package opensea import ( "encoding/json" "fmt" "net/url" "strconv" "strings" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/log" walletCommon "github.com/status-im/status-go/services/wallet/common" "github.com/status-im/status-go/services/wallet/connection" "github.com/status-im/status-go/services/wallet/thirdparty" ) const assetLimitV2 = 50 func getV2BaseURL(chainID walletCommon.ChainID) (string, error) { switch uint64(chainID) { case walletCommon.EthereumMainnet, walletCommon.ArbitrumMainnet, walletCommon.OptimismMainnet: return "https://api.opensea.io/v2", nil case walletCommon.EthereumGoerli, walletCommon.EthereumSepolia, walletCommon.ArbitrumGoerli, walletCommon.OptimismGoerli: return "https://testnets-api.opensea.io/v2", nil } return "", thirdparty.ErrChainIDNotSupported } func (o *ClientV2) ID() string { return OpenseaV2ID } func (o *ClientV2) IsChainSupported(chainID walletCommon.ChainID) bool { _, err := getV2BaseURL(chainID) return err == nil } func (o *ClientV2) IsConnected() bool { return o.connectionStatus.IsConnected() } func getV2URL(chainID walletCommon.ChainID, path string) (string, error) { baseURL, err := getV2BaseURL(chainID) if err != nil { return "", err } return fmt.Sprintf("%s/%s", baseURL, path), nil } type ClientV2 struct { client *HTTPClient apiKey string connectionStatus *connection.Status urlGetter urlGetter } // new opensea v2 client. func NewClientV2(apiKey string, httpClient *HTTPClient) *ClientV2 { if apiKey == "" { log.Warn("OpenseaV2 API key not available") } return &ClientV2{ client: httpClient, apiKey: apiKey, connectionStatus: connection.NewStatus(), urlGetter: getV2URL, } } func (o *ClientV2) FetchAllAssetsByOwnerAndContractAddress(chainID walletCommon.ChainID, owner common.Address, contractAddresses []common.Address, cursor string, limit int) (*thirdparty.FullCollectibleDataContainer, error) { // No dedicated endpoint to filter owned assets by contract address. // Will probably be available at some point, for now do the filtering ourselves. assets := new(thirdparty.FullCollectibleDataContainer) // Build map for more efficient contract address check contractHashMap := make(map[string]bool) for _, contractAddress := range contractAddresses { contractID := thirdparty.ContractID{ ChainID: chainID, Address: contractAddress, } contractHashMap[contractID.HashKey()] = true } assets.PreviousCursor = cursor assets.NextCursor = cursor for { assetsPage, err := o.FetchAllAssetsByOwner(chainID, owner, assets.NextCursor, assetLimitV2) if err != nil { return nil, err } for _, asset := range assetsPage.Items { if contractHashMap[asset.CollectibleData.ID.ContractID.HashKey()] { assets.Items = append(assets.Items, asset) } } assets.NextCursor = assetsPage.NextCursor if assets.NextCursor == "" { break } if limit > thirdparty.FetchNoLimit && len(assets.Items) >= limit { break } } return assets, nil } func (o *ClientV2) FetchAllAssetsByOwner(chainID walletCommon.ChainID, owner common.Address, cursor string, limit int) (*thirdparty.FullCollectibleDataContainer, error) { pathParams := []string{ "chain", chainIDToChainString(chainID), "account", owner.String(), "nfts", } queryParams := url.Values{} return o.fetchAssets(chainID, pathParams, queryParams, limit, cursor) } func (o *ClientV2) FetchAssetsByCollectibleUniqueID(uniqueIDs []thirdparty.CollectibleUniqueID) ([]thirdparty.FullCollectibleData, error) { return o.fetchDetailedAssets(uniqueIDs) } func (o *ClientV2) fetchAssets(chainID walletCommon.ChainID, pathParams []string, queryParams url.Values, limit int, cursor string) (*thirdparty.FullCollectibleDataContainer, error) { assets := new(thirdparty.FullCollectibleDataContainer) tmpLimit := AssetLimit if limit > thirdparty.FetchNoLimit && limit < tmpLimit { tmpLimit = limit } queryParams["limit"] = []string{strconv.Itoa(tmpLimit)} assets.PreviousCursor = cursor if cursor != "" { queryParams["next"] = []string{cursor} } for { path := fmt.Sprintf("%s?%s", strings.Join(pathParams, "/"), queryParams.Encode()) url, err := o.urlGetter(chainID, path) if err != nil { return nil, err } body, err := o.client.doGetRequest(url, o.apiKey) if err != nil { o.connectionStatus.SetIsConnected(false) return nil, err } o.connectionStatus.SetIsConnected(true) // If body is empty, it means the account has no collectibles for this chain. // (Workaround implemented in http_client.go) if body == nil { assets.NextCursor = "" break } // if Json is not returned there must be an error if !json.Valid(body) { return nil, fmt.Errorf("invalid json: %s", string(body)) } container := NFTContainer{} err = json.Unmarshal(body, &container) if err != nil { return nil, err } for _, asset := range container.NFTs { assets.Items = append(assets.Items, asset.toCommon(chainID)) } assets.NextCursor = container.NextCursor if assets.NextCursor == "" { break } queryParams["next"] = []string{assets.NextCursor} if limit > thirdparty.FetchNoLimit && len(assets.Items) >= limit { break } } return assets, nil } func (o *ClientV2) fetchDetailedAssets(uniqueIDs []thirdparty.CollectibleUniqueID) ([]thirdparty.FullCollectibleData, error) { assets := make([]thirdparty.FullCollectibleData, 0, len(uniqueIDs)) for _, id := range uniqueIDs { path := fmt.Sprintf("chain/%s/contract/%s/nfts/%s", chainIDToChainString(id.ContractID.ChainID), id.ContractID.Address.String(), id.TokenID.String()) url, err := o.urlGetter(id.ContractID.ChainID, path) if err != nil { return nil, err } body, err := o.client.doGetRequest(url, o.apiKey) if err != nil { o.connectionStatus.SetIsConnected(false) return nil, err } o.connectionStatus.SetIsConnected(true) // if Json is not returned there must be an error if !json.Valid(body) { return nil, fmt.Errorf("invalid json: %s", string(body)) } nftContainer := DetailedNFTContainer{} err = json.Unmarshal(body, &nftContainer) if err != nil { return nil, err } assets = append(assets, nftContainer.NFT.toCommon(id.ContractID.ChainID)) } return assets, nil }