Created
March 2, 2017 17:45
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| POST /api/v0/add?stream-channels=true HTTP/1.1 | |
| Host: 127.0.0.1:5001 | |
| Content-Type: multipart/form-data; boundary=vbNQlQuZdKfTjjtbZJkz7mw01rFSC9aI | |
| Transfer-Encoding: Chunked | |
| Accept: */* | |
| User-Agent: Swift IPFS Client | |
| Accept-Language: en-us | |
| Accept-Encoding: gzip, deflate | |
| Connection: keep-alive | |
| A00 | |
| --vbNQlQuZdKfTjjtbZJkz7mw01rFSC9aI | |
| content-disposition: file; filename="/Users/teo/tmp/ipfssized.txt"; | |
| content-type: application/octet-stream | |
| content-transfer-encoding: binary | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it | |
| A00 | |
| possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high. | |
| --vbNQlQuZdKfTjjtbZJkz7mw01rFSC9aI | |
| co | |
| A00 | |
| ntent-disposition: file; filename="/Users/teo/tmp/ipfssized-2.txt"; | |
| content-type: application/octet-stream | |
| content-transfer-encoding: binary | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes | |
| 9DC | |
| of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high volumes of data with high efficiency. And zero duplication means savings in storage. | |
| HTTP is inefficient and expensive | |
| HTTP downloads a file from a single computer at a time, instead of getting pieces from multiple computers simultaneously. With video delivery, a P2P approach could save 60% in bandwidth costs. | |
| IPFS makes it possible to distribute high. | |
| --vbNQlQuZdKfTjjtbZJkz7mw01rFSC9aI-- | |
| 0 | |
| HTTP/1.1 200 OK | |
| Access-Control-Allow-Headers: X-Stream-Output, X-Chunked-Output, X-Content-Length | |
| Access-Control-Expose-Headers: X-Stream-Output, X-Chunked-Output, X-Content-Length | |
| Content-Type: application/json | |
| Server: go-ipfs/0.4.6-dev | |
| Trailer: X-Stream-Error | |
| Vary: Origin | |
| X-Chunked-Output: 1 | |
| Date: Thu, 02 Mar 2017 17:44:22 GMT | |
| Transfer-Encoding: chunked | |
| 60 | |
| {"Name":"/Users/teo/tmp/ipfssized.txt","Hash":"QmUwDoyhv8Sr9sCt2uYgwHs3LcPcZwcqMwQ57C7YJV5SGG"} | |
| 0 | |
| X-Stream-Error: multipart: Part Read: http: invalid Read on closed Body | |
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