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[#210] *: Split README into docs 

Signed-off-by: Angira Kekteeva <kira@nspcc.ru>
support/v0.25
Angira Kekteeva 2021-08-18 22:18:49 +03:00 committed by Stanislav Bogatyrev
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README.md
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@ -53,395 +53,11 @@ $ S3_GW_PEERS_0_ADDRESS=grpcs://192.168.130.72:8080 \
neofs-s3-gw
```
## Configuration
## Documentation
In general, everything available as CLI parameter can also be specified via
environment variables, so they're not specifically mentioned in most cases
(see `--help` also). If you prefer a config file you can use it in yaml format.
### Nodes and weights
You can specify multiple `-p` options to add more NeoFS nodes, this will make
gateway spread requests equally among them (using weight 1 for every node):
```
$ neofs-s3-gw -p 192.168.130.72:8080 -p 192.168.130.71:8080
```
If you want some specific load distribution proportions, use weights, but they
can only be specified via environment variables:
```
$ HTTP_GW_PEERS_0_ADDRESS=192.168.130.72:8080 HTTP_GW_PEERS_0_WEIGHT=9 \
HTTP_GW_PEERS_1_ADDRESS=192.168.130.71:8080 HTTP_GW_PEERS_1_WEIGHT=1 neofs-s3-gw
```
This command will make gateway use 192.168.130.72 for 90% of requests and
192.168.130.71 for remaining 10%.
### Key
Wallet (`--wallet`) is mandatory parameter. It is a path to wallet file. You can provide password to decrypt wallet
via `S3_GW_WALLET_PASSPHRASE` variable or you will be asked to enter the password interactively.
You also can specify account address to use from wallet using `--address` parameter.
### Binding and TLS
Gateway binds to `0.0.0.0:8080` by default and you can change that with
`--listen_address` option.
It can also provide TLS interface for its users, just specify paths to key and
certificate files via `--tls.key_file` and `--tls.cert_file` parameters. Note
that using these options makes gateway TLS-only, if you need to serve both TLS
and plain text you either have to run two gateway instances or use some
external redirecting solution.
Example to bind to `192.168.130.130:443` and serve TLS there (keys and nodes
omitted):
```
$ neofs-s3-gw --listen_address 192.168.130.130:443 \
--tls.key_file=key.pem --tls.cert_file=cert.pem
```
### Monitoring and metrics
Pprof and Prometheus are integrated into the gateway, but not enabled by
default. To enable them use `--pprof` and `--metrics` flags or
`HTTP_GW_PPROF`/`HTTP_GW_METRICS` environment variables.
### Yaml file
Configuration file is optional and can be used instead of environment variables/other parameters.
It can be specified with `--config` parameter:
```
$ neofs-s3-gw --config your-config.yaml
```
Configuration file example:
```
listen_address: 0.0.0.0:8084
wallet:
passphrase: 123456
logger:
level: debug
peers:
0:
address: s01.neofs.devenv:8080
weight: 1
```
To know nesting level of variable you need to cut off the prefix `S3_GW` from variable and split the rest parts by `_`.
For example variable `S3_GW_PEERS_0_WEIGHT=1` will be transformed to:
```
peers:
0:
weight: 1
```
If parameter doesn't support environment variable (e.g. `--listen_address 0.0.0.0:8084`) form it is used as is:
```
listen_address: 0.0.0.0:8084
```
#### Cache parameters
Parameters for caches in s3-gw can be specified in .yaml config file. E.g.:
```
cache:
lifetime: 300s
size: 150
list_objects_lifetime: 1m
```
If invalid values are set, the gateway will use default values instead.
## NeoFS AuthMate
Authmate is a tool to create gateway AWS credentials. AWS users
are authenticated with access key IDs and secrets, while NeoFS users are
authenticated with key pairs. To complicate things further we have S3 gateway
that usually acts on behalf of some user, but user doesn't necessarily want to
give his keys to the gateway.
To solve this we use NeoFS bearer tokens that are signed by the owner (NeoFS
"user") and that can implement any kind of policy for NeoFS requests allowed
using this token. But tokens can't be used directly as AWS credentials, thus
they're stored on NeoFS as regular objects and access key ID is just an
address of this object while secret is generated randomly.
Tokens are not stored on NeoFS in plaintext, they're encrypted with a set of
gateway keys. So in order for gateway to be able to successfully extract bearer
token the object needs to be stored in a container available for the gateway
to read and it needs to be encrypted with this gateway's key (among others
potentially).
### Variables
Authmate support the following variables to decrypt wallets provided by `--wallet` and `--gate-wallet`
parameters respectevely:
* `AUTHMATE_WALLET_PASSPHRASE`
* `AUTHMATE_WALLET_GATE_PASSPHRASE`
If the passphrase is not specified, you will be asked to enter the password interactively:
```
Enter password for wallet.json >
```
#### Generation of wallet
To generate wallets for gateways, run the following command:
```
$ ./neo-go wallet init -a -w wallet.json
Enter the name of the account > AccountTestName
Enter passphrase >
Confirm passphrase >
{
"version": "3.0",
"accounts": [
{
"address": "NhLQpDnerpviUWDF77j5qyjFgavCmasJ4p",
"key": "6PYUFyYpJ1JGyMrYV8NqeUFLKfpEVHsGGjCYtTDkjnKaSgYizRBZxVerte",
"label": "AccountTestName",
"contract": {
"script": "DCECXCsUZPwUyKHs6nAyyCvJ5s/vLwZkkVtWNC0zWzH8a9dBVuezJw==",
"parameters": [
{
"name": "parameter0",
"type": "Signature"
}
],
"deployed": false
},
"lock": false,
"isDefault": false
}
],
"scrypt": {
"n": 16384,
"r": 8,
"p": 8
},
"extra": {
"Tokens": null
}
}
wallet successfully created, file location is wallet.json
```
To get public key from wallet run:
```
$ ./bin/neo-go wallet dump-keys -w wallet.json
NhLQpDnerpviUWDF77j5qyjFgavCmasJ4p (simple signature contract):
025c2b1464fc14c8a1ecea7032c82bc9e6cfef2f0664915b56342d335b31fc6bd7
```
#### Issuance of a secret
To issue a secret means to create a Bearer and (optionally) Session tokens and
put them as an object into container on the NeoFS network. The tokens are
encrypted by a set of gateway keys, so you need to pass them as well.
If a parameter `container-id` is not set, a new container will be created.
Creation of the bearer token is mandatory, and creation of the session token is
optional. If you want to add the session token you need to add a parameter
`create-session-token`.
Rules for bearer token can be set via param `bearer-rules` (json-string and file path allowed), if it is not set,
it will be auto-generated with values:
```
{
"version": {
"major": 2,
"minor": 6
},
"containerID": {
"value": "%CID"
},
"records": [
{
"operation": "GET",
"action": "ALLOW",
"filters": [],
"targets": [
{
"role": "OTHERS",
"keys": []
}
]
}
]
}
```
Rules for session token can be set via param `session-rules` (json-string and file path allowed), default value is:
```
{
"verb": "PUT",
"wildcard": true,
"containerID": null
}
```
If `session-rules` is set, but `create-session-token` is not, the session
token will not be created.
Rules for mapping of `LocationConstraint` ([aws spec](https://docs.aws.amazon.com/AmazonS3/latest/API/API_CreateBucket.html#API_CreateBucket_RequestBody))
to `PlacementPolicy` ([neofs spec](https://github.com/nspcc-dev/neofs-spec/blob/master/01-arch/02-policy.md))
can be set via param `container-policy` (json-string and file path allowed):
```
{
"rep-3": "REP 3",
"complex": "REP 1 IN X CBF 1 SELECT 1 FROM * AS X",
"example-json-policy": "{\"replicas\":[{\"count\":3,\"selector\":\"SelASD0\"}],\"container_backup_factor\":3,\"selectors\":[{\"name\":\"SelASD0\",\"count\":3,\"filter\":\"*\"}],\"filters\":[]}"
}
```
Example of a command to issue a secret with custom rules for multiple gates:
```
$ ./neofs-authmate issue-secret --wallet wallet.json \
--peer 192.168.130.71:8080 \
--bearer-rules '{"records":[{"operation":"PUT","action":"ALLOW","filters":[],"targets":[{"role":"OTHERS","keys":[]}]}]}' \
--gate-public-key 0313b1ac3a8076e155a7e797b24f0b650cccad5941ea59d7cfd51a024a8b2a06bf \
--gate-public-key 0317585fa8274f7afdf1fc5f2a2e7bece549d5175c4e5182e37924f30229aef967 \
--create-session-token \
--session-rules '{"verb":"DELETE","wildcard":false,"containerID":{"value":"%CID"}}'
--container-policy '{"rep-3": "REP 3"}'
Enter password for wallet.json >
{
"access_key_id": "5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT0AiXsH4AjYy1iTJ4C1WExzjBrSobJsQFWEyKLREe5sQYM",
"secret_access_key": "438bbd8243060e1e1c9dd4821756914a6e872ce29bf203b68f81b140ac91231c",
"owner_private_key": "274fdd6e71fc6a6b8fe77bec500254115d66d6d17347d7db0880d2eb80afc72a",
"container_id":"5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT"
}
```
Access key ID and secret access key are AWS credentials that you can use with
any S3 client.
Access key ID consists of Base58 encoded containerID(cid) and objectID(oid) stored on the NeoFS network and containing
the secret. Format of access_key_id: `%cid0%oid`, where 0(zero) is a delimiter.
#### Obtainment of a secret access key
You can get a secret access key associated with access key ID by obtaining a
secret stored on the NeoFS network. Here example of providing one password (for `wallet.json`) via env variable
and other (for `gate-wallet.json`) interactively:
```
$ AUTHMATE_WALLET_PASSPHRASE=some-pwd \
./neofs-authmate obtain-secret --wallet wallet.json \
--peer 192.168.130.71:8080 \
--gate-wallet gate-wallet.json \
--access-key-id 5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT0AiXsH4AjYy1iTJ4C1WExzjBrSobJsQFWEyKLREe5sQYM
Enter password for gate-wallet.json >
{
"secret_access_key": "438bbd8243060e1e1c9dd4821756914a6e872ce29bf203b68f81b140ac91231c"
}
```
## AWS CLI usage
### Configuration
#### Credentials
To configure basic settings that the AWS CLI uses to interact with the Gateway, do the following steps:
1. issue a secret with neofs-authmate tool (see [NeoFS Authmate] (#neofs-authmate))
2. execute the command
```
$ aws configure
```
after you enter this command, the AWS CLI will prompt you for four pieces of information, like in this example
(replace with your own values):
```
AWS Access Key ID [None]: 5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT0AiXsH4AjYy1iTJ4C1WExzjBrSobJsQFWEyKLREe5sQYM
AWS Secret Access Key [None]: 438bbd8243060e1e1c9dd4821756914a6e872ce29bf203b68f81b140ac91231c
Default region name [None]: ru
Default output format [none]: json
```
### Basic usage
> **_NOTE:_** To specify IP and port of the gate, append `--endpoint-url https://%IP:%PORT` to your commands.
#### Bucket
##### Obtainment of a list of buckets
To view the list of the buckets in the NeoFS node, to which the gateway is connected, enter the command:
```
$ aws s3 ls
```
##### Creation of a bucket
At this moment, the gateway supports only canned ACL and doesn't support the setting of location constraints.
To create a bucket, run the command:
```
$ aws s3api create-bucket --bucket %BUCKET_NAME --acl %ACL
```
where `%ACL` can be represented by a hex encoded value or by keywords `public-read-write`, `private`, `public-read`.
If the parameter is not set, the default value is `private`.
##### Deletion of a bucket
To delete a bucket, execute the following command:
```
$ aws s3api delete-bucket --bucket %BUCKET_NAME
```
#### Object
##### Obtainment of a list of objects
To view the list of the objects in a bucket, run:
```
$ aws s3api list-objects --bucket %BUCKET_NAME
```
##### Upload of a file
To upload the file into a bucket in the NeoFS network, run the following command:
```
$ aws s3api put-object --bucket %BUCKET_NAME --key %OBJECT_KEY --body %FILEPATH
```
where %OBJECT_KEY is a filename of an object in NeoFS
##### Upload of a dir
To upload the dir into a bucket in the NeoFS network, run the following command:
```
$ aws s3 sync %DIRPATH s3://%BUCKET_NAME
```
#### Download of a file
To download the file from a bucket in the NeoFS Network, execute:
```
$ aws s3api get-object --bucket %BUCKET_NAME --key %OBJECT_KEY %OUTFILE
```
where %OUTFILE is a file to store object content.
#### Deletion of a file
To delete the file:
```
$ aws s3api delete-object --bucket %BUCKET_NAME --key %FILE_NAME
```
- [Configuration](./docs/configuration.md)
- [NeoFS AuthMate](./docs/authmate.md)
- [AWS CLI basic usage](./docs/aws_cli.md)
## S3 API supported

191
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@ -0,0 +1,191 @@
# NeoFS AuthMate
Authmate is a tool to create gateway AWS credentials. AWS users
are authenticated with access key IDs and secrets, while NeoFS users are
authenticated with key pairs. To complicate things further we have S3 gateway
that usually acts on behalf of some user, but user doesn't necessarily want to
give his keys to the gateway.
To solve this we use NeoFS bearer tokens that are signed by the owner (NeoFS
"user") and that can implement any kind of policy for NeoFS requests allowed
using this token. But tokens can't be used directly as AWS credentials, thus
they're stored on NeoFS as regular objects and access key ID is just an
address of this object while secret is generated randomly.
Tokens are not stored on NeoFS in plaintext, they're encrypted with a set of
gateway keys. So in order for gateway to be able to successfully extract bearer
token the object needs to be stored in a container available for the gateway
to read and it needs to be encrypted with this gateway's key (among others
potentially).
## Variables
Authmate support the following variables to decrypt wallets provided by `--wallet` and `--gate-wallet`
parameters respectevely:
* `AUTHMATE_WALLET_PASSPHRASE`
* `AUTHMATE_WALLET_GATE_PASSPHRASE`
If the passphrase is not specified, you will be asked to enter the password interactively:
```
Enter password for wallet.json >
```
## Generation of wallet
To generate wallets for gateways, run the following command:
```
$ ./neo-go wallet init -a -w wallet.json
Enter the name of the account > AccountTestName
Enter passphrase >
Confirm passphrase >
{
"version": "3.0",
"accounts": [
{
"address": "NhLQpDnerpviUWDF77j5qyjFgavCmasJ4p",
"key": "6PYUFyYpJ1JGyMrYV8NqeUFLKfpEVHsGGjCYtTDkjnKaSgYizRBZxVerte",
"label": "AccountTestName",
"contract": {
"script": "DCECXCsUZPwUyKHs6nAyyCvJ5s/vLwZkkVtWNC0zWzH8a9dBVuezJw==",
"parameters": [
{
"name": "parameter0",
"type": "Signature"
}
],
"deployed": false
},
"lock": false,
"isDefault": false
}
],
"scrypt": {
"n": 16384,
"r": 8,
"p": 8
},
"extra": {
"Tokens": null
}
}
wallet successfully created, file location is wallet.json
```
To get public key from wallet run:
```
$ ./bin/neo-go wallet dump-keys -w wallet.json
NhLQpDnerpviUWDF77j5qyjFgavCmasJ4p (simple signature contract):
025c2b1464fc14c8a1ecea7032c82bc9e6cfef2f0664915b56342d335b31fc6bd7
```
## Issuance of a secret
To issue a secret means to create a Bearer and (optionally) Session tokens and
put them as an object into container on the NeoFS network. The tokens are
encrypted by a set of gateway keys, so you need to pass them as well.
If a parameter `container-id` is not set, a new container will be created.
Creation of the bearer token is mandatory, and creation of the session token is
optional. If you want to add the session token you need to add a parameter
`create-session-token`.
Rules for bearer token can be set via param `bearer-rules` (json-string and file path allowed), if it is not set,
it will be auto-generated with values:
```
{
"version": {
"major": 2,
"minor": 6
},
"containerID": {
"value": "%CID"
},
"records": [
{
"operation": "GET",
"action": "ALLOW",
"filters": [],
"targets": [
{
"role": "OTHERS",
"keys": []
}
]
}
]
}
```
Rules for session token can be set via param `session-rules` (json-string and file path allowed), default value is:
```
{
"verb": "PUT",
"wildcard": true,
"containerID": null
}
```
If `session-rules` is set, but `create-session-token` is not, the session
token will not be created.
Rules for mapping of `LocationConstraint` ([aws spec](https://docs.aws.amazon.com/AmazonS3/latest/API/API_CreateBucket.html#API_CreateBucket_RequestBody))
to `PlacementPolicy` ([neofs spec](https://github.com/nspcc-dev/neofs-spec/blob/master/01-arch/02-policy.md))
can be set via param `container-policy` (json-string and file path allowed):
```
{
"rep-3": "REP 3",
"complex": "REP 1 IN X CBF 1 SELECT 1 FROM * AS X",
"example-json-policy": "{\"replicas\":[{\"count\":3,\"selector\":\"SelASD0\"}],\"container_backup_factor\":3,\"selectors\":[{\"name\":\"SelASD0\",\"count\":3,\"filter\":\"*\"}],\"filters\":[]}"
}
```
Example of a command to issue a secret with custom rules for multiple gates:
```
$ ./neofs-authmate issue-secret --wallet wallet.json \
--peer 192.168.130.71:8080 \
--bearer-rules '{"records":[{"operation":"PUT","action":"ALLOW","filters":[],"targets":[{"role":"OTHERS","keys":[]}]}]}' \
--gate-public-key 0313b1ac3a8076e155a7e797b24f0b650cccad5941ea59d7cfd51a024a8b2a06bf \
--gate-public-key 0317585fa8274f7afdf1fc5f2a2e7bece549d5175c4e5182e37924f30229aef967 \
--create-session-token \
--session-rules '{"verb":"DELETE","wildcard":false,"containerID":{"value":"%CID"}}'
--container-policy '{"rep-3": "REP 3"}'
Enter password for wallet.json >
{
"access_key_id": "5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT0AiXsH4AjYy1iTJ4C1WExzjBrSobJsQFWEyKLREe5sQYM",
"secret_access_key": "438bbd8243060e1e1c9dd4821756914a6e872ce29bf203b68f81b140ac91231c",
"owner_private_key": "274fdd6e71fc6a6b8fe77bec500254115d66d6d17347d7db0880d2eb80afc72a",
"container_id":"5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT"
}
```
Access key ID and secret access key are AWS credentials that you can use with
any S3 client.
Access key ID consists of Base58 encoded containerID(cid) and objectID(oid) stored on the NeoFS network and containing
the secret. Format of access_key_id: `%cid0%oid`, where 0(zero) is a delimiter.
## Obtainment of a secret access key
You can get a secret access key associated with access key ID by obtaining a
secret stored on the NeoFS network. Here example of providing one password (for `wallet.json`) via env variable
and other (for `gate-wallet.json`) interactively:
```
$ AUTHMATE_WALLET_PASSPHRASE=some-pwd \
./neofs-authmate obtain-secret --wallet wallet.json \
--peer 192.168.130.71:8080 \
--gate-wallet gate-wallet.json \
--access-key-id 5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT0AiXsH4AjYy1iTJ4C1WExzjBrSobJsQFWEyKLREe5sQYM
Enter password for gate-wallet.json >
{
"secret_access_key": "438bbd8243060e1e1c9dd4821756914a6e872ce29bf203b68f81b140ac91231c"
}
```

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@ -0,0 +1,92 @@
# AWS CLI basic usage
## Configuration
### Credentials
To configure basic settings that the AWS CLI uses to interact with the Gateway, do the following steps:
1. issue a secret with neofs-authmate tool (see [NeoFS Authmate] (#neofs-authmate))
2. execute the command
```
$ aws configure
```
after you enter this command, the AWS CLI will prompt you for four pieces of information, like in this example
(replace with your own values):
```
AWS Access Key ID [None]: 5g933dyLEkXbbAspouhPPTiyLZRg4axBW1axSPD87eVT0AiXsH4AjYy1iTJ4C1WExzjBrSobJsQFWEyKLREe5sQYM
AWS Secret Access Key [None]: 438bbd8243060e1e1c9dd4821756914a6e872ce29bf203b68f81b140ac91231c
Default region name [None]: ru
Default output format [none]: json
```
## Basic usage
> **_NOTE:_** To specify IP and port of the gate, append `--endpoint-url https://%IP:%PORT` to your commands.
### Bucket
#### Obtainment of a list of buckets
To view the list of the buckets in the NeoFS node, to which the gateway is connected, enter the command:
```
$ aws s3 ls
```
#### Creation of a bucket
At this moment, the gateway supports only canned ACL and doesn't support the setting of location constraints.
To create a bucket, run the command:
```
$ aws s3api create-bucket --bucket %BUCKET_NAME --acl %ACL
```
where `%ACL` can be represented by a hex encoded value or by keywords `public-read-write`, `private`, `public-read`.
If the parameter is not set, the default value is `private`.
#### Deletion of a bucket
To delete a bucket, execute the following command:
```
$ aws s3api delete-bucket --bucket %BUCKET_NAME
```
### Object
#### Obtainment of a list of objects
To view the list of the objects in a bucket, run:
```
$ aws s3api list-objects --bucket %BUCKET_NAME
```
#### Upload of a file
To upload the file into a bucket in the NeoFS network, run the following command:
```
$ aws s3api put-object --bucket %BUCKET_NAME --key %OBJECT_KEY --body %FILEPATH
```
where %OBJECT_KEY is a filename of an object in NeoFS
#### Upload of a dir
To upload the dir into a bucket in the NeoFS network, run the following command:
```
$ aws s3 sync %DIRPATH s3://%BUCKET_NAME
```
#### Download of a file
To download the file from a bucket in the NeoFS Network, execute:
```
$ aws s3api get-object --bucket %BUCKET_NAME --key %OBJECT_KEY %OUTFILE
```
where %OUTFILE is a file to store object content.
#### Deletion of a file
To delete the file:
```
$ aws s3api delete-object --bucket %BUCKET_NAME --key %FILE_NAME
```

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@ -0,0 +1,101 @@
# Configuration
In general, everything available as CLI parameter can also be specified via
environment variables, so they're not specifically mentioned in most cases
(see `--help` also). If you prefer a config file you can use it in yaml format.
## Nodes and weights
You can specify multiple `-p` options to add more NeoFS nodes, this will make
gateway spread requests equally among them (using weight 1 for every node):
```
$ neofs-s3-gw -p 192.168.130.72:8080 -p 192.168.130.71:8080
```
If you want some specific load distribution proportions, use weights, but they
can only be specified via environment variables:
```
$ HTTP_GW_PEERS_0_ADDRESS=192.168.130.72:8080 HTTP_GW_PEERS_0_WEIGHT=9 \
HTTP_GW_PEERS_1_ADDRESS=192.168.130.71:8080 HTTP_GW_PEERS_1_WEIGHT=1 neofs-s3-gw
```
This command will make gateway use 192.168.130.72 for 90% of requests and
192.168.130.71 for remaining 10%.
## Key
Wallet (`--wallet`) is mandatory parameter. It is a path to wallet file. You can provide password to decrypt wallet
via `S3_GW_WALLET_PASSPHRASE` variable or you will be asked to enter the password interactively.
You also can specify account address to use from wallet using `--address` parameter.
## Binding and TLS
Gateway binds to `0.0.0.0:8080` by default and you can change that with
`--listen_address` option.
It can also provide TLS interface for its users, just specify paths to key and
certificate files via `--tls.key_file` and `--tls.cert_file` parameters. Note
that using these options makes gateway TLS-only, if you need to serve both TLS
and plain text you either have to run two gateway instances or use some
external redirecting solution.
Example to bind to `192.168.130.130:443` and serve TLS there (keys and nodes
omitted):
```
$ neofs-s3-gw --listen_address 192.168.130.130:443 \
--tls.key_file=key.pem --tls.cert_file=cert.pem
```
## Monitoring and metrics
Pprof and Prometheus are integrated into the gateway, but not enabled by
default. To enable them use `--pprof` and `--metrics` flags or
`HTTP_GW_PPROF`/`HTTP_GW_METRICS` environment variables.
## Yaml file
Configuration file is optional and can be used instead of environment variables/other parameters.
It can be specified with `--config` parameter:
```
$ neofs-s3-gw --config your-config.yaml
```
Configuration file example:
```
listen_address: 0.0.0.0:8084
wallet:
passphrase: 123456
logger:
level: debug
peers:
0:
address: s01.neofs.devenv:8080
weight: 1
```
To know nesting level of variable you need to cut off the prefix `S3_GW` from variable and split the rest parts by `_`.
For example variable `S3_GW_PEERS_0_WEIGHT=1` will be transformed to:
```
peers:
0:
weight: 1
```
If parameter doesn't support environment variable (e.g. `--listen_address 0.0.0.0:8084`) form it is used as is:
```
listen_address: 0.0.0.0:8084
```
### Cache parameters
Parameters for caches in s3-gw can be specified in .yaml config file. E.g.:
```
cache:
lifetime: 300s
size: 150
list_objects_lifetime: 1m
```
If invalid values are set, the gateway will use default values instead.