mirror of
https://github.com/edk2-porting/linux-next.git
synced 2024-12-27 06:34:11 +08:00
fad0701eaa
Pull security layer updates from Serge Hallyn: "This is a merge of James Morris' security-next tree from 3.14 to yesterday's master, plus four patches from Paul Moore which are in linux-next, plus one patch from Mimi" * 'serge-next-1' of git://git.kernel.org/pub/scm/linux/kernel/git/sergeh/linux-security: ima: audit log files opened with O_DIRECT flag selinux: conditionally reschedule in hashtab_insert while loading selinux policy selinux: conditionally reschedule in mls_convert_context while loading selinux policy selinux: reject setexeccon() on MNT_NOSUID applications with -EACCES selinux: Report permissive mode in avc: denied messages. Warning in scanf string typing Smack: Label cgroup files for systemd Smack: Verify read access on file open - v3 security: Convert use of typedef ctl_table to struct ctl_table Smack: bidirectional UDS connect check Smack: Correctly remove SMACK64TRANSMUTE attribute SMACK: Fix handling value==NULL in post setxattr bugfix patch for SMACK Smack: adds smackfs/ptrace interface Smack: unify all ptrace accesses in the smack Smack: fix the subject/object order in smack_ptrace_traceme() Minor improvement of 'smack_sb_kern_mount' smack: fix key permission verification KEYS: Move the flags representing required permission to linux/key.h
689 lines
28 KiB
Plaintext
689 lines
28 KiB
Plaintext
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"Good for you, you've decided to clean the elevator!"
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- The Elevator, from Dark Star
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Smack is the Simplified Mandatory Access Control Kernel.
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Smack is a kernel based implementation of mandatory access
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control that includes simplicity in its primary design goals.
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Smack is not the only Mandatory Access Control scheme
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available for Linux. Those new to Mandatory Access Control
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are encouraged to compare Smack with the other mechanisms
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available to determine which is best suited to the problem
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at hand.
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Smack consists of three major components:
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- The kernel
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- Basic utilities, which are helpful but not required
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- Configuration data
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The kernel component of Smack is implemented as a Linux
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Security Modules (LSM) module. It requires netlabel and
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works best with file systems that support extended attributes,
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although xattr support is not strictly required.
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It is safe to run a Smack kernel under a "vanilla" distribution.
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Smack kernels use the CIPSO IP option. Some network
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configurations are intolerant of IP options and can impede
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access to systems that use them as Smack does.
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The current git repository for Smack user space is:
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git://github.com/smack-team/smack.git
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This should make and install on most modern distributions.
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There are three commands included in smackutil:
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smackload - properly formats data for writing to /smack/load
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smackcipso - properly formats data for writing to /smack/cipso
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chsmack - display or set Smack extended attribute values
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In keeping with the intent of Smack, configuration data is
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minimal and not strictly required. The most important
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configuration step is mounting the smackfs pseudo filesystem.
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If smackutil is installed the startup script will take care
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of this, but it can be manually as well.
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Add this line to /etc/fstab:
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smackfs /smack smackfs smackfsdef=* 0 0
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and create the /smack directory for mounting.
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Smack uses extended attributes (xattrs) to store labels on filesystem
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objects. The attributes are stored in the extended attribute security
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name space. A process must have CAP_MAC_ADMIN to change any of these
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attributes.
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The extended attributes that Smack uses are:
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SMACK64
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Used to make access control decisions. In almost all cases
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the label given to a new filesystem object will be the label
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of the process that created it.
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SMACK64EXEC
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The Smack label of a process that execs a program file with
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this attribute set will run with this attribute's value.
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SMACK64MMAP
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Don't allow the file to be mmapped by a process whose Smack
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label does not allow all of the access permitted to a process
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with the label contained in this attribute. This is a very
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specific use case for shared libraries.
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SMACK64TRANSMUTE
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Can only have the value "TRUE". If this attribute is present
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on a directory when an object is created in the directory and
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the Smack rule (more below) that permitted the write access
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to the directory includes the transmute ("t") mode the object
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gets the label of the directory instead of the label of the
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creating process. If the object being created is a directory
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the SMACK64TRANSMUTE attribute is set as well.
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SMACK64IPIN
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This attribute is only available on file descriptors for sockets.
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Use the Smack label in this attribute for access control
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decisions on packets being delivered to this socket.
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SMACK64IPOUT
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This attribute is only available on file descriptors for sockets.
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Use the Smack label in this attribute for access control
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decisions on packets coming from this socket.
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There are multiple ways to set a Smack label on a file:
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# attr -S -s SMACK64 -V "value" path
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# chsmack -a value path
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A process can see the smack label it is running with by
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reading /proc/self/attr/current. A process with CAP_MAC_ADMIN
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can set the process smack by writing there.
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Most Smack configuration is accomplished by writing to files
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in the smackfs filesystem. This pseudo-filesystem is usually
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mounted on /smack.
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access
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This interface reports whether a subject with the specified
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Smack label has a particular access to an object with a
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specified Smack label. Write a fixed format access rule to
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this file. The next read will indicate whether the access
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would be permitted. The text will be either "1" indicating
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access, or "0" indicating denial.
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access2
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This interface reports whether a subject with the specified
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Smack label has a particular access to an object with a
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specified Smack label. Write a long format access rule to
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this file. The next read will indicate whether the access
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would be permitted. The text will be either "1" indicating
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access, or "0" indicating denial.
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ambient
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This contains the Smack label applied to unlabeled network
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packets.
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change-rule
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This interface allows modification of existing access control rules.
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The format accepted on write is:
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"%s %s %s %s"
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where the first string is the subject label, the second the
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object label, the third the access to allow and the fourth the
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access to deny. The access strings may contain only the characters
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"rwxat-". If a rule for a given subject and object exists it will be
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modified by enabling the permissions in the third string and disabling
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those in the fourth string. If there is no such rule it will be
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created using the access specified in the third and the fourth strings.
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cipso
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This interface allows a specific CIPSO header to be assigned
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to a Smack label. The format accepted on write is:
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"%24s%4d%4d"["%4d"]...
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The first string is a fixed Smack label. The first number is
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the level to use. The second number is the number of categories.
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The following numbers are the categories.
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"level-3-cats-5-19 3 2 5 19"
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cipso2
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This interface allows a specific CIPSO header to be assigned
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to a Smack label. The format accepted on write is:
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"%s%4d%4d"["%4d"]...
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The first string is a long Smack label. The first number is
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the level to use. The second number is the number of categories.
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The following numbers are the categories.
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"level-3-cats-5-19 3 2 5 19"
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direct
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This contains the CIPSO level used for Smack direct label
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representation in network packets.
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doi
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This contains the CIPSO domain of interpretation used in
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network packets.
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load
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This interface allows access control rules in addition to
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the system defined rules to be specified. The format accepted
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on write is:
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"%24s%24s%5s"
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where the first string is the subject label, the second the
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object label, and the third the requested access. The access
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string may contain only the characters "rwxat-", and specifies
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which sort of access is allowed. The "-" is a placeholder for
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permissions that are not allowed. The string "r-x--" would
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specify read and execute access. Labels are limited to 23
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characters in length.
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load2
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This interface allows access control rules in addition to
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the system defined rules to be specified. The format accepted
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on write is:
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"%s %s %s"
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where the first string is the subject label, the second the
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object label, and the third the requested access. The access
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string may contain only the characters "rwxat-", and specifies
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which sort of access is allowed. The "-" is a placeholder for
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permissions that are not allowed. The string "r-x--" would
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specify read and execute access.
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load-self
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This interface allows process specific access rules to be
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defined. These rules are only consulted if access would
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otherwise be permitted, and are intended to provide additional
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restrictions on the process. The format is the same as for
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the load interface.
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load-self2
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This interface allows process specific access rules to be
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defined. These rules are only consulted if access would
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otherwise be permitted, and are intended to provide additional
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restrictions on the process. The format is the same as for
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the load2 interface.
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logging
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This contains the Smack logging state.
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mapped
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This contains the CIPSO level used for Smack mapped label
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representation in network packets.
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netlabel
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This interface allows specific internet addresses to be
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treated as single label hosts. Packets are sent to single
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label hosts without CIPSO headers, but only from processes
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that have Smack write access to the host label. All packets
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received from single label hosts are given the specified
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label. The format accepted on write is:
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"%d.%d.%d.%d label" or "%d.%d.%d.%d/%d label".
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onlycap
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This contains the label processes must have for CAP_MAC_ADMIN
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and CAP_MAC_OVERRIDE to be effective. If this file is empty
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these capabilities are effective at for processes with any
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label. The value is set by writing the desired label to the
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file or cleared by writing "-" to the file.
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ptrace
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This is used to define the current ptrace policy
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0 - default: this is the policy that relies on smack access rules.
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For the PTRACE_READ a subject needs to have a read access on
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object. For the PTRACE_ATTACH a read-write access is required.
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1 - exact: this is the policy that limits PTRACE_ATTACH. Attach is
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only allowed when subject's and object's labels are equal.
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PTRACE_READ is not affected. Can be overriden with CAP_SYS_PTRACE.
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2 - draconian: this policy behaves like the 'exact' above with an
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exception that it can't be overriden with CAP_SYS_PTRACE.
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revoke-subject
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Writing a Smack label here sets the access to '-' for all access
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rules with that subject label.
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You can add access rules in /etc/smack/accesses. They take the form:
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subjectlabel objectlabel access
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access is a combination of the letters rwxa which specify the
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kind of access permitted a subject with subjectlabel on an
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object with objectlabel. If there is no rule no access is allowed.
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Look for additional programs on http://schaufler-ca.com
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From the Smack Whitepaper:
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The Simplified Mandatory Access Control Kernel
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Casey Schaufler
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casey@schaufler-ca.com
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Mandatory Access Control
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Computer systems employ a variety of schemes to constrain how information is
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shared among the people and services using the machine. Some of these schemes
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allow the program or user to decide what other programs or users are allowed
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access to pieces of data. These schemes are called discretionary access
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control mechanisms because the access control is specified at the discretion
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of the user. Other schemes do not leave the decision regarding what a user or
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program can access up to users or programs. These schemes are called mandatory
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access control mechanisms because you don't have a choice regarding the users
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or programs that have access to pieces of data.
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Bell & LaPadula
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From the middle of the 1980's until the turn of the century Mandatory Access
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Control (MAC) was very closely associated with the Bell & LaPadula security
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model, a mathematical description of the United States Department of Defense
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policy for marking paper documents. MAC in this form enjoyed a following
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within the Capital Beltway and Scandinavian supercomputer centers but was
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often sited as failing to address general needs.
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Domain Type Enforcement
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Around the turn of the century Domain Type Enforcement (DTE) became popular.
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This scheme organizes users, programs, and data into domains that are
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protected from each other. This scheme has been widely deployed as a component
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of popular Linux distributions. The administrative overhead required to
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maintain this scheme and the detailed understanding of the whole system
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necessary to provide a secure domain mapping leads to the scheme being
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disabled or used in limited ways in the majority of cases.
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Smack
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Smack is a Mandatory Access Control mechanism designed to provide useful MAC
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while avoiding the pitfalls of its predecessors. The limitations of Bell &
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LaPadula are addressed by providing a scheme whereby access can be controlled
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according to the requirements of the system and its purpose rather than those
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imposed by an arcane government policy. The complexity of Domain Type
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Enforcement and avoided by defining access controls in terms of the access
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modes already in use.
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Smack Terminology
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The jargon used to talk about Smack will be familiar to those who have dealt
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with other MAC systems and shouldn't be too difficult for the uninitiated to
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pick up. There are four terms that are used in a specific way and that are
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especially important:
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Subject: A subject is an active entity on the computer system.
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On Smack a subject is a task, which is in turn the basic unit
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of execution.
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Object: An object is a passive entity on the computer system.
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On Smack files of all types, IPC, and tasks can be objects.
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Access: Any attempt by a subject to put information into or get
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information from an object is an access.
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Label: Data that identifies the Mandatory Access Control
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characteristics of a subject or an object.
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These definitions are consistent with the traditional use in the security
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community. There are also some terms from Linux that are likely to crop up:
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Capability: A task that possesses a capability has permission to
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violate an aspect of the system security policy, as identified by
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the specific capability. A task that possesses one or more
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capabilities is a privileged task, whereas a task with no
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capabilities is an unprivileged task.
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Privilege: A task that is allowed to violate the system security
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policy is said to have privilege. As of this writing a task can
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have privilege either by possessing capabilities or by having an
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effective user of root.
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Smack Basics
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Smack is an extension to a Linux system. It enforces additional restrictions
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on what subjects can access which objects, based on the labels attached to
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each of the subject and the object.
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Labels
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Smack labels are ASCII character strings, one to twenty-three characters in
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length. Single character labels using special characters, that being anything
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other than a letter or digit, are reserved for use by the Smack development
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team. Smack labels are unstructured, case sensitive, and the only operation
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ever performed on them is comparison for equality. Smack labels cannot
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contain unprintable characters, the "/" (slash), the "\" (backslash), the "'"
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(quote) and '"' (double-quote) characters.
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Smack labels cannot begin with a '-'. This is reserved for special options.
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There are some predefined labels:
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_ Pronounced "floor", a single underscore character.
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^ Pronounced "hat", a single circumflex character.
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* Pronounced "star", a single asterisk character.
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? Pronounced "huh", a single question mark character.
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@ Pronounced "web", a single at sign character.
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Every task on a Smack system is assigned a label. System tasks, such as
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init(8) and systems daemons, are run with the floor ("_") label. User tasks
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are assigned labels according to the specification found in the
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/etc/smack/user configuration file.
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Access Rules
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Smack uses the traditional access modes of Linux. These modes are read,
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execute, write, and occasionally append. There are a few cases where the
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access mode may not be obvious. These include:
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Signals: A signal is a write operation from the subject task to
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the object task.
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Internet Domain IPC: Transmission of a packet is considered a
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write operation from the source task to the destination task.
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Smack restricts access based on the label attached to a subject and the label
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attached to the object it is trying to access. The rules enforced are, in
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order:
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1. Any access requested by a task labeled "*" is denied.
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2. A read or execute access requested by a task labeled "^"
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is permitted.
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3. A read or execute access requested on an object labeled "_"
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is permitted.
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4. Any access requested on an object labeled "*" is permitted.
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5. Any access requested by a task on an object with the same
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label is permitted.
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6. Any access requested that is explicitly defined in the loaded
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rule set is permitted.
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7. Any other access is denied.
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Smack Access Rules
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With the isolation provided by Smack access separation is simple. There are
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many interesting cases where limited access by subjects to objects with
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different labels is desired. One example is the familiar spy model of
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sensitivity, where a scientist working on a highly classified project would be
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able to read documents of lower classifications and anything she writes will
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be "born" highly classified. To accommodate such schemes Smack includes a
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mechanism for specifying rules allowing access between labels.
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Access Rule Format
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The format of an access rule is:
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subject-label object-label access
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Where subject-label is the Smack label of the task, object-label is the Smack
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label of the thing being accessed, and access is a string specifying the sort
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of access allowed. The access specification is searched for letters that
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describe access modes:
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a: indicates that append access should be granted.
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r: indicates that read access should be granted.
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w: indicates that write access should be granted.
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x: indicates that execute access should be granted.
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t: indicates that the rule requests transmutation.
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Uppercase values for the specification letters are allowed as well.
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Access mode specifications can be in any order. Examples of acceptable rules
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are:
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TopSecret Secret rx
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Secret Unclass R
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Manager Game x
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User HR w
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New Old rRrRr
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Closed Off -
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Examples of unacceptable rules are:
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Top Secret Secret rx
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Ace Ace r
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Odd spells waxbeans
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Spaces are not allowed in labels. Since a subject always has access to files
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with the same label specifying a rule for that case is pointless. Only
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valid letters (rwxatRWXAT) and the dash ('-') character are allowed in
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access specifications. The dash is a placeholder, so "a-r" is the same
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as "ar". A lone dash is used to specify that no access should be allowed.
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Applying Access Rules
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The developers of Linux rarely define new sorts of things, usually importing
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schemes and concepts from other systems. Most often, the other systems are
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variants of Unix. Unix has many endearing properties, but consistency of
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access control models is not one of them. Smack strives to treat accesses as
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uniformly as is sensible while keeping with the spirit of the underlying
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mechanism.
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File system objects including files, directories, named pipes, symbolic links,
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and devices require access permissions that closely match those used by mode
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bit access. To open a file for reading read access is required on the file. To
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search a directory requires execute access. Creating a file with write access
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requires both read and write access on the containing directory. Deleting a
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file requires read and write access to the file and to the containing
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directory. It is possible that a user may be able to see that a file exists
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but not any of its attributes by the circumstance of having read access to the
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containing directory but not to the differently labeled file. This is an
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artifact of the file name being data in the directory, not a part of the file.
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If a directory is marked as transmuting (SMACK64TRANSMUTE=TRUE) and the
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access rule that allows a process to create an object in that directory
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includes 't' access the label assigned to the new object will be that
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of the directory, not the creating process. This makes it much easier
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for two processes with different labels to share data without granting
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access to all of their files.
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IPC objects, message queues, semaphore sets, and memory segments exist in flat
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namespaces and access requests are only required to match the object in
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question.
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Process objects reflect tasks on the system and the Smack label used to access
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them is the same Smack label that the task would use for its own access
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attempts. Sending a signal via the kill() system call is a write operation
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from the signaler to the recipient. Debugging a process requires both reading
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and writing. Creating a new task is an internal operation that results in two
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tasks with identical Smack labels and requires no access checks.
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Sockets are data structures attached to processes and sending a packet from
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one process to another requires that the sender have write access to the
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receiver. The receiver is not required to have read access to the sender.
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Setting Access Rules
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The configuration file /etc/smack/accesses contains the rules to be set at
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system startup. The contents are written to the special file /smack/load.
|
|
Rules can be written to /smack/load at any time and take effect immediately.
|
|
For any pair of subject and object labels there can be only one rule, with the
|
|
most recently specified overriding any earlier specification.
|
|
|
|
The program smackload is provided to ensure data is formatted
|
|
properly when written to /smack/load. This program reads lines
|
|
of the form
|
|
|
|
subjectlabel objectlabel mode.
|
|
|
|
Task Attribute
|
|
|
|
The Smack label of a process can be read from /proc/<pid>/attr/current. A
|
|
process can read its own Smack label from /proc/self/attr/current. A
|
|
privileged process can change its own Smack label by writing to
|
|
/proc/self/attr/current but not the label of another process.
|
|
|
|
File Attribute
|
|
|
|
The Smack label of a filesystem object is stored as an extended attribute
|
|
named SMACK64 on the file. This attribute is in the security namespace. It can
|
|
only be changed by a process with privilege.
|
|
|
|
Privilege
|
|
|
|
A process with CAP_MAC_OVERRIDE is privileged.
|
|
|
|
Smack Networking
|
|
|
|
As mentioned before, Smack enforces access control on network protocol
|
|
transmissions. Every packet sent by a Smack process is tagged with its Smack
|
|
label. This is done by adding a CIPSO tag to the header of the IP packet. Each
|
|
packet received is expected to have a CIPSO tag that identifies the label and
|
|
if it lacks such a tag the network ambient label is assumed. Before the packet
|
|
is delivered a check is made to determine that a subject with the label on the
|
|
packet has write access to the receiving process and if that is not the case
|
|
the packet is dropped.
|
|
|
|
CIPSO Configuration
|
|
|
|
It is normally unnecessary to specify the CIPSO configuration. The default
|
|
values used by the system handle all internal cases. Smack will compose CIPSO
|
|
label values to match the Smack labels being used without administrative
|
|
intervention. Unlabeled packets that come into the system will be given the
|
|
ambient label.
|
|
|
|
Smack requires configuration in the case where packets from a system that is
|
|
not smack that speaks CIPSO may be encountered. Usually this will be a Trusted
|
|
Solaris system, but there are other, less widely deployed systems out there.
|
|
CIPSO provides 3 important values, a Domain Of Interpretation (DOI), a level,
|
|
and a category set with each packet. The DOI is intended to identify a group
|
|
of systems that use compatible labeling schemes, and the DOI specified on the
|
|
smack system must match that of the remote system or packets will be
|
|
discarded. The DOI is 3 by default. The value can be read from /smack/doi and
|
|
can be changed by writing to /smack/doi.
|
|
|
|
The label and category set are mapped to a Smack label as defined in
|
|
/etc/smack/cipso.
|
|
|
|
A Smack/CIPSO mapping has the form:
|
|
|
|
smack level [category [category]*]
|
|
|
|
Smack does not expect the level or category sets to be related in any
|
|
particular way and does not assume or assign accesses based on them. Some
|
|
examples of mappings:
|
|
|
|
TopSecret 7
|
|
TS:A,B 7 1 2
|
|
SecBDE 5 2 4 6
|
|
RAFTERS 7 12 26
|
|
|
|
The ":" and "," characters are permitted in a Smack label but have no special
|
|
meaning.
|
|
|
|
The mapping of Smack labels to CIPSO values is defined by writing to
|
|
/smack/cipso. Again, the format of data written to this special file
|
|
is highly restrictive, so the program smackcipso is provided to
|
|
ensure the writes are done properly. This program takes mappings
|
|
on the standard input and sends them to /smack/cipso properly.
|
|
|
|
In addition to explicit mappings Smack supports direct CIPSO mappings. One
|
|
CIPSO level is used to indicate that the category set passed in the packet is
|
|
in fact an encoding of the Smack label. The level used is 250 by default. The
|
|
value can be read from /smack/direct and changed by writing to /smack/direct.
|
|
|
|
Socket Attributes
|
|
|
|
There are two attributes that are associated with sockets. These attributes
|
|
can only be set by privileged tasks, but any task can read them for their own
|
|
sockets.
|
|
|
|
SMACK64IPIN: The Smack label of the task object. A privileged
|
|
program that will enforce policy may set this to the star label.
|
|
|
|
SMACK64IPOUT: The Smack label transmitted with outgoing packets.
|
|
A privileged program may set this to match the label of another
|
|
task with which it hopes to communicate.
|
|
|
|
Smack Netlabel Exceptions
|
|
|
|
You will often find that your labeled application has to talk to the outside,
|
|
unlabeled world. To do this there's a special file /smack/netlabel where you can
|
|
add some exceptions in the form of :
|
|
@IP1 LABEL1 or
|
|
@IP2/MASK LABEL2
|
|
|
|
It means that your application will have unlabeled access to @IP1 if it has
|
|
write access on LABEL1, and access to the subnet @IP2/MASK if it has write
|
|
access on LABEL2.
|
|
|
|
Entries in the /smack/netlabel file are matched by longest mask first, like in
|
|
classless IPv4 routing.
|
|
|
|
A special label '@' and an option '-CIPSO' can be used there :
|
|
@ means Internet, any application with any label has access to it
|
|
-CIPSO means standard CIPSO networking
|
|
|
|
If you don't know what CIPSO is and don't plan to use it, you can just do :
|
|
echo 127.0.0.1 -CIPSO > /smack/netlabel
|
|
echo 0.0.0.0/0 @ > /smack/netlabel
|
|
|
|
If you use CIPSO on your 192.168.0.0/16 local network and need also unlabeled
|
|
Internet access, you can have :
|
|
echo 127.0.0.1 -CIPSO > /smack/netlabel
|
|
echo 192.168.0.0/16 -CIPSO > /smack/netlabel
|
|
echo 0.0.0.0/0 @ > /smack/netlabel
|
|
|
|
|
|
Writing Applications for Smack
|
|
|
|
There are three sorts of applications that will run on a Smack system. How an
|
|
application interacts with Smack will determine what it will have to do to
|
|
work properly under Smack.
|
|
|
|
Smack Ignorant Applications
|
|
|
|
By far the majority of applications have no reason whatever to care about the
|
|
unique properties of Smack. Since invoking a program has no impact on the
|
|
Smack label associated with the process the only concern likely to arise is
|
|
whether the process has execute access to the program.
|
|
|
|
Smack Relevant Applications
|
|
|
|
Some programs can be improved by teaching them about Smack, but do not make
|
|
any security decisions themselves. The utility ls(1) is one example of such a
|
|
program.
|
|
|
|
Smack Enforcing Applications
|
|
|
|
These are special programs that not only know about Smack, but participate in
|
|
the enforcement of system policy. In most cases these are the programs that
|
|
set up user sessions. There are also network services that provide information
|
|
to processes running with various labels.
|
|
|
|
File System Interfaces
|
|
|
|
Smack maintains labels on file system objects using extended attributes. The
|
|
Smack label of a file, directory, or other file system object can be obtained
|
|
using getxattr(2).
|
|
|
|
len = getxattr("/", "security.SMACK64", value, sizeof (value));
|
|
|
|
will put the Smack label of the root directory into value. A privileged
|
|
process can set the Smack label of a file system object with setxattr(2).
|
|
|
|
len = strlen("Rubble");
|
|
rc = setxattr("/foo", "security.SMACK64", "Rubble", len, 0);
|
|
|
|
will set the Smack label of /foo to "Rubble" if the program has appropriate
|
|
privilege.
|
|
|
|
Socket Interfaces
|
|
|
|
The socket attributes can be read using fgetxattr(2).
|
|
|
|
A privileged process can set the Smack label of outgoing packets with
|
|
fsetxattr(2).
|
|
|
|
len = strlen("Rubble");
|
|
rc = fsetxattr(fd, "security.SMACK64IPOUT", "Rubble", len, 0);
|
|
|
|
will set the Smack label "Rubble" on packets going out from the socket if the
|
|
program has appropriate privilege.
|
|
|
|
rc = fsetxattr(fd, "security.SMACK64IPIN, "*", strlen("*"), 0);
|
|
|
|
will set the Smack label "*" as the object label against which incoming
|
|
packets will be checked if the program has appropriate privilege.
|
|
|
|
Administration
|
|
|
|
Smack supports some mount options:
|
|
|
|
smackfsdef=label: specifies the label to give files that lack
|
|
the Smack label extended attribute.
|
|
|
|
smackfsroot=label: specifies the label to assign the root of the
|
|
file system if it lacks the Smack extended attribute.
|
|
|
|
smackfshat=label: specifies a label that must have read access to
|
|
all labels set on the filesystem. Not yet enforced.
|
|
|
|
smackfsfloor=label: specifies a label to which all labels set on the
|
|
filesystem must have read access. Not yet enforced.
|
|
|
|
These mount options apply to all file system types.
|
|
|
|
Smack auditing
|
|
|
|
If you want Smack auditing of security events, you need to set CONFIG_AUDIT
|
|
in your kernel configuration.
|
|
By default, all denied events will be audited. You can change this behavior by
|
|
writing a single character to the /smack/logging file :
|
|
0 : no logging
|
|
1 : log denied (default)
|
|
2 : log accepted
|
|
3 : log denied & accepted
|
|
|
|
Events are logged as 'key=value' pairs, for each event you at least will get
|
|
the subject, the object, the rights requested, the action, the kernel function
|
|
that triggered the event, plus other pairs depending on the type of event
|
|
audited.
|