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42 lines
1.6 KiB
Python
42 lines
1.6 KiB
Python
"""
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In mitmproxy, protocols are implemented as a set of layers, which are composed on top each other.
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The first layer is usually the proxy mode, e.g. transparent proxy or normal HTTP proxy. Next,
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various protocol layers are stacked on top of each other - imagine WebSockets on top of an HTTP
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Upgrade request. An actual mitmproxy connection may look as follows (outermost layer first):
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Transparent HTTP proxy, no TLS:
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- TransparentProxy
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- Http1Layer
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- HttpLayer
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Regular proxy, CONNECT request with WebSockets over SSL:
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- ReverseProxy
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- Http1Layer
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- HttpLayer
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- TLSLayer
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- WebsocketLayer (or TCPLayer)
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Every layer acts as a read-only context for its inner layers (see :py:class:`Layer`). To communicate
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with an outer layer, a layer can use functions provided in the context. The next layer is always
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determined by a call to :py:meth:`.next_layer() <libmproxy.proxy.RootContext.next_layer>`,
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which is provided by the root context.
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Another subtle design goal of this architecture is that upstream connections should be established
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as late as possible; this makes server replay without any outgoing connections possible.
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"""
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from __future__ import (absolute_import, print_function, division)
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from .base import Layer, ServerConnectionMixin, Kill
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from .http import Http1Layer, UpstreamConnectLayer, Http2Layer
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from .tls import TlsLayer
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from .tls import is_tls_record_magic
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from .tls import TlsClientHello
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from .rawtcp import RawTCPLayer
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__all__ = [
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"Layer", "ServerConnectionMixin", "Kill",
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"Http1Layer", "UpstreamConnectLayer", "Http2Layer",
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"TlsLayer", "is_tls_record_magic", "TlsClientHello",
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"RawTCPLayer",
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]
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