the configuration key zowe.certificate.keystore.type
with the value PKCS12
, you should set the value for this entry in the zowe.yaml
:
zowe:
certificate:
keystore:
type: PKCS12
High-level overview of YAML configuration file
The YAML configuration file has few high-level sections:
zowe
Defines global configurations specific to Zowe, including default values.java
Defines Java configurations used by Zowe components.node
Defines node.js configurations used by Zowe components.zOSMF
Tells Zowe your z/OSMF configurations.components
Defines detailed configurations for each Zowe component or extension. Each component or extension may have a key entry under this section. For example,components.gateway
is configuration for the API Mediation Layer Gateway service.haInstances
Defines customized configurations for each High Availability (HA) instance. You should predefine all Zowe HA instances you want to start within your Sysplex.
Extract sharable configuration out of zowe.yaml
The Zowe YAML configuration file supports splitting into several files or PARMLIB members. This can help simplify grouping configuration changes by type or owner. More details can be found in the configmgr documentation.
Creating portable references
The Zowe YAML configuration file has template logic for relating one value to another, a system environment variable or symbol, or even to add conditional behavior. It can help to make your configuration portable between systems that need slightly different behavior while retaining the same configuration file. More details can be found in the configmgr documentation.
Configuration override
Inside zowe.yaml
, you can define default values and they may be overridden in more granular level configurations. This can happen in several ways:
- The component can override the default certificate configuration. For the specific entry of certification configuration, if it's not overridden, it falls back to default configurations.
Example:
zowe:
certificate:
keystore:
type: PKCS12
file: /global/zowe/keystore/localhost/localhost.keystore.p12
password: password
alias: localhost
truststore:
type: PKCS12
file: /global/zowe/keystore/localhost/localhost.truststore.p12
password: password
pem:
key: /global/zowe/keystore/localhost/localhost.key
certificate: /global/zowe/keystore/localhost/localhost.cer
certificateAuthorities: /global/zowe/keystore/local_ca/local_ca.cer
components:
app-server:
certificate:
keystore:
alias: app-server
pem:
key: /global/zowe/keystore/localhost/app-server.key
certificate: /global/zowe/keystore/localhost/app-server.cer
App Server will use the certificate alias app-server
instead of localhost
from the same keystore defined in zowe.certificate.keystore.file
. And it will use the exact same truststore defined in zowe.certificate.truststore.file
.
-
Zowe high availability (HA) instance component configuration
haInstances.<ha-instance>.components.<component>
can override global level component configurationscomponents.<component>
. Any configuration you can find incomponents.<component>
level can be overridden inhaInstances.<ha-instance>.components.<component>
level. For example, in this configuration:components:
app-server:
enabled: true
port: 8544
haInstances:
lpar2a:
components:
app-server:
enabled: false
lpar2b:
components:
app-server:
port: 28544App Server on
lpar2a
HA instance will not be started. Onlpar2b
HA instance, it will be started but on port 28544.
YAML configurations - certificate
In Zowe YAML configuration, the certificate definition shares the same format which can be used in several configuration entries. For example, zowe.certificate
, components.<component>.certificate
, and haInstances.<ha-instance>.components.<component>.certificate
. The certificate definition may include the following entries:
keystore.type
Defines the type of the keystore. If you are using keystore, this value usually should bePKCS12
. If you are using keyring, this value should beJCERACFKS
.keystore.file
Defines the path of the keystore file. If you are using keyring, this should look likesafkeyring://<keyring-owner>/<keyring-name>
. For example,safkeyring://ZWESVUSR/ZoweKeyring
.keystore.password
Defines the password of the keystore.keystore.alias
Represents the alias name of the certificate stored in keystore. If you are using keyring, this is the certificate label connected to the keyring.truststore.type
Defines the type of the truststore file. If you are using keystore, this value usually should bePKCS12
. If you are using keyring, this value should beJCERACFKS
.truststore.file
Defines the path to the truststore file. If you are using keyring, this should look likesafkeyring://<keyring-owner>/<keyring-name>
, usually will be the same value ofkeystore.file
.truststore.password
Defines the password of the truststore.pem.key
Defines the private key file in PEM format. This can be used by applications that do not support either PKCS12 keystore format or z/OS keyring.pem.certificate
Defines the public key file in PEM format. This can be used by applications that do not support either PKCS12 keystore format or z/OS keyring.pem.certificateAuthorities
Defines certificate authorities in PEM format. This can be used by applications that do not support either PKCS12 keystore format or z/OS keyring.
YAML configurations - zowe
The high-level configuration zowe
supports these definitions:
Directories
zowe.runtimeDirectory
Tells Zowe the runtime directory where it's installed.zowe.logDirectory
Some Zowe components write logs to file system. This tells Zowe which directory should be used to store log files.zowe.workspaceDirectory
Tells Zowe components where they can write temporary runtime files.zowe.extensionDirectory
Tells Zowe where you put the runtime of all your extensions.
Zowe Job
zowe.job.name
Defines the Zowe job name for the ZWESLSTC started task.zowe.job.prefix
Defines the Zowe address space prefix for Zowe components.
Domain and port to access Zowe
-
zowe.externalDomains
Defines a list of external domains that will be used by the Zowe instance. This configuration is an array of domain name strings. In Sysplex deployment, this is the DVIPA domain name defined in Sysplex Distributor. For example,zowe:
externalDomains:
- external.my-company.com
- additional-dvipa-domain.my-company.com
In Kubernetes deployment, this is the domain name you will use to access your Zowe running in Kubernetes cluster.
zowe.externalPort
Defines the port that will be exposed to external Zowe users. By default, this value is set based on Zowe APIML Gateway port. In Sysplex deployment, this is the DVIPA port defined in Sysplex Distributor. See Configure Sysplex Distributor for more information. In Kubernetes deployment, this is the gateway Service port will be exposed to external.
Extra environment variables
-
zowe.environments
Defines extra environment variables to customize the Zowe runtime. This configuration is a list of key / value pairs. Example:zowe:
environments:
MY_NEW_ENV: value-of-my-env
Please be aware that variables defined here are global to all Zowe components, on all HA instances.
An example use case is to override system-wide environment variables for the Zowe runtime, such as the directory to use for temporary files.
Certificate
zowe.certificate
Defines the northbound certificate facing Zowe users.zowe.verifyCertificates
Defines how Zowe should validate the certificates used by components or external service(s) like z/OSMF. It can be a value of:STRICT
: This is the default value. Zowe will validate if the certificate is trusted in our trust store and if the certificate Command Name and Subject Alternative Name (SAN)is validated. This is recommended for the best security.NONSTRICT
: Zowe will validate if the certificate is trusted in our trust store. In this mode, Zowe does not validate certificate Common Name and Subject Alternative Name (SAN). This option does not have the best security but allows you to try out Zowe when you don't have permission to fix certificate used by external services like z/OSMF.DISABLED
: This will disable certificate validation completely. This is NOT recommended for security purpose.
Launcher and launch scripts
Launcher is the program behind ZWESLSTC
started task.
zowe.launcher
The launcher section defines defaults about how the Zowe launcher should act upon components.zowe.launcher.restartIntervals
An array of positive integers that defines how many times a component should be tried to be restarted if it fails, and how much time to wait in seconds for that restart to succeed before retrying.zowe.launcher.minUptime
The minimum amount of time a zowe component should be running in order to be declared as started successfully.zowe.launcher.shareAs
Whether or not the launcher should start components in the same address space as it. See documentation for _BPX_SHAREAS for details.zowe.launchScript.logLevel
You can set it todebug
ortrace
to enable different level of debug messages from Zowe launch scripts. This may help to troubleshoot issues during Zowe start.
Setup
Zowe YAML configuration uses zowe.setup
section to instruct how Zowe should be installed and configured. This section is optional for Zowe runtime but only be used for zwe install
and zwe init
commands.
zowe:
setup:
dataset:
prefix: IBMUSER.ZWE
parmlib: IBMUSER.ZWE.CUST.PARMLIB
jcllib: IBMUSER.ZWE.CUST.JCLLIB
authLoadlib: IBMUSER.ZWE.CUST.ZWESALL
authPluginLib: IBMUSER.ZWE.CUST.ZWESAPL
security:
product: RACF
groups:
admin: ZWEADMIN
stc: ZWEADMIN
sysProg: ZWEADMIN
users:
zowe: ZWESVUSR
zis: ZWESIUSR
stcs:
zowe: ZWESLSTC
zis: ZWESISTC
aux: ZWESASTC
certificate:
type: PKCS12
dname:
caCommonName:
commonName:
orgUnit:
org:
locality:
state:
country:
validity: 3650
pkcs12:
directory: /global/zowe/keystore
lock: true
name: localhost
password: password
caAlias: local_ca
caPassword: local_ca_password
import:
keystore:
password:
alias:
keyring:
owner:
name: ZoweKeyring
label: localhost
caLabel: localca
import:
dsName:
password:
connect:
user:
label:
zOSMF:
ca:
user: IZUSVR
san:
- zos.my-company.com
- internal-lpar1.zos.my-company.com
- internal-lpar2.zos.my-company.com
- internal-lpar3.zos.my-company.com
importCertificateAuthorities:
-
vsam:
mode: NONRLS
volume: VOL123
storageClass:
-
zowe.setup.dataset.prefix
shows where theSZWEAUTH
data set is installed. -
zowe.setup.dataset.parmlib
is the user custom parameter library. Zowe server command may generate sample PARMLIB members and stores here. -
zowe.setup.dataset.jcllib
is the custom JCL library. Zowe server command may generate sample JCLs and put into this data set. -
zowe.setup.dataset.authLoadlib
is the user custom APF LOADLIB. This field is optional. If this is defined, members ofSZWEAUTH
will be copied over to this data set and it will be APF authorized. If it is not defined,SZWEAUTH
fromzowe.setup.dataset.prefix
will be APF authorized. -
zowe.setup.dataset.authPluginLib
is the user custom APF PLUGINLIB. You can install Zowe ZIS plug-ins into this load library. This loadlib requires APF authorize. -
zowe.setup.security.product
is the security product. Can beRACF
,ACF2
, orTSS
. This configuration is optional. The default value isRACF
. -
zowe.setup.security.groups.admin
is the group for Zowe administrators. This configuration is optional. The default value isZWEADMIN
. -
zowe.setup.security.groups.stc
is the group for Zowe started tasks. This configuration is optional. The default value isZWEADMIN
. -
zowe.setup.security.groups.sysProg
is system programmer user ID/group. This configuration is optional. The default value isZWEADMIN
. -
zowe.setup.security.users.zowe
is the userid for Zowe started task. This configuration is optional. The default value isZWESVUSR
. -
zowe.setup.security.users.zis
is userid for ZIS started task. This configuration is optional. Th default value isZWESIUSR
. -
zowe.setup.security.stcs.zowe
is Zowe started task name. This configuration is optional. The default value isZWESLSTC
. -
zowe.setup.security.stcs.zis
is ZIS started task name. This configuration is optional. The default value isZWESISTC
. -
zowe.setup.security.stcs.aux
is ZIS AUX started task name. This configuration is optional. The default value isZWESASTC
. -
zowe.setup.certificate.type
is the type of certificate. Valid values arePKCS1
(USS keystore) orJCERACFKS
(z/OS keyring). -
zowe.setup.certificate.dname
is the distinguished name of the certificate. You can definecaCommonName
,commonName
,orgUnit
,org
,locality
,state
, and / orcountry
. These configurations are optional. -
zowe.setup.certificate.validity
is the validity days of the certificate. This is optional. -
zowe.setup.certificate.san
is theSubject Alternative Name
(s) of the certificate if they are different fromzowe.externalDomains
. Note that forJCERACFKS
type, with limitation of RACDCERT command, this should contain exact one hostname (domain) and one IP address. -
zowe.setup.certificate.importCertificateAuthorities
is the list of certificate authorities will be imported to ZowePKCS12
keystore orJCERACFKS
keyring. Please note, for JCERACFKS type, only maximum 2 CAs is supported. If you are usingPKCS12
certificate, this should be USS files in PEM format. If you are usingJCERACFKS
certificate, this should be certificate labels on the z/OS system.
For PKCS12
certificate users
zowe.setup.certificate.pkcs12.directory
is the directory where you plan to store the PKCS12 keystore and truststore. This is required ifzowe.setup.certificate.type
isPKCS12
.zowe.setup.certificate.pkcs12.lock
is a boolean configuration to tell if we should lock the PKCS12 keystore directory only for Zowe runtime user and group. The default value is true.- You can also define
name
,password
,caAlias
andcaPassword
underzowe.setup.certificate.pkcs12
to customized keystore and truststore. These configurations are optional, but it is recommended to update them from default values. - Define
zowe.setup.certificate.pkcs12.import.keystore
if you already acquired certificate from other CA, stored them in PKCS12 format, and want to import into Zowe PKCS12 keystore. zowe.setup.certificate.pkcs12.import.password
is the password for keystore defined inzowe.setup.certificate.pkcs12.import.keystore
.zowe.setup.certificate.pkcs12.import.alias
is the original certificate alias defined inzowe.setup.certificate.pkcs12.import.keystore
. After imported, the certificate will be saved as alias specified inzowe.setup.certificate.pkcs12.name
.
For JCERACFKS
certificate (z/OS keyring) users
-
zowe.setup.certificate.keyring.owner
is the keyring owner. It's optional and default value iszowe.setup.security.users.zowe
. If it's also not defined, the default value isZWESVUSR
. -
zowe.setup.certificate.keyring.name
is the keyring name will be created on z/OS. This is required ifzowe.setup.certificate.type
isJCERACFKS
. -
If you want to let Zowe to generate a new certificate:
- You can also customize
label
andcaLabel
underzowe.setup.certificate.keyring
if you want to generate new certificate. The default value oflabel
islocalhost
and default value ofcaLabel
islocalca
.
- You can also customize
-
If you want to import a certificate stored in MVS data set into Zowe keyring:
zowe.setup.certificate.keyring.connect.dsName
is required in this case. It tells Zowe the data set where the certificate stored.zowe.setup.certificate.keyring.connect.password
is the password when importing the certificate.- The certificate will be imported with the label defined in
zowe.setup.certificate.keyring.label
.
-
If you want to connect an existing certificate into a Zowe keyring:
zowe.setup.certificate.keyring.connect.user
is required and tells Zowe the owner of existing certificate. This field can have value ofSITE
.zowe.setup.certificate.keyring.connect.label
is also required and tells Zowe the label of existing certificate.
-
If
zowe.verifyCertificates
is notDISABLED
, and z/OSMF host (zOSMF.host
) is provided, Zowe will try to trust the z/OSMF certificate.- If you are using
RACF
security manager, Zowe will try to automatically detect the z/OSMF CA based on certificate owner specified byzowe.setup.certificate.keyring.zOSMF.user
. Default value of this field isIZUSVR
. If the automatic detection failed, you will need to definezowe.setup.certificate.keyring.zOSMF.ca
indicates what is the label of the z/OSMF root certificate authority. - If you are using
ACF2
orTSS
(Top Secret) security manager,zowe.setup.certificate.keyring.zOSMF.ca
is required to indicates what is the label of the z/OSMF root certificate authority.
- If you are using
-
zowe.setup.vsam.mode
indicates whether the VSAM will utilize Record Level Sharing (RLS) services or not. Valid values areRLS
orNONRLS
. -
zowe.setup.vsam.volume
indicates the name of volume. This field is required if VSAM mode isNONRLS
. -
zowe.setup.vsam.storageClass
indicates the name of RLS storage class. This field is required if VSAM mode isRLS
.
YAML configurations - java
The high-level configuration java
supports these definitions:
home
Defines the path to the Java runtime directory.
YAML configurations - node
The high-level configuration node
supports these definitions:
home
Defines the path to the Node.js runtime directory.
Ensure the value of node.home
in the zowe.yaml
is visible to the Zowe STC users, and contains bin/node
.
Example:
node:
home: "/usrlppSysplex/nodejs/node-v12.16.1"
The above value is valid only when the path /usrlppSysplex/nodejs/node-v12.16.1/bin/node
exists. If you observe output of node:...FSUM7351 not found
, check to ensure that the value contains bin/node
.
YAML configurations - zOSMF
The high-level configuration zOSMF
supports these definitions:
zOSMF.host
Defines the hostname of your z/OSMF instance.zOSMF.port
Defines the port of your z/OSMF instance.zOSMF.applId
Defines the application ID of your z/OSMF instance.
YAML configurations - components
All Zowe components and extensions can have a dedicated section under the components
high-level configuration.
In this section, <component>
represents any Zowe components or extensions. For all components and extensions, these are the common definitions.
components.<component>.enabled
Defines if you want to start this component in this Zowe instance. This allows you to control each component instead of a group.components.<component>.certificate
You can customize a component to use different certificate from default values. This section follows same format defined in YAML configurations - certificate. If this is not customized, the component will use certificates defined inzowe.certificate
.components.<component>.launcher
Any component can have a launcher section which overrides the overall Zowe Launcher default defined inzowe.launcher
.
Configure component gateway
These configurations can be used under the components.gateway
section:
-
port
Defines the port which the gateway should be started on. This must be a valid port number. -
debug
Defines whether to enable debug mode for the Gateway. -
apiml.connectionTimeout
Specifies the value in milliseconds which corresponds to the period in which API ML should establish a single, non-managed connection with the service. If omitted, the default value specified in the API ML Gateway service configuration is used. -
apiml.connection.idleConnectionTimeoutSeconds
Specifies how long will the connection to southbound remains open without communication. The default value is 5 seconds. Unit is second. -
apiml.health.protected
This property defines whether the health check endpoint is accessible with or without authentication. -
apiml.gateway.timeoutMillis
Specifies the timeout for connection to the services in milliseconds. -
apiml.security.x509.enabled
Set this parameter totrue
to enable the client certificate authentication functionality through ZSS. -
apiml.security.x509.externalMapperUrl
Defines the URL where Gateway can query the mapping of client certificates. -
apiml.security.auth.jwt.customAuthHeader
Returns valid JWT header also in another header -
apiml.security.auth.passticket.customAuthHeader
Provides passtickets for the southbound service in the custom header -
apiml.security.auth.passticket.customUserHeader
Provides User Info when Passticket is provided in the custom header -
apiml.security.auth.provider
Defines the authentication provider used by the API Gateway. -
apiml.security.authorization.endpoint.url
Defines the URL to the authorization endpoint. This endpoint tells Gateway if a user has a particular permission on SAF profile. For example, permission to theAPIML.SERVICES
profile ofZOWE
class. -
apiml.security.personalAccessToken.enabled
Enable Personal Access Tokens -
apiml.security.useInternalMapper
This property is the global feature toggle. Set the value to true to enable Internal Mapper -
apiml.security.oidc.enabled
Specifies the global feature toggle. Set the value totrue
to enable OIDC authentication functionality. -
apiml.security.oidc.registry
Specifies the SAF registry used to group the identities recognized as having an OIDC identity mapping. The registry name is the string used during the creation of the mapping between the distributed and mainframe user identities. For more information, see the ESM configuration. -
apiml.security.oidc.jwks.uri
Specifies the URI obtained from the authorization server's metadata where the Gateway will query for the JWK used to sign and verify the access tokens. -
apiml.security.oidc.jwks.refreshInternalHours
Specifies the frequency in hours to refresh the JWK keys from the OIDC provider. Defaults to one hour. -
apiml.security.oidc.identityMapperUser
(Optional) If the userId is different from the default Zowe runtime userId (ZWESVUSR
), specify theidentityMapperUser
userId to configure API ML access to the external user identity mapper.
User authorization is required to use the IRR.RUSERMAP
resource within the FACILITY
class. The default value is ZWESVUSR
. Permissions are set up during installation with the ZWESECUR
JCL or workflow. To authenticate to the mapping API, a JWT is sent with the request. The token represents the user that is configured with this property.
-
apiml.security.oidc.identityMapperUrl
Defines the URL where the Gateway can query the mapping of the distributed user ID to the mainframe user ID. This property informs the Gateway about the location of this API. ZSS is the default API provider in Zowe, but if you are using Zowe release 2.14 or a later version, we recommend you use the API ML internal mapper. You can provide your own API to perform the mapping. In this case, it is necessary to customize this value.The following URL is the default value for Zowe and ZSS:
https://${ZWE_haInstance_hostname}:${GATEWAY_PORT}/zss/api/v1/certificate/dn
```- **`apiml.security.ssl.verifySslCertificatesOfServices`**
Defines whether APIML should verify certificates of services in strict mode. Setting to true
will enable the strict
mode where APIML will validate if the certificate is trusted in truststore, and also if the certificate Common Name or Subject Alternate Name (SAN) matches the service hostname.
apiml.security.ssl.nonStrictVerifySslCertificatesOfServices
Defines whether APIML should verify certificates of services in non-strict mode. Setting the value totrue
will enable thenon-strict
mode where APIML will validate if the certificate is trusted in truststore, but ignore the certificate Common Name or Subject Alternate Name (SAN) check. Zowe will ignore this configuration when strict mode is enabled withapiml.security.ssl.verifySslCertificatesOfServices
.apiml.service.allowEncodedSlashes
When this parameter is set totrue
, the Gateway allows encoded characters to be part of URL requests redirected through the Gateway.apiml.service.corsEnabled
When this parameter is set totrue
, CORS are enabled in the API Gateway for Gateway routesgateway/api/v1/**
.server.maxConnectionsPerRoute
Specifies the maximum connections for each service.server.maxTotalConnections
Specifies the total connections for all services registered under API Mediation Layer.server.ssl.enabled
This handles whether TLS is usedserver.webSocket.maxIdleTimeout
This timeout handles how long the Websocket connection remains open if there is no communication happening over the open connection. The default is one hour (3600000 milliseconds).server.webSocket.connectTimeout
This timeout limits how long the API Gateway waits until it drops connection if it cannot reach the target server. The default is 45 seconds (45000 milliseconds).server.webSocket.asyncWriteTimeout
This timeout handles how long it takes before the server fails with unsuccessful response when trying to write a message to the Websocket connection. The default is 60 seconds (60000 milliseconds).server.webSocket.requestBufferSize
This property handles the max request size allowed in WebSocket handshake requests. The default is 8K.
Configure component discovery
These configurations can be used under the components.discovery
section:
-
port
Defines the port which discovery should be started on. This may be defined as a valid port number or as an offset from the Gateway component's port. To define an offset enter"+{offset}"
or"-{offset}"
as a string. The offset must start with+
or-
. -
debug
Defines whether to enable debug mode for the Discovery Service. -
apiml.health.protected
This property defines whether the health check endpoint is accessible with or without authentication. -
apiml.security.ssl.verifySslCertificatesOfServices
Defines whether APIML should verify certificates of services in strict mode. Setting totrue
will enable thestrict
mode where APIML will validate both if the certificate is trusted in turststore, and also if the certificate Common Name or Subject Alternate Name (SAN) matches the service hostname. -
apiml.security.ssl.nonStrictVerifySslCertificatesOfServices
Defines whether APIML should verify certificates of services in non-strict mode. Setting totrue
will enable thenon-strict
mode where APIML will validate if the certificate is trusted in turststore, but ignore the certificate Common Name or Subject Alternate Name (SAN) check. Zowe will ignore this configuration if strict mode is enabled withapiml.security.ssl.verifySslCertificatesOfServices
. -
alternativeStaticApiDefinitionsDirectories
Specifies the alternative directories of static definitions. -
apiml.server.maxTotalConnections
Specifies the total connections for all services registered under API Mediation Layer. -
apiml.discovery.serviceIdPrefixReplacer
Modifies the service ID of a service instance before it registers to API Mediation Layer. Using this parameter ensures compatibility of services that use a non-conformant organization prefix with v2, based on Zowe v2 conformance. -
server.ssl.enabled
This handles whether TLS is used
Configure component api-catalog
These configurations can be used under the components.api-catalog
section:
-
port
Defines the port which API Catalog should be started on. -
debug
Defines if we want to enable debug mode for the API Catalog. This is equivalent to theAPIML_DEBUG_MODE_ENABLED
variable but with better granular level. -
apiml.health.protected
This property defines whether the health check endpoint is accessible with or without authentication. -
apiml.security.authorization.provider
Provider used for SAF resource check -
apiml.security.authorization.endpoint.url
Base path of endpoint's URL ({base path}/{userId}/{class}/{entity}/{level}
) -
apiml.catalog.customStyle.logo
Specifies the location of the logo that will replace the default Zowe logo in the API Catalog header. The supported image formats are:svg
,png
andjpg/jpeg
. -
apiml.catalog.customStyle.fontFamily
Specifies the font family to use across the API Catalog. -
apiml.catalog.customStyle.backgroundColor
Specifies the HTML color of the main background across the API Catalog -
apiml.catalog.customStyle.titlesColor
Specifies the title color. -
apiml.catalog.customStyle.headerColor
Specifies the HTML color of the header element in the API Catalog home page -
apiml.catalog.customStyle.textColor
Specifies the HTML color of the main text across the API Catalog -
apiml.catalog.customStyle.docLink
Specifies a custom link to be displayed in the header. Use this property to refer to applicable documentation. The format is<link_name>|<link_url>
Configure component caching-service
These configurations can be used under the components.caching-service
section:
-
port
Defines the port which Caching Service should be started on. This may be defined as a valid port number or as an offset from the Gateway component's port. To define an offset enter"+{offset}"
or"-{offset}"
as a string. The offset must start with+
or-
. -
debug
Defines if we want to enable debug mode for the Caching Service. -
storage.mode
Sets the storage type used to persist data in the Caching Service. -
storage.size
Specifies amount of records before eviction strategies start evicting. -
storage.evictionStrategy
Specifies eviction strategy to be used when the storage size is achieved. -
storage.vsam.name
Specifies the data set name of the caching service VSAM data set. -
storage.infinispan.initialHosts
This property specifies the list of cluster nodes (members). In case of multiple instances, the value for each Caching Service instance can be either a list of all the members, separated by a comma, or just the replica. The format is
${haInstance.hostname}[${zowe.components.caching-service.storage.infinispan.jgroups.port}]
. -
storage.infinispan.persistence.dataLocation
The path where the Soft-Index store keeps its data files for the Infinispan Soft-Index Cache Store. The default value is
data
. If you run the Caching Service in Highly Available mode and the instances use the same filesystem, you have to specify a different value of theCACHING_STORAGE_INFINISPAN_PERSISTENCE_DATALOCATION
property for each instance. For more information, see the Soft-Index File Store. -
storage.infinispan.jgroups.port
The port number used by Infinispan to synchronise data among caching-service instances.
-
storage.redis.masterNodeUri
Specifies the URI used to connect to the Redis master instance in the formusername:password@host:port
. -
storage.redis.timeout
Specifies the timeout second to Redis. Defaults to 60 seconds. -
storage.redis.sentinel.masterInstance
: Specifies the Redis master instance ID used by the Redis Sentinel instances. -
storage.redis.sentinel.nodes
Specifies the array of URIs used to connect to a Redis Sentinel instances in the formusername:password@host:port
. -
storage.redis.ssl.enabled
Specifies the boolean flag indicating if Redis is being used with SSL/TLS support. Defaults totrue
. -
storage.redis.ssl.keystore
Specifies the keystore file used to store the private key. -
storage.redis.ssl.keystorePassword
Specifies the password used to unlock the keystore. -
storage.redis.ssl.truststore
Specifies the truststore file used to keep other parties public keys and certificates. -
storage.redis.ssl.truststorePassword
Specifies the password used to unlock the truststore. -
apiml.security.ssl.verifySslCertificatesOfServices
Specifies whether APIML should verify certificates of services in strict mode. Set totrue
will enablestrict
mode that APIML will validate both if the certificate is trusted in turststore, and also if the certificate Common Name or Subject Alternate Name (SAN) match the service hostname. -
apiml.security.ssl.nonStrictVerifySslCertificatesOfServices
Defines whether APIML should verify certificates of services in non-strict mode. Setting totrue
will enablenon-strict
mode where APIML will validate if the certificate is trusted in turststore, but ignore the certificate Common Name or Subject Alternate Name (SAN) check. Zowe will ignore this configuration if strict mode is enabled withapiml.security.ssl.verifySslCertificatesOfServices
.
Configure component app-server
These configurations can be used under the components.app-server
section:
port
Defines the port which App Server should be started on. This may be defined as a valid port number or as an offset from the Gateway component's port. To define an offset enter"+{offset}"
or"-{offset}"
as a string. The offset must start with+
or-
.
Configure component zss
These configurations can be used under the components.zss
section:
port
Defines the port which ZSS should be started on. This may be defined as a valid port number or as an offset from the Gateway component's port. To define an offset enter"+{offset}"
or"-{offset}"
as a string. The offset must start with+
or-
.
Configure external extension
You can define a components.<extension-id>
section and use common component configuration entries.
For example, enable my-extension
:
components:
# for extensions, you can add your definition like this
my-extension:
enabled: true
YAML configurations - haInstances
All Zowe high availability instances should have a dedicated section under the haInstances
high-level configuration.
In this section, <ha-instance>
represents any Zowe high availability instance ID.
For all high availability instances, these are the common definitions.
haInstances.<ha-instance>.hostname
Defines the host name where you want to start this instance. This could be the host name of one LPAR in your Sysplex.haInstances.<ha-instance>.sysname
Defines the system name of the LPAR where the instance is running. Zowe will useROUTE
command to send JES2 start or stop command to this HA instance.haInstances.<ha-instance>.components.<component>
Optional settings you can override component configurations for this high availability instance. See Configuration override for more details.
Auto-generated environment variables
Each line of Zowe YAML configuration will have a matching environment variable during runtime. This is converted based on pre-defined pattern:
- All configurations under
zowe
,components
,haInstances
will be converted to a variable with name:- prefixed with
ZWE_
, - any non-alphabetic-numeric characters will be converted to underscore
_
, - and no double underscores like
__
.
- prefixed with
- Calculated configurations of
haInstance
, which is portion ofhaInstances.<current-ha-instance>
will be converted same way. - Calculated configurations of
configs
, which is portion ofhaInstances.<current-ha-instance>.components.<current-component>
will be converted same way. - All other configuration entries will be converted to a variable with name:
- all upper cases,
- any non-alphabetic-numeric characters will be converted to underscore
_
, - and no double underscores like
__
.
Examples:
ZWE_zowe_runtimeDirectory
is parent directory wherezwe
server command is located.ZWE_zowe_workspaceDirectory
is the path of the user customized workspace directory.ZWE_zowe_setup_dataset_prefix
is the high-level qualifier where Zowe MVS data sets are installed.ZWE_zowe_setup_dataset_parmlib
is the data set configured to store customized version of parameter library members.ZWE_zowe_setup_dataset_authPluginLib
is the data set configured to store APF authorized ZIS plug-ins load library.ZWE_zowe_setup_security_users_zowe
is the name of Zowe runtime user.ZWE_configs_port
is your component port number you can use in your start script. It points to the value ofhaInstances.<current-ha-instance>.components.<your-component>.port
, or fall back tocomponents.<my-component>.port
, or fall back toconfigs.port
defined in your component manifest.
Troubleshooting your YAML with the Red Hat VS Code extension
After you download the Red Hat VSCode extension for YAML, YAML validation for your files is turned on by default. Syntax mistakes are highlighted in red. To parse sensitive information, we would highly recommend leaving the data gathering option disabled. To customize your settings, click on the "Extensions" category in VS Code left-hand side workspace, scroll down to YAML Language Support by Red Hat, and click on the gear icon and select "Extension Settings".