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@@ -2411,8 +2411,8 @@ any attempts to make the same call later will be allowed or disallowed
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right away. Because of that runtime log level evaluation should not
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significantly affect the process performance.
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Log definition parsing is only done once, at the first call to
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-@code{GNUNET_log_setup ()} made by the process (which is usually done soon after
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-it starts).
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+@code{GNUNET_log_setup ()} made by the process (which is usually
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+done soon after it starts).
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At the moment of writing there is no way to specify logging definitions
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from configuration files, only via environment variables.
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@@ -2576,8 +2576,7 @@ Pretty hard to follow, huh?
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From now on, it is not necessary to include the #if / #endif statements to
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achieve the same behavior. The @code{GNUNET_log} and @code{GNUNET_log_from}
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-macros take
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-care of it for you, depending on the configure option:
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+macros take care of it for you, depending on the configure option:
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@itemize @bullet
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@item If @code{--enable-logging} is set to @code{no}, the binary will
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@@ -2589,8 +2588,7 @@ no effect. Other messages (ERROR, WARNING, INFO, etc) will be included.
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@item If @code{--enable-logging} is set to @code{verbose}, or
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@code{veryverbose} the binary will contain DEBUG messages (still, it will
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be necessary to run with @command{-L DEBUG} or set the DEBUG config option
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-to show
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-them).
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+to show them).
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@end itemize
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@@ -8933,7 +8931,8 @@ independently of the frequency in the input set. Both an element that
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was put into the sampler a single time and an element that was put into
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it a million times have the same probability of being the output.
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This is achieved with exploiting min-wise independent
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-permutations. In the RPS service we use HMACs: On the initialisation of a sampler
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+permutations.
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+In the RPS service we use HMACs: On the initialisation of a sampler
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element, a key is chosen at random. On each input the HMAC with the
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random key is computed. The sampler element keeps the element with the
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minimal HMAC.
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