# Quickstart
> Get started with OpenRouter's unified API for hundreds of AI models. Learn how to integrate using OpenAI SDK, direct API calls, or third-party frameworks.
OpenRouter provides a unified API that gives you access to hundreds of AI models through a single endpoint, while automatically handling fallbacks and selecting the most cost-effective options. Get started with just a few lines of code using your preferred SDK or framework.
Want to chat with our docs? Download an LLM-friendly text file of our [full
documentation](/docs/llms-full.txt) and include it in your system prompt.
In the examples below, the OpenRouter-specific headers are optional. Setting them allows your app to appear on the OpenRouter leaderboards.
## Using the OpenAI SDK
```python title="Python"
from openai import OpenAI
client = OpenAI(
base_url="https://openrouter.ai/api/v1",
api_key="",
)
completion = client.chat.completions.create(
extra_headers={
"HTTP-Referer": "", # Optional. Site URL for rankings on openrouter.ai.
"X-Title": "", # Optional. Site title for rankings on openrouter.ai.
},
model="openai/gpt-4o",
messages=[
{
"role": "user",
"content": "What is the meaning of life?"
}
]
)
print(completion.choices[0].message.content)
```
```typescript title="TypeScript"
import OpenAI from 'openai';
const openai = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
apiKey: '',
defaultHeaders: {
'HTTP-Referer': '', // Optional. Site URL for rankings on openrouter.ai.
'X-Title': '', // Optional. Site title for rankings on openrouter.ai.
},
});
async function main() {
const completion = await openai.chat.completions.create({
model: 'openai/gpt-4o',
messages: [
{
role: 'user',
content: 'What is the meaning of life?',
},
],
});
console.log(completion.choices[0].message);
}
main();
```
## Using the OpenRouter API directly
```python title="Python"
import requests
import json
response = requests.post(
url="https://openrouter.ai/api/v1/chat/completions",
headers={
"Authorization": "Bearer ",
"HTTP-Referer": "", # Optional. Site URL for rankings on openrouter.ai.
"X-Title": "", # Optional. Site title for rankings on openrouter.ai.
},
data=json.dumps({
"model": "openai/gpt-4o", # Optional
"messages": [
{
"role": "user",
"content": "What is the meaning of life?"
}
]
})
)
```
```typescript title="TypeScript"
fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: 'Bearer ',
'HTTP-Referer': '', // Optional. Site URL for rankings on openrouter.ai.
'X-Title': '', // Optional. Site title for rankings on openrouter.ai.
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: 'openai/gpt-4o',
messages: [
{
role: 'user',
content: 'What is the meaning of life?',
},
],
}),
});
```
```shell title="Shell"
curl https://openrouter.ai/api/v1/chat/completions \
-H "Content-Type: application/json" \
-H "Authorization: Bearer $OPENROUTER_API_KEY" \
-d '{
"model": "openai/gpt-4o",
"messages": [
{
"role": "user",
"content": "What is the meaning of life?"
}
]
}'
```
The API also supports [streaming](/docs/api-reference/streaming).
## Using third-party SDKs
For information about using third-party SDKs and frameworks with OpenRouter, please [see our frameworks documentation.](/docs/community/frameworks)
# Frequently Asked Questions
> Find answers to commonly asked questions about OpenRouter's unified API, model access, pricing, and integration.
## Getting started
OpenRouter provides a unified API to access all the major LLM models on the
market. It also allows users to aggregate their billing in one place and
keep track of all of their usage using our analytics.
OpenRouter passes through the pricing of the underlying providers, while pooling their uptime,
so you get the same pricing you'd get from the provider directly, with a
unified API and fallbacks so that you get much better uptime.
To get started, create an account and add credits on the
[Credits](https://openrouter.ai/settings/credits) page. Credits are simply
deposits on OpenRouter that you use for LLM inference.
When you use the API or chat interface, we deduct the request cost from your
credits. Each model and provider has a different price per million tokens.
Once you have credits you can either use the chat room, or create API keys
and start using the API. You can read our [quickstart](/docs/quickstart)
guide for code samples and more.
The best way to get support is to join our
[Discord](https://discord.gg/fVyRaUDgxW) and ping us in the #help forum.
For each model we have the pricing displayed per million tokens. There is
usually a different price for prompt and completion tokens. There are also
models that charge per request, for images and for reasoning tokens. All of
these details will be visible on the models page.
When you make a request to OpenRouter, we receive the total number of tokens processed
by the provider. We then calculate the corresponding cost and deduct it from your credits.
You can review your complete usage history in the [Activity tab](https://openrouter.ai/activity).
We pass through the pricing of the underlying providers; there is no markup
on inference pricing (however we do charge a [fee](https://openrouter.ai/terms#_4_-payment) when purchasing credits).
## Models and Providers
OpenRouter provides access to a wide variety of LLM models, including frontier models from major AI labs.
For a complete list of models you can visit the [models browser](https://openrouter.ai/models) or fetch the list through the [models api](https://openrouter.ai/api/v1/models).
We work on adding models as quickly as we can. We often have partnerships with
the labs releasing models and can release models as soon as they are
available. If there is a model missing that you'd like OpenRouter to support, feel free to message us on
[Discord](https://discord.gg/fVyRaUDgxW).
Variants are suffixes that can be added to the model slug to change its behavior.
Static variants can only be used with specific models and these are listed in our [models api](https://openrouter.ai/api/v1/models).
1. `:free` - The model is always provided for free and has low rate limits.
2. `:beta` - The model is not moderated by OpenRouter.
3. `:extended` - The model has longer than usual context length.
4. `:thinking` - The model supports reasoning by default.
Dynamic variants can be used on all models and they change the behavior of how the request is routed or used.
1. `:online` - All requests will run a query to extract web results that are attached to the prompt.
2. `:nitro` - Providers will be sorted by throughput rather than the default sort, optimizing for faster response times.
3. `:floor` - Providers will be sorted by price rather than the default sort, prioritizing the most cost-effective options.
You can read our requirements at the [Providers
page](/docs/use-cases/for-providers). If you would like to contact us, the best
place to reach us is over email.
For each model on OpenRouter we show the latency (time to first token) and the token
throughput for all providers. You can use this to estimate how long requests
will take. If you would like to optimize for throughput you can use the
`:nitro` variant to route to the fastest provider.
If a provider returns an error OpenRouter will automatically fall back to the
next provider. This happens transparently to the user and allows production
apps to be much more resilient. OpenRouter has a lot of options to configure
the provider routing behavior. The full documentation can be found [here](/docs/features/provider-routing).
## API Technical Specifications
OpenRouter uses three authentication methods:
1. Cookie-based authentication for the web interface and chatroom
2. API keys (passed as Bearer tokens) for accessing the completions API and other core endpoints
3. [Provisioning API keys](/docs/features/provisioning-api-keys) for programmatically managing API keys through the key management endpoints
Your account has a hard limit of 200 requests per day total across all free models.
For all other models, rate limits are determined by the credits in your account. You can read more
details in our [rate limits documentation](/docs/api-reference/limits).
OpenRouter implements the OpenAI API specification for /completions and
/chat/completions endpoints, allowing you to use any model with the same
request/response format. Additional endpoints like /api/v1/models are also
available. See our [API documentation](/docs/api-reference/overview) for
detailed specifications.
The API supports text and images.
[Images](/docs/api-reference/overview#images--multimodal) can be passed as
URLs or base64 encoded images. PDF and other file types are coming soon.
Streaming uses server-sent events (SSE) for real-time token delivery. Set
`stream: true` in your request to enable streaming responses.
OpenRouter is a drop-in replacement for OpenAI. Therefore, any SDKs that
support OpenAI by default also support OpenRouter. Check out our
[docs](/docs/frameworks) for more details.
## Privacy and Data Logging
Please see our [Terms of Service](https://openrouter.ai/terms) and [Privacy Policy](https://openrouter.ai/privacy).
We log basic request metadata (timestamps, model used, token counts). Prompt
and completion are not logged by default. We do zero logging of your prompts/completions,
even if an error occurs, unless you opt-in to logging them.
We have an opt-in [setting](https://openrouter.ai/settings/privacy) that
lets users opt-in to log their prompts and completions in exchange for a 1%
discount on usage costs.
The same data privacy applies to the chatroom as the API. All conversations
in the chatroom are stored locally on your device. Conversations will not sync across devices.
It is possible to export and import conversations using the settings menu in the chatroom.
OpenRouter is a proxy that sends your requests to the model provider for it to be completed.
We work with all providers to, when possible, ensure that prompts and completions are not logged or used for training.
Providers that do log, or where we have been unable to confirm their policy, will not be routed to unless the model training
toggle is switched on in the [privacy settings](https://openrouter.ai/settings/privacy) tab.
If you specify [provider routing](/docs/features/provider-routing) in your request, but none of the providers
match the level of privacy specified in your account settings, you will get an error and your request will not complete.
## Credit and Billing Systems
OpenRouter uses a credit system where the base currency is US dollars. All
of the pricing on our site and API is denoted in dollars. Users can top up
their balance manually or set up auto top up so that the balance is
replenished when it gets below the set threshold.
Per our [terms](https://openrouter.ai/terms), we reserve the right to expire
unused credits after one year of purchase.
If you paid using Stripe, sometimes there is an issue with the Stripe
integration and credits can get delayed in showing up on your account. Please allow up to one hour.
If your credits still have not appeared after an hour, contact us on [Discord](https://discord.gg/fVyRaUDgxW) and we will
look into it.
If you paid using crypto, please reach out to us on [Discord](https://discord.gg/fVyRaUDgxW)
and we will look into it.
OpenRouter currently does not offer refunds for purchased credits.
The [Activity](https://openrouter.ai/activity) page allows users to view
their historic usage and filter the usage by model, provider and api key.
We also provide a [credits api](/docs/api-reference/get-credits) that has
live information about the balance and remaining credits for the account.
All new users receive a very small free allowance to be able to test out OpenRouter.
There are many [free models](https://openrouter.ai/models?max_price=0) available
on OpenRouter, it is important to note that these models have low rate limits (200 requests per day total)
and are usually not suitable for production use.
OpenRouter does not currently offer volume discounts, but you can reach out to us
over email if you think you have an exceptional use case.
We accept all major credit cards, AliPay and cryptocurrency payments in
USDC. We are working on integrating PayPal soon, if there are any payment
methods that you would like us to support please reach out on [Discord](https://discord.gg/fVyRaUDgxW).
We charge a small [fee](https://openrouter.ai/terms#_4_-payment) when purchasing credits. We never mark-up the pricing
of the underlying providers, and you'll always pay the same as the provider's
listed price.
## Account Management
Go to the [Settings](https://openrouter.ai/settings/preferences) page and click Manage Account.
In the modal that opens, select the Security tab. You'll find an option there to delete your account.
Note that unused credits will be lost and cannot be reclaimed if you delete and later recreate your account.
Team management is coming very soon! For now you can use [provisioning API
keys](/docs/features/provisioning-api-keys) to allow sharing credits with
people on your team.
Our [activity dashboard](https://openrouter.ai/activity) provides real-time
usage metrics. If you would like any specific reports or metrics please
contact us.
The best way to reach us is to join our
[Discord](https://discord.gg/fVyRaUDgxW) and ping us in the #help forum.
# Principles
> Learn about OpenRouter's guiding principles and mission. Understand our commitment to price optimization, standardized APIs, and high availability in AI model deployment.
OpenRouter helps developers source and optimize AI usage. We believe the future is multi-model and multi-provider.
## Why OpenRouter?
**Price and Performance**. OpenRouter scouts for the best prices, the lowest latencies, and the highest throughput across dozens of providers, and lets you choose how to [prioritize](/docs/features/provider-routing) them.
**Standardized API**. No need to change code when switching between models or providers. You can even let your users [choose and pay for their own](/docs/use-cases/oauth-pkce).
**Real-World Insights**. Be the first to take advantage of new models. See real-world data of [how often models are used](https://openrouter.ai/rankings) for different purposes. Keep up to date in our [Discord channel](https://discord.com/channels/1091220969173028894/1094454198688546826).
**Consolidated Billing**. Simple and transparent billing, regardless of how many providers you use.
**Higher Availability**. Fallback providers, and automatic, smart routing means your requests still work even when providers go down.
**Higher Rate Limits**. OpenRouter works directly with providers to provide better rate limits and more throughput.
# Models
> Access over 300 AI models through OpenRouter's unified API. Browse available models, compare capabilities, and integrate with your preferred provider.
OpenRouter strives to provide access to every potentially useful text-based AI model. We currently support over 300 models endpoints.
If there are models or providers you are interested in that OpenRouter doesn't have, please tell us about them in our [Discord channel](https://discord.gg/fVyRaUDgxW).
Some models break up text into chunks of multiple characters (GPT, Claude,
Llama, etc), while others tokenize by character (PaLM). This means that token
counts (and therefore costs) will vary between models, even when inputs and
outputs are the same. Costs are displayed and billed according to the
tokenizer for the model in use.
Explore and browse 300+ models and providers [on our website](https://openrouter.ai/models), or [with our API](/docs/api-reference/list-available-models).
## For Providers
If you're interested in working with OpenRouter, you can learn more on our [providers page](/docs/use-cases/for-providers).
# Model Routing
> Route requests dynamically between AI models. Learn how to use OpenRouter's Auto Router and model fallback features for optimal performance and reliability.
OpenRouter provides two options for model routing.
## Auto Router
The [Auto Router](https://openrouter.ai/openrouter/auto), a special model ID that you can use to choose between selected high-quality models based on your prompt, powered by [NotDiamond](https://www.notdiamond.ai/).
```json
{
"model": "openrouter/auto",
... // Other params
}
```
The resulting generation will have `model` set to the model that was used.
## The `models` parameter
The `models` parameter lets you automatically try other models if the primary model's providers are down, rate-limited, or refuse to reply due to content moderation.
```json
{
"models": ["anthropic/claude-3.5-sonnet", "gryphe/mythomax-l2-13b"],
... // Other params
}
```
If the model you selected returns an error, OpenRouter will try to use the fallback model instead. If the fallback model is down or returns an error, OpenRouter will return that error.
By default, any error can trigger the use of a fallback model, including context length validation errors, moderation flags for filtered models, rate-limiting, and downtime.
Requests are priced using the model that was ultimately used, which will be returned in the `model` attribute of the response body.
If no fallback model is specified but `route: "fallback"` is included, OpenRouter will try the most appropriate open-source model available, with pricing less than the primary model (or very close to it).
## Using with OpenAI SDK
To use the `models` array with the OpenAI SDK, include it in the `extra_body` parameter. In the example below, gpt-4o will be tried first, and the `models` array will be tried in order as fallbacks.
```typescript
import OpenAI from 'openai';
const openrouterClient = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
// API key and headers
});
async function main() {
// @ts-expect-error
const completion = await openrouterClient.chat.completions.create({
model: 'openai/gpt-4o',
models: ['anthropic/claude-3.5-sonnet', 'gryphe/mythomax-l2-13b'],
messages: [
{
role: 'user',
content: 'What is the meaning of life?',
},
],
});
console.log(completion.choices[0].message);
}
main();
```
```python
from openai import OpenAI
openai_client = OpenAI(
base_url="https://openrouter.ai/api/v1",
api_key={{API_KEY_REF}},
)
completion = openai_client.chat.completions.create(
model="openai/gpt-4o",
extra_body={
"models": ["anthropic/claude-3.5-sonnet", "gryphe/mythomax-l2-13b"],
},
messages=[
{
"role": "user",
"content": "What is the meaning of life?"
}
]
)
print(completion.choices[0].message.content)
```
# Provider Routing
> Route AI model requests across multiple providers intelligently. Learn how to optimize for cost, performance, and reliability with OpenRouter's provider routing.
OpenRouter routes requests to the best available providers for your model. By default, [requests are load balanced](#load-balancing-default-strategy) across the top providers to maximize uptime.
You can customize how your requests are routed using the `provider` object in the request body for [Chat Completions](/docs/api-reference/chat-completion) and [Completions](/docs/api-reference/completion).
For a complete list of valid provider names to use in the API, see the [full
provider schema](#json-schema-for-provider-preferences).
The `provider` object can contain the following fields:
| Field | Type | Default | Description |
| -------------------- | ----------------- | ------- | --------------------------------------------------------------------------------------------------------------------------------- |
| `order` | string\[] | - | List of provider names to try in order (e.g. `["Anthropic", "OpenAI"]`). [Learn more](#ordering-specific-providers) |
| `allow_fallbacks` | boolean | `true` | Whether to allow backup providers when the primary is unavailable. [Learn more](#disabling-fallbacks) |
| `require_parameters` | boolean | `false` | Only use providers that support all parameters in your request. [Learn more](#requiring-providers-to-support-all-parameters-beta) |
| `data_collection` | "allow" \| "deny" | "allow" | Control whether to use providers that may store data. [Learn more](#requiring-providers-to-comply-with-data-policies) |
| `ignore` | string\[] | - | List of provider names to skip for this request. [Learn more](#ignoring-providers) |
| `quantizations` | string\[] | - | List of quantization levels to filter by (e.g. `["int4", "int8"]`). [Learn more](#quantization) |
| `sort` | string | - | Sort providers by price or throughput. (e.g. `"price"` or `"throughput"`). [Learn more](#provider-sorting) |
## Price-Based Load Balancing (Default Strategy)
For each model in your request, OpenRouter's default behavior is to load balance requests across providers, prioritizing price.
If you are more sensitive to throughput than price, you can use the `sort` field to explicitly prioritize throughput.
When you send a request with `tools` or `tool_choice`, OpenRouter will only
route to providers that support tool use. Similarly, if you set a
`max_tokens`, then OpenRouter will only route to providers that support a
response of that length.
Here is OpenRouter's default load balancing strategy:
1. Prioritize providers that have not seen significant outages in the last 30 seconds.
2. For the stable providers, look at the lowest-cost candidates and select one weighted by inverse square of the price (example below).
3. Use the remaining providers as fallbacks.
If Provider A costs \$1 per million tokens, Provider B costs \$2, and Provider C costs \$3, and Provider B recently saw a few outages.
* Your request is routed to Provider A. Provider A is 9x more likely to be first routed to Provider A than Provider C because $(1 / 3^2 = 1/9)$ (inverse square of the price).
* If Provider A fails, then Provider C will be tried next.
* If Provider C also fails, Provider B will be tried last.
If you have `sort` or `order` set in your provider preferences, load balancing will be disabled.
## Provider Sorting
As described above, OpenRouter load balances based on price, while taking uptime into account.
If you instead want to *explicitly* prioritize a particular provider attribute, you can include the `sort` field in the `provider` preferences. Load balancing will be disabled, and the router will try providers in order.
The three sort options are:
* `"price"`: prioritize lowest price
* `"throughput"`: prioritize highest throughput
* `"latency"`: prioritize lowest latency
To *always* prioritize low prices, and not apply any load balancing, set `sort` to `"price"`.
To *always* prioritize low latency, and not apply any load balancing, set `sort` to `"latency"`.
## Nitro Shortcut
You can append `:nitro` to any model slug as a shortcut to sort by throughput. This is exactly equivalent to setting `provider.sort` to `"throughput"`.
## Floor Price Shortcut
You can append `:floor` to any model slug as a shortcut to sort by price. This is exactly equivalent to setting `provider.sort` to `"price"`.
## Ordering Specific Providers
You can set the providers that OpenRouter will prioritize for your request using the `order` field.
| Field | Type | Default | Description |
| ------- | --------- | ------- | ------------------------------------------------------------------------ |
| `order` | string\[] | - | List of provider names to try in order (e.g. `["Anthropic", "OpenAI"]`). |
The router will prioritize providers in this list, and in this order, for the model you're using. If you don't set this field, the router will [load balance](#load-balancing-default-strategy) across the top providers to maximize uptime.
OpenRouter will try them one at a time and proceed to other providers if none are operational. If you don't want to allow any other providers, you should [disable fallbacks](#disabling-fallbacks) as well.
### Example: Specifying providers with fallbacks
This example skips over OpenAI (which doesn't host Mixtral), tries Together, and then falls back to the normal list of providers on OpenRouter:
### Example: Specifying providers with fallbacks disabled
Here's an example with `allow_fallbacks` set to `false` that skips over OpenAI (which doesn't host Mixtral), tries Together, and then fails if Together fails:
## Requiring Providers to Support All Parameters (beta)
You can restrict requests only to providers that support all parameters in your request using the `require_parameters` field.
| Field | Type | Default | Description |
| -------------------- | ------- | ------- | --------------------------------------------------------------- |
| `require_parameters` | boolean | `false` | Only use providers that support all parameters in your request. |
With the default routing strategy, providers that don't support all the [LLM parameters](/docs/api-reference/parameters) specified in your request can still receive the request, but will ignore unknown parameters. When you set `require_parameters` to `true`, the request won't even be routed to that provider.
### Example: Excluding providers that don't support JSON formatting
For example, to only use providers that support JSON formatting:
## Requiring Providers to Comply with Data Policies
You can restrict requests only to providers that comply with your data policies using the `data_collection` field.
| Field | Type | Default | Description |
| ----------------- | ----------------- | ------- | ----------------------------------------------------- |
| `data_collection` | "allow" \| "deny" | "allow" | Control whether to use providers that may store data. |
* `allow`: (default) allow providers which store user data non-transiently and may train on it
* `deny`: use only providers which do not collect user data
Some model providers may log prompts, so we display them with a **Data Policy** tag on model pages. This is not a definitive source of third party data policies, but represents our best knowledge.
This is also available as an account-wide setting in [your privacy
settings](https://openrouter.ai/settings/privacy). You can disable third party
model providers that store inputs for training.
### Example: Excluding providers that don't comply with data policies
To exclude providers that don't comply with your data policies, set `data_collection` to `deny`:
## Disabling Fallbacks
To guarantee that your request is only served by the top (lowest-cost) provider, you can disable fallbacks.
This is combined with the `order` field from [Ordering Specific Providers](#ordering-specific-providers) to restrict the providers that OpenRouter will prioritize to just your chosen list.
## Ignoring Providers
You can ignore providers for a request by setting the `ignore` field in the `provider` object.
| Field | Type | Default | Description |
| -------- | --------- | ------- | ------------------------------------------------ |
| `ignore` | string\[] | - | List of provider names to skip for this request. |
Ignoring multiple providers may significantly reduce fallback options and
limit request recovery.
You can ignore providers for all account requests by configuring your [preferences](/settings/preferences). This configuration applies to all API requests and chatroom messages.
Note that when you ignore providers for a specific request, the list of ignored providers is merged with your account-wide ignored providers.
### Example: Ignoring Azure for a request calling GPT-4 Omni
Here's an example that will ignore Azure for a request calling GPT-4 Omni:
## Quantization
Quantization reduces model size and computational requirements while aiming to preserve performance. Most LLMs today use FP16 or BF16 for training and inference, cutting memory requirements in half compared to FP32. Some optimizations use FP8 or quantization to reduce size further (e.g., INT8, INT4).
| Field | Type | Default | Description |
| --------------- | --------- | ------- | ----------------------------------------------------------------------------------------------- |
| `quantizations` | string\[] | - | List of quantization levels to filter by (e.g. `["int4", "int8"]`). [Learn more](#quantization) |
Quantized models may exhibit degraded performance for certain prompts,
depending on the method used.
Providers can support various quantization levels for open-weight models.
### Quantization Levels
By default, requests are load-balanced across all available providers, ordered by price. To filter providers by quantization level, specify the `quantizations` field in the `provider` parameter with the following values:
* `int4`: Integer (4 bit)
* `int8`: Integer (8 bit)
* `fp4`: Floating point (4 bit)
* `fp6`: Floating point (6 bit)
* `fp8`: Floating point (8 bit)
* `fp16`: Floating point (16 bit)
* `bf16`: Brain floating point (16 bit)
* `fp32`: Floating point (32 bit)
* `unknown`: Unknown
### Example: Requesting FP8 Quantization
Here's an example that will only use providers that support FP8 quantization:
## Terms of Service
You can view the terms of service for each provider below. You may not violate the terms of service or policies of third-party providers that power the models on OpenRouter.
* `OpenAI`: [https://openai.com/policies/row-terms-of-use/](https://openai.com/policies/row-terms-of-use/)
* `Anthropic`: [https://www.anthropic.com/legal/commercial-terms](https://www.anthropic.com/legal/commercial-terms)
* `Google Vertex`: [https://cloud.google.com/terms/](https://cloud.google.com/terms/)
* `Google AI Studio`: [https://cloud.google.com/terms/](https://cloud.google.com/terms/)
* `Amazon Bedrock`: [https://aws.amazon.com/service-terms/](https://aws.amazon.com/service-terms/)
* `Groq`: [https://groq.com/terms-of-use/](https://groq.com/terms-of-use/)
* `SambaNova`: [https://sambanova.ai/terms-and-conditions](https://sambanova.ai/terms-and-conditions)
* `Cohere`: [https://cohere.com/terms-of-use](https://cohere.com/terms-of-use)
* `Mistral`: [https://mistral.ai/terms/#terms-of-use](https://mistral.ai/terms/#terms-of-use)
* `Together`: [https://www.together.ai/terms-of-service](https://www.together.ai/terms-of-service)
* `Together (lite)`: [https://www.together.ai/terms-of-service](https://www.together.ai/terms-of-service)
* `Fireworks`: [https://fireworks.ai/terms-of-service](https://fireworks.ai/terms-of-service)
* `DeepInfra`: [https://deepinfra.com/docs/data](https://deepinfra.com/docs/data)
* `Lepton`: [https://www.lepton.ai/policies/tos](https://www.lepton.ai/policies/tos)
* `NovitaAI`: [https://novita.ai/legal/terms-of-service](https://novita.ai/legal/terms-of-service)
* `Avian.io`: [https://avian.io/privacy](https://avian.io/privacy)
* `Lambda`: [https://lambdalabs.com/legal/privacy-policy](https://lambdalabs.com/legal/privacy-policy)
* `Azure`: [https://www.microsoft.com/en-us/legal/terms-of-use?oneroute=true](https://www.microsoft.com/en-us/legal/terms-of-use?oneroute=true)
* `Modal`: [https://modal.com/legal/terms](https://modal.com/legal/terms)
* `AnyScale`: [https://www.anyscale.com/terms](https://www.anyscale.com/terms)
* `Replicate`: [https://replicate.com/terms](https://replicate.com/terms)
* `Perplexity`: [https://www.perplexity.ai/hub/legal/perplexity-api-terms-of-service](https://www.perplexity.ai/hub/legal/perplexity-api-terms-of-service)
* `Recursal`: [https://featherless.ai/terms](https://featherless.ai/terms)
* `OctoAI`: [https://octo.ai/docs/faqs/privacy-and-security](https://octo.ai/docs/faqs/privacy-and-security)
* `DeepSeek`: [https://chat.deepseek.com/downloads/DeepSeek%20Terms%20of%20Use.html](https://chat.deepseek.com/downloads/DeepSeek%20Terms%20of%20Use.html)
* `Infermatic`: [https://infermatic.ai/privacy-policy/](https://infermatic.ai/privacy-policy/)
* `AI21`: [https://studio.ai21.com/privacy-policy](https://studio.ai21.com/privacy-policy)
* `Featherless`: [https://featherless.ai/terms](https://featherless.ai/terms)
* `Inflection`: [https://developers.inflection.ai/tos](https://developers.inflection.ai/tos)
* `xAI`: [https://x.ai/legal/terms-of-service](https://x.ai/legal/terms-of-service)
* `Cloudflare`: [https://www.cloudflare.com/service-specific-terms-developer-platform/#developer-platform-terms](https://www.cloudflare.com/service-specific-terms-developer-platform/#developer-platform-terms)
* `SF Compute`: [https://inference.sfcompute.com/privacy](https://inference.sfcompute.com/privacy)
* `Minimax`: [https://intl.minimaxi.com/protocol/terms-of-service](https://intl.minimaxi.com/protocol/terms-of-service)
* `Nineteen`: [https://nineteen.ai/tos](https://nineteen.ai/tos)
* `Liquid`: [https://www.liquid.ai/terms-conditions](https://www.liquid.ai/terms-conditions)
* `nCompass`: [https://ncompass.tech/terms](https://ncompass.tech/terms)
* `inference.net`: [https://inference.net/terms](https://inference.net/terms)
* `Friendli`: [https://friendli.ai/terms-of-service](https://friendli.ai/terms-of-service)
* `AionLabs`: [https://www.aionlabs.ai/terms/](https://www.aionlabs.ai/terms/)
* `Alibaba`: [https://www.alibabacloud.com/help/en/legal/latest/alibaba-cloud-international-website-product-terms-of-service-v-3-8-0](https://www.alibabacloud.com/help/en/legal/latest/alibaba-cloud-international-website-product-terms-of-service-v-3-8-0)
* `Nebius AI Studio`: [https://docs.nebius.com/legal/studio/terms-of-use/](https://docs.nebius.com/legal/studio/terms-of-use/)
* `Chutes`: [https://chutes.ai/tos](https://chutes.ai/tos)
* `kluster.ai`: [https://www.kluster.ai/terms-of-use](https://www.kluster.ai/terms-of-use)
* `Crusoe`: [https://legal.crusoe.ai/open-router#managed-inference-tos-open-router](https://legal.crusoe.ai/open-router#managed-inference-tos-open-router)
* `Targon`: [https://targon.com/terms](https://targon.com/terms)
* `Ubicloud`: [https://www.ubicloud.com/docs/about/terms-of-service](https://www.ubicloud.com/docs/about/terms-of-service)
* `Parasail`: [https://www.parasail.io/legal/terms](https://www.parasail.io/legal/terms)
* `01.AI`: [https://platform.01.ai/privacypolicy](https://platform.01.ai/privacypolicy)
* `HuggingFace`: [https://huggingface.co/terms-of-service](https://huggingface.co/terms-of-service)
* `Mancer`: [https://mancer.tech/terms](https://mancer.tech/terms)
* `Mancer (private)`: [https://mancer.tech/terms](https://mancer.tech/terms)
* `Hyperbolic`: [https://hyperbolic.xyz/privacy](https://hyperbolic.xyz/privacy)
* `Hyperbolic (quantized)`: [https://hyperbolic.xyz/privacy](https://hyperbolic.xyz/privacy)
* `Lynn`: [https://api.lynn.app/policy](https://api.lynn.app/policy)
## JSON Schema for Provider Preferences
For a complete list of options, see this JSON schema:
# Prompt Caching
> Reduce your AI model costs with OpenRouter's prompt caching feature. Learn how to cache and reuse responses across OpenAI, Anthropic Claude, and DeepSeek models.
To save on inference costs, you can enable prompt caching on supported providers and models.
Most providers automatically enable prompt caching, but note that some (see Anthropic below) require you to enable it on a per-message basis.
When using caching (whether automatically in supported models, or via the `cache_control` header), OpenRouter will make a best-effort to continue routing
to the same provider to make use of the warm cache. In the event that the provider with your cached prompt is not available,
OpenRouter will try the next-best provider.
## Inspecting cache usage
To see how much caching saved on each generation, you click the detail button on the [Activity](/activity) page, or you can use the `/api/v1/generation` API, [documented here](/api-reference/overview#querying-cost-and-stats).
The `cache_discount` field in the response body will tell you how much the response saved on cache usage. Some providers, like Anthropic, will have a negative discount on cache writes, but a positive discount (which reduces total cost) on cache reads.
## OpenAI
Caching price changes:
* **Cache writes**: no cost
* **Cache reads**: charged at {OPENAI_CACHE_READ_MULTIPLIER}x the price of the original input pricing
Prompt caching with OpenAI is automated and does not require any additional configuration. There is a minimum prompt size of 1024 tokens.
[Click here to read more about OpenAI prompt caching and its limitation.](https://openai.com/index/api-prompt-caching/)
## Anthropic Claude
Caching price changes:
* **Cache writes**: charged at {ANTHROPIC_CACHE_WRITE_MULTIPLIER}x the price of the original input pricing
* **Cache reads**: charged at {ANTHROPIC_CACHE_READ_MULTIPLIER}x the price of the original input pricing
Prompt caching with Anthropic requires the use of `cache_control` breakpoints. There is a limit of four breakpoints, and the cache will expire within five minutes. Therefore, it is recommended to reserve the cache breakpoints for large bodies of text, such as character cards, CSV data, RAG data, book chapters, etc.
[Click here to read more about Anthropic prompt caching and its limitation.](https://docs.anthropic.com/en/docs/build-with-claude/prompt-caching)
The `cache_control` breakpoint can only be inserted into the text part of a multipart message.
System message caching example:
```json
{
"messages": [
{
"role": "system",
"content": [
{
"type": "text",
"text": "You are a historian studying the fall of the Roman Empire. You know the following book very well:"
},
{
"type": "text",
"text": "HUGE TEXT BODY",
"cache_control": {
"type": "ephemeral"
}
}
]
},
{
"role": "user",
"content": [
{
"type": "text",
"text": "What triggered the collapse?"
}
]
}
]
}
```
User message caching example:
```json
{
"messages": [
{
"role": "user",
"content": [
{
"type": "text",
"text": "Given the book below:"
},
{
"type": "text",
"text": "HUGE TEXT BODY",
"cache_control": {
"type": "ephemeral"
}
},
{
"type": "text",
"text": "Name all the characters in the above book"
}
]
}
]
}
```
## DeepSeek
Caching price changes:
* **Cache writes**: charged at the same price as the original input pricing
* **Cache reads**: charged at {DEEPSEEK_CACHE_READ_MULTIPLIER}x the price of the original input pricing
Prompt caching with DeepSeek is automated and does not require any additional configuration.
# Structured Outputs
> Enforce JSON Schema validation on AI model responses. Get consistent, type-safe outputs and avoid parsing errors with OpenRouter's structured output feature.
OpenRouter supports structured outputs for compatible models, ensuring responses follow a specific JSON Schema format. This feature is particularly useful when you need consistent, well-formatted responses that can be reliably parsed by your application.
## Overview
Structured outputs allow you to:
* Enforce specific JSON Schema validation on model responses
* Get consistent, type-safe outputs
* Avoid parsing errors and hallucinated fields
* Simplify response handling in your application
## Using Structured Outputs
To use structured outputs, include a `response_format` parameter in your request, with `type` set to `json_schema` and the `json_schema` object containing your schema:
```typescript
{
"messages": [
{ "role": "user", "content": "What's the weather like in London?" }
],
"response_format": {
"type": "json_schema",
"json_schema": {
"name": "weather",
"strict": true,
"schema": {
"type": "object",
"properties": {
"location": {
"type": "string",
"description": "City or location name"
},
"temperature": {
"type": "number",
"description": "Temperature in Celsius"
},
"conditions": {
"type": "string",
"description": "Weather conditions description"
}
},
"required": ["location", "temperature", "conditions"],
"additionalProperties": false
}
}
}
}
```
The model will respond with a JSON object that strictly follows your schema:
```json
{
"location": "London",
"temperature": 18,
"conditions": "Partly cloudy with light drizzle"
}
```
## Model Support
Structured outputs are supported by select models.
You can find a list of models that support structured outputs on the [models page](https://openrouter.ai/models?order=newest\&supported_parameters=structured_outputs).
* OpenAI models (GPT-4o and later versions) [Docs](https://platform.openai.com/docs/guides/structured-outputs)
* All Fireworks provided models [Docs](https://docs.fireworks.ai/structured-responses/structured-response-formatting#structured-response-modes)
To ensure your chosen model supports structured outputs:
1. Check the model's supported parameters on the [models page](https://openrouter.ai/models)
2. Set `require_parameters: true` in your provider preferences (see [Provider Routing](/docs/features/provider-routing))
3. Include `response_format` and set `type: json_schema` in the required parameters
## Best Practices
1. **Include descriptions**: Add clear descriptions to your schema properties to guide the model
2. **Use strict mode**: Always set `strict: true` to ensure the model follows your schema exactly
## Example Implementation
Here's a complete example using the Fetch API:
```typescript title="With TypeScript"
const response = await fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: 'Bearer {{API_KEY_REF}}',
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: '{{MODEL}}',
messages: [
{ role: 'user', content: 'What is the weather like in London?' },
],
response_format: {
type: 'json_schema',
json_schema: {
name: 'weather',
strict: true,
schema: {
type: 'object',
properties: {
location: {
type: 'string',
description: 'City or location name',
},
temperature: {
type: 'number',
description: 'Temperature in Celsius',
},
conditions: {
type: 'string',
description: 'Weather conditions description',
},
},
required: ['location', 'temperature', 'conditions'],
additionalProperties: false,
},
},
},
}),
});
const data = await response.json();
const weatherInfo = data.choices[0].message.content;
```
```python title="With Python"
import requests
import json
response = requests.post(
"https://openrouter.ai/api/v1/chat/completions",
headers={
"Authorization": f"Bearer {{API_KEY_REF}}",
"Content-Type": "application/json",
},
json={
"model": "{{MODEL}}",
"messages": [
{"role": "user", "content": "What is the weather like in London?"},
],
"response_format": {
"type": "json_schema",
"json_schema": {
"name": "weather",
"strict": True,
"schema": {
"type": "object",
"properties": {
"location": {
"type": "string",
"description": "City or location name",
},
"temperature": {
"type": "number",
"description": "Temperature in Celsius",
},
"conditions": {
"type": "string",
"description": "Weather conditions description",
},
},
"required": ["location", "temperature", "conditions"],
"additionalProperties": False,
},
},
},
},
)
data = response.json()
weather_info = data["choices"][0]["message"]["content"]
```
## Streaming with Structured Outputs
Structured outputs are also supported with streaming responses. The model will stream valid partial JSON that, when complete, forms a valid response matching your schema.
To enable streaming with structured outputs, simply add `stream: true` to your request:
```typescript
{
"stream": true,
"response_format": {
"type": "json_schema",
// ... rest of your schema
}
}
```
## Error Handling
When using structured outputs, you may encounter these scenarios:
1. **Model doesn't support structured outputs**: The request will fail with an error indicating lack of support
2. **Invalid schema**: The model will return an error if your JSON Schema is invalid
# Tool & Function Calling
> Use tools (or functions) in your prompts with OpenRouter. Learn how to use tools with OpenAI, Anthropic, and other models that support tool calling.
Tool calls (also known as function calls) give an LLM access to external tools. The LLM does not call the tools directly. Instead, it suggests the tool to call. The user then calls the tool separately and provides the results back to the LLM. Finally, the LLM formats the response into an answer to the user's original question.
OpenRouter standardizes the tool calling interface across models and providers.
For a primer on how tool calling works in the OpenAI SDK, please see [this article](https://platform.openai.com/docs/guides/function-calling?api-mode=chat), or if you prefer to learn from a full end-to-end example, keep reading.
### Tool Calling Example
Here is Python code that gives LLMs the ability to call an external API -- in this case Project Gutenberg, to search for books.
First, let's do some basic setup:
```python
import json, requests
from openai import OpenAI
OPENROUTER_API_KEY = f"{{API_KEY_REF}}"
# You can use any model that supports tool calling
MODEL = {{MODEL}}
openai_client = OpenAI(
base_url="https://openrouter.ai/api/v1",
api_key=OPENROUTER_API_KEY,
)
task = "What are the titles of some James Joyce books?"
messages = [
{
"role": "system",
"content": "You are a helpful assistant."
},
{
"role": "user",
"content": task,
}
]
```
```typescript
const response = await fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: `Bearer {{API_KEY_REF}}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: '{{MODEL}}',
messages: [
{ role: 'system', content: 'You are a helpful assistant.' },
{
role: 'user',
content: 'What are the titles of some James Joyce books?',
},
],
}),
});
```
### Define the Tool
Next, we define the tool that we want to call. Remember, the tool is going to get *requested* by the LLM, but the code we are writing here is ultimately responsible for executing the call and returning the results to the LLM.
```python
def search_gutenberg_books(search_terms):
search_query = " ".join(search_terms)
url = "https://gutendex.com/books"
response = requests.get(url, params={"search": search_query})
simplified_results = []
for book in response.json().get("results", []):
simplified_results.append({
"id": book.get("id"),
"title": book.get("title"),
"authors": book.get("authors")
})
return simplified_results
tools = [
{
"type": "function",
"function": {
"name": "search_gutenberg_books",
"description": "Search for books in the Project Gutenberg library based on specified search terms",
"parameters": {
"type": "object",
"properties": {
"search_terms": {
"type": "array",
"items": {
"type": "string"
},
"description": "List of search terms to find books in the Gutenberg library (e.g. ['dickens', 'great'] to search for books by Dickens with 'great' in the title)"
}
},
"required": ["search_terms"]
}
}
}
]
TOOL_MAPPING = {
"search_gutenberg_books": search_gutenberg_books
}
```
```typescript
async function searchGutenbergBooks(searchTerms: string[]): Promise {
const searchQuery = searchTerms.join(' ');
const url = 'https://gutendex.com/books';
const response = await fetch(`${url}?search=${searchQuery}`);
const data = await response.json();
return data.results.map((book: any) => ({
id: book.id,
title: book.title,
authors: book.authors,
}));
}
const tools = [
{
type: 'function',
function: {
name: 'search_gutenberg_books',
description:
'Search for books in the Project Gutenberg library based on specified search terms',
parameters: {
type: 'object',
properties: {
search_terms: {
type: 'array',
items: {
type: 'string',
},
description:
"List of search terms to find books in the Gutenberg library (e.g. ['dickens', 'great'] to search for books by Dickens with 'great' in the title)",
},
},
required: ['search_terms'],
},
},
},
];
const TOOL_MAPPING = {
searchGutenbergBooks,
};
```
Note that the "tool" is just a normal function. We then write a JSON "spec" compatible with the OpenAI function calling parameter. We'll pass that spec to the LLM so that it knows this tool is available and how to use it. It will request the tool when needed, along with any arguments. We'll then marshal the tool call locally, make the function call, and return the results to the LLM.
### Tool use and tool results
Let's make the first OpenRouter API call to the model:
```python
request_1 = {
"model": {{MODEL}},
"tools": tools,
"messages": messages
}
response_1 = openai_client.chat.completions.create(**request_1).message
```
```typescript
const response = await fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: `Bearer {{API_KEY_REF}}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: '{{MODEL}}',
tools,
messages,
}),
});
```
The LLM responds with a finish reason of tool\_calls, and a tool\_calls array. In a generic LLM response-handler, you would want to check the finish reason before processing tool calls, but here we will assume it's the case. Let's keep going, by processing the tool call:
```python
# Append the response to the messages array so the LLM has the full context
# It's easy to forget this step!
messages.append(response_1)
# Now we process the requested tool calls, and use our book lookup tool
for tool_call in response_1.tool_calls:
'''
In this case we only provided one tool, so we know what function to call.
When providing multiple tools, you can inspect `tool_call.function.name`
to figure out what function you need to call locally.
'''
tool_name = tool_call.function.name
tool_args = json.loads(tool_call.function.arguments)
tool_response = TOOL_MAPPING[tool_name](**tool_args)
messages.append({
"role": "tool",
"tool_call_id": tool_call.id,
"name": tool_name,
"content": json.dumps(tool_response),
})
```
```typescript
// Append the response to the messages array so the LLM has the full context
// It's easy to forget this step!
messages.push(response);
// Now we process the requested tool calls, and use our book lookup tool
for (const toolCall of response.toolCalls) {
const toolName = toolCall.function.name;
const toolArgs = JSON.parse(toolCall.function.arguments);
const toolResponse = await TOOL_MAPPING[toolName](toolArgs);
messages.push({
role: 'tool',
toolCallId: toolCall.id,
name: toolName,
content: JSON.stringify(toolResponse),
});
}
```
The messages array now has:
1. Our original request
2. The LLM's response (containing a tool call request)
3. The result of the tool call (a json object returned from the Project Gutenberg API)
Now, we can make a second OpenRouter API call, and hopefully get our result!
```python
request_2 = {
"model": MODEL,
"messages": messages,
"tools": tools
}
response_2 = openai_client.chat.completions.create(**request_2)
print(response_2.choices[0].message.content)
```
```typescript
const response = await fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: `Bearer {{API_KEY_REF}}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: '{{MODEL}}',
messages,
tools,
}),
});
const data = await response.json();
console.log(data.choices[0].message.content);
```
The output will be something like:
```text
Here are some books by James Joyce:
* *Ulysses*
* *Dubliners*
* *A Portrait of the Artist as a Young Man*
* *Chamber Music*
* *Exiles: A Play in Three Acts*
```
We did it! We've successfully used a tool in a prompt.
## A Simple Agentic Loop
In the example above, the calls are made explicitly and sequentially. To handle a wide variety of user inputs and tool calls, you can use an agentic loop.
Here's an example of a simple agentic loop (using the same `tools` and initial `messages` as above):
```python
def call_llm(msgs):
resp = openai_client.chat.completions.create(
model={{MODEL}},
tools=tools,
messages=msgs
)
msgs.append(resp.choices[0].message.dict())
return resp
def get_tool_response(response):
tool_call = response.choices[0].message.tool_calls[0]
tool_name = tool_call.function.name
tool_args = json.loads(tool_call.function.arguments)
# Look up the correct tool locally, and call it with the provided arguments
# Other tools can be added without changing the agentic loop
tool_result = TOOL_MAPPING[tool_name](**tool_args)
return {
"role": "tool",
"tool_call_id": tool_call.id,
"name": tool_name,
"content": tool_result,
}
while True:
resp = call_llm(_messages)
if resp.choices[0].message.tool_calls is not None:
messages.append(get_tool_response(resp))
else:
break
print(messages[-1]['content'])
```
```typescript
async function callLLM(messages: Message[]): Promise {
const response = await fetch(
'https://openrouter.ai/api/v1/chat/completions',
{
method: 'POST',
headers: {
Authorization: `Bearer {{API_KEY_REF}}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: '{{MODEL}}',
tools,
messages,
}),
},
);
const data = await response.json();
messages.push(data.choices[0].message);
return data;
}
async function getToolResponse(response: Message): Promise {
const toolCall = response.toolCalls[0];
const toolName = toolCall.function.name;
const toolArgs = JSON.parse(toolCall.function.arguments);
// Look up the correct tool locally, and call it with the provided arguments
// Other tools can be added without changing the agentic loop
const toolResult = await TOOL_MAPPING[toolName](toolArgs);
return {
role: 'tool',
toolCallId: toolCall.id,
name: toolName,
content: toolResult,
};
}
while (true) {
const response = await callLLM(messages);
if (response.toolCalls) {
messages.push(await getToolResponse(response));
} else {
break;
}
}
console.log(messages[messages.length - 1].content);
```
# Message Transforms
> Transform and optimize messages before sending them to AI models. Learn about middle-out compression and context window optimization with OpenRouter.
To help with prompts that exceed the maximum context size of a model, OpenRouter supports a custom parameter called `transforms`:
```typescript
{
transforms: ["middle-out"], // Compress prompts that are > context size.
messages: [...],
model // Works with any model
}
```
This can be useful for situations where perfect recall is not required. The transform works by removing or truncating messages from the middle of the prompt, until the prompt fits within the model's context window.
In some cases, the issue is not the token context length, but the actual number of messages. The transform addresses this as well: For instance, Anthropic's Claude models enforce a maximum of {anthropicMaxMessagesCount} messages. When this limit is exceeded with middle-out enabled, the transform will keep half of the messages from the start and half from the end of the conversation.
When middle-out compression is enabled, OpenRouter will first try to find models whose context length is at least half of your total required tokens (input + completion). For example, if your prompt requires 10,000 tokens total, models with at least 5,000 context length will be considered. If no models meet this criteria, OpenRouter will fall back to using the model with the highest available context length.
The compression will then attempt to fit your content within the chosen model's context window by removing or truncating content from the middle of the prompt. If middle-out compression is disabled and your total tokens exceed the model's context length, the request will fail with an error message suggesting you either reduce the length or enable middle-out compression.
[All OpenRouter endpoints](/models) with 8k (8,192 tokens) or less context
length will default to using `middle-out`. To disable this, set `transforms: []` in the request body.
The middle of the prompt is compressed because [LLMs pay less attention](https://arxiv.org/abs/2307.03172) to the middle of sequences.
# Uptime Optimization
> Learn how OpenRouter maximizes AI model uptime through real-time monitoring, intelligent routing, and automatic fallbacks across multiple providers.
OpenRouter continuously monitors the health and availability of AI providers to ensure maximum uptime for your applications. We track response times, error rates, and availability across all providers in real-time, and route based on this feedback.
## How It Works
OpenRouter tracks response times, error rates, and availability across all providers in real-time. This data helps us make intelligent routing decisions and provides transparency about service reliability.
## Uptime Example: Claude 3.5 Sonnet
## Uptime Example: Llama 3.3 70B Instruct
## Customizing Provider Selection
While our smart routing helps maintain high availability, you can also customize provider selection using request parameters. This gives you control over which providers handle your requests while still benefiting from automatic fallback when needed.
Learn more about customizing provider selection in our [Provider Routing documentation](/docs/features/provider-routing).
# Web Search
> Enable real-time web search capabilities in your AI model responses. Add factual, up-to-date information to any model's output with OpenRouter's web search feature.
You can incorporate relevant web search results for *any* model on OpenRouter by activating and customizing the `web` plugin, or by appending `:online` to the model slug:
```json
{
"model": "openai/gpt-4o:online"
}
```
This is a shortcut for using the `web` plugin, and is exactly equivalent to:
```json
{
"model": "openrouter/auto",
"plugins": [{ "id": "web" }]
}
```
The web search plugin is powered by [Exa](https://exa.ai) and uses their ["auto"](https://docs.exa.ai/reference/how-exa-search-works#combining-neural-and-keyword-the-best-of-both-worlds-through-exa-auto-search) method (a combination of keyword search and embeddings-based web search) to find the most relevant results and augment/ground your prompt.
## Customizing the Web Plugin
The maximum results allowed by the web plugin and the prompt used to attach them to your message stream can be customized:
```json
{
"model": "openai/gpt-4o:online",
"plugins": [
{
"id": "web",
"max_results": 1, // Defaults to 5
"search_prompt": "Some relevant web results:" // See default below
}
]
}
```
By default, the web plugin uses the following search prompt, using the current date:
```
A web search was conducted on `date`. Incorporate the following web search results into your response.
IMPORTANT: Cite them using markdown links named using the domain of the source.
Example: [nytimes.com](https://nytimes.com/some-page).
```
## Pricing
The web plugin uses your OpenRouter credits and charges *\$4 per 1000 results*. By default, `max_results` set to 5, this comes out to a maximum of \$0.02 per request, in addition to the LLM usage for the search result prompt tokens.
# Zero Completion Insurance
> Learn how OpenRouter protects users from being charged for failed or empty AI responses with zero completion insurance.
OpenRouter provides zero completion insurance to protect users from being charged for failed or empty responses. When a response contains no output tokens and either has a blank finish reason or an error, you will not be charged for the request, even if the underlying provider charges for prompt processing.
Zero completion insurance is automatically enabled for all accounts and requires no configuration.
## How It Works
Zero completion insurance automatically applies to all requests across all models and providers. When a response meets either of these conditions, no credits will be deducted from your account:
* The response has zero completion tokens AND a blank/null finish reason
* The response has an error finish reason
## Viewing Protected Requests
On your activity page, requests that were protected by zero completion insurance will show zero credits deducted. This applies even in cases where OpenRouter may have been charged by the provider for prompt processing.
# Provisioning API Keys
> Manage OpenRouter API keys programmatically through dedicated management endpoints. Create, read, update, and delete API keys for automated key distribution and control.
OpenRouter provides endpoints to programmatically manage your API keys, enabling key creation and management for applications that need to distribute or rotate keys automatically.
## Creating a Provisioning API Key
To use the key management API, you first need to create a Provisioning API key:
1. Go to the [Provisioning API Keys page](https://openrouter.ai/settings/provisioning-keys)
2. Click "Create New Key"
3. Complete the key creation process
Provisioning keys cannot be used to make API calls to OpenRouter's completion endpoints - they are exclusively for key management operations.
## Use Cases
Common scenarios for programmatic key management include:
* **SaaS Applications**: Automatically create unique API keys for each customer instance
* **Key Rotation**: Regularly rotate API keys for security compliance
* **Usage Monitoring**: Track key usage and automatically disable keys that exceed limits
## Example Usage
All key management endpoints are under `/api/v1/keys` and require a Provisioning API key in the Authorization header.
```python title="Python"
import requests
PROVISIONING_API_KEY = "your-provisioning-key"
BASE_URL = "https://openrouter.ai/api/v1/keys"
# List the most recent 100 API keys
response = requests.get(
BASE_URL,
headers={
"Authorization": f"Bearer {PROVISIONING_API_KEY}",
"Content-Type": "application/json"
}
)
# You can paginate using the offset parameter
response = requests.get(
f"{BASE_URL}?offset=100",
headers={
"Authorization": f"Bearer {PROVISIONING_API_KEY}",
"Content-Type": "application/json"
}
)
# Create a new API key
response = requests.post(
f"{BASE_URL}/",
headers={
"Authorization": f"Bearer {PROVISIONING_API_KEY}",
"Content-Type": "application/json"
},
json={
"name": "Customer Instance Key",
"label": "customer-123",
"limit": 1000 # Optional credit limit
}
)
# Get a specific key
key_hash = ""
response = requests.get(
f"{BASE_URL}/{key_hash}",
headers={
"Authorization": f"Bearer {PROVISIONING_API_KEY}",
"Content-Type": "application/json"
}
)
# Update a key
response = requests.patch(
f"{BASE_URL}/{key_hash}",
headers={
"Authorization": f"Bearer {PROVISIONING_API_KEY}",
"Content-Type": "application/json"
},
json={
"name": "Updated Key Name",
"disabled": True # Disable the key
}
)
# Delete a key
response = requests.delete(
f"{BASE_URL}/{key_hash}",
headers={
"Authorization": f"Bearer {PROVISIONING_API_KEY}",
"Content-Type": "application/json"
}
)
```
```typescript title="TypeScript"
const PROVISIONING_API_KEY = 'your-provisioning-key';
const BASE_URL = 'https://openrouter.ai/api/v1/keys';
// List the most recent 100 API keys
const listKeys = await fetch(BASE_URL, {
headers: {
Authorization: `Bearer ${PROVISIONING_API_KEY}`,
'Content-Type': 'application/json',
},
});
// You can paginate using the `offset` query parameter
const listKeys = await fetch(`${BASE_URL}?offset=100`, {
headers: {
Authorization: `Bearer ${PROVISIONING_API_KEY}`,
'Content-Type': 'application/json',
},
});
// Create a new API key
const createKey = await fetch(`${BASE_URL}`, {
method: 'POST',
headers: {
Authorization: `Bearer ${PROVISIONING_API_KEY}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
name: 'Customer Instance Key',
label: 'customer-123',
limit: 1000, // Optional credit limit
}),
});
// Get a specific key
const keyHash = '';
const getKey = await fetch(`${BASE_URL}/${keyHash}`, {
headers: {
Authorization: `Bearer ${PROVISIONING_API_KEY}`,
'Content-Type': 'application/json',
},
});
// Update a key
const updateKey = await fetch(`${BASE_URL}/${keyHash}`, {
method: 'PATCH',
headers: {
Authorization: `Bearer ${PROVISIONING_API_KEY}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
name: 'Updated Key Name',
disabled: true, // Disable the key
}),
});
// Delete a key
const deleteKey = await fetch(`${BASE_URL}/${keyHash}`, {
method: 'DELETE',
headers: {
Authorization: `Bearer ${PROVISIONING_API_KEY}`,
'Content-Type': 'application/json',
},
});
```
## Response Format
API responses return JSON objects containing key information:
```json
{
"data": [
{
"created_at": "2025-02-19T20:52:27.363244+00:00",
"updated_at": "2025-02-19T21:24:11.708154+00:00",
"hash": "",
"label": "sk-or-v1-customkey",
"name": "Customer Key",
"disabled": false,
"limit": 10,
"usage": 0
}
]
}
```
When creating a new key, the response will include the key string itself.
# API Reference
> Comprehensive guide to OpenRouter's API. Learn about request/response schemas, authentication, parameters, and integration with multiple AI model providers.
OpenRouter's request and response schemas are very similar to the OpenAI Chat API, with a few small differences. At a high level, **OpenRouter normalizes the schema across models and providers** so you only need to learn one.
## Requests
### Completions Request Format
Here is the request schema as a TypeScript type. This will be the body of your `POST` request to the `/api/v1/chat/completions` endpoint (see the [quick start](/docs/quick-start) above for an example).
For a complete list of parameters, see the [Parameters](/docs/api-reference/parameters).
```typescript title="Request Schema"
// Definitions of subtypes are below
type Request = {
// Either "messages" or "prompt" is required
messages?: Message[];
prompt?: string;
// If "model" is unspecified, uses the user's default
model?: string; // See "Supported Models" section
// Allows to force the model to produce specific output format.
// See models page and note on this docs page for which models support it.
response_format?: { type: 'json_object' };
stop?: string | string[];
stream?: boolean; // Enable streaming
// See LLM Parameters (openrouter.ai/docs/api-reference/parameters)
max_tokens?: number; // Range: [1, context_length)
temperature?: number; // Range: [0, 2]
// Tool calling
// Will be passed down as-is for providers implementing OpenAI's interface.
// For providers with custom interfaces, we transform and map the properties.
// Otherwise, we transform the tools into a YAML template. The model responds with an assistant message.
// See models supporting tool calling: openrouter.ai/models?supported_parameters=tools
tools?: Tool[];
tool_choice?: ToolChoice;
// Advanced optional parameters
seed?: number; // Integer only
top_p?: number; // Range: (0, 1]
top_k?: number; // Range: [1, Infinity) Not available for OpenAI models
frequency_penalty?: number; // Range: [-2, 2]
presence_penalty?: number; // Range: [-2, 2]
repetition_penalty?: number; // Range: (0, 2]
logit_bias?: { [key: number]: number };
top_logprobs: number; // Integer only
min_p?: number; // Range: [0, 1]
top_a?: number; // Range: [0, 1]
// Reduce latency by providing the model with a predicted output
// https://platform.openai.com/docs/guides/latency-optimization#use-predicted-outputs
prediction?: { type: 'content'; content: string };
// OpenRouter-only parameters
// See "Prompt Transforms" section: openrouter.ai/docs/transforms
transforms?: string[];
// See "Model Routing" section: openrouter.ai/docs/model-routing
models?: string[];
route?: 'fallback';
// See "Provider Routing" section: openrouter.ai/docs/provider-routing
provider?: ProviderPreferences;
};
// Subtypes:
type TextContent = {
type: 'text';
text: string;
};
type ImageContentPart = {
type: 'image_url';
image_url: {
url: string; // URL or base64 encoded image data
detail?: string; // Optional, defaults to "auto"
};
};
type ContentPart = TextContent | ImageContentPart;
type Message =
| {
role: 'user' | 'assistant' | 'system';
// ContentParts are only for the "user" role:
content: string | ContentPart[];
// If "name" is included, it will be prepended like this
// for non-OpenAI models: `{name}: {content}`
name?: string;
}
| {
role: 'tool';
content: string;
tool_call_id: string;
name?: string;
};
type FunctionDescription = {
description?: string;
name: string;
parameters: object; // JSON Schema object
};
type Tool = {
type: 'function';
function: FunctionDescription;
};
type ToolChoice =
| 'none'
| 'auto'
| {
type: 'function';
function: {
name: string;
};
};
```
The `response_format` parameter ensures you receive a structured response from the LLM. The parameter is only supported by OpenAI models, Nitro models, and some others - check the providers on the model page on openrouter.ai/models to see if it's supported, and set `require_parameters` to true in your Provider Preferences. See [Provider Routing](/docs/features/provider-routing)
### Headers
OpenRouter allows you to specify some optional headers to identify your app and make it discoverable to users on our site.
* `HTTP-Referer`: Identifies your app on openrouter.ai
* `X-Title`: Sets/modifies your app's title
```typescript title="TypeScript"
fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: 'Bearer ',
'HTTP-Referer': '', // Optional. Site URL for rankings on openrouter.ai.
'X-Title': '', // Optional. Site title for rankings on openrouter.ai.
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: 'openai/gpt-4o',
messages: [
{
role: 'user',
content: 'What is the meaning of life?',
},
],
}),
});
```
If the `model` parameter is omitted, the user or payer's default is used.
Otherwise, remember to select a value for `model` from the [supported
models](/models) or [API](/api/v1/models), and include the organization
prefix. OpenRouter will select the least expensive and best GPUs available to
serve the request, and fall back to other providers or GPUs if it receives a
5xx response code or if you are rate-limited.
[Server-Sent Events
(SSE)](https://developer.mozilla.org/en-US/docs/Web/API/Server-sent_events/Using_server-sent_events#event_stream_format)
are supported as well, to enable streaming *for all models*. Simply send
`stream: true` in your request body. The SSE stream will occasionally contain
a "comment" payload, which you should ignore (noted below).
If the chosen model doesn't support a request parameter (such as `logit_bias`
in non-OpenAI models, or `top_k` for OpenAI), then the parameter is ignored.
The rest are forwarded to the underlying model API.
### Assistant Prefill
OpenRouter supports asking models to complete a partial response. This can be useful for guiding models to respond in a certain way.
To use this features, simply include a message with `role: "assistant"` at the end of your `messages` array.
```typescript title="TypeScript"
fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: 'Bearer ',
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: 'openai/gpt-4o',
messages: [
{ role: 'user', content: 'What is the meaning of life?' },
{ role: 'assistant', content: "I'm not sure, but my best guess is" },
],
}),
});
```
### Images & Multimodal
Multimodal requests are only available via the `/api/v1/chat/completions` API with a multi-part `messages` parameter. The `image_url` can either be a URL or a data-base64 encoded image.
```typescript
"messages": [
{
"role": "user",
"content": [
{
"type": "text",
"text": "What's in this image?"
},
{
"type": "image_url",
"image_url": {
"url": "https://upload.wikimedia.org/wikipedia/commons/thumb/d/dd/Gfp-wisconsin-madison-the-nature-boardwalk.jpg/2560px-Gfp-wisconsin-madison-the-nature-boardwalk.jpg"
}
}
]
}
]
```
Sample LLM response:
```json
{
"choices": [
{
"role": "assistant",
"content": "This image depicts a scenic natural landscape featuring a long wooden boardwalk that stretches out through an expansive field of green grass. The boardwalk provides a clear path and invites exploration through the lush environment. The scene is surrounded by a variety of shrubbery and trees in the background, indicating a diverse plant life in the area."
}
]
}
```
### Image Generation
Some models support native image generation capabilities. To generate images, you can include `modalities: ["image", "text"]` in your request. The model will respond with an image in the OpenAI ContentPartImage format, where the `image_url` contains a base64 data URL.
```typescript
{
"model": "openai/dall-e-3",
"messages": [
{
"role": "user",
"content": "Create a beautiful sunset over mountains"
}
],
"modalities": ["image", "text"]
}
```
Sample response with generated image:
```json
{
"choices": [
{
"message": {
"role": "assistant",
"content": [
{
"type": "text",
"text": "Here's your requested sunset over mountains."
},
{
"type": "image_url",
"image_url": {
"url": "data:image/png;base64,..."
}
}
]
}
}
]
}
```
#### Uploading base64 encoded images
For locally stored images, you can send them to the model using base64 encoding. Here's an example:
```typescript TypeScript
import { readFile } from "fs/promises";
const getFlowerImage = async (): Promise => {
const imagePath = new URL("flower.jpg", import.meta.url);
const imageBuffer = await readFile(imagePath);
const base64Image = imageBuffer.toString("base64");
return `data:image/jpeg;base64,${base64Image}`;
};
...
"messages": [
{
role: "user",
content: [
{
type: "text",
text: "What's in this image?",
},
{
type: "image_url",
image_url: {
url: `${await getFlowerImage()}`,
},
},
],
},
];
```
When sending data-base64 string, ensure it contains the content-type of the image. Example:
```txt
data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAgAAAAIAQMAAAD+wSzIAAAABlBMVEX///+/v7+jQ3Y5AAAADklEQVQI12P4AIX8EAgALgAD/aNpbtEAAAAASUVORK5CYII
```
Supported content types are:
* `image/png`
* `image/jpeg`
* `image/webp`
## Responses
### CompletionsResponse Format
OpenRouter normalizes the schema across models and providers to comply with the [OpenAI Chat API](https://platform.openai.com/docs/api-reference/chat).
This means that `choices` is always an array, even if the model only returns one completion. Each choice will contain a `delta` property if a stream was requested and a `message` property otherwise. This makes it easier to use the same code for all models.
Here's the response schema as a TypeScript type:
```typescript TypeScript
// Definitions of subtypes are below
type Response = {
id: string;
// Depending on whether you set "stream" to "true" and
// whether you passed in "messages" or a "prompt", you
// will get a different output shape
choices: (NonStreamingChoice | StreamingChoice | NonChatChoice)[];
created: number; // Unix timestamp
model: string;
object: 'chat.completion' | 'chat.completion.chunk';
system_fingerprint?: string; // Only present if the provider supports it
// Usage data is always returned for non-streaming.
// When streaming, you will get one usage object at
// the end accompanied by an empty choices array.
usage?: ResponseUsage;
};
```
```typescript
// If the provider returns usage, we pass it down
// as-is. Otherwise, we count using the GPT-4 tokenizer.
type ResponseUsage = {
/** Including images and tools if any */
prompt_tokens: number;
/** The tokens generated */
completion_tokens: number;
/** Sum of the above two fields */
total_tokens: number;
};
```
```typescript
// Subtypes:
type NonChatChoice = {
finish_reason: string | null;
text: string;
error?: ErrorResponse;
};
type NonStreamingChoice = {
finish_reason: string | null;
native_finish_reason: string | null;
message: {
content: string | null;
role: string;
tool_calls?: ToolCall[];
};
error?: ErrorResponse;
};
type StreamingChoice = {
finish_reason: string | null;
native_finish_reason: string | null;
delta: {
content: string | null;
role?: string;
tool_calls?: ToolCall[];
};
error?: ErrorResponse;
};
type ErrorResponse = {
code: number; // See "Error Handling" section
message: string;
metadata?: Record; // Contains additional error information such as provider details, the raw error message, etc.
};
type ToolCall = {
id: string;
type: 'function';
function: FunctionCall;
};
```
Here's an example:
```json
{
"id": "gen-xxxxxxxxxxxxxx",
"choices": [
{
"finish_reason": "stop", // Normalized finish_reason
"native_finish_reason": "stop", // The raw finish_reason from the provider
"message": {
// will be "delta" if streaming
"role": "assistant",
"content": "Hello there!"
}
}
],
"usage": {
"prompt_tokens": 0,
"completion_tokens": 4,
"total_tokens": 4
},
"model": "openai/gpt-3.5-turbo" // Could also be "anthropic/claude-2.1", etc, depending on the "model" that ends up being used
}
```
### Finish Reason
OpenRouter normalizes each model's `finish_reason` to one of the following values: `tool_calls`, `stop`, `length`, `content_filter`, `error`.
Some models and providers may have additional finish reasons. The raw finish\_reason string returned by the model is available via the `native_finish_reason` property.
### Querying Cost and Stats
The token counts that are returned in the completions API response are **not** counted via the model's native tokenizer. Instead it uses a normalized, model-agnostic count (accomplished via the GPT4o tokenizer). This is because some providers do not reliably return native token counts. This behavior is becoming more rare, however, and we may add native token counts to the response object in the future.
Credit usage and model pricing are based on the **native** token counts (not the 'normalized' token counts returned in the API response).
For precise token accounting using the model's native tokenizer, you can retrieve the full generation information via the `/api/v1/generation` endpoint.
You can use the returned `id` to query for the generation stats (including token counts and cost) after the request is complete. This is how you can get the cost and tokens for *all models and requests*, streaming and non-streaming.
```typescript title="Query Generation Stats"
const generation = await fetch(
'https://openrouter.ai/api/v1/generation?id=$GENERATION_ID',
{ headers },
);
const stats = await generation.json();
```
Please see the [Generation](/docs/api-reference/get-a-generation) API reference for the full response shape.
Note that token counts are also available in the `usage` field of the response body for non-streaming completions.
# Streaming
> Learn how to implement streaming responses with OpenRouter's API. Complete guide to Server-Sent Events (SSE) and real-time model outputs.
The OpenRouter API allows streaming responses from *any model*. This is useful for building chat interfaces or other applications where the UI should update as the model generates the response.
To enable streaming, you can set the `stream` parameter to `true` in your request. The model will then stream the response to the client in chunks, rather than returning the entire response at once.
Here is an example of how to stream a response, and process it:
```python Python
import requests
import json
question = "How would you build the tallest building ever?"
url = "https://openrouter.ai/api/v1/chat/completions"
headers = {
"Authorization": f"Bearer {{API_KEY_REF}}",
"Content-Type": "application/json"
}
payload = {
"model": "{{MODEL}}",
"messages": [{"role": "user", "content": question}],
"stream": True
}
buffer = ""
with requests.post(url, headers=headers, json=payload, stream=True) as r:
for chunk in r.iter_content(chunk_size=1024, decode_unicode=True):
buffer += chunk
while True:
try:
# Find the next complete SSE line
line_end = buffer.find('\n')
if line_end == -1:
break
line = buffer[:line_end].strip()
buffer = buffer[line_end + 1:]
if line.startswith('data: '):
data = line[6:]
if data == '[DONE]':
break
try:
data_obj = json.loads(data)
content = data_obj["choices"][0]["delta"].get("content")
if content:
print(content, end="", flush=True)
except json.JSONDecodeError:
pass
except Exception:
break
```
```typescript TypeScript
const question = 'How would you build the tallest building ever?';
const response = await fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: `Bearer ${API_KEY_REF}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: '{{MODEL}}',
messages: [{ role: 'user', content: question }],
stream: true,
}),
});
const reader = response.body?.getReader();
if (!reader) {
throw new Error('Response body is not readable');
}
const decoder = new TextDecoder();
let buffer = '';
try {
while (true) {
const { done, value } = await reader.read();
if (done) break;
// Append new chunk to buffer
buffer += decoder.decode(value, { stream: true });
// Process complete lines from buffer
while (true) {
const lineEnd = buffer.indexOf('\n');
if (lineEnd === -1) break;
const line = buffer.slice(0, lineEnd).trim();
buffer = buffer.slice(lineEnd + 1);
if (line.startsWith('data: ')) {
const data = line.slice(6);
if (data === '[DONE]') break;
try {
const parsed = JSON.parse(data);
const content = parsed.choices[0].delta.content;
if (content) {
console.log(content);
}
} catch (e) {
// Ignore invalid JSON
}
}
}
}
} finally {
reader.cancel();
}
```
### Additional Information
For SSE (Server-Sent Events) streams, OpenRouter occasionally sends comments to prevent connection timeouts. These comments look like:
```text
: OPENROUTER PROCESSING
```
Comment payload can be safely ignored per the [SSE specs](https://html.spec.whatwg.org/multipage/server-sent-events.html#event-stream-interpretation). However, you can leverage it to improve UX as needed, e.g. by showing a dynamic loading indicator.
Some SSE client implementations might not parse the payload according to spec, which leads to an uncaught error when you `JSON.stringify` the non-JSON payloads. We recommend the following clients:
* [eventsource-parser](https://github.com/rexxars/eventsource-parser)
* [OpenAI SDK](https://www.npmjs.com/package/openai)
* [Vercel AI SDK](https://www.npmjs.com/package/ai)
### Stream Cancellation
Streaming requests can be cancelled by aborting the connection. For supported providers, this immediately stops model processing and billing.
**Supported**
* OpenAI, Azure, Anthropic
* Fireworks, Mancer, Recursal
* AnyScale, Lepton, OctoAI
* Novita, DeepInfra, Together
* Cohere, Hyperbolic, Infermatic
* Avian, XAI, Cloudflare
* SFCompute, Nineteen, Liquid
* Friendli, Chutes, DeepSeek
**Not Currently Supported**
* AWS Bedrock, Groq, Modal
* Google, Google AI Studio, Minimax
* HuggingFace, Replicate, Perplexity
* Mistral, AI21, Featherless
* Lynn, Lambda, Reflection
* SambaNova, Inflection, ZeroOneAI
* AionLabs, Alibaba, Nebius
* Kluster, Targon, InferenceNet
To implement stream cancellation:
```python Python
import requests
from threading import Event, Thread
def stream_with_cancellation(prompt: str, cancel_event: Event):
with requests.Session() as session:
response = session.post(
"https://openrouter.ai/api/v1/chat/completions",
headers={"Authorization": f"Bearer {{API_KEY_REF}}"},
json={"model": "{{MODEL}}", "messages": [{"role": "user", "content": prompt}], "stream": True},
stream=True
)
try:
for line in response.iter_lines():
if cancel_event.is_set():
response.close()
return
if line:
print(line.decode(), end="", flush=True)
finally:
response.close()
# Example usage:
cancel_event = Event()
stream_thread = Thread(target=lambda: stream_with_cancellation("Write a story", cancel_event))
stream_thread.start()
# To cancel the stream:
cancel_event.set()
```
```typescript TypeScript
const controller = new AbortController();
try {
const response = await fetch(
'https://openrouter.ai/api/v1/chat/completions',
{
method: 'POST',
headers: {
Authorization: `Bearer ${{{API_KEY_REF}}}`,
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: '{{MODEL}}',
messages: [{ role: 'user', content: 'Write a story' }],
stream: true,
}),
signal: controller.signal,
},
);
// Process the stream...
} catch (error) {
if (error.name === 'AbortError') {
console.log('Stream cancelled');
} else {
throw error;
}
}
// To cancel the stream:
controller.abort();
```
Cancellation only works for streaming requests with supported providers. For
non-streaming requests or unsupported providers, the model will continue
processing and you will be billed for the complete response.
# Authentication
> Learn how to authenticate with OpenRouter using API keys and Bearer tokens. Complete guide to secure authentication methods and best practices.
You can cover model costs with OpenRouter API keys.
Our API authenticates requests using Bearer tokens. This allows you to use `curl` or the [OpenAI SDK](https://platform.openai.com/docs/frameworks) directly with OpenRouter.
API keys on OpenRouter are more powerful than keys used directly for model APIs.
They allow users to set credit limits for apps, and they can be used in [OAuth](/docs/use-cases/oauth-pkce) flows.
## Using an API key
To use an API key, [first create your key](https://openrouter.ai/keys). Give it a name and you can optionally set a credit limit.
If you're calling the OpenRouter API directly, set the `Authorization` header to a Bearer token with your API key.
If you're using the OpenAI Typescript SDK, set the `api_base` to `https://openrouter.ai/api/v1` and the `apiKey` to your API key.
```typescript title="TypeScript (Bearer Token)"
fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: 'Bearer ',
'HTTP-Referer': '', // Optional. Site URL for rankings on openrouter.ai.
'X-Title': '', // Optional. Site title for rankings on openrouter.ai.
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: 'openai/gpt-4o',
messages: [
{
role: 'user',
content: 'What is the meaning of life?',
},
],
}),
});
```
```typescript title="TypeScript (OpenAI SDK)"
import OpenAI from 'openai';
const openai = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
apiKey: '',
defaultHeaders: {
'HTTP-Referer': '', // Optional. Site URL for rankings on openrouter.ai.
'X-Title': '', // Optional. Site title for rankings on openrouter.ai.
},
});
async function main() {
const completion = await openai.chat.completions.create({
model: 'openai/gpt-4o',
messages: [{ role: 'user', content: 'Say this is a test' }],
});
console.log(completion.choices[0].message);
}
main();
```
```python title="Python"
import openai
openai.api_base = "https://openrouter.ai/api/v1"
openai.api_key = ""
response = openai.ChatCompletion.create(
model="openai/gpt-4o",
messages=[...],
headers={
"HTTP-Referer": "", # Optional. Site URL for rankings on openrouter.ai.
"X-Title": "", # Optional. Site title for rankings on openrouter.ai.
},
)
reply = response.choices[0].message
```
```shell title="Shell"
curl https://openrouter.ai/api/v1/chat/completions \
-H "Content-Type: application/json" \
-H "Authorization: Bearer $OPENROUTER_API_KEY" \
-d '{
"model": "openai/gpt-4o",
"messages": [
{"role": "system", "content": "You are a helpful assistant."},
{"role": "user", "content": "Hello!"}
]
}'
```
To stream with Python, [see this example from OpenAI](https://github.com/openai/openai-cookbook/blob/main/examples/How_to_stream_completions.ipynb).
## If your key has been exposed
You must protect your API keys and never commit them to public repositories.
OpenRouter is a GitHub secret scanning partner, and has other methods to detect exposed keys. If we determine that your key has been compromised, you will receive an email notification.
If you receive such a notification or suspect your key has been exposed, immediately visit [your key settings page](https://openrouter.ai/settings/keys) to delete the compromised key and create a new one.
Using environment variables and keeping keys out of your codebase is strongly recommended.
# Parameters
> Learn about all available parameters for OpenRouter API requests. Configure temperature, max tokens, top_p, and other model-specific settings.
Sampling parameters shape the token generation process of the model. You may send any parameters from the following list, as well as others, to OpenRouter.
OpenRouter will default to the values listed below if certain parameters are absent from your request (for example, `temperature` to 1.0). We will also transmit some provider-specific parameters, such as `safe_prompt` for Mistral or `raw_mode` for Hyperbolic directly to the respective providers if specified.
Please refer to the model’s provider section to confirm which parameters are supported. For detailed guidance on managing provider-specific parameters, [click here](/docs/features/provider-routing#requiring-providers-to-support-all-parameters-beta).
## Temperature
* Key: `temperature`
* Optional, **float**, 0.0 to 2.0
* Default: 1.0
* Explainer Video: [Watch](https://youtu.be/ezgqHnWvua8)
This setting influences the variety in the model's responses. Lower values lead to more predictable and typical responses, while higher values encourage more diverse and less common responses. At 0, the model always gives the same response for a given input.
## Top P
* Key: `top_p`
* Optional, **float**, 0.0 to 1.0
* Default: 1.0
* Explainer Video: [Watch](https://youtu.be/wQP-im_HInk)
This setting limits the model's choices to a percentage of likely tokens: only the top tokens whose probabilities add up to P. A lower value makes the model's responses more predictable, while the default setting allows for a full range of token choices. Think of it like a dynamic Top-K.
## Top K
* Key: `top_k`
* Optional, **integer**, 0 or above
* Default: 0
* Explainer Video: [Watch](https://youtu.be/EbZv6-N8Xlk)
This limits the model's choice of tokens at each step, making it choose from a smaller set. A value of 1 means the model will always pick the most likely next token, leading to predictable results. By default this setting is disabled, making the model to consider all choices.
## Frequency Penalty
* Key: `frequency_penalty`
* Optional, **float**, -2.0 to 2.0
* Default: 0.0
* Explainer Video: [Watch](https://youtu.be/p4gl6fqI0_w)
This setting aims to control the repetition of tokens based on how often they appear in the input. It tries to use less frequently those tokens that appear more in the input, proportional to how frequently they occur. Token penalty scales with the number of occurrences. Negative values will encourage token reuse.
## Presence Penalty
* Key: `presence_penalty`
* Optional, **float**, -2.0 to 2.0
* Default: 0.0
* Explainer Video: [Watch](https://youtu.be/MwHG5HL-P74)
Adjusts how often the model repeats specific tokens already used in the input. Higher values make such repetition less likely, while negative values do the opposite. Token penalty does not scale with the number of occurrences. Negative values will encourage token reuse.
## Repetition Penalty
* Key: `repetition_penalty`
* Optional, **float**, 0.0 to 2.0
* Default: 1.0
* Explainer Video: [Watch](https://youtu.be/LHjGAnLm3DM)
Helps to reduce the repetition of tokens from the input. A higher value makes the model less likely to repeat tokens, but too high a value can make the output less coherent (often with run-on sentences that lack small words). Token penalty scales based on original token's probability.
## Min P
* Key: `min_p`
* Optional, **float**, 0.0 to 1.0
* Default: 0.0
Represents the minimum probability for a token to be
considered, relative to the probability of the most likely token. (The value changes depending on the confidence level of the most probable token.) If your Min-P is set to 0.1, that means it will only allow for tokens that are at least 1/10th as probable as the best possible option.
## Top A
* Key: `top_a`
* Optional, **float**, 0.0 to 1.0
* Default: 0.0
Consider only the top tokens with "sufficiently high" probabilities based on the probability of the most likely token. Think of it like a dynamic Top-P. A lower Top-A value focuses the choices based on the highest probability token but with a narrower scope. A higher Top-A value does not necessarily affect the creativity of the output, but rather refines the filtering process based on the maximum probability.
## Seed
* Key: `seed`
* Optional, **integer**
If specified, the inferencing will sample deterministically, such that repeated requests with the same seed and parameters should return the same result. Determinism is not guaranteed for some models.
## Max Tokens
* Key: `max_tokens`
* Optional, **integer**, 1 or above
This sets the upper limit for the number of tokens the model can generate in response. It won't produce more than this limit. The maximum value is the context length minus the prompt length.
## Logit Bias
* Key: `logit_bias`
* Optional, **map**
Accepts a JSON object that maps tokens (specified by their token ID in the tokenizer) to an associated bias value from -100 to 100. Mathematically, the bias is added to the logits generated by the model prior to sampling. The exact effect will vary per model, but values between -1 and 1 should decrease or increase likelihood of selection; values like -100 or 100 should result in a ban or exclusive selection of the relevant token.
## Logprobs
* Key: `logprobs`
* Optional, **boolean**
Whether to return log probabilities of the output tokens or not. If true, returns the log probabilities of each output token returned.
## Top Logprobs
* Key: `top_logprobs`
* Optional, **integer**
An integer between 0 and 20 specifying the number of most likely tokens to return at each token position, each with an associated log probability. logprobs must be set to true if this parameter is used.
## Response Format
* Key: `response_format`
* Optional, **map**
Forces the model to produce specific output format. Setting to `{ "type": "json_object" }` enables JSON mode, which guarantees the message the model generates is valid JSON.
**Note**: when using JSON mode, you should also instruct the model to produce JSON yourself via a system or user message.
## Structured Outputs
* Key: `structured_outputs`
* Optional, **boolean**
If the model can return structured outputs using response\_format json\_schema.
## Stop
* Key: `stop`
* Optional, **array**
Stop generation immediately if the model encounter any token specified in the stop array.
## Tools
* Key: `tools`
* Optional, **array**
Tool calling parameter, following OpenAI's tool calling request shape. For non-OpenAI providers, it will be transformed accordingly. [Click here to learn more about tool calling](/docs/requests#tool-calls)
## Tool Choice
* Key: `tool_choice`
* Optional, **array**
Controls which (if any) tool is called by the model. 'none' means the model will not call any tool and instead generates a message. 'auto' means the model can pick between generating a message or calling one or more tools. 'required' means the model must call one or more tools. Specifying a particular tool via `{"type": "function", "function": {"name": "my_function"}}` forces the model to call that tool.
## Max Price
* Key: `max_price`
* Optional, **map**
A JSON object specifying the highest provider pricing you will accept. For example, the value `{"prompt": 1, "completion": 2}` will route to any provider with a price of `<= $1/m` prompt tokens, and `<= $2/m` completion tokens or less. Some providers support per request pricing, in which case you can use the "request" attribute of max\_price. Lastly, "image" is also available, which specifies the max price per image you will accept. Practically, this field is often combined with a provider "sort" to e.g. state "Use the provider with the highest throughput, as long as it doesn't cost more than `$x/m` tokens."
# Limits
> Learn about OpenRouter's API rate limits, credit-based quotas, and DDoS protection. Configure and monitor your model usage limits effectively.
If you need a lot of inference, making additional accounts or API keys *makes
no difference*. We manage the rate limit globally. We do however have
different rate limits for different models, so you can share the load that way
if you do run into issues. If you start getting rate limited -- [tell
us](https://discord.gg/fVyRaUDgxW)! We are here to help. If you are able,
don't specify providers; that will let us load balance it better.
## Rate Limits and Credits Remaining
To check the rate limit or credits left on an API key, make a GET request to `https://openrouter.ai/api/v1/auth/key`.
```typescript title="TypeScript"
const response = await fetch('https://openrouter.ai/api/v1/auth/key', {
method: 'GET',
headers: {
Authorization: 'Bearer {{API_KEY_REF}}',
},
});
```
```python title="Python"
import requests
import json
response = requests.get(
url="https://openrouter.ai/api/v1/auth/key",
headers={
"Authorization": f"Bearer {{API_KEY_REF}}"
}
)
print(json.dumps(response.json(), indent=2))
```
If you submit a valid API key, you should get a response of the form:
```typescript title="TypeScript"
type Key = {
data: {
label: string;
usage: number; // Number of credits used
limit: number | null; // Credit limit for the key, or null if unlimited
is_free_tier: boolean; // Whether the user has paid for credits before
rate_limit: {
requests: number; // Number of requests allowed...
interval: string; // in this interval, e.g. "10s"
};
};
};
```
There are a few rate limits that apply to certain types of requests, regardless of account status:
1. **Free limit**: If you are using a free model variant (with an ID ending in {sep}{Variant.Free}), then you will be limited to {freeModelRateLimitRPM} requests per minute and {freeModelRateLimitRPD} requests per day.
2. **DDoS protection**: Cloudflare's DDoS protection will block requests that dramatically exceed reasonable usage.
For all other requests, rate limits are a function of the number of credits remaining on the key or account. Partial credits round up in your favor. For the credits available on your API key, you can make **1 request per credit per second** up to the surge limit (typically 500 requests per second, but you can go higher).
For example:
* 0.5 credits → 1 req/s (minimum)
* 5 credits → 5 req/s
* 10 credits → 10 req/s
* 500 credits → 500 req/s
* 1000 credits → Contact us if you see ratelimiting from OpenRouter
If your account has a negative credit balance, you may see {HTTPStatus.S402_Payment_Required} errors, including for free models. Adding credits to put your balance above zero allows you to use those models again.
# Errors
> Learn how to handle errors in OpenRouter API interactions. Comprehensive guide to error codes, messages, and best practices for error handling.
For errors, OpenRouter returns a JSON response with the following shape:
```typescript
type ErrorResponse = {
error: {
code: number;
message: string;
metadata?: Record;
};
};
```
The HTTP Response will have the same status code as `error.code`, forming a request error if:
* Your original request is invalid
* Your API key/account is out of credits
Otherwise, the returned HTTP response status will be {HTTPStatus.S200_OK} and any error occurred while the LLM is producing the output will be emitted in the response body or as an SSE data event.
Example code for printing errors in JavaScript:
```typescript
const request = await fetch('https://openrouter.ai/...');
console.log(request.status); // Will be an error code unless the model started processing your request
const response = await request.json();
console.error(response.error?.status); // Will be an error code
console.error(response.error?.message);
```
## Error Codes
* **{HTTPStatus.S400_Bad_Request}**: Bad Request (invalid or missing params, CORS)
* **{HTTPStatus.S401_Unauthorized}**: Invalid credentials (OAuth session expired, disabled/invalid API key)
* **{HTTPStatus.S402_Payment_Required}**: Your account or API key has insufficient credits. Add more credits and retry the request.
* **{HTTPStatus.S403_Forbidden}**: Your chosen model requires moderation and your input was flagged
* **{HTTPStatus.S408_Request_Timeout}**: Your request timed out
* **{HTTPStatus.S429_Too_Many_Requests}**: You are being rate limited
* **{HTTPStatus.S502_Bad_Gateway}**: Your chosen model is down or we received an invalid response from it
* **{HTTPStatus.S503_Service_Unavailable}**: There is no available model provider that meets your routing requirements
## Moderation Errors
If your input was flagged, the `error.metadata` will contain information about the issue. The shape of the metadata is as follows:
```typescript
type ModerationErrorMetadata = {
reasons: string[]; // Why your input was flagged
flagged_input: string; // The text segment that was flagged, limited to 100 characters. If the flagged input is longer than 100 characters, it will be truncated in the middle and replaced with ...
provider_name: string; // The name of the provider that requested moderation
model_slug: string;
};
```
## Provider Errors
If the model provider encounters an error, the `error.metadata` will contain information about the issue. The shape of the metadata is as follows:
```typescript
type ProviderErrorMetadata = {
provider_name: string; // The name of the provider that encountered the error
raw: unknown; // The raw error from the provider
};
```
## When No Content is Generated
Occasionally, the model may not generate any content. This typically occurs when:
* The model is warming up from a cold start
* The system is scaling up to handle more requests
Warm-up times usually range from a few seconds to a few minutes, depending on the model and provider.
If you encounter persistent no-content issues, consider implementing a simple retry mechanism or trying again with a different provider or model that has more recent activity.
Additionally, be aware that in some cases, you may still be charged for the prompt processing cost by the upstream provider, even if no content is generated.
# Completion
```http
POST https://openrouter.ai/api/v1/completions
Content-Type: application/json
```
Send a completion request to a selected model (text-only format)
## Response Body
- 200: Successful completion
## Examples
```shell
curl -X POST https://openrouter.ai/api/v1/completions \
-H "Authorization: Bearer " \
-H "Content-Type: application/json" \
-d '{
"model": "model",
"prompt": "prompt"
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/completions"
payload = {
"model": "model",
"prompt": "prompt"
}
headers = {
"Authorization": "Bearer ",
"Content-Type": "application/json"
}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/completions';
const options = {
method: 'POST',
headers: {Authorization: 'Bearer ', 'Content-Type': 'application/json'},
body: '{"model":"model","prompt":"prompt"}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/completions"
payload := strings.NewReader("{\n \"model\": \"model\",\n \"prompt\": \"prompt\"\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Authorization", "Bearer ")
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/completions")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Authorization"] = 'Bearer '
request["Content-Type"] = 'application/json'
request.body = "{\n \"model\": \"model\",\n \"prompt\": \"prompt\"\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/completions")
.header("Authorization", "Bearer ")
.header("Content-Type", "application/json")
.body("{\n \"model\": \"model\",\n \"prompt\": \"prompt\"\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/completions', [
'body' => '{
"model": "model",
"prompt": "prompt"
}',
'headers' => [
'Authorization' => 'Bearer ',
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/completions");
var request = new RestRequest(Method.POST);
request.AddHeader("Authorization", "Bearer ");
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"model\": \"model\",\n \"prompt\": \"prompt\"\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = [
"Authorization": "Bearer ",
"Content-Type": "application/json"
]
let parameters = [
"model": "model",
"prompt": "prompt"
] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/completions")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Chat completion
```http
POST https://openrouter.ai/api/v1/chat/completions
Content-Type: application/json
```
Send a chat completion request to a selected model. The request must contain a "messages" array. All advanced options from the base request are also supported.
## Response Body
- 200: Successful completion
## Examples
```shell
curl -X POST https://openrouter.ai/api/v1/chat/completions \
-H "Authorization: Bearer " \
-H "Content-Type: application/json" \
-d '{
"model": "openai/gpt-3.5-turbo",
"messages": [
{
"role": "user",
"content": "What is the meaning of life?"
}
]
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/chat/completions"
payload = {
"model": "openai/gpt-3.5-turbo",
"messages": [
{
"role": "user",
"content": "What is the meaning of life?"
}
]
}
headers = {
"Authorization": "Bearer ",
"Content-Type": "application/json"
}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/chat/completions';
const options = {
method: 'POST',
headers: {Authorization: 'Bearer ', 'Content-Type': 'application/json'},
body: '{"model":"openai/gpt-3.5-turbo","messages":[{"role":"user","content":"What is the meaning of life?"}]}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/chat/completions"
payload := strings.NewReader("{\n \"model\": \"openai/gpt-3.5-turbo\",\n \"messages\": [\n {\n \"role\": \"user\",\n \"content\": \"What is the meaning of life?\"\n }\n ]\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Authorization", "Bearer ")
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/chat/completions")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Authorization"] = 'Bearer '
request["Content-Type"] = 'application/json'
request.body = "{\n \"model\": \"openai/gpt-3.5-turbo\",\n \"messages\": [\n {\n \"role\": \"user\",\n \"content\": \"What is the meaning of life?\"\n }\n ]\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/chat/completions")
.header("Authorization", "Bearer ")
.header("Content-Type", "application/json")
.body("{\n \"model\": \"openai/gpt-3.5-turbo\",\n \"messages\": [\n {\n \"role\": \"user\",\n \"content\": \"What is the meaning of life?\"\n }\n ]\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/chat/completions', [
'body' => '{
"model": "openai/gpt-3.5-turbo",
"messages": [
{
"role": "user",
"content": "What is the meaning of life?"
}
]
}',
'headers' => [
'Authorization' => 'Bearer ',
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/chat/completions");
var request = new RestRequest(Method.POST);
request.AddHeader("Authorization", "Bearer ");
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"model\": \"openai/gpt-3.5-turbo\",\n \"messages\": [\n {\n \"role\": \"user\",\n \"content\": \"What is the meaning of life?\"\n }\n ]\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = [
"Authorization": "Bearer ",
"Content-Type": "application/json"
]
let parameters = [
"model": "openai/gpt-3.5-turbo",
"messages": [
[
"role": "user",
"content": "What is the meaning of life?"
]
]
] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/chat/completions")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Get a generation
```http
GET https://openrouter.ai/api/v1/generation
```
Returns metadata about a specific generation request
## Query Parameters
- Id (required)
## Response Body
- 200: Returns the request metadata for this generation
## Examples
```shell
curl -G https://openrouter.ai/api/v1/generation \
-H "Authorization: Bearer " \
-d id=id
```
```python
import requests
url = "https://openrouter.ai/api/v1/generation"
querystring = {"id":"id"}
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers, params=querystring)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/generation?id=id';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/generation?id=id"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/generation?id=id")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/generation?id=id")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/generation?id=id', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/generation?id=id");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/generation?id=id")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# List available models
```http
GET https://openrouter.ai/api/v1/models
```
Returns a list of models available through the API
## Response Body
- 200: List of available models
## Examples
```shell
curl https://openrouter.ai/api/v1/models
```
```python
import requests
url = "https://openrouter.ai/api/v1/models"
response = requests.get(url)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/models';
const options = {method: 'GET'};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/models"
req, _ := http.NewRequest("GET", url, nil)
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/models")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/models")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/models');
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/models");
var request = new RestRequest(Method.GET);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/models")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# List endpoints for a model
```http
GET https://openrouter.ai/api/v1/models/{author}/{slug}/endpoints
```
## Path Parameters
- Author (required)
- Slug (required)
## Response Body
- 200: List of endpoints for the model
## Examples
```shell
curl https://openrouter.ai/api/v1/models/author/slug/endpoints
```
```python
import requests
url = "https://openrouter.ai/api/v1/models/author/slug/endpoints"
response = requests.get(url)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/models/author/slug/endpoints';
const options = {method: 'GET'};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/models/author/slug/endpoints"
req, _ := http.NewRequest("GET", url, nil)
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/models/author/slug/endpoints")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/models/author/slug/endpoints")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/models/author/slug/endpoints');
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/models/author/slug/endpoints");
var request = new RestRequest(Method.GET);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/models/author/slug/endpoints")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Get credits
```http
GET https://openrouter.ai/api/v1/credits
```
Returns the total credits purchased and used for the authenticated user
## Response Body
- 200: Returns the total credits purchased and used
## Examples
```shell
curl https://openrouter.ai/api/v1/credits \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/credits"
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/credits';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/credits"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/credits")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/credits")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/credits', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/credits");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/credits")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Create a Coinbase charge
```http
POST https://openrouter.ai/api/v1/credits/coinbase
Content-Type: application/json
```
Creates and hydrates a Coinbase Commerce charge for cryptocurrency payments
## Response Body
- 200: Returns the calldata to fulfill the transaction
## Examples
```shell
curl -X POST https://openrouter.ai/api/v1/credits/coinbase \
-H "Authorization: Bearer " \
-H "Content-Type: application/json" \
-d '{
"amount": 1.1,
"sender": "sender",
"chain_id": 1
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/credits/coinbase"
payload = {
"amount": 1.1,
"sender": "sender",
"chain_id": 1
}
headers = {
"Authorization": "Bearer ",
"Content-Type": "application/json"
}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/credits/coinbase';
const options = {
method: 'POST',
headers: {Authorization: 'Bearer ', 'Content-Type': 'application/json'},
body: '{"amount":1.1,"sender":"sender","chain_id":1}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/credits/coinbase"
payload := strings.NewReader("{\n \"amount\": 1.1,\n \"sender\": \"sender\",\n \"chain_id\": 1\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Authorization", "Bearer ")
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/credits/coinbase")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Authorization"] = 'Bearer '
request["Content-Type"] = 'application/json'
request.body = "{\n \"amount\": 1.1,\n \"sender\": \"sender\",\n \"chain_id\": 1\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/credits/coinbase")
.header("Authorization", "Bearer ")
.header("Content-Type", "application/json")
.body("{\n \"amount\": 1.1,\n \"sender\": \"sender\",\n \"chain_id\": 1\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/credits/coinbase', [
'body' => '{
"amount": 1.1,
"sender": "sender",
"chain_id": 1
}',
'headers' => [
'Authorization' => 'Bearer ',
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/credits/coinbase");
var request = new RestRequest(Method.POST);
request.AddHeader("Authorization", "Bearer ");
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"amount\": 1.1,\n \"sender\": \"sender\",\n \"chain_id\": 1\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = [
"Authorization": "Bearer ",
"Content-Type": "application/json"
]
let parameters = [
"amount": 1.1,
"sender": "sender",
"chain_id": 1
] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/credits/coinbase")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Exchange authorization code for API key
```http
POST https://openrouter.ai/api/v1/auth/keys
Content-Type: application/json
```
Exchange an authorization code from the PKCE flow for a user-controlled API key
## Response Body
- 200: Successfully exchanged code for an API key
- 400: Invalid code parameter or invalid code_challenge_method
- 403: Invalid code or code_verifier or already used code
- 405: Method Not Allowed - Make sure you're using POST and HTTPS
## Examples
```shell
curl -X POST https://openrouter.ai/api/v1/auth/keys \
-H "Content-Type: application/json" \
-d '{
"code": "code"
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/auth/keys"
payload = { "code": "code" }
headers = {"Content-Type": "application/json"}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/auth/keys';
const options = {
method: 'POST',
headers: {'Content-Type': 'application/json'},
body: '{"code":"code"}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/auth/keys"
payload := strings.NewReader("{\n \"code\": \"code\"\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/auth/keys")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Content-Type"] = 'application/json'
request.body = "{\n \"code\": \"code\"\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/auth/keys")
.header("Content-Type", "application/json")
.body("{\n \"code\": \"code\"\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/auth/keys', [
'body' => '{
"code": "code"
}',
'headers' => [
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/auth/keys");
var request = new RestRequest(Method.POST);
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"code\": \"code\"\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Content-Type": "application/json"]
let parameters = ["code": "code"] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/auth/keys")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
```shell
curl -X POST https://openrouter.ai/api/v1/auth/keys \
-H "Content-Type: application/json" \
-d '{
"code": "string"
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/auth/keys"
payload = { "code": "string" }
headers = {"Content-Type": "application/json"}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/auth/keys';
const options = {
method: 'POST',
headers: {'Content-Type': 'application/json'},
body: '{"code":"string"}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/auth/keys"
payload := strings.NewReader("{\n \"code\": \"string\"\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/auth/keys")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Content-Type"] = 'application/json'
request.body = "{\n \"code\": \"string\"\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/auth/keys")
.header("Content-Type", "application/json")
.body("{\n \"code\": \"string\"\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/auth/keys', [
'body' => '{
"code": "string"
}',
'headers' => [
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/auth/keys");
var request = new RestRequest(Method.POST);
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"code\": \"string\"\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Content-Type": "application/json"]
let parameters = ["code": "string"] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/auth/keys")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
```shell
curl -X POST https://openrouter.ai/api/v1/auth/keys \
-H "Content-Type: application/json" \
-d '{
"code": "string"
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/auth/keys"
payload = { "code": "string" }
headers = {"Content-Type": "application/json"}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/auth/keys';
const options = {
method: 'POST',
headers: {'Content-Type': 'application/json'},
body: '{"code":"string"}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/auth/keys"
payload := strings.NewReader("{\n \"code\": \"string\"\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/auth/keys")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Content-Type"] = 'application/json'
request.body = "{\n \"code\": \"string\"\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/auth/keys")
.header("Content-Type", "application/json")
.body("{\n \"code\": \"string\"\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/auth/keys', [
'body' => '{
"code": "string"
}',
'headers' => [
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/auth/keys");
var request = new RestRequest(Method.POST);
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"code\": \"string\"\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Content-Type": "application/json"]
let parameters = ["code": "string"] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/auth/keys")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
```shell
curl -X POST https://openrouter.ai/api/v1/auth/keys \
-H "Content-Type: application/json" \
-d '{
"code": "string"
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/auth/keys"
payload = { "code": "string" }
headers = {"Content-Type": "application/json"}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/auth/keys';
const options = {
method: 'POST',
headers: {'Content-Type': 'application/json'},
body: '{"code":"string"}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/auth/keys"
payload := strings.NewReader("{\n \"code\": \"string\"\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/auth/keys")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Content-Type"] = 'application/json'
request.body = "{\n \"code\": \"string\"\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/auth/keys")
.header("Content-Type", "application/json")
.body("{\n \"code\": \"string\"\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/auth/keys', [
'body' => '{
"code": "string"
}',
'headers' => [
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/auth/keys");
var request = new RestRequest(Method.POST);
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"code\": \"string\"\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Content-Type": "application/json"]
let parameters = ["code": "string"] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/auth/keys")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Get current API key
```http
GET https://openrouter.ai/api/v1/key
```
Get information on the API key associated with the current authentication session
## Response Body
- 200: Successfully retrieved API key information
- 401: Unauthorized - API key is required
- 405: Method Not Allowed - Only GET method is supported
- 500: Internal server error
## Examples
```shell
curl https://openrouter.ai/api/v1/key \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/key"
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/key';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/key"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/key")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/key")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/key', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/key");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/key")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
```shell
curl https://openrouter.ai/api/v1/key \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/key"
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/key';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/key"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/key")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/key")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/key', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/key");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/key")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
```shell
curl https://openrouter.ai/api/v1/key \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/key"
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/key';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/key"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/key")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/key")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/key', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/key");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/key")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
```shell
curl https://openrouter.ai/api/v1/key \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/key"
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/key';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/key"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/key")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/key")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/key', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/key");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/key")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# List API keys
```http
GET https://openrouter.ai/api/v1/keys
```
Returns a list of all API keys associated with the account. Requires a Provisioning API key.
## Query Parameters
- Offset (optional): Offset for the API keys
- IncludeDisabled (optional): Whether to include disabled API keys in the response
## Response Body
- 200: List of API keys
## Examples
```shell
curl https://openrouter.ai/api/v1/keys \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/keys"
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/keys';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/keys"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/keys")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/keys")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/keys', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/keys");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/keys")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Create API key
```http
POST https://openrouter.ai/api/v1/keys
Content-Type: application/json
```
Creates a new API key. Requires a Provisioning API key.
## Response Body
- 200: Created API key
## Examples
```shell
curl -X POST https://openrouter.ai/api/v1/keys \
-H "Authorization: Bearer " \
-H "Content-Type: application/json" \
-d '{
"name": "name"
}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/keys"
payload = { "name": "name" }
headers = {
"Authorization": "Bearer ",
"Content-Type": "application/json"
}
response = requests.post(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/keys';
const options = {
method: 'POST',
headers: {Authorization: 'Bearer ', 'Content-Type': 'application/json'},
body: '{"name":"name"}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/keys"
payload := strings.NewReader("{\n \"name\": \"name\"\n}")
req, _ := http.NewRequest("POST", url, payload)
req.Header.Add("Authorization", "Bearer ")
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/keys")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Post.new(url)
request["Authorization"] = 'Bearer '
request["Content-Type"] = 'application/json'
request.body = "{\n \"name\": \"name\"\n}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.post("https://openrouter.ai/api/v1/keys")
.header("Authorization", "Bearer ")
.header("Content-Type", "application/json")
.body("{\n \"name\": \"name\"\n}")
.asString();
```
```php
request('POST', 'https://openrouter.ai/api/v1/keys', [
'body' => '{
"name": "name"
}',
'headers' => [
'Authorization' => 'Bearer ',
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/keys");
var request = new RestRequest(Method.POST);
request.AddHeader("Authorization", "Bearer ");
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{\n \"name\": \"name\"\n}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = [
"Authorization": "Bearer ",
"Content-Type": "application/json"
]
let parameters = ["name": "name"] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/keys")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "POST"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Get API key
```http
GET https://openrouter.ai/api/v1/keys/{hash}
```
Returns details about a specific API key. Requires a Provisioning API key.
## Path Parameters
- Hash (required): The hash of the API key
## Response Body
- 200: API key details
## Examples
```shell
curl https://openrouter.ai/api/v1/keys/hash \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/keys/hash"
headers = {"Authorization": "Bearer "}
response = requests.get(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/keys/hash';
const options = {method: 'GET', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/keys/hash"
req, _ := http.NewRequest("GET", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/keys/hash")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Get.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.get("https://openrouter.ai/api/v1/keys/hash")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('GET', 'https://openrouter.ai/api/v1/keys/hash', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/keys/hash");
var request = new RestRequest(Method.GET);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/keys/hash")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "GET"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Delete API key
```http
DELETE https://openrouter.ai/api/v1/keys/{hash}
```
Deletes an API key. Requires a Provisioning API key.
## Path Parameters
- Hash (required): The hash of the API key
## Response Body
- 200: Successfully deleted API key
## Examples
```shell
curl -X DELETE https://openrouter.ai/api/v1/keys/hash \
-H "Authorization: Bearer "
```
```python
import requests
url = "https://openrouter.ai/api/v1/keys/hash"
headers = {"Authorization": "Bearer "}
response = requests.delete(url, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/keys/hash';
const options = {method: 'DELETE', headers: {Authorization: 'Bearer '}};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/keys/hash"
req, _ := http.NewRequest("DELETE", url, nil)
req.Header.Add("Authorization", "Bearer ")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/keys/hash")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Delete.new(url)
request["Authorization"] = 'Bearer '
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.delete("https://openrouter.ai/api/v1/keys/hash")
.header("Authorization", "Bearer ")
.asString();
```
```php
request('DELETE', 'https://openrouter.ai/api/v1/keys/hash', [
'headers' => [
'Authorization' => 'Bearer ',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/keys/hash");
var request = new RestRequest(Method.DELETE);
request.AddHeader("Authorization", "Bearer ");
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = ["Authorization": "Bearer "]
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/keys/hash")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "DELETE"
request.allHTTPHeaderFields = headers
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# Update API key
```http
PATCH https://openrouter.ai/api/v1/keys/{hash}
Content-Type: application/json
```
Updates an existing API key. Requires a Provisioning API key.
## Path Parameters
- Hash (required): The hash of the API key
## Response Body
- 200: Updated API key
## Examples
```shell
curl -X PATCH https://openrouter.ai/api/v1/keys/hash \
-H "Authorization: Bearer " \
-H "Content-Type: application/json" \
-d '{}'
```
```python
import requests
url = "https://openrouter.ai/api/v1/keys/hash"
payload = {}
headers = {
"Authorization": "Bearer ",
"Content-Type": "application/json"
}
response = requests.patch(url, json=payload, headers=headers)
print(response.json())
```
```javascript
const url = 'https://openrouter.ai/api/v1/keys/hash';
const options = {
method: 'PATCH',
headers: {Authorization: 'Bearer ', 'Content-Type': 'application/json'},
body: '{}'
};
try {
const response = await fetch(url, options);
const data = await response.json();
console.log(data);
} catch (error) {
console.error(error);
}
```
```go
package main
import (
"fmt"
"strings"
"net/http"
"io"
)
func main() {
url := "https://openrouter.ai/api/v1/keys/hash"
payload := strings.NewReader("{}")
req, _ := http.NewRequest("PATCH", url, payload)
req.Header.Add("Authorization", "Bearer ")
req.Header.Add("Content-Type", "application/json")
res, _ := http.DefaultClient.Do(req)
defer res.Body.Close()
body, _ := io.ReadAll(res.Body)
fmt.Println(res)
fmt.Println(string(body))
}
```
```ruby
require 'uri'
require 'net/http'
url = URI("https://openrouter.ai/api/v1/keys/hash")
http = Net::HTTP.new(url.host, url.port)
http.use_ssl = true
request = Net::HTTP::Patch.new(url)
request["Authorization"] = 'Bearer '
request["Content-Type"] = 'application/json'
request.body = "{}"
response = http.request(request)
puts response.read_body
```
```java
HttpResponse response = Unirest.patch("https://openrouter.ai/api/v1/keys/hash")
.header("Authorization", "Bearer ")
.header("Content-Type", "application/json")
.body("{}")
.asString();
```
```php
request('PATCH', 'https://openrouter.ai/api/v1/keys/hash', [
'body' => '{}',
'headers' => [
'Authorization' => 'Bearer ',
'Content-Type' => 'application/json',
],
]);
echo $response->getBody();
```
```csharp
var client = new RestClient("https://openrouter.ai/api/v1/keys/hash");
var request = new RestRequest(Method.PATCH);
request.AddHeader("Authorization", "Bearer ");
request.AddHeader("Content-Type", "application/json");
request.AddParameter("application/json", "{}", ParameterType.RequestBody);
IRestResponse response = client.Execute(request);
```
```swift
import Foundation
let headers = [
"Authorization": "Bearer ",
"Content-Type": "application/json"
]
let parameters = [] as [String : Any]
let postData = JSONSerialization.data(withJSONObject: parameters, options: [])
let request = NSMutableURLRequest(url: NSURL(string: "https://openrouter.ai/api/v1/keys/hash")! as URL,
cachePolicy: .useProtocolCachePolicy,
timeoutInterval: 10.0)
request.httpMethod = "PATCH"
request.allHTTPHeaderFields = headers
request.httpBody = postData as Data
let session = URLSession.shared
let dataTask = session.dataTask(with: request as URLRequest, completionHandler: { (data, response, error) -> Void in
if (error != nil) {
print(error as Any)
} else {
let httpResponse = response as? HTTPURLResponse
print(httpResponse)
}
})
dataTask.resume()
```
# BYOK
> Learn how to use your existing AI provider keys with OpenRouter. Integrate your own API keys while leveraging OpenRouter's unified interface and features.
## Bring your own API Keys
OpenRouter supports both OpenRouter credits and the option to bring your own provider keys (BYOK).
When you use OpenRouter credits, your rate limits for each provider are managed by OpenRouter.
Using provider keys enables direct control over rate limits and costs via your provider account.
Your provider keys are securely encrypted and used for all requests routed through the specified provider.
Manage keys in your [account settings](/settings/integrations).
The cost of using custom provider keys on OpenRouter is **5% of what the same model/provider would cost normally on OpenRouter** and will be deducted from your OpenRouter credits.
### Automatic Fallback
You can configure individual keys to act as fallbacks.
When "Use this key as a fallback" is enabled for a key, OpenRouter will prioritize using your credits. If it hits a rate limit or encounters a failure, it will then retry with your key.
Conversely, if "Use this key as a fallback" is disabled for a key, OpenRouter will prioritize using your key. If it hits a rate limit or encounters a failure, it will then retry with your credits.
### Azure API Keys
To use Azure AI Services with OpenRouter, you'll need to provide your Azure API key configuration in JSON format. Each key configuration requires the following fields:
```json
{
"model_slug": "the-openrouter-model-slug",
"endpoint_url": "https://.services.ai.azure.com/deployments//chat/completions?api-version=",
"api_key": "your-azure-api-key",
"model_id": "the-azure-model-id"
}
```
You can find these values in your Azure AI Services resource:
1. **endpoint\_url**: Navigate to your Azure AI Services resource in the Azure portal. In the "Overview" section, you'll find your endpoint URL. Make sure to append `/chat/completions` to the base URL. You can read more in the [Azure Foundry documentation](https://learn.microsoft.com/en-us/azure/ai-foundry/model-inference/concepts/endpoints?tabs=python).
2. **api\_key**: In the same "Overview" section of your Azure AI Services resource, you can find your API key under "Keys and Endpoint".
3. **model\_id**: This is the name of your model deployment in Azure AI Services.
4. **model\_slug**: This is the OpenRouter model identifier you want to use this key for.
Since Azure supports multiple model deployments, you can provide an array of configurations for different models:
```json
[
{
"model_slug": "mistralai/mistral-large",
"endpoint_url": "https://example-project.openai.azure.com/openai/deployments/mistral-large/chat/completions?api-version=2024-08-01-preview",
"api_key": "your-azure-api-key",
"model_id": "mistral-large"
},
{
"model_slug": "openai/gpt-4o",
"endpoint_url": "https://example-project.openai.azure.com/openai/deployments/gpt-4o/chat/completions?api-version=2024-08-01-preview",
"api_key": "your-azure-api-key",
"model_id": "gpt-4o"
}
]
```
Make sure to replace the url with your own project url. Also the url should end with /chat/completions with the api version that you would like to use.
### AWS Bedrock API Keys
To use Amazon Bedrock with OpenRouter, you'll need to provide your AWS credentials in JSON format. The configuration requires the following fields:
```json
{
"accessKeyId": "your-aws-access-key-id",
"secretAccessKey": "your-aws-secret-access-key",
"region": "your-aws-region"
}
```
You can find these values in your AWS account:
1. **accessKeyId**: This is your AWS Access Key ID. You can create or find your access keys in the AWS Management Console under "Security Credentials" in your AWS account.
2. **secretAccessKey**: This is your AWS Secret Access Key, which is provided when you create an access key.
3. **region**: The AWS region where your Amazon Bedrock models are deployed (e.g., "us-east-1", "us-west-2").
Make sure your AWS IAM user or role has the necessary permissions to access Amazon Bedrock services. At minimum, you'll need permissions for:
* `bedrock:InvokeModel`
* `bedrock:InvokeModelWithResponseStream` (for streaming responses)
Example IAM policy:
```json
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Action": [
"bedrock:InvokeModel",
"bedrock:InvokeModelWithResponseStream"
],
"Resource": "*"
}
]
}
```
For enhanced security, we recommend creating dedicated IAM users with limited permissions specifically for use with OpenRouter.
Learn more in the [AWS Bedrock Getting Started with the API](https://docs.aws.amazon.com/bedrock/latest/userguide/getting-started-api.html) documentation, [IAM Permissions Setup](https://docs.aws.amazon.com/bedrock/latest/userguide/security-iam.html) guide, or the [AWS Bedrock API Reference](https://docs.aws.amazon.com/bedrock/latest/APIReference/welcome.html).
# Crypto API
> Learn how to purchase OpenRouter credits using cryptocurrency. Complete guide to Coinbase integration, supported chains, and automated credit purchases.
You can purchase credits using cryptocurrency through our Coinbase integration. This can either happen through the UI, on your [credits page](https://openrouter.ai/settings/credits), or through our API as described below. While other forms of payment are possible, this guide specifically shows how to pay with the chain's native token.
Headless credit purchases involve three steps:
1. Getting the calldata for a new credit purchase
2. Sending a transaction on-chain using that data
3. Detecting low account balance, and purchasing more
## Getting Credit Purchase Calldata
Make a POST request to `/api/v1/credits/coinbase` to create a new charge. You'll include the amount of credits you want to purchase (in USD, up to \${maxDollarPurchase}), the address you'll be sending the transaction from, and the EVM chain ID of the network you'll be sending on.
Currently, we only support the following chains (mainnet only):
* Ethereum ({SupportedChainIDs.Ethereum})
* Polygon ({SupportedChainIDs.Polygon})
* Base ({SupportedChainIDs.Base}) ***recommended***
```typescript
const response = await fetch('https://openrouter.ai/api/v1/credits/coinbase', {
method: 'POST',
headers: {
Authorization: 'Bearer ',
'Content-Type': 'application/json',
},
body: JSON.stringify({
amount: 10, // Target credit amount in USD
sender: '0x9a85CB3bfd494Ea3a8C9E50aA6a3c1a7E8BACE11',
chain_id: 8453,
}),
});
const responseJSON = await response.json();
```
The response includes the charge details and transaction data needed to execute the on-chain payment:
```json
{
"data": {
"id": "...",
"created_at": "2024-01-01T00:00:00Z",
"expires_at": "2024-01-01T01:00:00Z",
"web3_data": {
"transfer_intent": {
"metadata": {
"chain_id": 8453,
"contract_address": "0x03059433bcdb6144624cc2443159d9445c32b7a8",
"sender": "0x9a85CB3bfd494Ea3a8C9E50aA6a3c1a7E8BACE11"
},
"call_data": {
"recipient_amount": "...",
"deadline": "...",
"recipient": "...",
"recipient_currency": "...",
"refund_destination": "...",
"fee_amount": "...",
"id": "...",
"operator": "...",
"signature": "...",
"prefix": "..."
}
}
}
}
}
```
## Sending the Transaction
You can use [viem](https://viem.sh) (or another similar evm client) to execute the transaction on-chain.
In this example, we'll be fulfilling the charge using the [swapAndTransferUniswapV3Native()](https://github.com/coinbase/commerce-onchain-payment-protocol/blob/d891289bd1f41bb95f749af537f2b6a36b17f889/contracts/interfaces/ITransfers.sol#L168-L171) function. Other methods of swapping are also available, and you can learn more by checking out Coinbase's [onchain payment protocol here](https://github.com/coinbase/commerce-onchain-payment-protocol/tree/master). Note, if you are trying to pay in a less common ERC-20, there is added complexity in needing to make sure that there is sufficient liquidity in the pool to swap the tokens.
```typescript
import { createPublicClient, createWalletClient, http, parseEther } from 'viem';
import { privateKeyToAccount } from 'viem/accounts';
import { base } from 'viem/chains';
// The ABI for Coinbase's onchain payment protocol
const abi = [
{
inputs: [
{
internalType: 'contract IUniversalRouter',
name: '_uniswap',
type: 'address',
},
{ internalType: 'contract Permit2', name: '_permit2', type: 'address' },
{ internalType: 'address', name: '_initialOperator', type: 'address' },
{
internalType: 'address',
name: '_initialFeeDestination',
type: 'address',
},
{
internalType: 'contract IWrappedNativeCurrency',
name: '_wrappedNativeCurrency',
type: 'address',
},
],
stateMutability: 'nonpayable',
type: 'constructor',
},
{ inputs: [], name: 'AlreadyProcessed', type: 'error' },
{ inputs: [], name: 'ExpiredIntent', type: 'error' },
{
inputs: [
{ internalType: 'address', name: 'attemptedCurrency', type: 'address' },
],
name: 'IncorrectCurrency',
type: 'error',
},
{ inputs: [], name: 'InexactTransfer', type: 'error' },
{
inputs: [{ internalType: 'uint256', name: 'difference', type: 'uint256' }],
name: 'InsufficientAllowance',
type: 'error',
},
{
inputs: [{ internalType: 'uint256', name: 'difference', type: 'uint256' }],
name: 'InsufficientBalance',
type: 'error',
},
{
inputs: [{ internalType: 'int256', name: 'difference', type: 'int256' }],
name: 'InvalidNativeAmount',
type: 'error',
},
{ inputs: [], name: 'InvalidSignature', type: 'error' },
{ inputs: [], name: 'InvalidTransferDetails', type: 'error' },
{
inputs: [
{ internalType: 'address', name: 'recipient', type: 'address' },
{ internalType: 'uint256', name: 'amount', type: 'uint256' },
{ internalType: 'bool', name: 'isRefund', type: 'bool' },
{ internalType: 'bytes', name: 'data', type: 'bytes' },
],
name: 'NativeTransferFailed',
type: 'error',
},
{ inputs: [], name: 'NullRecipient', type: 'error' },
{ inputs: [], name: 'OperatorNotRegistered', type: 'error' },
{ inputs: [], name: 'PermitCallFailed', type: 'error' },
{
inputs: [{ internalType: 'bytes', name: 'reason', type: 'bytes' }],
name: 'SwapFailedBytes',
type: 'error',
},
{
inputs: [{ internalType: 'string', name: 'reason', type: 'string' }],
name: 'SwapFailedString',
type: 'error',
},
{
anonymous: false,
inputs: [
{
indexed: false,
internalType: 'address',
name: 'operator',
type: 'address',
},
{
indexed: false,
internalType: 'address',
name: 'feeDestination',
type: 'address',
},
],
name: 'OperatorRegistered',
type: 'event',
},
{
anonymous: false,
inputs: [
{
indexed: false,
internalType: 'address',
name: 'operator',
type: 'address',
},
],
name: 'OperatorUnregistered',
type: 'event',
},
{
anonymous: false,
inputs: [
{
indexed: true,
internalType: 'address',
name: 'previousOwner',
type: 'address',
},
{
indexed: true,
internalType: 'address',
name: 'newOwner',
type: 'address',
},
],
name: 'OwnershipTransferred',
type: 'event',
},
{
anonymous: false,
inputs: [
{
indexed: false,
internalType: 'address',
name: 'account',
type: 'address',
},
],
name: 'Paused',
type: 'event',
},
{
anonymous: false,
inputs: [
{
indexed: true,
internalType: 'address',
name: 'operator',
type: 'address',
},
{ indexed: false, internalType: 'bytes16', name: 'id', type: 'bytes16' },
{
indexed: false,
internalType: 'address',
name: 'recipient',
type: 'address',
},
{
indexed: false,
internalType: 'address',
name: 'sender',
type: 'address',
},
{
indexed: false,
internalType: 'uint256',
name: 'spentAmount',
type: 'uint256',
},
{
indexed: false,
internalType: 'address',
name: 'spentCurrency',
type: 'address',
},
],
name: 'Transferred',
type: 'event',
},
{
anonymous: false,
inputs: [
{
indexed: false,
internalType: 'address',
name: 'account',
type: 'address',
},
],
name: 'Unpaused',
type: 'event',
},
{
inputs: [],
name: 'owner',
outputs: [{ internalType: 'address', name: '', type: 'address' }],
stateMutability: 'view',
type: 'function',
},
{
inputs: [],
name: 'pause',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [],
name: 'paused',
outputs: [{ internalType: 'bool', name: '', type: 'bool' }],
stateMutability: 'view',
type: 'function',
},
{
inputs: [],
name: 'permit2',
outputs: [{ internalType: 'contract Permit2', name: '', type: 'address' }],
stateMutability: 'view',
type: 'function',
},
{
inputs: [],
name: 'registerOperator',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{ internalType: 'address', name: '_feeDestination', type: 'address' },
],
name: 'registerOperatorWithFeeDestination',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [],
name: 'renounceOwnership',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [{ internalType: 'address', name: 'newSweeper', type: 'address' }],
name: 'setSweeper',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
{
components: [
{ internalType: 'address', name: 'owner', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
],
internalType: 'struct EIP2612SignatureTransferData',
name: '_signatureTransferData',
type: 'tuple',
},
],
name: 'subsidizedTransferToken',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
{ internalType: 'uint24', name: 'poolFeesTier', type: 'uint24' },
],
name: 'swapAndTransferUniswapV3Native',
outputs: [],
stateMutability: 'payable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
{
components: [
{
components: [
{
components: [
{ internalType: 'address', name: 'token', type: 'address' },
{ internalType: 'uint256', name: 'amount', type: 'uint256' },
],
internalType: 'struct ISignatureTransfer.TokenPermissions',
name: 'permitted',
type: 'tuple',
},
{ internalType: 'uint256', name: 'nonce', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
],
internalType: 'struct ISignatureTransfer.PermitTransferFrom',
name: 'permit',
type: 'tuple',
},
{
components: [
{ internalType: 'address', name: 'to', type: 'address' },
{
internalType: 'uint256',
name: 'requestedAmount',
type: 'uint256',
},
],
internalType: 'struct ISignatureTransfer.SignatureTransferDetails',
name: 'transferDetails',
type: 'tuple',
},
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
],
internalType: 'struct Permit2SignatureTransferData',
name: '_signatureTransferData',
type: 'tuple',
},
{ internalType: 'uint24', name: 'poolFeesTier', type: 'uint24' },
],
name: 'swapAndTransferUniswapV3Token',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
{ internalType: 'address', name: '_tokenIn', type: 'address' },
{ internalType: 'uint256', name: 'maxWillingToPay', type: 'uint256' },
{ internalType: 'uint24', name: 'poolFeesTier', type: 'uint24' },
],
name: 'swapAndTransferUniswapV3TokenPreApproved',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{ internalType: 'address payable', name: 'destination', type: 'address' },
],
name: 'sweepETH',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{ internalType: 'address payable', name: 'destination', type: 'address' },
{ internalType: 'uint256', name: 'amount', type: 'uint256' },
],
name: 'sweepETHAmount',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{ internalType: 'address', name: '_token', type: 'address' },
{ internalType: 'address', name: 'destination', type: 'address' },
],
name: 'sweepToken',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{ internalType: 'address', name: '_token', type: 'address' },
{ internalType: 'address', name: 'destination', type: 'address' },
{ internalType: 'uint256', name: 'amount', type: 'uint256' },
],
name: 'sweepTokenAmount',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [],
name: 'sweeper',
outputs: [{ internalType: 'address', name: '', type: 'address' }],
stateMutability: 'view',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
],
name: 'transferNative',
outputs: [],
stateMutability: 'payable',
type: 'function',
},
{
inputs: [{ internalType: 'address', name: 'newOwner', type: 'address' }],
name: 'transferOwnership',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
{
components: [
{
components: [
{
components: [
{ internalType: 'address', name: 'token', type: 'address' },
{ internalType: 'uint256', name: 'amount', type: 'uint256' },
],
internalType: 'struct ISignatureTransfer.TokenPermissions',
name: 'permitted',
type: 'tuple',
},
{ internalType: 'uint256', name: 'nonce', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
],
internalType: 'struct ISignatureTransfer.PermitTransferFrom',
name: 'permit',
type: 'tuple',
},
{
components: [
{ internalType: 'address', name: 'to', type: 'address' },
{
internalType: 'uint256',
name: 'requestedAmount',
type: 'uint256',
},
],
internalType: 'struct ISignatureTransfer.SignatureTransferDetails',
name: 'transferDetails',
type: 'tuple',
},
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
],
internalType: 'struct Permit2SignatureTransferData',
name: '_signatureTransferData',
type: 'tuple',
},
],
name: 'transferToken',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
],
name: 'transferTokenPreApproved',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [],
name: 'unpause',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [],
name: 'unregisterOperator',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
{
components: [
{
components: [
{
components: [
{ internalType: 'address', name: 'token', type: 'address' },
{ internalType: 'uint256', name: 'amount', type: 'uint256' },
],
internalType: 'struct ISignatureTransfer.TokenPermissions',
name: 'permitted',
type: 'tuple',
},
{ internalType: 'uint256', name: 'nonce', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
],
internalType: 'struct ISignatureTransfer.PermitTransferFrom',
name: 'permit',
type: 'tuple',
},
{
components: [
{ internalType: 'address', name: 'to', type: 'address' },
{
internalType: 'uint256',
name: 'requestedAmount',
type: 'uint256',
},
],
internalType: 'struct ISignatureTransfer.SignatureTransferDetails',
name: 'transferDetails',
type: 'tuple',
},
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
],
internalType: 'struct Permit2SignatureTransferData',
name: '_signatureTransferData',
type: 'tuple',
},
],
name: 'unwrapAndTransfer',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
],
name: 'unwrapAndTransferPreApproved',
outputs: [],
stateMutability: 'nonpayable',
type: 'function',
},
{
inputs: [
{
components: [
{ internalType: 'uint256', name: 'recipientAmount', type: 'uint256' },
{ internalType: 'uint256', name: 'deadline', type: 'uint256' },
{
internalType: 'address payable',
name: 'recipient',
type: 'address',
},
{
internalType: 'address',
name: 'recipientCurrency',
type: 'address',
},
{
internalType: 'address',
name: 'refundDestination',
type: 'address',
},
{ internalType: 'uint256', name: 'feeAmount', type: 'uint256' },
{ internalType: 'bytes16', name: 'id', type: 'bytes16' },
{ internalType: 'address', name: 'operator', type: 'address' },
{ internalType: 'bytes', name: 'signature', type: 'bytes' },
{ internalType: 'bytes', name: 'prefix', type: 'bytes' },
],
internalType: 'struct TransferIntent',
name: '_intent',
type: 'tuple',
},
],
name: 'wrapAndTransfer',
outputs: [],
stateMutability: 'payable',
type: 'function',
},
{ stateMutability: 'payable', type: 'receive' },
];
// Set up viem clients
const publicClient = createPublicClient({
chain: base,
transport: http(),
});
const account = privateKeyToAccount('0x...');
const walletClient = createWalletClient({
chain: base,
transport: http(),
account,
});
// Use the calldata included in the charge response
const { contract_address } =
responseJSON.data.web3_data.transfer_intent.metadata;
const call_data = responseJSON.data.web3_data.transfer_intent.call_data;
// When transacting in ETH, a pool fees tier of 500 (the lowest) is very
// likely to be sufficient. However, if you plan to swap with a different
// contract method, using less-common ERC-20 tokens, it is recommended to
// call that chain's Uniswap QuoterV2 contract to check its liquidity.
// Depending on the results, choose the lowest fee tier which has enough
// liquidity in the pool.
const poolFeesTier = 500;
// Simulate the transaction first to prevent most common revert reasons
const { request } = await publicClient.simulateContract({
abi,
account,
address: contract_address,
functionName: 'swapAndTransferUniswapV3Native',
args: [
{
recipientAmount: BigInt(call_data.recipient_amount),
deadline: BigInt(
Math.floor(new Date(call_data.deadline).getTime() / 1000),
),
recipient: call_data.recipient,
recipientCurrency: call_data.recipient_currency,
refundDestination: call_data.refund_destination,
feeAmount: BigInt(call_data.fee_amount),
id: call_data.id,
operator: call_data.operator,
signature: call_data.signature,
prefix: call_data.prefix,
},
poolFeesTier,
],
// Transaction value in ETH. You'll want to include a little extra to
// ensure the transaction & swap is successful. All excess funds return
// back to your sender address afterwards.
value: parseEther('0.004'),
});
// Send the transaction on chain
const txHash = await walletClient.writeContract(request);
console.log('Transaction hash:', txHash);
```
Once the transaction succeeds on chain, we'll add credits to your account. You can track the transaction status using the returned transaction hash.
Credit purchases lower than \$500 will be immediately credited once the transaction is on chain. Above \$500, there is a \~15 minute confirmation delay, ensuring the chain does not re-org your purchase.
## Detecting Low Balance
While it is possible to simply run down the balance until your app starts receiving 402 error codes for insufficient credits, this gap in service while topping up might not be desirable.
To avoid this, you can periodically call the `GET /api/v1/credits` endpoint to check your available credits.
```typescript
const response = await fetch('https://openrouter.ai/api/v1/credits', {
method: 'GET',
headers: { Authorization: 'Bearer ' },
});
const { data } = await response.json();
```
The response includes your total credits purchased and usage, where your current balance is the difference between the two:
```json
{
"data": {
"total_credits": 50.0,
"total_usage": 42.0
}
}
```
Note that these values are cached, and may be up to 60 seconds stale.
# OAuth PKCE
> Implement secure user authentication with OpenRouter using OAuth PKCE. Complete guide to setting up and managing OAuth authentication flows.
Users can connect to OpenRouter in one click using [Proof Key for Code Exchange (PKCE)](https://oauth.net/2/pkce/).
Here's a step-by-step guide:
## PKCE Guide
### Step 1: Send your user to OpenRouter
To start the PKCE flow, send your user to OpenRouter's `/auth` URL with a `callback_url` parameter pointing back to your site:
```txt title="With S256 Code Challenge (Recommended)" wordWrap
https://openrouter.ai/auth?callback_url=&code_challenge=&code_challenge_method=S256
```
```txt title="With Plain Code Challenge" wordWrap
https://openrouter.ai/auth?callback_url=&code_challenge=&code_challenge_method=plain
```
```txt title="Without Code Challenge" wordWrap
https://openrouter.ai/auth?callback_url=
```
The `code_challenge` parameter is optional but recommended.
Your user will be prompted to log in to OpenRouter and authorize your app. After authorization, they will be redirected back to your site with a `code` parameter in the URL:
For maximum security, set `code_challenge_method` to `S256`, and set `code_challenge` to the base64 encoding of the sha256 hash of `code_verifier`.
For more info, [visit Auth0's docs](https://auth0.com/docs/get-started/authentication-and-authorization-flow/call-your-api-using-the-authorization-code-flow-with-pkce#parameters).
#### How to Generate a Code Challenge
The following example leverages the Web Crypto API and the Buffer API to generate a code challenge for the S256 method. You will need a bundler to use the Buffer API in the web browser:
```typescript title="Generate Code Challenge"
import { Buffer } from 'buffer';
async function createSHA256CodeChallenge(input: string) {
const encoder = new TextEncoder();
const data = encoder.encode(input);
const hash = await crypto.subtle.digest('SHA-256', data);
return Buffer.from(hash).toString('base64url');
}
const codeVerifier = 'your-random-string';
const generatedCodeChallenge = await createSHA256CodeChallenge(codeVerifier);
```
#### Localhost Apps
If your app is a local-first app or otherwise doesn't have a public URL, it is recommended to test with `http://localhost:3000` as the callback and referrer URLs.
When moving to production, replace the localhost/private referrer URL with a public GitHub repo or a link to your project website.
### Step 2: Exchange the code for a user-controlled API key
After the user logs in with OpenRouter, they are redirected back to your site with a `code` parameter in the URL:
Extract this code using the browser API:
```typescript title="Extract Code"
const urlParams = new URLSearchParams(window.location.search);
const code = urlParams.get('code');
```
Then use it to make an API call to `https://openrouter.ai/api/v1/auth/keys` to exchange the code for a user-controlled API key:
```typescript title="Exchange Code"
const response = await fetch('https://openrouter.ai/api/v1/auth/keys', {
method: 'POST',
headers: {
'Content-Type': 'application/json',
},
body: JSON.stringify({
code: '',
code_verifier: '', // If code_challenge was used
code_challenge_method: '', // If code_challenge was used
}),
});
const { key } = await response.json();
```
And that's it for the PKCE flow!
### Step 3: Use the API key
Store the API key securely within the user's browser or in your own database, and use it to [make OpenRouter requests](/api-reference/completion).
```typescript title="Make an OpenRouter request"
fetch('https://openrouter.ai/api/v1/chat/completions', {
method: 'POST',
headers: {
Authorization: 'Bearer ',
'Content-Type': 'application/json',
},
body: JSON.stringify({
model: 'openai/gpt-4o',
messages: [
{
role: 'user',
content: 'Hello!',
},
],
}),
});
```
## Error Codes
* `400 Invalid code_challenge_method`: Make sure you're using the same code challenge method in step 1 as in step 2.
* `403 Invalid code or code_verifier`: Make sure your user is logged in to OpenRouter, and that `code_verifier` and `code_challenge_method` are correct.
* `405 Method Not Allowed`: Make sure you're using `POST` and `HTTPS` for your request.
## External Tools
* [PKCE Tools](https://example-app.com/pkce)
* [Online PKCE Generator](https://tonyxu-io.github.io/pkce-generator/)
# Using MCP Servers with OpenRouter
> Learn how to use MCP Servers with OpenRouter
MCP servers are a popular way of providing LLMs with tool calling abilities, and are an alternative to using OpenAI-compatible tool calling.
By converting MCP (Anthropic) tool definitions to OpenAI-compatible tool definitions, you can use MCP servers with OpenRouter.
In this example, we'll use [Anthropic's MCP client SDK](https://github.com/modelcontextprotocol/python-sdk?tab=readme-ov-file#writing-mcp-clients) to interact with the File System MCP, all with OpenRouter under the hood.
Note that interacting with MCP servers is more complex than calling a REST endpoint. The MCP protocol is stateful and requires session management. The example below uses the MCP client SDK, but is still somewhat complex.
First, some setup. In order to run this you will need to pip install the packages, and create a `.env` file with OPENAI\_API\_KEY set. This example also assumes the directory `/Applications` exists.
```python
import asyncio
from typing import Optional
from contextlib import AsyncExitStack
from mcp import ClientSession, StdioServerParameters
from mcp.client.stdio import stdio_client
from openai import OpenAI
from dotenv import load_dotenv
import json
load_dotenv() # load environment variables from .env
MODEL = "anthropic/claude-3-7-sonnet"
SERVER_CONFIG = {
"command": "npx",
"args": ["-y",
"@modelcontextprotocol/server-filesystem",
f"/Applications/"],
"env": None
}
```
Next, our helper function to convert MCP tool definitions to OpenAI tool definitions:
```python
def convert_tool_format(tool):
converted_tool = {
"type": "function",
"function": {
"name": tool.name,
"description": tool.description,
"parameters": {
"type": "object",
"properties": tool.inputSchema["properties"],
"required": tool.inputSchema["required"]
}
}
}
return converted_tool
```
And, the MCP client itself; a regrettable \~100 lines of code. Note that the SERVER\_CONFIG is hard-coded into the client, but of course could be parameterized for other MCP servers.
```python
class MCPClient:
def __init__(self):
self.session: Optional[ClientSession] = None
self.exit_stack = AsyncExitStack()
self.openai = OpenAI(
base_url="https://openrouter.ai/api/v1"
)
async def connect_to_server(self, server_config):
server_params = StdioServerParameters(**server_config)
stdio_transport = await self.exit_stack.enter_async_context(stdio_client(server_params))
self.stdio, self.write = stdio_transport
self.session = await self.exit_stack.enter_async_context(ClientSession(self.stdio, self.write))
await self.session.initialize()
# List available tools from the MCP server
response = await self.session.list_tools()
print("\nConnected to server with tools:", [tool.name for tool in response.tools])
self.messages = []
async def process_query(self, query: str) -> str:
self.messages.append({
"role": "user",
"content": query
})
response = await self.session.list_tools()
available_tools = [convert_tool_format(tool) for tool in response.tools]
response = self.openai.chat.completions.create(
model=MODEL,
tools=available_tools,
messages=self.messages
)
self.messages.append(response.choices[0].message.model_dump())
final_text = []
content = response.choices[0].message
if content.tool_calls is not None:
tool_name = content.tool_calls[0].function.name
tool_args = content.tool_calls[0].function.arguments
tool_args = json.loads(tool_args) if tool_args else {}
# Execute tool call
try:
result = await self.session.call_tool(tool_name, tool_args)
final_text.append(f"[Calling tool {tool_name} with args {tool_args}]")
except Exception as e:
print(f"Error calling tool {tool_name}: {e}")
result = None
self.messages.append({
"role": "tool",
"tool_call_id": content.tool_calls[0].id,
"name": tool_name,
"content": result.content
})
response = self.openai.chat.completions.create(
model=MODEL,
max_tokens=1000,
messages=self.messages,
)
final_text.append(response.choices[0].message.content)
else:
final_text.append(content.content)
return "\n".join(final_text)
async def chat_loop(self):
"""Run an interactive chat loop"""
print("\nMCP Client Started!")
print("Type your queries or 'quit' to exit.")
while True:
try:
query = input("\nQuery: ").strip()
result = await self.process_query(query)
print("Result:")
print(result)
except Exception as e:
print(f"Error: {str(e)}")
async def cleanup(self):
await self.exit_stack.aclose()
async def main():
client = MCPClient()
try:
await client.connect_to_server(SERVER_CONFIG)
await client.chat_loop()
finally:
await client.cleanup()
if __name__ == "__main__":
import sys
asyncio.run(main())
```
Assembling all of the above code into mcp-client.py, you get a client that behaves as follows (some outputs truncated for brevity):
```bash
% python mcp-client.py
Secure MCP Filesystem Server running on stdio
Allowed directories: [ '/Applications' ]
Connected to server with tools: ['read_file', 'read_multiple_files', 'write_file'...]
MCP Client Started!
Type your queries or 'quit' to exit.
Query: Do I have microsoft office installed?
Result:
[Calling tool list_allowed_directories with args {}]
I can check if Microsoft Office is installed in the Applications folder:
Query: continue
Result:
[Calling tool search_files with args {'path': '/Applications', 'pattern': 'Microsoft'}]
Now let me check specifically for Microsoft Office applications:
Query: continue
Result:
I can see from the search results that Microsoft Office is indeed installed on your system.
The search found the following main Microsoft Office applications:
1. Microsoft Excel - /Applications/Microsoft Excel.app
2. Microsoft PowerPoint - /Applications/Microsoft PowerPoint.app
3. Microsoft Word - /Applications/Microsoft Word.app
4. OneDrive - /Applications/OneDrive.app (which includes Microsoft SharePoint integration)
```
# Provider Integration
> Learn how to integrate your AI models with OpenRouter. Complete guide for providers to make their models available through OpenRouter's unified API.
## For Providers
If you'd like to be a model provider and sell inference on OpenRouter, [fill out our form](https://openrouter.notion.site/15a2fd57c4dc8067bc61ecd5263b31fd) to get started.
To be eligible to provide inference on OpenRouter you must have the following:
### 1. List Models Endpoint
You must implement an endpoint that returns all models that should be served by OpenRouter. At this endpoint, please return a list of all available models on your platform. Below is an example of the response format:
```json
{
"data": [
{
"id": "anthropic/claude-2.0",
"name": "Anthropic: Claude v2.0",
"created": 1690502400,
"description": "Anthropic's flagship model...", // Optional
"context_length": 100000, // Required
"max_completion_tokens": 4096, // Optional
"quantization": "fp8", // Required
"pricing": {
"prompt": "0.000008", // pricing per 1 token
"completion": "0.000024", // pricing per 1 token
"image": "0", // pricing per 1 image
"request": "0" // pricing per 1 request
}
}
]
}
```
NOTE: `pricing` fields are in string format to avoid floating point precision issues, and must be in USD.
Valid quantization values are:
`int4`, `int8`, `fp4`, `fp6`, `fp8`, `fp16`, `bf16`, `fp32`
### 2. Auto Top Up or Invoicing
For OpenRouter to use the provider we must be able to pay for inference automatically. This can be done via auto top up or invoicing.
# Reasoning Tokens
> Learn how to use reasoning tokens to enhance AI model outputs. Implement step-by-step reasoning traces for better decision making and transparency.
For models that support it, the OpenRouter API can return **Reasoning Tokens**, also known as thinking tokens. OpenRouter normalizes the different ways of customizing the amount of reasoning tokens that the model will use, providing a unified interface across different providers.
Reasoning tokens provide a transparent look into the reasoning steps taken by a model. Reasoning tokens are considered output tokens and charged accordingly.
Reasoning tokens are included in the response by default if the model decides to output them. Reasoning tokens will appear in the `reasoning` field of each message, unless you decide to exclude them.
While most models and providers make reasoning tokens available in the
response, some (like the OpenAI o-series and Gemini Flash Thinking) do not.
## Controlling Reasoning Tokens
You can control reasoning tokens in your requests using the `reasoning` parameter:
```json
{
"model": "your-model",
"messages": [],
"reasoning": {
// One of the following (not both):
"effort": "high", // Can be "high", "medium", or "low" (OpenAI-style)
"max_tokens": 2000, // Specific token limit (Anthropic-style)
// Optional: Default is false. All models support this.
"exclude": false // Set to true to exclude reasoning tokens from response
}
}
```
The `reasoning` config object consolidates settings for controlling reasoning strength across different models. See the Note for each option below to see which models are supported and how other models will behave.
### Max Tokens for Reasoning
Currently supported by Anthropic thinking models
For models that support reasoning token allocation, you can control it like this:
* `"max_tokens": 2000` - Directly specifies the maximum number of tokens to use for reasoning
For models that only support `reasoning.effort` (see below), the `max_tokens` value will be used to determine the effort level.
### Reasoning Effort Level
Currently supported by the OpenAI o-series
* `"effort": "high"` - Allocates a large portion of tokens for reasoning (approximately 80% of max\_tokens)
* `"effort": "medium"` - Allocates a moderate portion of tokens (approximately 50% of max\_tokens)
* `"effort": "low"` - Allocates a smaller portion of tokens (approximately 20% of max\_tokens)
For models that only support `reasoning.max_tokens`, the effort level will be set based on the percentages above.
### Excluding Reasoning Tokens
If you want the model to use reasoning internally but not include it in the response:
* `"exclude": true` - The model will still use reasoning, but it won't be returned in the response
Reasoning tokens will appear in the `reasoning` field of each message.
## Legacy Parameters
For backward compatibility, OpenRouter still supports the following legacy parameters:
* `include_reasoning: true` - Equivalent to `reasoning: {}`
* `include_reasoning: false` - Equivalent to `reasoning: { exclude: true }`
However, we recommend using the new unified `reasoning` parameter for better control and future compatibility.
## Examples
### Basic Usage with Reasoning Tokens
```python Python
import requests
import json
url = "https://openrouter.ai/api/v1/chat/completions"
headers = {
"Authorization": f"Bearer {{API_KEY_REF}}",
"Content-Type": "application/json"
}
payload = {
"model": "{{MODEL}}",
"messages": [
{"role": "user", "content": "How would you build the world's tallest skyscraper?"}
],
"reasoning": {
"effort": "high" # Use high reasoning effort
}
}
response = requests.post(url, headers=headers, data=json.dumps(payload))
print(response.json()['choices'][0]['message']['reasoning'])
```
```typescript TypeScript
import OpenAI from 'openai';
const openai = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
apiKey: '{{API_KEY_REF}}',
});
async function getResponseWithReasoning() {
const response = await openai.chat.completions.create({
model: '{{MODEL}}',
messages: [
{
role: 'user',
content: "How would you build the world's tallest skyscraper?",
},
],
reasoning: {
effort: 'high', // Use high reasoning effort
},
});
console.log('REASONING:', response.choices[0].message.reasoning);
console.log('CONTENT:', response.choices[0].message.content);
}
getResponseWithReasoning();
```
### Using Max Tokens for Reasoning
For models that support direct token allocation (like Anthropic models), you can specify the exact number of tokens to use for reasoning:
```python Python
import requests
import json
url = "https://openrouter.ai/api/v1/chat/completions"
headers = {
"Authorization": f"Bearer {{API_KEY_REF}}",
"Content-Type": "application/json"
}
payload = {
"model": "{{MODEL}}",
"messages": [
{"role": "user", "content": "What's the most efficient algorithm for sorting a large dataset?"}
],
"reasoning": {
"max_tokens": 2000 # Allocate 2000 tokens (or approximate effort) for reasoning
}
}
response = requests.post(url, headers=headers, data=json.dumps(payload))
print(response.json()['choices'][0]['message']['reasoning'])
print(response.json()['choices'][0]['message']['content'])
```
```typescript TypeScript
import OpenAI from 'openai';
const openai = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
apiKey: '{{API_KEY_REF}}',
});
async function getResponseWithReasoning() {
const response = await openai.chat.completions.create({
model: '{{MODEL}}',
messages: [
{
role: 'user',
content: "How would you build the world's tallest skyscraper?",
},
],
reasoning: {
max_tokens: 2000, // Allocate 2000 tokens (or approximate effort) for reasoning
},
});
console.log('REASONING:', response.choices[0].message.reasoning);
console.log('CONTENT:', response.choices[0].message.content);
}
getResponseWithReasoning();
```
### Excluding Reasoning Tokens from Response
If you want the model to use reasoning internally but not include it in the response:
```python Python
import requests
import json
url = "https://openrouter.ai/api/v1/chat/completions"
headers = {
"Authorization": f"Bearer {{API_KEY_REF}}",
"Content-Type": "application/json"
}
payload = {
"model": "{{MODEL}}",
"messages": [
{"role": "user", "content": "Explain quantum computing in simple terms."}
],
"reasoning": {
"effort": "high",
"exclude": true # Use reasoning but don't include it in the response
}
}
response = requests.post(url, headers=headers, data=json.dumps(payload))
# No reasoning field in the response
print(response.json()['choices'][0]['message']['content'])
```
```typescript TypeScript
import OpenAI from 'openai';
const openai = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
apiKey: '{{API_KEY_REF}}',
});
async function getResponseWithReasoning() {
const response = await openai.chat.completions.create({
model: '{{MODEL}}',
messages: [
{
role: 'user',
content: "How would you build the world's tallest skyscraper?",
},
],
reasoning: {
effort: 'high',
exclude: true, // Use reasoning but don't include it in the response
},
});
console.log('REASONING:', response.choices[0].message.reasoning);
console.log('CONTENT:', response.choices[0].message.content);
}
getResponseWithReasoning();
```
### Advanced Usage: Reasoning Chain-of-Thought
This example shows how to use reasoning tokens in a more complex workflow. It injects one model's reasoning into another model to improve its response quality:
```python Python
import requests
import json
question = "Which is bigger: 9.11 or 9.9?"
url = "https://openrouter.ai/api/v1/chat/completions"
headers = {
"Authorization": f"Bearer {{API_KEY_REF}}",
"Content-Type": "application/json"
}
def do_req(model, content, reasoning_config=None):
payload = {
"model": model,
"messages": [
{"role": "user", "content": content}
],
"stop": ""
}
return requests.post(url, headers=headers, data=json.dumps(payload))
# Get reasoning from a capable model
content = f"{question} Please think this through, but don't output an answer"
reasoning_response = do_req("deepseek/deepseek-r1", content)
reasoning = reasoning_response.json()['choices'][0]['message']['reasoning']
# Let's test! Here's the naive response:
simple_response = do_req("openai/gpt-4o-mini", question)
print(simple_response.json()['choices'][0]['message']['content'])
# Here's the response with the reasoning token injected:
content = f"{question}. Here is some context to help you: {reasoning}"
smart_response = do_req("openai/gpt-4o-mini", content)
print(smart_response.json()['choices'][0]['message']['content'])
```
```typescript TypeScript
import OpenAI from 'openai';
const openai = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
apiKey,
});
async function doReq(model, content, reasoningConfig) {
const payload = {
model,
messages: [{ role: 'user', content }],
stop: '',
...reasoningConfig,
};
return openai.chat.completions.create(payload);
}
async function getResponseWithReasoning() {
const question = 'Which is bigger: 9.11 or 9.9?';
const reasoningResponse = await doReq(
'deepseek/deepseek-r1',
`${question} Please think this through, but don't output an answer`,
);
const reasoning = reasoningResponse.choices[0].message.reasoning;
// Let's test! Here's the naive response:
const simpleResponse = await doReq('openai/gpt-4o-mini', question);
console.log(simpleResponse.choices[0].message.content);
// Here's the response with the reasoning token injected:
const content = `${question}. Here is some context to help you: ${reasoning}`;
const smartResponse = await doReq('openai/gpt-4o-mini', content);
console.log(smartResponse.choices[0].message.content);
}
getResponseWithReasoning();
```
## Provider-Specific Reasoning Implementation
### Anthropic Models with Reasoning Tokens
The latest Claude models, such as [anthropic/claude-3.7-sonnet](https://openrouter.ai/anthropic/claude-3.7-sonnet), support working with and returning reasoning tokens.
You can enable reasoning on Anthropic models in two ways:
1. Using the `:thinking` variant suffix (e.g., `anthropic/claude-3.7-sonnet:thinking`). The thinking variant defaults to high effort.
2. Using the unified `reasoning` parameter with either `effort` or `max_tokens`
#### Reasoning Max Tokens for Anthropic Models
When using Anthropic models with reasoning:
* When using the `reasoning.max_tokens` parameter, that value is used directly with a minimum of 1024 tokens.
* When using the `:thinking` variant suffix or the `reasoning.effort` parameter, the budget\_tokens are calculated based on the `max_tokens` value.
The reasoning token allocation is capped at 32,000 tokens maximum and 1024 tokens minimum. The formula for calculating the budget\_tokens is: `budget_tokens = max(min(max_tokens * {effort_ratio}, 32000), 1024)`
effort\_ratio is 0.8 for high effort, 0.5 for medium effort, and 0.2 for low effort.
**Important**: `max_tokens` must be strictly higher than the reasoning budget to ensure there are tokens available for the final response after thinking.
Please note that reasoning tokens are counted as output tokens for billing
purposes. Using reasoning tokens will increase your token usage but can
significantly improve the quality of model responses.
### Examples with Anthropic Models
#### Example 1: Streaming mode with reasoning tokens
```python Python
from openai import OpenAI
client = OpenAI(
base_url="https://openrouter.ai/api/v1",
api_key="{{API_KEY_REF}}",
)
def chat_completion_with_reasoning(messages):
response = client.chat.completions.create(
model="{{MODEL}}",
messages=messages,
max_tokens=10000,
reasoning={
"max_tokens": 8000 # Directly specify reasoning token budget
},
stream=True
)
return response
for chunk in chat_completion_with_reasoning([
{"role": "user", "content": "What's bigger, 9.9 or 9.11?"}
]):
if hasattr(chunk.choices[0].delta, 'reasoning') and chunk.choices[0].delta.reasoning:
print(f"REASONING: {chunk.choices[0].delta.reasoning}")
elif chunk.choices[0].delta.content:
print(f"CONTENT: {chunk.choices[0].delta.content}")
```
```typescript TypeScript
import OpenAI from 'openai';
const openai = new OpenAI({
baseURL: 'https://openrouter.ai/api/v1',
apiKey,
});
async function chatCompletionWithReasoning(messages) {
const response = await openai.chat.completions.create({
model: '{{MODEL}}',
messages,
maxTokens: 10000,
reasoning: {
maxTokens: 8000, // Directly specify reasoning token budget
},
stream: true,
});
return response;
}
(async () => {
for await (const chunk of chatCompletionWithReasoning([
{ role: 'user', content: "What's bigger, 9.9 or 9.11?" },
])) {
if (chunk.choices[0].delta.reasoning) {
console.log(`REASONING: ${chunk.choices[0].delta.reasoning}`);
} else if (chunk.choices[0].delta.content) {
console.log(`CONTENT: ${chunk.choices[0].delta.content}`);
}
}
})();
```
# Frameworks
> Integrate OpenRouter using popular frameworks and SDKs. Complete guides for OpenAI SDK, LangChain, PydanticAI, and Vercel AI SDK integration.
You can find a few examples of using OpenRouter with other frameworks in [this Github repository](https://github.com/OpenRouterTeam/openrouter-examples). Here are some examples:
## Using the OpenAI SDK
* Using `pip install openai`: [github](https://github.com/OpenRouterTeam/openrouter-examples-python/blob/main/src/openai_test.py).
* Using `npm i openai`: [github](https://github.com/OpenRouterTeam/openrouter-examples/blob/main/examples/openai/index.ts).
You can also use
[Grit](https://app.grit.io/studio?key=RKC0n7ikOiTGTNVkI8uRS) to
automatically migrate your code. Simply run `npx @getgrit/launcher
openrouter`.
```typescript title="TypeScript"
import OpenAI from "openai"
const openai = new OpenAI({
baseURL: "https://openrouter.ai/api/v1",
apiKey: "${API_KEY_REF}",
defaultHeaders: {
${getHeaderLines().join('\n ')}
},
})
async function main() {
const completion = await openai.chat.completions.create({
model: "${Model.GPT_4_Omni}",
messages: [
{ role: "user", content: "Say this is a test" }
],
})
console.log(completion.choices[0].message)
}
main();
```
```python title="Python"
from openai import OpenAI
from os import getenv
# gets API Key from environment variable OPENAI_API_KEY
client = OpenAI(
base_url="https://openrouter.ai/api/v1",
api_key=getenv("OPENROUTER_API_KEY"),
)
completion = client.chat.completions.create(
model="${Model.GPT_4_Omni}",
extra_headers={
"HTTP-Referer": "", # Optional. Site URL for rankings on openrouter.ai.
"X-Title": "", # Optional. Site title for rankings on openrouter.ai.
},
# pass extra_body to access OpenRouter-only arguments.
# extra_body={
# "models": [
# "${Model.GPT_4_Omni}",
# "${Model.Mixtral_8x_22B_Instruct}"
# ]
# },
messages=[
{
"role": "user",
"content": "Say this is a test",
},
],
)
print(completion.choices[0].message.content)
```
## Using LangChain
* Using [LangChain for Python](https://github.com/langchain-ai/langchain): [github](https://github.com/alexanderatallah/openrouter-streamlit/blob/main/pages/2_Langchain_Quickstart.py)
* Using [LangChain.js](https://github.com/langchain-ai/langchainjs): [github](https://github.com/OpenRouterTeam/openrouter-examples/blob/main/examples/langchain/index.ts)
* Using [Streamlit](https://streamlit.io/): [github](https://github.com/alexanderatallah/openrouter-streamlit)
```typescript title="TypeScript"
const chat = new ChatOpenAI(
{
modelName: '',
temperature: 0.8,
streaming: true,
openAIApiKey: '${API_KEY_REF}',
},
{
basePath: 'https://openrouter.ai/api/v1',
baseOptions: {
headers: {
'HTTP-Referer': '', // Optional. Site URL for rankings on openrouter.ai.
'X-Title': '', // Optional. Site title for rankings on openrouter.ai.
},
},
},
);
```
```python title="Python"
from langchain.chat_models import ChatOpenAI
from langchain.prompts import PromptTemplate
from langchain.chains import LLMChain
from os import getenv
from dotenv import load_dotenv
load_dotenv()
template = """Question: {question}
Answer: Let's think step by step."""
prompt = PromptTemplate(template=template, input_variables=["question"])
llm = ChatOpenAI(
openai_api_key=getenv("OPENROUTER_API_KEY"),
openai_api_base=getenv("OPENROUTER_BASE_URL"),
model_name="",
model_kwargs={
"headers": {
"HTTP-Referer": getenv("YOUR_SITE_URL"),
"X-Title": getenv("YOUR_SITE_NAME"),
}
},
)
llm_chain = LLMChain(prompt=prompt, llm=llm)
question = "What NFL team won the Super Bowl in the year Justin Beiber was born?"
print(llm_chain.run(question))
```
***
## Using PydanticAI
[PydanticAI](https://github.com/pydantic/pydantic-ai) provides a high-level interface for working with various LLM providers, including OpenRouter.
### Installation
```bash
pip install 'pydantic-ai-slim[openai]'
```
### Configuration
You can use OpenRouter with PydanticAI through its OpenAI-compatible interface:
```python
from pydantic_ai import Agent
from pydantic_ai.models.openai import OpenAIModel
model = OpenAIModel(
"anthropic/claude-3.5-sonnet", # or any other OpenRouter model
base_url="https://openrouter.ai/api/v1",
api_key="sk-or-...",
)
agent = Agent(model)
result = await agent.run("What is the meaning of life?")
print(result)
```
For more details about using PydanticAI with OpenRouter, see the [PydanticAI documentation](https://ai.pydantic.dev/models/#api_key-argument).
***
## Vercel AI SDK
You can use the [Vercel AI SDK](https://www.npmjs.com/package/ai) to integrate OpenRouter with your Next.js app. To get started, install [@openrouter/ai-sdk-provider](https://github.com/OpenRouterTeam/ai-sdk-provider):
```bash
npm install @openrouter/ai-sdk-provider
```
And then you can use [streamText()](https://sdk.vercel.ai/docs/reference/ai-sdk-core/stream-text) API to stream text from OpenRouter.
```typescript title="TypeScript"
import { createOpenRouter } from '@openrouter/ai-sdk-provider';
import { streamText } from 'ai';
import { z } from 'zod';
export const getLasagnaRecipe = async (modelName: string) => {
const openrouter = createOpenRouter({
apiKey: '${API_KEY_REF}',
});
const result = await streamText({
model: openrouter(modelName),
prompt: 'Write a vegetarian lasagna recipe for 4 people.',
});
return result.toAIStreamResponse();
};
export const getWeather = async (modelName: string) => {
const openrouter = createOpenRouter({
apiKey: '${API_KEY_REF}',
});
const result = await streamText({
model: openrouter(modelName),
prompt: 'What is the weather in San Francisco, CA in Fahrenheit?',
tools: {
getCurrentWeather: {
description: 'Get the current weather in a given location',
parameters: z.object({
location: z
.string()
.describe('The city and state, e.g. San Francisco, CA'),
unit: z.enum(['celsius', 'fahrenheit']).optional(),
}),
execute: async ({ location, unit = 'celsius' }) => {
// Mock response for the weather
const weatherData = {
'Boston, MA': {
celsius: '15°C',
fahrenheit: '59°F',
},
'San Francisco, CA': {
celsius: '18°C',
fahrenheit: '64°F',
},
};
const weather = weatherData[location];
if (!weather) {
return `Weather data for ${location} is not available.`;
}
return `The current weather in ${location} is ${weather[unit]}.`;
},
},
},
});
return result.toAIStreamResponse();
};
```