alguém sabe como acessar o msn via internet sem passar pelo bloqueador?
alguém sabe como acessar o msn via internet sem passar pelo bloqueador?
www.e-messenger.net
ele eh um msn via web, mas se tiver acls do squid bloqueando isso nao vai ter jeito
tststs respeite o bloqueio, politica de uso deve ser respeitada.
:?
Aê, manda o www.webmessenger.msn.comPostado originalmente por ReginaSantos
esse é bala!!!
Que pena, estes eu já havia bloqueado, alguem conhece mais algum
iuaheiuaheiuhaieuh....carak....moh mauPostado originalmente por gmlinux
Viu nada, eu ainda aplico políticas de banda bem baixa (delay pools) em sites que não posso bloquear e que possuem características de consumir banda....
Isso é interessante faz um tuto sobre isso ae pra galera cara não tenho visto muito material bom sobre isso por ae
issu seria legal bagarai... ter um tutuPostado originalmente por 1c3_m4n
:good:
Não tenho a manha de fazer tuto e o assunto é tranquilo.
Na verdade peguei o arquivo comentado do squid e praticamente só descomentei as opções e adicionei meus próprios comentários.
# TAG: delay_pools
# This represents the number of delay pools to be used. For example,
# if you have one class 2 delay pool and one class 3 delays pool, you
# have a total of 2 delay pools.
# vou usar 2 neste exemplo
delay_pools 2
# TAG: delay_class
# This defines the class of each delay pool. There must be exactly one
# delay_class line for each delay pool. For example, to define two
# delay pools, one of class 2 and one of class 3, the settings above
# and here would be:
# The delay pool classes are:
# class 1 Everything is limited by a single aggregate
# bucket.
# class 2 Everything is limited by a single aggregate
# bucket as well as an "individual" bucket chosen
# from bits 25 through 32 of the IP address.
# class 3 Everything is limited by a single aggregate
# bucket as well as a "network" bucket chosen
# from bits 17 through 24 of the IP address and a
# "individual" bucket chosen from bits 17 through
# 32 of the IP address.
# NOTE: If an IP address is a.b.c.d
# -> bits 25 through 32 are "d"
# -> bits 17 through 24 are "c"
# -> bits 17 through 32 are "c * 256 + d"
# usei class 2 para ambos os delay pools para o exemplo ficar simples
delay_class 1 2
delay_class 2 2
# TAG: delay_access
# This is used to determine which delay pool a request falls into.
# The first matched delay pool is always used, i.e., if a request falls
# into delay pool number one, no more delay are checked, otherwise the
# rest are checked in order of their delay pool number until they have
# all been checked. For example, if you want some_big_clients in delay
# pool 1 and lotsa_little_clients in delay pool 2:
#Aqui esta as regras, sites_abusivos e palavras_abusivas são ACLs
#pode ser por user ou outro critério de ACL
delay_access 2 allow sites_abusivos palavras_abusivas
delay_access 2 deny all
delay_access 1 allow ALL
delay_access 1 deny all
# TAG: delay_parameters
# This defines the parameters for a delay pool. Each delay pool has
# a number of "buckets" associated with it, as explained in the
# description of delay_class.
# For a class 1 delay pool, the syntax is:
#delay_parameters pool aggregate
# For a class 2 delay pool:
#delay_parameters pool aggregate individual
# For a class 3 delay pool:
#delay_parameters pool aggregate network individual
# The variables here are:
# pool a pool number - ie, a number between 1 and the
# number specified in delay_pools as used in
# delay_class lines.
# aggregate the "delay parameters" for the aggregate bucket
# (class 1, 2, 3).
# individual the "delay parameters" for the individual
# buckets (class 2, 3).
# network the "delay parameters" for the network buckets
# (class 3).
# A pair of delay parameters is written restore/maximum, where restore is
# the number of bytes (not bits - modem and network speeds are usually
# quoted in bits) per second placed into the bucket, and maximum is the
# maximum number of bytes which can be in the bucket at any time.
#
# For example, if delay pool number 1 is a class 2 delay pool as in the
# above example, and is being used to strictly limit each host to 64kbps
# (plus overheads), with no overall limit, the line is:
#
# os sites de abuso, individualmente pode usar 500*8=4kbps e
# juntos 5000*8=40kbps (eles ficam lentos hehehe sobretudo quando
# a galera acessa)
delay_parameters 2 5000/5000 500/500
# o restante dos sites, individualmente 10000*8=80kbps e juntos esta sem limite
delay_parameters 1 -1/-1 10000/10000
# Note that the figure -1 is used to represent "unlimited".
# And, if delay pool number 2 is a class 3 delay pool as in the above
# example, and you want to limit it to a total of 256kbps (strict limit)
# with each 8-bit network permitted 64kbps (strict limit) and each
# individual host permitted 4800bps with a bucket maximum size of 64kb
# to permit a decent web page to be downloaded at a decent speed
# (if the network is not being limited due to overuse) but slow down
# large downloads more significantly:
#delay_parameters 2 32000/32000 8000/8000 600/8000
# There must be one delay_parameters line for each delay pool.
# TAG: delay_initial_bucket_level (percent, 0-100)
# The initial bucket percentage is used to determine how much is put
# in each bucket when squid starts, is reconfigured, or first notices
# a host accessing it (in class 2 and class 3, individual hosts and
# networks only have buckets associated with them once they have been
# "seen" by squid).
delay_initial_bucket_level 50
Da uma olhada neste:
http://x8.iloveim.com
Falow !