I’m working with a large byte string in Python, and I’m having trouble understanding how to decode or process it. Here’s the byte string I’m working with:
data = b'nx18WV-mUKO4xoWKy9M4ZzRyNrP_x12xf9x0c03AFcWeA6A09jPzb5qrurdHl5kHgTGk8ejKJ8zjCb8T_3Ir0tyXoXOtGtRro9ozDjDA4Dgw764ek-W4IwO_3k-UpRTN9LWoevodR_A-efeORQF7orh8hgWkOHl4P1s_Dgou7Q4EfBMHGOIb_r5YnXWVU1JgK8EM06d36fvbVXLYX0K0ukY7wneTkn6RVAJ4GCFyjKTliz4_Hlsub3sGKxvYCCLzEpqfnu0M5VaLqB_6Rl2pTyxMjH5cBNrUgos0xBsZUut1z_8i3S0eByCGZuAdFiHlvFFvl3Nx-9aCA0oU70xLA8MrlTcMCdwz0mBwtUOeYf_IqB2WbUYmTL6N-CocD5d9c5Dlt3OL-chtfaol2d7Xv1TyX7JJcl6nphvtFbUtMYOSNf-2XNP7qsYAKYd1hFkRzLQw9AeBcYO0oaNnsMN8zZM5yJxCaaF3BHzFozqTVNubEW_V6dUQnh2qjsE0wi7ZEhKyHDqpN11UmXYlmgghfr2_6-KrPwRjvHjqr9TxkhqQ1eKgNS1EOdTjPZc6GorHwA8a9yVwSxvxQiCtMrCfdQL65hRKG5mRTH8pwFhx5dN7h8ZV3z1cPM-sdYka52q1LqZSGKd7Wru2yi4JbEmBixT7QShDNCzGeLudXHbQkwZpViwQedg1dj8Crjq4Q-pnBsjV3uLMJqgfZJwj68jCW2aXNcaEiXL314snTmo1__Y7QdeeXIC-8WTInCcRvcVajdwAIJY1vduiwQttQ1Mc-JV6kBNhLp6cA-4lpICFk1fOlh2582wSUIM0IHn_aOX8I5PnqtrSAoLUtw7Miivg_rath2gfd7yHZyYy0jaRZ_JM8XpmyKhu6BMmL5JNc02D13wOWW5fVZPmo5EX2qHuYXEEPW3zDYOU4BHeG95Hq0-4I9K3ZfKiBuzCCWmTSOicK-LnP1T5iJnn6Fj789AwE3lPVtucrah8F3IjJRjnZnqnKllXECQDI3vscTvJmf4DOv9siCG84ZHNnEG6p3VkFhaqbDJ-3wo1t8fZcbNJ7XODfisaZhrPcNN6KnCLHDzV9rY7frKH0gLCSHZd-O8lUf6DQjV_po_-eIpeVjSFbdRvTAMMtsZWK_YHQ_KF_65cmEFK8ucDE8kQyYGXsWlho3rtUvGKoqwGE1KBQDKdo-k2lzFGTPGmAJ7bDj9Q4ldYl_WKWllHkBRt3AMjhCp8Tx4sFZkRfmFobMv04Lw3SKHtUO2yFg5jlNj6Whxm0vLsEIkNWkTCMcgZpZ9oLjodm8xuCNKLoGBBnnMFRSK5wcvVM5O1zp-0Pm5U9oYZbLII7sbSEsKzV1Jg5skjKKu87_9FoNIG1uDzLYKXIt7g_deNkjhLNan6qGUuDjVlHau1ybS8Y2X4zjgjxfeY2-YrUsOIsGraUq9IIm1oPwUH_0-MBOY3rk_BXq3_GvXKqONwzXo0E-sMZfBluYJ-p4HPuyAOC_zjAqipRa-VCxxDkjQSY46J-A9gp2yCIaPxH_TmlZ-unxNSjbe4tDdeRWvAoEiCFDOTVLy_kptRG6dD2vvhQz47joG4m04OMMm4bbrYVAr29riJqKvq3Kq-5NyL3ZS1iS7fykwzgeWdK0xKTmk99ofxt8AM5Dpb7aTkRnNrly64WEG1wzl7rvMehxPGL_99lAhLQ4"xect!trCgsLUKAAQeB39bbQEHewB1GJCSiYnpEMxOkaJngSira3pLLXsZx-ht_hNuq7u2eNDiUqCnr1u9JJvnRDmHZjii4ZmCV1dGITAVFf4-PFVFsznBX1vVTecWEGIxhwXmyuBwIhrdbOdsdBt0HeuDpZ_qQZK7I-NjRRTo4IiVN3C7uuhVqsaDDwHVofoV8550E_e0Htnly1sXWRiLTJ9lrO7OgEQil6Mhg24qCGiiFTamSYCPOU6bjJL7SmFgxn7B5BLuPwwRn_Q_FtWvy-nTA67EJjE6P5QV0qPyYakAQrOFogkoliqITMuXAQyfDqIuvnm7nIiYxwI3IDvbpHU4FtzQXEwXf23eFbP8FvvpRPfkqcQgn_5nOXfnmkw7gLru7IORZeBhMBSo7mWeviipUI96KjVKhqu97wkZgGJEWpyEP7oQf8UIFfkE4tDgj8SIAk53s5R5clu-ynNXyvWCtv7ZMXZNM1CS21dLN7p70RZzBof6D5n-_AiS3K3q_OnL2vyuMPq9fxWZMR4XU96Hnm5-TBUgQAbtjxIGjfyQ-soIpcnekYEri1bxoMYuwzHSPceEAcm4VhPjDlC1KLwLBgJ2qIINQR49wWSPC4wWQn2ToCxEvrkTlIQZAUPx9nE-X12btj034FfpG2kbkLfkywjGGtk7L_QUA5zBOQk1wZNWXu1Pto6bXdZErYr15CXeF4JnhzaAh6PbnhKJyYGAcr8AL_fjIoDu1ba2jiLjod_Rofh3cqNM3Mscwg-ceXTxn341AGp2v4js3E7bHSOQqC2aSilRnooEyPd0FsApzpwBTkAOLLtWx2P-v4qnQthWqc1seZexG77mC-9jf99vBkiaw_wfFcd5kC4uX65LPwE8pcs_v1PK5yg8MR6Ch2_inATC6QlAgZhCj0FPQU6gNWFTsTgPqSZGP8X6rqdrzn5ccfGcXHfYWNNTEnC_d7SmNLK-6RpdqONfsaIitfwkwA9PrxnrZJql3r4KnGc0gFlaOnnocXdGKG2Vhy4mBLNw6pQF4NGJcBwB6arqtWSbe7EZHY5-emykN7ZGOrTqWZ4gGtLeuiwYR6dv3ZslS-sQSFClW8JP-PJABZjdqGWTjoOFeYKV5ppAA6YJ1L3UXUoY5m4m6cww7xIKnQKjoBewfvCq-F2E86DKBjVBxUfFeWHjozB_RRmw_I8gxJCD45Fs7nN8Y1VRMO9gBEeUNNT2-xIkOu161QNMa8BvjvwOVrOxyFnzVClRWMlTx1896E0*t8832907772x01qBx06submitr(6LedKGcaAAAAAAoa6ZexlZvQvn5a5dAWibCz16_Vx82x01xa0$02YN4YTocvuLLpIYoTDUO8JK2n3ha_NTI245tPioR7hL71LZYfGU-IMLmz6iKLFA5EvSWuqN8XgAkDebIao53UDLU-OG6nD5iSyQGqMy1jnASI8zRxZR4YFhLLOrIlIx9PzMcEvvKq31tLlQw4cSrt49iIwQD_Lh_ZVpo_hvMtZBodV5BRxHm2MmGbkpYI-bomGpWemM8HsDkzaaIKk43EPKUuKF6XP4iC-TGaIx1TjDS9t-4mjxgSSIEprdggjhHG_Tg0bJydjkpGt691qpjNTgbEs25wItNXj0f3d_HkllUUgwj-7fMn4ZBTgbqzs2HeHAhNOTjs8SmkVMNCBbxu39zc0QfGtTpxq2ULEYI-vnUoo5dEPzjzKaLZlI3EB_Q4YqsgntoOQPtzXxoUTcW9dK-ooWLPE32GO2-xoePbC76APzFyJF5FgLr0q-WbFg9FyXW55CyeoFD-ubNtJN1UDwgAgm6y3R3eWZJNOvYo3RzYD9G--i4wpqPNxngzLOcfVs2Igbn76CxWnxiRTfEsJeAWz0aBurL04SVPmAWOcaymYFkQhwI7MzVhpdAYhj99MvZw31RQwQiBduzpXIkEPnbw596ZkoqM-T1nsCYe20aP_7a07ueaUkMHu7TyK1qdTU9FOLJuVZCKwz00KyYfFllFifQ8sq-kI9eUyPtzt55eXhj8NzDqY9xRjIW9f-wwWqMglo_1MCpjXJSKhb61-OUpU5wYxPWwqmQb1QsGPzY5ZanUHJGS9jErZNvWC4a_tjnmKlSdEEtBf7OyI6YfVk32uWfvJ5YOE8x4MWxZFA5IPreuqaKZHMkNd4AzbKFnmE-RBXl68SiXTxSF8KunXpgPR0A4ceogm5TNTvs_abIlnyAZwQDCb2irV1OKA8b6al6cH9KFBbX2tGzYkwUL9u8mnx7X1MF-NzHwH92VTY_283jlImKZQ_axq-TclMwHADb6Zq-p4BiBBW-4LV3lzcYDOTSvZqkZlpEDgeijnVcPBv45MmmsWJzHD4RF6SQeVxDIPrmya2zZHUeQCEQ9NyikHRiKh385rGBVXEvMBb7z55td1UqKePRrXWWYTI6-_vEtn13NQX_-8jQsYJxJScLBLB-eYNTMAPTzrKTcHYpGg3a1LKRYWo6_dX3uoZna0I5EMHSqXmNQQ0s1LapvF5STvzQvKiGa0kzDPLSrp1_YGcYKdL0zM1aRi8T8tOwnH9haRo-JwDihJU-YDAPDP2xsU46JwLnyKmSb08wDv3fucd4iTJUGi_cq6qXaVgwB_Dv05Wbez1EDebdxYaNRks73M7bhWaISRHw5tTXdYpeQv0hxOqza4M5ChMP-Ma5dW9hAefB5LVvjmtJDdnm1Yl-fh4X_gDauYyCW0cI9bi3vo15WyHUwK-PcFQxFPrduJSDZT9N_g-42pG2eFlOFfOqln1jRCQL6NGylWpXNRwj1OWOsH1YJPjky7SWeU46H_kHuMlylHhd-ubPsZJ7UDwgAwm63seggiQ13gDS2pybTh8xGePFxIBnPkghD7OXmnqDZj0I5uCep5RKDxLT_dq-lFVfHivf0Kl-YlM0Fg7Vt69hcmImH_-pooZlSRsRD9SrtZhHZQkfCs-MtmlpOijx_9ixfYNDGwEOysGJjEoqG_--xp-HgDcI8tTvr5VvcTM--7u_lnuKRzsI89S2kohgThUX38XMmUhzVi3p9rF7d1I2GPn92Y-jjkktKdTT0JiVbzw84vrLqrOUYTH52_a-lJdDRRwf_8vAkZZvEigJuKCakF46Nx_ps4yxc2UZDRrfucF-Qlg5EOiupY-EOzUe7-bQxJyAWUDqAMjBtXhaHh768byWelooVAkHsJuNnnguOfQCx7mQh3QhJ_jzr4t2hFhHH8Oki49SYws6F_LKoG2FWD0M-tWLj4FDOBcF8LeuXEFHAhj5z9SQclgtFBbguH6IhSQ-IhDurKJhTxr6F7ukxmNoSDon08XXeXxnTwr81tLJq45lMP7h-Nl6bmg4Pt_ivbNkRkFFFgPSmXhWeDAB_OHAqKtwZCE27MeWnnY8RUf_6Kmep5NrE_Hm6tWZWlpSQgv3vKyPTHY4Bgm9tI56cTwgAPrP1IlSb1YUFtWjm4ZmPEEO6ObVg3FHMx7e39GmZlloOu7t85GMbVEbERr34aSHblgyK-X4sbx1OQr23cOng2BPMTfo-aLEkXtZOC__6Ma4dzomD_bQtJB8X0BJ-gu01pmHjkgfAefMmrKVgU8jKfO9nIRNYEsE5tHgtl9xOCfo7tCrgHNCShL-_-SEb3hTPPnb8tWGcXpMGg2-uZOagjYv6Pvmn4Z4bEr7DgHRypqIWB3_0cGhsVtPTyP579GgmngoLwDixJuOenIwFBL85qOYTj8qD-_pm3Z3cTkwKsPcqaBiMyk3HPmptYBZOhXi3bmZqmgySSER6pm1e0Q1GPfvyZuOZjNREfe7vJuNV1324smwjnZMOBv8BbbHcJKMSzfrCPazqJRlVzvfzt59gGY7UQfz8dipWHRc7Ni_oINkSCwO89W2jn1fOUf4CbLUxpddHAjx0rOdcl5BISvc7Za4hk1HUyQEtZaLcm1eKeX3v71xUXgv9Qiz2rCfgykxDgrcyIpgZDIoFtu2nqNxXA0d-c-ntmM0OvsL2uGtfHxBQBzrnopxWTwa9ODDo61ebxg6AxDHkYyafTAW_8LjtmyGOislFa2VvZ1LPjkT-LaXsG1SIA0UyZeQaoFXOeXJqptaRi8V99mwnH9faRor1PbQmqpveBIY7sjPf518Iwcj6eXGiIdGOD4g_-FuWkEoB-rEsJNzfS4_6ArfnH-UZVv45M2vl3BOOh39B7ijgGVIIjPc_sfTe1k5Pj4U7be6fYssMybArJN5XTkWAuXEz4CROj0pFuX5srN-gjkS9QzCxIpQYUwJ36aSeWFFJwnjx6-MbUg3GfMBssNsjlslI-bovI6VY1pN9vTworVzeWYHAA_Rsap5eRQz8fGzmWWJZiMLDZ6KcVc9H_Tgw6GtXm8YOgzd1dSMi1A7_uP-1qmfRjob7Qn4uah3WTg4HQfHp2ZwRy81wq6XemA9GATnxNGCkzw_LPMS-cd7jn9TPfj-xIquUCAM89y7nHZdPiAv4PGavIWNbykWF--zoYNWJCAD_96prJdrOz8c7cSBcnVVTxv0xrKkbX1OFtzf5oSIYDpDCA7Blrl5OzX3DtaywH-QZE0uFaKOdVw7Hfjkx6KxYnMcPu_pyMiPjywYAebDqoJuUDU77BD50rRWZ0k-JwDihGpILgzk-tfYraZPREodzcKmpZU0XA_2ANh7qIo7FhvNu9RwYnwmGhP15cdbgD44IhPsjrGTTVkN69nntapsRijlAO-SmnN2PTIEBdSzhnxCKisT-NSzfzhjNvDF34WgXjwTOBbSrHyVYFQRJdS5wq10SCD2CqbDdJiBWjzeAuvEpkhZTjcQ8pR7ZTog_tYC2cFuZWtQDsjllrqjfF4AJA3myGqOd1Ay1OXaw5x-IAvkyqiAj3ZmXUIB-aKUq0gz-hfI7NWukDJWPxj6nK2ii2RG6M-sknBIaRr8BdbHw6pMRQ_zFOS3ipNbKQvS76Cxpo9oSuzTsJp0TIRRIunkzM9ycGY5GNTrwKJgcVkfH9vnkJSIWlgGIOCuvaJba0oPEca9lHpLOTP1zq2FqX1uIRkQ4rajnEsWFvXX15xoh2ZS_gnf2LeHb1cc-9-ovnuLYiknEOW2slh8XBMVxOOYiHplIPYBxdaSbn9EAhPHlrNkdWpTLA6wl3RaOBAF3e3Yi5JRaUMX5bbKoJZHIiElxuuFnn9lKB4S1OO0l2VCKA3N3rOoYjpQN_3gpL55WCkk8A2vwrCDWEg_Ab20p3VZSywkFujVtVtIUvn7v8a8aWI8UTTmzbCbnX8eAvwGqI2HZU4QCeHG07VYVVECIvPtzahfRUYY08y-kZV3K_IPwNHGr4hqDPPQtpRsbnM0TCrazqmydGsf5gO0xbqjfF4A58SqiGCBbBP53PHmuWd0aQUbzNOlllVNGBf64MN_gIJoTPHe57aKkF5CHvLm1p2DS2sr-duiv3CBdl84GryigGhQJv7y1OrOmZBbRCAq9MnJcF1KUyXZ5q2VhGVPIe_RmLVmd2xVLhCymXZeOhI4CfC-r4BVblgo6dvWspR7WyUn28TCg10kQfID-OG6nD4kAuvGnpJ1cWtHHxHyspNqSy0-KN6_sX9hKEX2B_zlvqBCKAbwyqK7kZlUOTLxCqSgkF9lJRTiz7qLloE9AvUGqsSHjFAX-BPuv658hVMB8-TX0alpa0MN1-fRlW59GxfqDOyTnYNRVvja9dejkl43GA_t6tGoiXBTN9nyr6CiakZBAufNv5NlUl8YEe3af3iASDH_3cvFe319KUQb_qS-jGs8L-zOwZqWan9cBAYK2ZyBaFxS9-HUtMCaTGE38Qqrxmp0VVIv2ba7d1VaWRLlAsWLrWRAQyj60t2XcohZAyrizLOIYXE6Gdv8vp2mZDslHOWwqaaHcEUcAu3DnKRFNgoQzO-2spdaUy8X0dqSikZOIP8Dsal2mDEZNBv5rXSRcyRIMQrsjp9IS04TCP7Mwa1LRzAUF-SrvaFZPQvttKCHaU0zEPTXtp10Y0UfLQ8xa2x01xc4x04tbMywzMjE1LDIxOTJdLFsxLDI4NjQsNjA1Nl0sWzIsNDQ1LDkwMTRdXSxudWxsLFtudWxsLG51bGwsbnVsbCxbMjMsMi4yMjkwNzM5MTMwNDM1MDEzLDAuMDExNDkwMDcxNzE2NzE5MDgxLDExXSxbODQsMC43MzQ4OTY0Mjg1NzE0MjIyLDAuMDEzODM0ODk0NjY2MDY4OTA3LDZdLDAsMF0sWyJmb3Jtc2NjZi5hdWRpLmJlIiwid3d3Lmdvb2dsZS5jb20iLCJjZG5qcy5jbG91ZGZsYXJlLmNvbSIsImNtcC5hdWRpLmJlIiwibWVkaWFzZXJ2aWNlLmF1ZGkuY29tIiwiZG9oLmNxMC5jbyIsImZvbnRzLmdvb2dsZWFwaXMuY29tIiwid3d3LmdzdGF0aWMuY29tIiwid3d3Lmdvb2dsZXRhZ21hbmFnZXIuY29tIiwiYXNzZXRzLmF1ZGkuY29tIiwicGFnZWFkMi5nb29nbGVzeW5kaWNhdGlvbi5jb20iLCJkZXYudmlzdWFsd2Vic2l0ZW9wdGltaXplci5jb20iXSxbNyw1NjZdXQxb2x01xa4x1dBTAAYQIgDFSSA2IIKwkpCKQcAIlYggyEABtAg0AAEEGALzIgBRxCYyoJBFAIjkRNRRjEIQqABKYEIAFgqAhTbEBACBZQUBIJCPSC5QGAcIQEGmICABppABZISaGXhikAWkol4AqpEomFICAeQCCkQgAMUKFBChQAYZiVAAkEQIIAkwA4IURoYAasShgGEgACKEaqUAFAFAgQgJAEJcFjSgnVAEQIAAproEAQEEDC0AQSkAyWAAJAACoUMTAAFIsBkCIkEaJ4ToESUoRAiXsAXQgAASAgjAUCqAABAhaRZMQRBAAgIYlYBGhQgGNCwCQlSNUAEiwBAkQEDFosAAUJQEAJPLYUAAcoBkKOAgZEyg7ESUMAIGQcgQQABI5uLERgEoVBCBBiNGFjQUqASHUBfQMAYhMYJwE2ABMEAMDgiIQCAgALNIoR2oDAQFQSEEBAmkgCYqkwzgYjwBDBCaAGGCABKDAEAkAgBLFQGYBQmhK0E6iMAZEcQJgwVhQLBaUfNAhYYABCAFAcICtBAFGBNUAIwEIYrGEh0MKAMYCuAYMBAlWBahRCAgWkIEIhRBoCeCKRAxAECAgAkUAGMkBDUASqBKVGQICm5BxGA6wAIeEC4MBlKiGQQShwyIAECIFA2AARAoAJ8FyBFGTAQQkzCSQEUoAJEQRwhGAgcBYGHVAHNJ4UOGGBghAi5EEBBgXgCogIimRwIAQYRIGQIAINoGliqABGICiARgCitsAAQdRDEApqFWYQIHwggoCExCCpMAAIIhiFLKBGqQmhSQAIG0HSBEqwkQYCLxBH4FYhdwQBxPAECGAACGOHAiIDEAIgKBEQIo5BwgS4oSREACkSfgQEIAWQCrAgOOBABABoEDQBFACEECUkIcpxTghoAAlGMEpIscAIQBA8pZBmFBhQMATKD4IIGCjghEb1AI7EFhaYAkIBCXAiyiAUBtKaBAQJKEAQAMUSaoYeykvJEhCAeQAMDABokJlCQVoQCIfScRJYABgMBrAhFHoSEiDICSCAIQoigCCBlEVDHQCoAhY40AAGAiYJAwFtKIgCloGZAA0YCExIEgAKAQiEAuARCVwEEQggAZoAI4AFBmgCAg4CCBAHFIpwyPKMInFADAMQggA4QPoIAgFkCUCG3cBBQRzQt5QCgAQQEKwF63QUJJVCCQSwFiCcTBgKELtRREUQBapsoFwBhPAFCjUoexSJLGiQAiAEICBhMgkcQxL8YBCo4GyBgxQgrCTCsgiAMEAhaAILBBA0EJhaADIACKBKhAFQkSRARSYwkAAoMCaLSEQesoooADaAiJARIkOwQAThjIXGsIKAfOuwCBccCAESCChgkAkBAEDgAQKJUiiQ5AUMEi1gUUAIAIQJ8EIDOgQSGUKMHiwQIV0dRWURC4DAAAjINaA8yYCRM9LBOIgiBogMugjOlEKq92JWRgEAACWCBAEBQAKCBBACCICAWLtBAQzhYdBNKCjsdghIBRjUUeQhAEkIFAkQAICMpkEAjSCQItQEAgGzCaqQmQBwggAktaaRYRABxFghgYQBAIqAIUhCBhAERwEIoSQHADJCASUQGICAANIFDAGwSIRABECHSGEEAJRcKZAsqByAJBIAzUImhBpEjrACgBI4BgAESECyaAEAABMkASYiACGSEEawC5wpAVGIh6AAQfohCALUEhAAxQtIzgwAAqEiAA7RRQAgAkA6gFANAB2YEICOlCNZnIIAAAYIkAaAGqxFEjIShgEtAGSAWTABEzUQAYgJGBYIkLSQABIhxCA1EKCYLExQAUGAAEggIgJAQjBSZ8BB+RCwyKD8ARwIAAU1LisCMEQCApAFwIQ0EA2wFFACAgANQ0YI2BIBgAExSjmJRCRUAVkCMMR4lBSAACAAoAWAF4gEPgjVoaUDBDmBEAMqCDBABd8DAlACCkGlAYwtIKEUCAAGABAgEBgRIwA0ACoECHQBDAtLIwDymhBAgLDGioIAUiTCQEMAAoKBE4QgBEhhoAIMEphIEoYEQohJIAAJrAxCTIWAQ1G/UCAUOGnAlDFQAhUQwCQyEACBAQYIChqAAgDAkAIBUaDNKQQFiYCoAAAhAgBgJaBCiJkaAZAs5L8TABV1simjJKbB0TpcyAAEhIASYEgQgkFdAZIiQw+jByEAIASIhFbQUhimDMIIJAOpIAEglAAQQgJGACJAp5MARqkgQwYIEkCEwkwWTzoEyNlISUKIsL2kJABQeEyA+iWjhIHITKxBDBBk0AIDRCkAZAIBKBIGQAStYLJmkCBwIuUxmUAG2gEhJEAQTBgcJHCq0IBAoCQBIGRAIgCgVxVCMARRsCARCASItNACQgQqEGhIABKGgeBRSAYYCJlN1CkAAMGEUIGkMACgSAQIKCAgNRBBCII5RAQ0AQMNGNAAETLABIApALBAC2JECAoQIAETMQCBQHDBAUIBAAgQAAkIsAiI0gEQoQgAoigEYhTDLGEKJBICAAAogiI0mwBEEEIAwgJDCAHmAHWLQEkAUEAHCAGESoQEKBAiQwQiEAgIgB6Sl4REDAFAGwwiWJBmCAFAQBgBkgjRNtROECRHA5IfQoPUQIBdIEMIwB4toIUtlFBGxaRAGCQBKQkqCLKQAxMbFFhQDfEMTBAahFohLWhA4ngKAFBA5xQgQkhGAAxFgPQikgAFQxLBBIMkCIRRAmIIBfEEEEEP1yAQJQMGrwgHVGEJEACCAhACkMyABECIIaQA4AEBIAlTIkBAAAgWCIDY4BAgKKDQcDKCQhiiHmYIpHGASI2AFbpBiwjgOQCQQAsQBECAAA0IQAOeJsFBAYQXESxqAAAGBDTIRMumBkAmGAdCZKxICjw1FAIhHLiIKQYgEAOoNCGg5KEEACMNChCWhEgIBCAAMqC6toBGAIM0gIAAGwrg4qKBADIVCIQgCFWAUAQlBEJAAAAEFJHwQFjAEBEOGABmJgADjQKBkIgKlCCGaIPVzDAIC6YlOZBAFMBRQIgDKQECoJTLE/AeRAiGZYAhAwoRgGCBkUukIUEAUQRxgG0IIEIABwAVAOAJIUwCwAqARAAYoGAOBCCN5Dt2jIcAvABqQCGBYEEEBDUEirgSQUiAAspqCiABEAKYLDCiGBsOwmLgmnBoIgmDYEAxEUgCBHKjBQQgAABg4AgChUFIBQBBAAoNARMAOJQSABB6CAgKA4lRECvTogiqSALY1NjMAgIIE/8CRiiHAnABEQIyBBATAICJMYBCQBgSxoARBwQDRnDFAFEAUxAJBXAcAJD4h8ixCEAgC4P4JIA7bApEjhgKAQAyACEJYThIIRURQTWQFDEIRAwKkADAgRBAAJkOApmgQAAwEQkMA8BgFQwUAH5gIwAWkIvASRrCsABJD6sgv2RQYQgARAAwAIBRQPDWpTYhgA4wIIgaFFFDV0YCmMECgLSxGYQGJEKAwAKOSCJkEAQiqKFwQABhJJOAcUYgBCAAAAM8pUgpuBqBA++BEENqzX7KAogiCAIFgSYODwIwAmEKIl0hrgRRAkggYRBAAs3RGOEaEY5ESACJAhqDYAAIABAIQQBCh0CAuKgRhDCiWEEAM0CgFJAIChUI0SjggEkiggIJkS0GxCoUpgJg8laRRBxQmE0EoDBYCUE0WAogFVXKgpA6UFxtgkEQYyAICFVRYihKRCEoIEk1LAwhGh+Ug9UYgEBSAuoKSiADQABACxFmhGABASDFcHJALBEABlFAjUlEBQgnIlPYlAsUQTICJBmZiAIgBYCIxcax01:W1tbNTAwNiw3Ml0sWzY0NjA3LDNdLFs0NTQ2NCwzXSxbMzU4MzcsMl1dXQ'
convert this string to be very useful.