taler.conf(5)
#############
.. only:: html
Name
====
**taler.conf** - Taler configuration file
Description
===========
.. include:: ../frags/common-conf-syntax.rst
Files containing default values for many of the options described below
are installed under ``$TALER_PREFIX/share/taler/config.d/``.
The configuration file given with **-c** to Taler binaries
overrides these defaults.
A configuration file may include another, by using the ``@INLINE@`` directive,
for example, in ``main.conf``, you could write ``@INLINE@ sub.conf`` to
include the entirety of ``sub.conf`` at that point in ``main.conf``.
Be extra careful when using ``taler-config -V VALUE`` to change configuration
values: it will destroy all uses of ``@INLINE@`` and furthermore remove all
comments from the configuration file!
GLOBAL OPTIONS
--------------
The following options are from the “[taler]” section and used by
virtually all Taler components. Note: work is ongoing to obsolete
these options, but for now they are in use.
CURRENCY
Name of the currency, e.g. “EUR” for Euro.
CURRENCY_ROUND_UNIT
Smallest amount in this currency that can be transferred using the
underlying RTGS. For example: "EUR:0.01" or "JPY:1".
The “[PATHS]” section is special in that it contains paths that can be
referenced using “$” in other configuration values that specify
filenames. For Taler, it commonly contains the following paths:
TALER_HOME
Home directory of the user, usually “${HOME}”. Can be overwritten by
testcases by setting ${TALER_TEST_HOME}.
TALER_DATA_HOME
Where should Taler store its long-term data.
Usually “${TALER_HOME}/.local/share/taler/”.
TALER_CONFIG_HOME
Where is the Taler configuration kept.
Usually “${TALER_HOME}/.config/taler/”.
TALER_CACHE_HOME
Where should Taler store cached data.
Usually “${TALER_HOME}/.cache/taler/”.
TALER_RUNTIME_DIR
Where should Taler store system runtime data (like UNIX domain
sockets). Usually “${TMP}/taler-system-runtime”.
CURRENCY SPECIFICATIONS
-----------------------
Sections with a name of the form “[currency-$NAME]” (where "$NAME" could
be any unique string) are used to specify details about how currencies
should be handled (and in particularly rendered) by the user interface.
A detailed motivation for this section can be found in DD51.
Different components can have different rules for the same currency. For
example, a bank or merchant may decide to render Euros or Dollars with
always exactly two fractional decimals, while an Exchange for the same
currency may support additional decimals. The required options in each
currency specification section are:
ENABLED
Set to YES or NO. If set to NO, the currency specification
section is ignored. Can be used to disable currencies or
select alternative sections for the same CODE with different
choices.
CODE
Code name for the currency. Can be at most 11 characters,
only the letters A-Z are allowed. Primary way to identify
the currency in the protocol.
NAME
Long human-readable name for the currency. No restrictions,
but should match the official name in English.
FRACTIONAL_INPUT_DIGITS
Number of fractional digits that users are allowed to enter
manually in the user interface.
FRACTIONAL_NORMAL_DIGITS
Number of fractional digits that will be rendered normally
(in terms of size and placement). Digits shown beyond this
number will typically be rendered smaller and raised (if
possible).
FRACTIONAL_TRAILING_ZERO_DIGITS
Number of fractional digits to pad rendered amounts with
even if these digits are all zero. For example, use 2 to
render 1 USD as $1.00.
ALT_UNIT_NAMES
JSON map determining how to encode very large or very tiny
amounts in this currency. Maps a base10 logarithm to the
respective currency symbol. Must include at least an
entry for 0 (currency unit). For example, use
{"0":"€"} for Euros or "{"0":"$"} for Dollars. You could
additionally use {"0":"€","3":"k€"} to render 3000 EUR
as 3k€. For BTC a typical map would be
{"0":"BTC","-3":"mBTC"}, informing the UI to render small
amounts in milli-Bitcoin (mBTC).
EXCHANGE OPTIONS
----------------
The following options are from the “[exchange]” section and used by most
exchange tools.
DB
Plugin to use for the database, e.g. “postgres”.
SERVE
Should the HTTP server listen on a UNIX domain socket (set option to "unix") or on a TCP socket (set option to "tcp")?
UNIXPATH
Path to listen on if we "SERVE" is set to "unix".
UNIXPATH_MODE
Access permission mask to use for the "UNIXPATH".
PORT
Port on which the HTTP server listens, e.g. 8080.
BIND_TO
Hostname to which the exchange HTTP server should be bound to, e.g. "localhost".
MASTER_PUBLIC_KEY
Crockford Base32-encoded master public key, public version of the
exchange's long-time offline signing key.
AML_THRESHOLD
Largest amount in this currency that can be transferred per month without
an AML staff member doing a (manual) AML check. For example: "USD:1000000".
KYC_AML_TRIGGER
Program to run on KYC attribute data to decide whether we should immediately flag an account for AML review. Program must return 0 if a manual AML review is not needed, and non-zero to trigger an AML review. The KYC attribute data of the new user will be passed on standard-input.
ENABLE_REWARDS
This option can be used to announce that an exchange does not allow
the use of the reserves for rewards. The default is YES which means
that rewards are allowed. The option merely announces that
rewards is enabled or disabled, and protocol-compliant merchant
backends will then enable or disable the feature accordingly.
STEFAN_ABS
Absolte amount to add as an offset in the STEFAN fee approximation
curve (see DD47). Defaults to CURRENCY:0 if not specified.
STEFAN_LOG
Amount to multiply by the base-2 logarithm of the total amount
divided by the amount of the smallest denomination
in the STEFAN fee approximation curve (see DD47).
Defaults to CURRENCY:0 if not specified.
STEFAN_LIN
Linear floating point factor to be multiplied by the total amount
to use in the STEFAN fee approximation curve (see DD47).
Defaults to 0.0 if not specified.
BASE_URL
The base URL under which the exchange can be reached.
Added to wire transfers to enable tracking by merchants.
Used by the KYC logic when interacting with OAuth 2.0.
AGGREGATOR_IDLE_SLEEP_INTERVAL
For how long should the taler-exchange-aggregator sleep when it is idle
before trying to look for more work? Default is 60 seconds.
CLOSER_IDLE_SLEEP_INTERVAL
For how long should the taler-exchange-closer sleep when it is idle
before trying to look for more work? Default is 60 seconds.
TRANSFER_IDLE_SLEEP_INTERVAL
For how long should the taler-exchange-transfer sleep when it is idle
before trying to look for more work? Default is 60 seconds.
WIREWATCH_IDLE_SLEEP_INTERVAL
For how long should the taler-exchange-wirewatch sleep when it is idle
before trying to look for more work? Default is 60 seconds.
AGGREGATOR_SHARD_SIZE
Which share of the range from [0,..2147483648] should be processed by one of the shards of the aggregator. Useful only for Taler exchanges with ultra high-performance needs. When changing this value, you must stop all aggregators and run "taler-exchange-dbinit -s" before resuming. Default is 2147483648 (no sharding).
SIGNKEY_LEGAL_DURATION
For how long are signatures with signing keys legally valid?
MAX_KEYS_CACHING
For how long should clients cache ``/keys`` responses at most?
MAX_REQUESTS
How many requests should the HTTP server process at most before committing suicide?
TERMS_DIR
Directory where the terms of service of the exchange operator can be fund.
The directory must contain sub-directories for every supported language,
using the two-character language code in lower case, e.g. "en/" or "fr/".
Each subdirectory must then contain files with the terms of service in
various formats. The basename of the file of the current policy must be
specified under ``TERMS_ETAG``. The extension defines the mime type.
Supported extensions include "html", "htm", "txt", "pdf", "jpg", "jpeg",
"png" and "gif". For example, using a ``TERMS_ETAG`` of "0", the structure
could be the following:
- $TERMS_DIR/en/0.pdf
- $TERMS_DIR/en/0.html
- $TERMS_DIR/en/0.txt
- $TERMS_DIR/fr/0.pdf
- $TERMS_DIR/fr/0.html
- $TERMS_DIR/de/0.txt
TERMS_ETAG
Basename of the file(s) in the ``TERMS_DIR`` with the current terms of service.
The value is also used for the "Etag" in the HTTP request to control
caching. Whenever the terms of service change, the ``TERMS_ETAG`` MUST also
change, and old values MUST NOT be repeated. For example, the date or
version number of the terms of service SHOULD be used for the Etag. If
there are minor (e.g. spelling) fixes to the terms of service, the
``TERMS_ETAG`` probably SHOULD NOT be changed. However, whenever users must
approve the new terms, the ``TERMS_ETAG`` MUST change.
PRIVACY_DIR
Works the same as ``TERMS_DIR``, just for the privacy policy.
PRIVACY_ETAG
Works the same as ``TERMS_ETAG``, just for the privacy policy.
EXCHANGE KYC PROVIDER OPTIONS
-----------------------------
The following options must be in the section "[kyc-provider-XXX]" sections.
COST
Relative cost of the KYC provider, non-negative number.
LOGIC
API type of the KYC provider.
USER_TYPE
Type of user this provider is for, either INDIVIDUAL or BUSINESS.
PROVIDED_CHECKS
List of checks performed by this provider. Space-separated names of checks, must match check names in legitimization rules.
EXCHANGE KYC OAUTH2 OPTIONS
^^^^^^^^^^^^^^^^^^^^^^^^^^^
The following options must be in the section "[kyc-provider-XXX]" sections with "LOGIC = oauth2".
KYC_OAUTH2_VALIDITY
Duration (e.g. "12 months") of the validity of the performed KYC check. Can be "forever".
KYC_OAUTH2_AUTHORIZE_URL
URL of the OAuth2 endpoint to be used for KYC checks. The authorize URL is where the exchange will redirect the client to begin the authorization process. Example: "http://localhost:8888/oauth/v2/authorize". To use the plugin in combination with the Challenger service's ``/setup`` step, append "#setup", thus "https://challenger.example.com/authorize#setup". Here, "#setup" is not a fragment but merely a hint to the logic to determine the full authorization URL via the ``/setup/$CLIENT_ID`` handler.
KYC_OAUTH2_TOKEN_URL
URL of the OAuth2 endpoint to be used for KYC checks. This is where the server will ultimately send the authorization token from the client and obtain its access token (which currently must be a "bearer" token). Example: "http://localhost:8888/oauth/v2/token" (or just "/token")
KYC_OAUTH2_INFO_URL
URL of the OAuth2-protected resource endpoint, where the OAuth 2.0 token can be used to download information about the user that has undergone the KYC process. The exchange will use the access token obtained from the KYC_AUTH2_AUTH_URL to show that it is authorized to obtain the details. Example: "http://localhost:8888/api/user/me" or "http://localhost:8888/oauth/v2/info"
KYC_OAUTH2_CLIENT_ID
Client ID of the exchange when it talks to the KYC OAuth2 endpoint.
KYC_OAUTH2_CLIENT_SECRET
Client secret of the exchange to use when talking to the KYC Oauth2 endpoint.
KYC_OAUTH2_POST_URL
URL to which the exchange will redirect the client's browser after successful authorization/login for the KYC process. Example: "http://example.com/thank-you"
KYC_OAUTH2_CONVERTER_HELPER
Helper to convert JSON with KYC data returned by the OAuth2.0 info endpoint into GNU Taler internal format. Specific to the OAuth 2.0 provider.
EXCHANGE KYC KYCAID OPTIONS
^^^^^^^^^^^^^^^^^^^^^^^^^^^
The following options must be in the section "[kyc-provider-XXX]" sections with "LOGIC = kycaid".
KYC_KYCAID_VALIDITY
Duration (e.g. "12 months") of the validity of the performed KYC check. Can be "forever".
KYC_KYCAID_AUTH_TOKEN
Authentication token to access the KYC service.
KYC_KYCAID_FORM_ID
ID that specifies the form to use for the KYC process.
KYC_KYCAID_POST_URL
URL to which the exchange will redirect the client's browser after successful authorization/login for the KYC process.
EXCHANGE KYC PERSONA OPTIONS
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The following options must be in the section "[kyc-provider-XXX]" sections with "LOGIC = persona".
KYC_PERSONA_VALIDITY
Duration (e.g. "12 months") of the validity of the performed KYC check. Can be "forever".
KYC_PERSONA_AUTH_TOKEN
Authentication token to access the KYC service.
KYC_PERSONA_SALT
Salt value to use for request idempotency. Optional, generated at random per process if not given.
KYC_PERSONA_SUBDOMAIN
Subdomain to use under Persona.
KYC_PERSONA_CONVERTER_HELPER
Helper to convert JSON with KYC data returned by Persona into GNU Taler internal format. Should probably always be set to "taler-exchange-kyc-persona-converter.sh".
KYC_PERSONA_POST_URL
URL to which the exchange will redirect the client's browser after successful authorization/login for the KYC process.
KYC_PERSONA_TEMPLATE_ID
ID of the Persona template to use.
EXCHANGE KYC PERSONA GLOBAL OPTIONS
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The following option must be in the section "[kyclogic-persona]".
WEBHOOK_AUTH_TOKEN
Authentication token Persona must supply to our webhook. This is an optional setting.
EXCHANGE EXTENSIONS OPTIONS
---------------------------
The functionality of the exchange can be extended by extensions. Those are
shared libraries which implement the extension-API of the exchange and are
located under ``$LIBDIR``, starting with prefix ``libtaler_extension_``. Each
extension can be enabled by adding a dedicated section
"[exchange-extension-]" and the following option:
ENABLED
If set to ``YES`` the extension ```` is enabled. Extension-specific
options might be set in the same section.
EXCHANGE EXTENSION FOR AGE RESTRICTION
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The extension for age restriction support can be enabled by adding a section
"[exchange-extension-age_restriction]" with the following options:
ENABLE
Must be set to ``YES`` in order to activate the extension.
AGE_GROUPS
A colon-seperated string of increasing non-negative integers, defining the
buckets of age groups supported by the exchange. Each integer marks the
beginning of the next age group. The zero'th age group implicitly starts
with 0. For example, the string "10:18" would define three age groups:
1. Group 0: ages 0 through 9 (including)
2. Group 1: ages 10 through 17 (including)
3. Group 2: ages 18 and above
If not provided, the default value is "8:10:12:14:16:18:21".
**Note**: Age restriction is bound to specific denominations and must be
enabled for each selected denomination in the corresponding section by adding
the option ``AGE_RESTRICTED = YES``, see `EXCHANGE COIN OPTIONS`_. However, the
age groups are defined globally for all denominations.
EXCHANGE OFFLINE SIGNING OPTIONS
--------------------------------
The following options must be in the section "[exchange-offline]".
MASTER_PRIV_FILE
Location of the master private key on disk. Only used by tools that
can be run offline (as the master key is for offline signing).
Mandatory.
SECM_TOFU_FILE
Where to store the public keys of both crypto helper modules.
Used to persist the keys after the first invocation of the tool,
so that if they ever change in the future, this is detected and
the tool can abort.
Mandatory.
SECM_DENOM_PUBKEY
Public key of the (RSA) crypto helper module. Optional. If not given,
we will rely on TOFU. Note that once TOFU has been established,
this option will also be ignored.
SECM_ESIGN_PUBKEY
Public key of the (EdDSA) crypto helper module. Optional. If not given,
we will rely on TOFU. Note that once TOFU has been established,
this option will also be ignored.
EXCHANGE RSA CRYPTO HELPER OPTIONS
----------------------------------
The following options must be in the section "[taler-exchange-secmod-rsa]".
LOOKAHEAD_SIGN
How long do we generate denomination and signing keys ahead of time?
OVERLAP_DURATION
How much should validity periods for coins overlap?
Should be long enough to avoid problems with
wallets picking one key and then due to network latency
another key being valid. The ``DURATION_WITHDRAW`` period
must be longer than this value.
SM_PRIV_KEY
Where should the security module store its long-term private key?
KEY_DIR
Where should the security module store the private keys it manages?
UNIXPATH
On which path should the security module listen for signing requests?
Note that the **taler-exchange-secmod-rsa** also evaluates the ``[coin_*]``
configuration sections described below.
EXCHANGE CS CRYPTO HELPER OPTIONS
---------------------------------
The following options must be in the section "[taler-exchange-secmod-cs]".
LOOKAHEAD_SIGN
How long do we generate denomination and signing keys ahead of time?
OVERLAP_DURATION
How much should validity periods for coins overlap?
Should be long enough to avoid problems with
wallets picking one key and then due to network latency
another key being valid. The ``DURATION_WITHDRAW`` period
must be longer than this value.
SM_PRIV_KEY
Where should the security module store its long-term private key?
KEY_DIR
Where should the security module store the private keys it manages?
UNIXPATH
On which path should the security module listen for signing requests?
Note that the **taler-exchange-secmod-cs** also evaluates the ``[coin_*]``
configuration sections described below.
EXCHANGE EDDSA CRYPTO HELPER OPTIONS
------------------------------------
The following options must be in the section "[taler-exchange-secmod-eddsa]".
LOOKAHEAD_SIGN
How long do we generate denomination and signing keys ahead of time?
OVERLAP_DURATION
How much should validity periods for coins overlap?
Should be long enough to avoid problems with
wallets picking one key and then due to network latency
another key being valid. The ``DURATION_WITHDRAW`` period
must be longer than this value.
DURATION
For how long should EdDSA keys be valid for signing?
SM_PRIV_KEY
Where should the security module store its long-term private key?
KEY_DIR
Where should the security module store the private keys it manages?
UNIXPATH
On which path should the security module listen for signing requests?
EXCHANGE DATABASE OPTIONS
-------------------------
The following options must be in the section "[exchangedb]".
IDLE_RESERVE_EXPIRATION_TIME
After which time period should reserves be closed if they are idle?
LEGAL_RESERVE_EXPIRATION_TIME
After what time do we forget about (drained) reserves during garbage collection?
AGGREGATOR_SHIFT
Delay between a deposit being eligible for aggregation and
the aggregator actually triggering.
DEFAULT_PURSE_LIMIT
Number of concurrent purses that a reserve may have active
if it is paid to be opened for a year.
EXCHANGE POSTGRES BACKEND DATABASE OPTIONS
------------------------------------------
The following options must be in section “[exchangedb-postgres]” if the
“postgres” plugin was selected for the database.
CONFIG
How to access the database, e.g. “postgres:///taler” to use the
“taler” database. Testcases use “talercheck”.
EXCHANGE ACCOUNT OPTIONS
------------------------
An exchange (or merchant) can have multiple bank accounts. The following
options are for sections named “[exchange-account-SOMETHING]”. The ``SOMETHING`` is
arbitrary and should be chosen to uniquely identify the bank account for
the operator. These options are used by the **taler-exchange-aggregator**, **taler-exchange-closer**, **taler-exchange-transfer** and **taler-exchange-wirewatch** tools.
PAYTO_URI
Specifies the payto://-URL of the account. The general format is
``payto://$METHOD/$DETAILS``. Examples:
``payto://x-taler-bank/localhost:8899/Exchange`` or
``payto://iban/GENODEF1SLR/DE67830654080004822650/`` or
``payto://iban/DE67830654080004822650/`` (providing the BIC is optional).
Note: only the wire-method is actually used from the URI.
ENABLE_DEBIT
Must be set to ``YES`` for the accounts that the
**taler-exchange-aggregator** and **taler-exchange-closer** should debit.
ENABLE_CREDIT
Must be set to ``YES`` for the accounts that the **taler-exchange-wirewatch**
should check for credits. It is yet uncertain if the merchant
implementation may check this flag as well.
Additionally, for each enabled account there MUST be another matching section named “[exchange-accountcredentials-SOMETHING]”. This section SHOULD be in a ``secret/`` configuration file that is only readable for the **taler-exchange-wirewatch** and **taler-exchange-transfer** processes. It contains the credentials to access the bank account:
WIRE_GATEWAY_URL
URL of the wire gateway. Typically of the form
``https://$HOSTNAME[:$PORT]/taler-wire-gateway/$USERNAME/``
where $HOSTNAME is the hostname of the system running the bank
(such as the Taler Python bank or the Nexus) and ``$USERNAME`` is
the username of the exchange's bank account (usually matching
the ``USERNAME`` option used for authentication). Example:
``https://bank.demo.taler.net/taler-wire-gateway/Exchange/``.
WIRE_GATEWAY_AUTH_METHOD
This option determines how the exchange (auditor/wirewatch/aggregator)
authenticates with the wire gateway. Choices are ``basic`` and ``none``.
USERNAME
User name for ``basic`` authentication with the wire gateway.
PASSWORD
Password for ``basic`` authentication with the wire gateway.
EXCHANGE COIN OPTIONS
---------------------
The following options must be in sections starting with ``"[coin_]"`` and are
largely used by **taler-exchange-httpd** to determine the meta data for the
denomination keys. Some of the options are used by the
**taler-exchange-secmod-rsa** to determine which RSA keys to create (and of
what key length). Note that the section names must match, so this part of the
configuration MUST be shared between the RSA helper and the exchange.
Configuration values MUST NOT be changed in a running setup. Instead, if
parameters for a denomination type are to change, a fresh *section name* should
be introduced (and the existing section should be deleted).
VALUE
Value of the coin, e.g. “EUR:1.50” for 1 Euro and 50 Cents (per
coin).
DURATION_WITHDRAW
How long should the same key be used for clients to withdraw coins of
this value?
DURATION_SPEND
How long do clients have to spend these coins?
DURATION_LEGAL
How long does the exchange have to keep records for this denomination?
FEE_WITHDRAW
What fee is charged for withdrawal?
FEE_DEPOSIT
What fee is charged for depositing?
FEE_REFRESH
What fee is charged for refreshing?
FEE_REFUND
What fee is charged for refunds? When a coin is refunded, the deposit
fee is returned. Instead, the refund fee is charged to the customer.
CIPHER
What cryptosystem should be used? Must be set to either "CS" or "RSA".
The respective crypto-helper will then generate the keys for this
denomination.
RSA_KEYSIZE
What is the RSA keysize modulos (in bits)? Only used if "CIPHER=RSA".
AGE_RESTRICTED
Setting this option to ``YES`` marks the denomination as age restricted
(default is ``NO``). For this option to be accepted the extension for age
restriction MUST be enabled (see `EXCHANGE EXTENSION FOR AGE RESTRICTION`_).
MERCHANT OPTIONS
----------------
The following options are from the “[merchant]” section and used by the
merchant backend.
DB
Plugin to use for the database, e.g._“postgres”.
SERVE
Should the HTTP server listen on a UNIX domain socket (set option to "unix") or on a TCP socket (set option to "tcp")?
BASE_URL
Which base URL should the merchant backend assume for itself in the protocol. Optional. If not given, the base URL will be constructed from X-Forwarded-Host, X-Forwarded-Port and X-Forwarded-Prefix headers that a reverse-proxy should be setting.
UNIXPATH
Path to listen on if we "SERVE" is set to "unix".
UNIXPATH_MODE
Access permission mask to use for the "UNIXPATH".
PORT
Port on which the HTTP server listens, e.g. 8080.
BIND_TO
Hostname to which the merchant HTTP server should be bound to, e.g. "localhost".
LEGAL_PRESERVATION
How long do we keep data in the database for tax audits after the
transaction has completed? Default is 10 years.
FORCE_AUDIT
Force the merchant to report every transaction to the auditor
(if the exchange has an auditor)? Default is ``NO``.
Do not change except for testing.
MERCHANT POSTGRES BACKEND DATABASE OPTIONS
------------------------------------------
The following options must be in section “[merchantdb-postgres]” if the
“postgres” plugin was selected for the database.
CONFIG
How to access the database, e.g. “postgres:///taler” to use the
“taler” database. Testcases use “talercheck”.
KNOWN EXCHANGES (for merchants)
-------------------------------
The merchant configuration can include a list of known exchanges if the
merchant wants to specify that certain exchanges are explicitly trusted.
For each trusted exchange, a section [merchant-exchange-$NAME] must exist, where
$NAME is a merchant-given name for the exchange. The following options
must be given in each “[exchange-$NAME]” section.
EXCHANGE_BASE_URL
Base URL of the exchange, e.g. “https://exchange.demo.taler.net/”
MASTER_KEY
Crockford Base32 encoded master public key, public version of the
exchange's long-time offline signing key. Can be omitted, in that
case the exchange will NOT be trusted unless it is audited by
a known auditor.
Omitting ``MASTER_KEY`` can be useful if we do not trust the exchange
without an auditor, but should pre-load the keys of this
particular exchange on startup instead of waiting for it to be
required by a client.
CURRENCY
Name of the currency for which this exchange is used, e.g. “KUDOS”.
The entire section is ignored if the currency does not match the currency
we use, which must be given in the ``[taler]`` section.
DISABLED
Set to YES to disable this exchange. Optional option, defaults to NO.
AUDITOR OPTIONS
---------------
The following options must be in section “[auditor]” for the Taler
auditor.
DB
Plugin to use for the database, e.g. “postgres”
AUDITOR_PRIV_FILE
Name of the file containing the auditor’s private key.
PUBLIC_KEY
Crockford Base32 encoded auditor public key. Used by (online) auditor
processes that do not have access to the (offline) auditor private key file.
BASE_URL
Base URL of the auditor, e.g. “https://auditor.demo.taler.net/”
SERVE
Should the HTTP server listen on a UNIX domain socket (set option to "unix") or on a TCP socket (set option to "tcp")?
UNIXPATH
Path to listen on if we "SERVE" is set to "unix".
UNIXPATH_MODE
Access permission mask to use for the "UNIXPATH".
PORT
Port on which the HTTP server listens, e.g. 8080.
BIND_TO
Hostname to which the merchant HTTP server should be bound to, e.g. "localhost".
AUDITOR POSTGRES BACKEND DATABASE OPTIONS
-----------------------------------------
The following options must be in section “[auditordb-postgres]” if the
“postgres” plugin was selected for the database.
CONFIG
How to access the database, e.g. "postgres:///taler" to use the
"taler" database. Testcases use “talercheck”.
Bank Options
------------
The following options must be in section "[bank]" for the taler-fakebank-run(1) command. They are not used by the exchange or LibEuFin!
HTTP_PORT
On which TCP port should the (fake)bank offer its REST API.
RAM_LIMIT
This gives the number of transactions to keep in memory. Older transactions will be overwritten and history requests for overwritten transactions will fail.
Taler-mdb Options
-----------------
Taler-mdb is a component to run GNU Taler as a payment system on
vending machines using the multi-drop bus protocol. These options
are thus not useful for most users. Note that right now, the
cancel button is hard-coded to be using GPIO pin 23.
ADVERTISEMENT_BINARY
Program to run while not vending, possibly useful to show advertisements on the screen (optional).
ESSID
ESSID to advertise to wallets for use as an open WiFi to make payments (optional).
FULFILLMENT_MSG
Message shown to users by their wallets upon successful payment. If "${PRODUCT_DESCRIPTION}" appears in the message, it will be replaced with the description of the product that was sold.
BACKEND_BASE_URL
Base URL (possibly including instance) for the Taler merchant backend used to process payments.
FRAMEBUFFER_BACKLIGHT
Name of the file used to control brightness of the display. Optional. Defaults to "/sys/class/backlight/soc:backlight/brightness" if not given.
FRAMEBUFFER_DEVICE
Name of the framebuffer device to use. Defaults to "/dev/fb1" if not given.
UART_DEVICE
Name of the UART device to use. Defaults to "/dev/ttyAMA0" if not given.
Each products being sold must be configured in a section where the name starts with "product-".
In these sections, the options that must be provided are:
NUMBER
Number identifying the slot in the vending machine that corresponds to this product.
INSTANCE
Instance to use for the payment. Optional. If not given, the BACKEND_BASE_URL from "[taler-mdb]" will be used.
BACKEND_AUTHORIZATION
Full HTTP "Authorization" header (usually with a Bearer token) to be send to the merchant backend for authorization of requests. Mandatory.
DESCRIPTION
Human-readable description of the product. Use "empty" if the product is known to be sold out (only effective if selling out is enabled via command-line).
PRICE
Actual price of the product, as a Taler amount ("$CURRENCY:$VALUE.$FRACTION").
KEY
Key used to select the product from the console during testing. Optional.
THUMBNAIL
Name of a filename with a preview image of the product to be given to the wallet. Optional. Only ".png", ".jpg", ".jpeg" and ".svg" are supported at this time.
SEE ALSO
========
taler-exchange-dbinit(1), taler-exchange-httpd(1),
taler-exchange-offline(1), taler-auditor-offline(1).
BUGS
====
Report bugs by using https://bugs.taler.net/ or by sending electronic
mail to .