參數(shù)資料
型號(hào): 30044-23
廠商: NATIONAL SEMICONDUCTOR CORP
元件分類: 微控制器/微處理器
英文描述: Low Power Integrated x86-Compatible with MMX Support 32-Bit Geode GXm Processor(低功耗集成兼容X86帶有MMX的32位 Geode GXm技術(shù)處理器)
中文描述: 32-BIT, 200 MHz, MICROPROCESSOR, CPGA320
封裝: SPGA-320
文件頁(yè)數(shù): 86/244頁(yè)
文件大?。?/td> 4496K
代理商: 30044-23
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86
Revision 3.1
Processor Programming (
Continued
)
G
3.12 SHUTDOWN AND HALT
The Halt Instruction (HLT) stops program execution and
generates a special Halt bus cycle. The GXm processor
core then drives out a special Stop Grant bus cycle and
enters a low-power Suspend mode if the SUSP_HLT bit in
CCR2 (Index C2h[3]) is set. SMI#, NMI, INTR with inter-
rupts enabled (IF bit in EFLAGS = 1), or RESET forces
the CPU out of the halt state. If the halt state is inter-
rupted, the saved code segment and instruction pointer
specify the instruction following the HLT.
Shutdown occurs when a severe error is detected that
prevents further processing. The most common severe
error is the triple fault, a fault event while handling a dou-
ble fault. Setting the IDT or the GDT limit to zero will
cause a triple fault.
An NMI input or a reset can bring the processor out of
shutdown. An NMI will work if the IDT limit is large
enough, at least 000Fh, to contain the NMI interrupt vec-
tor and if the stack has enough room. The stack must be
large enough to contain the vector and flag information
(the stack pointer must be greater than 0005h).
3.13 PROTECTION
Segment protection and page protection are safeguards
built into the GXm processor’s protected-mode architec-
ture that deny unauthorized or incorrect access to
selected memory addresses. These safeguards allow
multitasking programs to be isolated from each other and
from the operating system. This section concentrates on
segment protection.
Selectors and descriptors are the key elements in the seg-
ment protection mechanism. The segment base address,
size, and privilege level are established by a segment
descriptor. Privilege levels control the use of privileged
instructions, I/O instructions and access to segments and
segment descriptors. Selectors are used to locate seg-
ment descriptors.
Segment accesses are divided into two basic types, those
involving code segments (e.g., control transfers) and
those involving data accesses. The ability of a task to
access a segment depends on the:
segment type
instruction requesting access
type of descriptor used to define the segment
associated privilege levels (described next)
Data stored in a segment can be accessed only by code
executing at the same or a more privileged level. A code
segment or procedure can only be called by a task exe-
cuting at the same or a less privileged level.
3.13.1 Privilege Levels
The values for privilege levels range between 0 and 3.
Level 0 is the highest privilege level (most privileged), and
level 3 is the lowest privilege level (least privileged). The
privilege level in real mode is zero.
The
Descriptor Privilege Level
(DPL) is the privilege
level defined for a segment in the segment descriptor. The
DPL field specifies the minimum privilege level needed to
access the memory segment pointed to by the descriptor.
The
Current Privilege Level
(CPL) is defined as the cur-
rent task’s privilege level. The CPL of an executing task is
stored in the hidden portion of the code segment register
and essentially is the DPL for the current code segment.
The
Requested Privilege Level
(RPL) specifies a selec-
tor’s privilege level. RPL is used to distinguish between
the privilege level of a routine actually accessing memory
(the CPL), and the privilege level of the original requester
(the RPL) of the memory access. If the level requested by
RPL is less than the CPL, the RPL level is accepted and
the Effective Privilege Level (EPL) is changed to the RPL
value. If the level requested by RPL is greater than CPL,
the CPL overrides the requested RPL and EPL becomes
the CPL value.
The lesser of the RPL and CPL is called the Effective Privi-
lege Level (EPL). Therefore, if RPL = 0 in a segment selec-
tor, the EPL is always determined by the CPL. If RPL = 3,
the EPL is always 3 regardless of the CPL.
For a memory access to succeed, the EPL must be at
least as privileged as the Descriptor Privilege Level (EPL
DPL). If the EPL is less privileged than the DPL (EPL >
DPL), a general protection fault is generated. For exam-
ple, if a segment has a DPL = 2, an instruction accessing
the segment only succeeds if executed with an EPL
2.
3.13.2 I/O Privilege Levels
The I/O Privilege Level (IOPL) allows the operating sys-
tem executing at CPL = 0 to define the least privileged
level at which IOPL-sensitive instructions can uncondition-
ally be used. The IOPL-sensitive instructions include CLI,
IN, OUT, INS, OUTS, REP INS, REP OUTS, and STI.
Modification of the IF bit in the EFLAGS register is also
sensitive to the I/O privilege level.
The IOPL is stored in the EFLAGS register (bits [31:12]).
An I/O permission bit map is available as defined by the
32-bit Task State Segment (TSS). Since each task can
have its TSS, access to individual I/O ports can be
granted through separate I/O permission bit maps.
If CPL
IOPL, IOPL-sensitive operations can be per-
formed. If CPL > IOPL, a general protection fault is gener-
ated if the current task is associated with a 16-bit TSS. If
the current task is associated with a 32-bit TSS and CPL
> IOPL, the CPU consults the I/O permission bitmap in the
TSS to determine on a port-by-port basis whether or not I/O
instructions (IN, OUT, INS, OUTS, REP INS, REP OUTS)
are permitted. The remaining IOPL-sensitive operations
generate a general protection fault.
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