linuxdebug/Documentation/parisc/registers.rst

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2024-07-16 15:50:57 +02:00
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Register Usage for Linux/PA-RISC
================================
[ an asterisk is used for planned usage which is currently unimplemented ]
General Registers as specified by ABI
=====================================
Control Registers
-----------------
=============================== ===============================================
CR 0 (Recovery Counter) used for ptrace
CR 1-CR 7(undefined) unused
CR 8 (Protection ID) per-process value*
CR 9, 12, 13 (PIDS) unused
CR10 (CCR) lazy FPU saving*
CR11 as specified by ABI (SAR)
CR14 (interruption vector) initialized to fault_vector
CR15 (EIEM) initialized to all ones*
CR16 (Interval Timer) read for cycle count/write starts Interval Tmr
CR17-CR22 interruption parameters
CR19 Interrupt Instruction Register
CR20 Interrupt Space Register
CR21 Interrupt Offset Register
CR22 Interrupt PSW
CR23 (EIRR) read for pending interrupts/write clears bits
CR24 (TR 0) Kernel Space Page Directory Pointer
CR25 (TR 1) User Space Page Directory Pointer
CR26 (TR 2) not used
CR27 (TR 3) Thread descriptor pointer
CR28 (TR 4) not used
CR29 (TR 5) not used
CR30 (TR 6) current / 0
CR31 (TR 7) Temporary register, used in various places
=============================== ===============================================
Space Registers (kernel mode)
-----------------------------
=============================== ===============================================
SR0 temporary space register
SR4-SR7 set to 0
SR1 temporary space register
SR2 kernel should not clobber this
SR3 used for userspace accesses (current process)
=============================== ===============================================
Space Registers (user mode)
---------------------------
=============================== ===============================================
SR0 temporary space register
SR1 temporary space register
SR2 holds space of linux gateway page
SR3 holds user address space value while in kernel
SR4-SR7 Defines short address space for user/kernel
=============================== ===============================================
Processor Status Word
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=============================== ===============================================
W (64-bit addresses) 0
E (Little-endian) 0
S (Secure Interval Timer) 0
T (Taken Branch Trap) 0
H (Higher-privilege trap) 0
L (Lower-privilege trap) 0
N (Nullify next instruction) used by C code
X (Data memory break disable) 0
B (Taken Branch) used by C code
C (code address translation) 1, 0 while executing real-mode code
V (divide step correction) used by C code
M (HPMC mask) 0, 1 while executing HPMC handler*
C/B (carry/borrow bits) used by C code
O (ordered references) 1*
F (performance monitor) 0
R (Recovery Counter trap) 0
Q (collect interruption state) 1 (0 in code directly preceding an rfi)
P (Protection Identifiers) 1*
D (Data address translation) 1, 0 while executing real-mode code
I (external interrupt mask) used by cli()/sti() macros
=============================== ===============================================
"Invisible" Registers
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=============================== ===============================================
PSW default W value 0
PSW default E value 0
Shadow Registers used by interruption handler code
TOC enable bit 1
=============================== ===============================================
-------------------------------------------------------------------------
The PA-RISC architecture defines 7 registers as "shadow registers".
Those are used in RETURN FROM INTERRUPTION AND RESTORE instruction to reduce
the state save and restore time by eliminating the need for general register
(GR) saves and restores in interruption handlers.
Shadow registers are the GRs 1, 8, 9, 16, 17, 24, and 25.
-------------------------------------------------------------------------
Register usage notes, originally from John Marvin, with some additional
notes from Randolph Chung.
For the general registers:
r1,r2,r19-r26,r28,r29 & r31 can be used without saving them first. And of
course, you need to save them if you care about them, before calling
another procedure. Some of the above registers do have special meanings
that you should be aware of:
r1:
The addil instruction is hardwired to place its result in r1,
so if you use that instruction be aware of that.
r2:
This is the return pointer. In general you don't want to
use this, since you need the pointer to get back to your
caller. However, it is grouped with this set of registers
since the caller can't rely on the value being the same
when you return, i.e. you can copy r2 to another register
and return through that register after trashing r2, and
that should not cause a problem for the calling routine.
r19-r22:
these are generally regarded as temporary registers.
Note that in 64 bit they are arg7-arg4.
r23-r26:
these are arg3-arg0, i.e. you can use them if you
don't care about the values that were passed in anymore.
r28,r29:
are ret0 and ret1. They are what you pass return values
in. r28 is the primary return. When returning small structures
r29 may also be used to pass data back to the caller.
r30:
stack pointer
r31:
the ble instruction puts the return pointer in here.
r3-r18,r27,r30 need to be saved and restored. r3-r18 are just
general purpose registers. r27 is the data pointer, and is
used to make references to global variables easier. r30 is
the stack pointer.