From 7908ba5b8139c73cc45bacb686199ca48c0d803c Mon Sep 17 00:00:00 2001 From: Joel Sherrill Date: Thu, 18 Feb 1999 18:28:24 +0000 Subject: Part of the automake VI patch from Ralf Corsepius : > 4) rtems-rc-19990202-0.diff /reorg-score-cpu.sh > > reorg-score-cpu.sh reorganizes the cpu//* subdirectories in a > similar manner than previous reorg scripts did. rtems-rc-19990202-0.diff > contains the diffs after reorg-score-cpu.sh has been run on a > rtems-19981215 snapshot + my patches up to rtems-rc-19990131-2.diff. > > This patch is rather nasty and may break something. However, I've tested > it for about 10 different target/bsp pairs and believe to have shaken > out most bugs. I wonder about the following .h files that were not moved: a29k/asm.h a29k/cpu_asm.h i386/asm.h i960/asm.h m68k/asm.h m68k/m68302.h m68k/m68360.h m68k/qsm.h m68k/sim.h mips64orion/asm.h mips64orion/cpu_asm.h mips64orion/mips64orion.h no_cpu/asm.h no_cpu/cpu_asm.h powerpc/asm.h powerpc/mpc860.h sh/asm.h sparc/asm.h sparc/erc32.h --- c/src/exec/score/cpu/sparc/rtems/score/Makefile.in | 59 ++ c/src/exec/score/cpu/sparc/rtems/score/cpu.h | 1015 ++++++++++++++++++++ c/src/exec/score/cpu/sparc/rtems/score/sparc.h | 253 +++++ .../exec/score/cpu/sparc/rtems/score/sparctypes.h | 64 ++ c/src/exec/score/cpu/sparc/rtems/score/types.h | 64 ++ 5 files changed, 1455 insertions(+) create mode 100644 c/src/exec/score/cpu/sparc/rtems/score/Makefile.in create mode 100644 c/src/exec/score/cpu/sparc/rtems/score/cpu.h create mode 100644 c/src/exec/score/cpu/sparc/rtems/score/sparc.h create mode 100644 c/src/exec/score/cpu/sparc/rtems/score/sparctypes.h create mode 100644 c/src/exec/score/cpu/sparc/rtems/score/types.h (limited to 'c/src/exec/score/cpu/sparc/rtems/score') diff --git a/c/src/exec/score/cpu/sparc/rtems/score/Makefile.in b/c/src/exec/score/cpu/sparc/rtems/score/Makefile.in new file mode 100644 index 0000000000..e74655bcc2 --- /dev/null +++ b/c/src/exec/score/cpu/sparc/rtems/score/Makefile.in @@ -0,0 +1,59 @@ +# +# $Id$ +# + +@SET_MAKE@ +srcdir = @srcdir@ +VPATH = @srcdir@ +RTEMS_ROOT = @top_srcdir@ +PROJECT_ROOT = @PROJECT_ROOT@ + +# C source names, if any, go here -- minus the .c +C_PIECES= +C_FILES=$(C_PIECES:%=%.c) +C_O_FILES=$(C_PIECES:%=${ARCH}/%.o) + +H_PIECES=cpu.h sparctypes.h sparc.h +H_FILES=$(H_PIECES:%=$(srcdir)/%) + +# Assembly source names, if any, go here -- minus the .S +S_PIECES= +S_FILES=$(S_PIECES:%=%.S) +S_O_FILES=$(S_FILES:%.S=${ARCH}/%.o) + +SRCS=$(C_FILES) $(CC_FILES) $(H_FILES) $(S_FILES) +OBJS=$(C_O_FILES) $(CC_O_FILES) $(S_O_FILES) + +include $(RTEMS_ROOT)/make/custom/$(RTEMS_BSP).cfg +include $(RTEMS_ROOT)/make/leaf.cfg + +# +# (OPTIONAL) Add local stuff here using += +# + +DEFINES += +CPPFLAGS += +CFLAGS += + +LD_PATHS += +LD_LIBS += +LDFLAGS += + +# +# Add your list of files to delete here. The config files +# already know how to delete some stuff, so you may want +# to just run 'make clean' first to see what gets missed. +# 'make clobber' already includes 'make clean' +# + +CLEAN_ADDITIONS += +CLOBBER_ADDITIONS += $(BUILT_SOURCES) + +# Install the program(s), appending _g or _p as appropriate. +# for include files, just use $(INSTALL) +all: install-headers + +install-headers: ${H_FILES} + $(INSTALL) -m 444 ${H_FILES} $(PROJECT_INCLUDE)/rtems/score + +preinstall: install-headers diff --git a/c/src/exec/score/cpu/sparc/rtems/score/cpu.h b/c/src/exec/score/cpu/sparc/rtems/score/cpu.h new file mode 100644 index 0000000000..cf50f035d6 --- /dev/null +++ b/c/src/exec/score/cpu/sparc/rtems/score/cpu.h @@ -0,0 +1,1015 @@ +/* cpu.h + * + * This include file contains information pertaining to the port of + * the executive to the SPARC processor. + * + * COPYRIGHT (c) 1989-1998. + * On-Line Applications Research Corporation (OAR). + * Copyright assigned to U.S. Government, 1994. + * + * The license and distribution terms for this file may be + * found in the file LICENSE in this distribution or at + * http://www.OARcorp.com/rtems/license.html. + * + * Ported to ERC32 implementation of the SPARC by On-Line Applications + * Research Corporation (OAR) under contract to the European Space + * Agency (ESA). + * + * ERC32 modifications of respective RTEMS file: COPYRIGHT (c) 1995. + * European Space Agency. + * + * $Id$ + */ + +#ifndef __CPU_h +#define __CPU_h + +#ifdef __cplusplus +extern "C" { +#endif + +#include /* pick up machine definitions */ +#ifndef ASM +#include +#endif + +/* conditional compilation parameters */ + +/* + * Should the calls to _Thread_Enable_dispatch be inlined? + * + * If TRUE, then they are inlined. + * If FALSE, then a subroutine call is made. + */ + +#define CPU_INLINE_ENABLE_DISPATCH TRUE + +/* + * Should the body of the search loops in _Thread_queue_Enqueue_priority + * be unrolled one time? In unrolled each iteration of the loop examines + * two "nodes" on the chain being searched. Otherwise, only one node + * is examined per iteration. + * + * If TRUE, then the loops are unrolled. + * If FALSE, then the loops are not unrolled. + * + * This parameter could go either way on the SPARC. The interrupt flash + * code is relatively lengthy given the requirements for nops following + * writes to the psr. But if the clock speed were high enough, this would + * not represent a great deal of time. + */ + +#define CPU_UNROLL_ENQUEUE_PRIORITY TRUE + +/* + * Does the executive manage a dedicated interrupt stack in software? + * + * If TRUE, then a stack is allocated in _Interrupt_Manager_initialization. + * If FALSE, nothing is done. + * + * The SPARC does not have a dedicated HW interrupt stack and one has + * been implemented in SW. + */ + +#define CPU_HAS_SOFTWARE_INTERRUPT_STACK TRUE + +/* + * Does this CPU have hardware support for a dedicated interrupt stack? + * + * If TRUE, then it must be installed during initialization. + * If FALSE, then no installation is performed. + * + * The SPARC does not have a dedicated HW interrupt stack. + */ + +#define CPU_HAS_HARDWARE_INTERRUPT_STACK FALSE + +/* + * Do we allocate a dedicated interrupt stack in the Interrupt Manager? + * + * If TRUE, then the memory is allocated during initialization. + * If FALSE, then the memory is allocated during initialization. + */ + +#define CPU_ALLOCATE_INTERRUPT_STACK TRUE + +/* + * Does the RTEMS invoke the user's ISR with the vector number and + * a pointer to the saved interrupt frame (1) or just the vector + * number (0)? + */ + +#define CPU_ISR_PASSES_FRAME_POINTER 0 + +/* + * Does the CPU have hardware floating point? + * + * If TRUE, then the FLOATING_POINT task attribute is supported. + * If FALSE, then the FLOATING_POINT task attribute is ignored. + */ + +#if ( SPARC_HAS_FPU == 1 ) +#define CPU_HARDWARE_FP TRUE +#else +#define CPU_HARDWARE_FP FALSE +#endif + +/* + * Are all tasks FLOATING_POINT tasks implicitly? + * + * If TRUE, then the FLOATING_POINT task attribute is assumed. + * If FALSE, then the FLOATING_POINT task attribute is followed. + */ + +#define CPU_ALL_TASKS_ARE_FP FALSE + +/* + * Should the IDLE task have a floating point context? + * + * If TRUE, then the IDLE task is created as a FLOATING_POINT task + * and it has a floating point context which is switched in and out. + * If FALSE, then the IDLE task does not have a floating point context. + */ + +#define CPU_IDLE_TASK_IS_FP FALSE + +/* + * Should the saving of the floating point registers be deferred + * until a context switch is made to another different floating point + * task? + * + * If TRUE, then the floating point context will not be stored until + * necessary. It will remain in the floating point registers and not + * disturned until another floating point task is switched to. + * + * If FALSE, then the floating point context is saved when a floating + * point task is switched out and restored when the next floating point + * task is restored. The state of the floating point registers between + * those two operations is not specified. + */ + +#define CPU_USE_DEFERRED_FP_SWITCH TRUE + +/* + * Does this port provide a CPU dependent IDLE task implementation? + * + * If TRUE, then the routine _CPU_Thread_Idle_body + * must be provided and is the default IDLE thread body instead of + * _CPU_Thread_Idle_body. + * + * If FALSE, then use the generic IDLE thread body if the BSP does + * not provide one. + */ + +#if (SPARC_HAS_LOW_POWER_MODE == 1) +#define CPU_PROVIDES_IDLE_THREAD_BODY TRUE +#else +#define CPU_PROVIDES_IDLE_THREAD_BODY FALSE +#endif + +/* + * Does the stack grow up (toward higher addresses) or down + * (toward lower addresses)? + * + * If TRUE, then the grows upward. + * If FALSE, then the grows toward smaller addresses. + * + * The stack grows to lower addresses on the SPARC. + */ + +#define CPU_STACK_GROWS_UP FALSE + +/* + * The following is the variable attribute used to force alignment + * of critical data structures. On some processors it may make + * sense to have these aligned on tighter boundaries than + * the minimum requirements of the compiler in order to have as + * much of the critical data area as possible in a cache line. + * + * The SPARC does not appear to have particularly strict alignment + * requirements. This value was chosen to take advantages of caches. + */ + +#define CPU_STRUCTURE_ALIGNMENT __attribute__ ((aligned (16))) + +/* + * Define what is required to specify how the network to host conversion + * routines are handled. + */ + +#define CPU_CPU_HAS_OWN_HOST_TO_NETWORK_ROUTINES FALSE +#define CPU_BIG_ENDIAN TRUE +#define CPU_LITTLE_ENDIAN FALSE + +/* + * The following defines the number of bits actually used in the + * interrupt field of the task mode. How those bits map to the + * CPU interrupt levels is defined by the routine _CPU_ISR_Set_level(). + * + * The SPARC has 16 interrupt levels in the PIL field of the PSR. + */ + +#define CPU_MODES_INTERRUPT_MASK 0x0000000F + +/* + * This structure represents the organization of the minimum stack frame + * for the SPARC. More framing information is required in certain situaions + * such as when there are a large number of out parameters or when the callee + * must save floating point registers. + */ + +#ifndef ASM + +typedef struct { + unsigned32 l0; + unsigned32 l1; + unsigned32 l2; + unsigned32 l3; + unsigned32 l4; + unsigned32 l5; + unsigned32 l6; + unsigned32 l7; + unsigned32 i0; + unsigned32 i1; + unsigned32 i2; + unsigned32 i3; + unsigned32 i4; + unsigned32 i5; + unsigned32 i6_fp; + unsigned32 i7; + void *structure_return_address; + /* + * The following are for the callee to save the register arguments in + * should this be necessary. + */ + unsigned32 saved_arg0; + unsigned32 saved_arg1; + unsigned32 saved_arg2; + unsigned32 saved_arg3; + unsigned32 saved_arg4; + unsigned32 saved_arg5; + unsigned32 pad0; +} CPU_Minimum_stack_frame; + +#endif /* ASM */ + +#define CPU_STACK_FRAME_L0_OFFSET 0x00 +#define CPU_STACK_FRAME_L1_OFFSET 0x04 +#define CPU_STACK_FRAME_L2_OFFSET 0x08 +#define CPU_STACK_FRAME_L3_OFFSET 0x0c +#define CPU_STACK_FRAME_L4_OFFSET 0x10 +#define CPU_STACK_FRAME_L5_OFFSET 0x14 +#define CPU_STACK_FRAME_L6_OFFSET 0x18 +#define CPU_STACK_FRAME_L7_OFFSET 0x1c +#define CPU_STACK_FRAME_I0_OFFSET 0x20 +#define CPU_STACK_FRAME_I1_OFFSET 0x24 +#define CPU_STACK_FRAME_I2_OFFSET 0x28 +#define CPU_STACK_FRAME_I3_OFFSET 0x2c +#define CPU_STACK_FRAME_I4_OFFSET 0x30 +#define CPU_STACK_FRAME_I5_OFFSET 0x34 +#define CPU_STACK_FRAME_I6_FP_OFFSET 0x38 +#define CPU_STACK_FRAME_I7_OFFSET 0x3c +#define CPU_STRUCTURE_RETURN_ADDRESS_OFFSET 0x40 +#define CPU_STACK_FRAME_SAVED_ARG0_OFFSET 0x44 +#define CPU_STACK_FRAME_SAVED_ARG1_OFFSET 0x48 +#define CPU_STACK_FRAME_SAVED_ARG2_OFFSET 0x4c +#define CPU_STACK_FRAME_SAVED_ARG3_OFFSET 0x50 +#define CPU_STACK_FRAME_SAVED_ARG4_OFFSET 0x54 +#define CPU_STACK_FRAME_SAVED_ARG5_OFFSET 0x58 +#define CPU_STACK_FRAME_PAD0_OFFSET 0x5c + +#define CPU_MINIMUM_STACK_FRAME_SIZE 0x60 + +/* + * Contexts + * + * Generally there are 2 types of context to save. + * 1. Interrupt registers to save + * 2. Task level registers to save + * + * This means we have the following 3 context items: + * 1. task level context stuff:: Context_Control + * 2. floating point task stuff:: Context_Control_fp + * 3. special interrupt level context :: Context_Control_interrupt + * + * On the SPARC, we are relatively conservative in that we save most + * of the CPU state in the context area. The ET (enable trap) bit and + * the CWP (current window pointer) fields of the PSR are considered + * system wide resources and are not maintained on a per-thread basis. + */ + +#ifndef ASM + +typedef struct { + /* + * Using a double g0_g1 will put everything in this structure on a + * double word boundary which allows us to use double word loads + * and stores safely in the context switch. + */ + double g0_g1; + unsigned32 g2; + unsigned32 g3; + unsigned32 g4; + unsigned32 g5; + unsigned32 g6; + unsigned32 g7; + + unsigned32 l0; + unsigned32 l1; + unsigned32 l2; + unsigned32 l3; + unsigned32 l4; + unsigned32 l5; + unsigned32 l6; + unsigned32 l7; + + unsigned32 i0; + unsigned32 i1; + unsigned32 i2; + unsigned32 i3; + unsigned32 i4; + unsigned32 i5; + unsigned32 i6_fp; + unsigned32 i7; + + unsigned32 o0; + unsigned32 o1; + unsigned32 o2; + unsigned32 o3; + unsigned32 o4; + unsigned32 o5; + unsigned32 o6_sp; + unsigned32 o7; + + unsigned32 psr; +} Context_Control; + +#endif /* ASM */ + +/* + * Offsets of fields with Context_Control for assembly routines. + */ + +#define G0_OFFSET 0x00 +#define G1_OFFSET 0x04 +#define G2_OFFSET 0x08 +#define G3_OFFSET 0x0C +#define G4_OFFSET 0x10 +#define G5_OFFSET 0x14 +#define G6_OFFSET 0x18 +#define G7_OFFSET 0x1C + +#define L0_OFFSET 0x20 +#define L1_OFFSET 0x24 +#define L2_OFFSET 0x28 +#define L3_OFFSET 0x2C +#define L4_OFFSET 0x30 +#define L5_OFFSET 0x34 +#define L6_OFFSET 0x38 +#define L7_OFFSET 0x3C + +#define I0_OFFSET 0x40 +#define I1_OFFSET 0x44 +#define I2_OFFSET 0x48 +#define I3_OFFSET 0x4C +#define I4_OFFSET 0x50 +#define I5_OFFSET 0x54 +#define I6_FP_OFFSET 0x58 +#define I7_OFFSET 0x5C + +#define O0_OFFSET 0x60 +#define O1_OFFSET 0x64 +#define O2_OFFSET 0x68 +#define O3_OFFSET 0x6C +#define O4_OFFSET 0x70 +#define O5_OFFSET 0x74 +#define O6_SP_OFFSET 0x78 +#define O7_OFFSET 0x7C + +#define PSR_OFFSET 0x80 + +#define CONTEXT_CONTROL_SIZE 0x84 + +/* + * The floating point context area. + */ + +#ifndef ASM + +typedef struct { + double f0_f1; + double f2_f3; + double f4_f5; + double f6_f7; + double f8_f9; + double f10_f11; + double f12_f13; + double f14_f15; + double f16_f17; + double f18_f19; + double f20_f21; + double f22_f23; + double f24_f25; + double f26_f27; + double f28_f29; + double f30_f31; + unsigned32 fsr; +} Context_Control_fp; + +#endif /* ASM */ + +/* + * Offsets of fields with Context_Control_fp for assembly routines. + */ + +#define FO_F1_OFFSET 0x00 +#define F2_F3_OFFSET 0x08 +#define F4_F5_OFFSET 0x10 +#define F6_F7_OFFSET 0x18 +#define F8_F9_OFFSET 0x20 +#define F1O_F11_OFFSET 0x28 +#define F12_F13_OFFSET 0x30 +#define F14_F15_OFFSET 0x38 +#define F16_F17_OFFSET 0x40 +#define F18_F19_OFFSET 0x48 +#define F2O_F21_OFFSET 0x50 +#define F22_F23_OFFSET 0x58 +#define F24_F25_OFFSET 0x60 +#define F26_F27_OFFSET 0x68 +#define F28_F29_OFFSET 0x70 +#define F3O_F31_OFFSET 0x78 +#define FSR_OFFSET 0x80 + +#define CONTEXT_CONTROL_FP_SIZE 0x84 + +#ifndef ASM + +/* + * Context saved on stack for an interrupt. + * + * NOTE: The PSR, PC, and NPC are only saved in this structure for the + * benefit of the user's handler. + */ + +typedef struct { + CPU_Minimum_stack_frame Stack_frame; + unsigned32 psr; + unsigned32 pc; + unsigned32 npc; + unsigned32 g1; + unsigned32 g2; + unsigned32 g3; + unsigned32 g4; + unsigned32 g5; + unsigned32 g6; + unsigned32 g7; + unsigned32 i0; + unsigned32 i1; + unsigned32 i2; + unsigned32 i3; + unsigned32 i4; + unsigned32 i5; + unsigned32 i6_fp; + unsigned32 i7; + unsigned32 y; + unsigned32 tpc; +} CPU_Interrupt_frame; + +#endif /* ASM */ + +/* + * Offsets of fields with CPU_Interrupt_frame for assembly routines. + */ + +#define ISF_STACK_FRAME_OFFSET 0x00 +#define ISF_PSR_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x00 +#define ISF_PC_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x04 +#define ISF_NPC_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x08 +#define ISF_G1_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x0c +#define ISF_G2_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x10 +#define ISF_G3_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x14 +#define ISF_G4_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x18 +#define ISF_G5_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x1c +#define ISF_G6_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x20 +#define ISF_G7_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x24 +#define ISF_I0_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x28 +#define ISF_I1_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x2c +#define ISF_I2_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x30 +#define ISF_I3_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x34 +#define ISF_I4_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x38 +#define ISF_I5_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x3c +#define ISF_I6_FP_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x40 +#define ISF_I7_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x44 +#define ISF_Y_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x48 +#define ISF_TPC_OFFSET CPU_MINIMUM_STACK_FRAME_SIZE + 0x4c + +#define CONTEXT_CONTROL_INTERRUPT_FRAME_SIZE CPU_MINIMUM_STACK_FRAME_SIZE + 0x50 +#ifndef ASM + +/* + * The following table contains the information required to configure + * the processor specific parameters. + */ + +typedef struct { + void (*pretasking_hook)( void ); + void (*predriver_hook)( void ); + void (*postdriver_hook)( void ); + void (*idle_task)( void ); + boolean do_zero_of_workspace; + unsigned32 idle_task_stack_size; + unsigned32 interrupt_stack_size; + unsigned32 extra_mpci_receive_server_stack; + void * (*stack_allocate_hook)( unsigned32 ); + void (*stack_free_hook)( void* ); + /* end of fields required on all CPUs */ + +} rtems_cpu_table; + +/* + * This variable is contains the initialize context for the FP unit. + * It is filled in by _CPU_Initialize and copied into the task's FP + * context area during _CPU_Context_Initialize. + */ + +SCORE_EXTERN Context_Control_fp _CPU_Null_fp_context CPU_STRUCTURE_ALIGNMENT; + +/* + * This stack is allocated by the Interrupt Manager and the switch + * is performed in _ISR_Handler. These variables contain pointers + * to the lowest and highest addresses in the chunk of memory allocated + * for the interrupt stack. Since it is unknown whether the stack + * grows up or down (in general), this give the CPU dependent + * code the option of picking the version it wants to use. Thus + * both must be present if either is. + * + * The SPARC supports a software based interrupt stack and these + * are required. + */ + +SCORE_EXTERN void *_CPU_Interrupt_stack_low; +SCORE_EXTERN void *_CPU_Interrupt_stack_high; + +#if defined(erc32) + +/* + * ERC32 Specific Variables + */ + +SCORE_EXTERN unsigned32 _ERC32_MEC_Timer_Control_Mirror; + +#endif + +/* + * The following type defines an entry in the SPARC's trap table. + * + * NOTE: The instructions chosen are RTEMS dependent although one is + * obligated to use two of the four instructions to perform a + * long jump. The other instructions load one register with the + * trap type (a.k.a. vector) and another with the psr. + */ + +typedef struct { + unsigned32 mov_psr_l0; /* mov %psr, %l0 */ + unsigned32 sethi_of_handler_to_l4; /* sethi %hi(_handler), %l4 */ + unsigned32 jmp_to_low_of_handler_plus_l4; /* jmp %l4 + %lo(_handler) */ + unsigned32 mov_vector_l3; /* mov _vector, %l3 */ +} CPU_Trap_table_entry; + +/* + * This is the set of opcodes for the instructions loaded into a trap + * table entry. The routine which installs a handler is responsible + * for filling in the fields for the _handler address and the _vector + * trap type. + * + * The constants following this structure are masks for the fields which + * must be filled in when the handler is installed. + */ + +extern const CPU_Trap_table_entry _CPU_Trap_slot_template; + +/* + * This is the executive's trap table which is installed into the TBR + * register. + * + * NOTE: Unfortunately, this must be aligned on a 4096 byte boundary. + * The GNU tools as of binutils 2.5.2 and gcc 2.7.0 would not + * align an entity to anything greater than a 512 byte boundary. + * + * Because of this, we pull a little bit of a trick. We allocate + * enough memory so we can grab an address on a 4096 byte boundary + * from this area. + */ + +#define SPARC_TRAP_TABLE_ALIGNMENT 4096 + +#ifndef NO_TABLE_MOVE + +SCORE_EXTERN unsigned8 _CPU_Trap_Table_area[ 8192 ] + __attribute__ ((aligned (SPARC_TRAP_TABLE_ALIGNMENT))); +#endif + + +/* + * The size of the floating point context area. + */ + +#define CPU_CONTEXT_FP_SIZE sizeof( Context_Control_fp ) + +#endif + +/* + * Amount of extra stack (above minimum stack size) required by + * MPCI receive server thread. Remember that in a multiprocessor + * system this thread must exist and be able to process all directives. + */ + +#define CPU_MPCI_RECEIVE_SERVER_EXTRA_STACK 1024 + +/* + * This defines the number of entries in the ISR_Vector_table managed + * by the executive. + * + * On the SPARC, there are really only 256 vectors. However, the executive + * has no easy, fast, reliable way to determine which traps are synchronous + * and which are asynchronous. By default, synchronous traps return to the + * instruction which caused the interrupt. So if you install a software + * trap handler as an executive interrupt handler (which is desirable since + * RTEMS takes care of window and register issues), then the executive needs + * to know that the return address is to the trap rather than the instruction + * following the trap. + * + * So vectors 0 through 255 are treated as regular asynchronous traps which + * provide the "correct" return address. Vectors 256 through 512 are assumed + * by the executive to be synchronous and to require that the return address + * be fudged. + * + * If you use this mechanism to install a trap handler which must reexecute + * the instruction which caused the trap, then it should be installed as + * an asynchronous trap. This will avoid the executive changing the return + * address. + */ + +#define CPU_INTERRUPT_NUMBER_OF_VECTORS 256 +#define CPU_INTERRUPT_MAXIMUM_VECTOR_NUMBER 511 + +#define SPARC_SYNCHRONOUS_TRAP_BIT_MASK 0x100 +#define SPARC_ASYNCHRONOUS_TRAP( _trap ) (_trap) +#define SPARC_SYNCHRONOUS_TRAP( _trap ) ((_trap) + 256 ) + +#define SPARC_REAL_TRAP_NUMBER( _trap ) ((_trap) % 256) + +/* + * Should be large enough to run all tests. This insures + * that a "reasonable" small application should not have any problems. + * + * This appears to be a fairly generous number for the SPARC since + * represents a call depth of about 20 routines based on the minimum + * stack frame. + */ + +#define CPU_STACK_MINIMUM_SIZE (1024*2 + 512) + +/* + * CPU's worst alignment requirement for data types on a byte boundary. This + * alignment does not take into account the requirements for the stack. + * + * On the SPARC, this is required for double word loads and stores. + */ + +#define CPU_ALIGNMENT 8 + +/* + * This number corresponds to the byte alignment requirement for the + * heap handler. This alignment requirement may be stricter than that + * for the data types alignment specified by CPU_ALIGNMENT. It is + * common for the heap to follow the same alignment requirement as + * CPU_ALIGNMENT. If the CPU_ALIGNMENT is strict enough for the heap, + * then this should be set to CPU_ALIGNMENT. + * + * NOTE: This does not have to be a power of 2. It does have to + * be greater or equal to than CPU_ALIGNMENT. + */ + +#define CPU_HEAP_ALIGNMENT CPU_ALIGNMENT + +/* + * This number corresponds to the byte alignment requirement for memory + * buffers allocated by the partition manager. This alignment requirement + * may be stricter than that for the data types alignment specified by + * CPU_ALIGNMENT. It is common for the partition to follow the same + * alignment requirement as CPU_ALIGNMENT. If the CPU_ALIGNMENT is strict + * enough for the partition, then this should be set to CPU_ALIGNMENT. + * + * NOTE: This does not have to be a power of 2. It does have to + * be greater or equal to than CPU_ALIGNMENT. + */ + +#define CPU_PARTITION_ALIGNMENT CPU_ALIGNMENT + +/* + * This number corresponds to the byte alignment requirement for the + * stack. This alignment requirement may be stricter than that for the + * data types alignment specified by CPU_ALIGNMENT. If the CPU_ALIGNMENT + * is strict enough for the stack, then this should be set to 0. + * + * NOTE: This must be a power of 2 either 0 or greater than CPU_ALIGNMENT. + * + * The alignment restrictions for the SPARC are not that strict but this + * should unsure that the stack is always sufficiently alignment that the + * window overflow, underflow, and flush routines can use double word loads + * and stores. + */ + +#define CPU_STACK_ALIGNMENT 16 + +#ifndef ASM + +/* ISR handler macros */ + +/* + * Disable all interrupts for a critical section. The previous + * level is returned in _level. + */ + +#define _CPU_ISR_Disable( _level ) \ + sparc_disable_interrupts( _level ) + +/* + * Enable interrupts to the previous level (returned by _CPU_ISR_Disable). + * This indicates the end of a critical section. The parameter + * _level is not modified. + */ + +#define _CPU_ISR_Enable( _level ) \ + sparc_enable_interrupts( _level ) + +/* + * This temporarily restores the interrupt to _level before immediately + * disabling them again. This is used to divide long critical + * sections into two or more parts. The parameter _level is not + * modified. + */ + +#define _CPU_ISR_Flash( _level ) \ + sparc_flash_interrupts( _level ) + +/* + * Map interrupt level in task mode onto the hardware that the CPU + * actually provides. Currently, interrupt levels which do not + * map onto the CPU in a straight fashion are undefined. + */ + +#define _CPU_ISR_Set_level( _newlevel ) \ + sparc_set_interrupt_level( _newlevel ) + +unsigned32 _CPU_ISR_Get_level( void ); + +/* end of ISR handler macros */ + +/* Context handler macros */ + +/* + * Initialize the context to a state suitable for starting a + * task after a context restore operation. Generally, this + * involves: + * + * - setting a starting address + * - preparing the stack + * - preparing the stack and frame pointers + * - setting the proper interrupt level in the context + * - initializing the floating point context + * + * NOTE: Implemented as a subroutine for the SPARC port. + */ + +void _CPU_Context_Initialize( + Context_Control *the_context, + unsigned32 *stack_base, + unsigned32 size, + unsigned32 new_level, + void *entry_point, + boolean is_fp +); + +/* + * This routine is responsible for somehow restarting the currently + * executing task. + * + * On the SPARC, this is is relatively painless but requires a small + * amount of wrapper code before using the regular restore code in + * of the context switch. + */ + +#define _CPU_Context_Restart_self( _the_context ) \ + _CPU_Context_restore( (_the_context) ); + +/* + * The FP context area for the SPARC is a simple structure and nothing + * special is required to find the "starting load point" + */ + +#define _CPU_Context_Fp_start( _base, _offset ) \ + ( (void *) _Addresses_Add_offset( (_base), (_offset) ) ) + +/* + * This routine initializes the FP context area passed to it to. + * + * The SPARC allows us to use the simple initialization model + * in which an "initial" FP context was saved into _CPU_Null_fp_context + * at CPU initialization and it is simply copied into the destination + * context. + */ + +#define _CPU_Context_Initialize_fp( _destination ) \ + do { \ + *((Context_Control_fp *) *((void **) _destination)) = _CPU_Null_fp_context; \ + } while (0) + +/* end of Context handler macros */ + +/* Fatal Error manager macros */ + +/* + * This routine copies _error into a known place -- typically a stack + * location or a register, optionally disables interrupts, and + * halts/stops the CPU. + */ + +#define _CPU_Fatal_halt( _error ) \ + do { \ + unsigned32 level; \ + \ + sparc_disable_interrupts( level ); \ + asm volatile ( "mov %0, %%g1 " : "=r" (level) : "0" (level) ); \ + while (1); /* loop forever */ \ + } while (0) + +/* end of Fatal Error manager macros */ + +/* Bitfield handler macros */ + +/* + * The SPARC port uses the generic C algorithm for bitfield scan if the + * CPU model does not have a scan instruction. + */ + +#if ( SPARC_HAS_BITSCAN == 0 ) +#define CPU_USE_GENERIC_BITFIELD_CODE TRUE +#define CPU_USE_GENERIC_BITFIELD_DATA TRUE +#else +#error "scan instruction not currently supported by RTEMS!!" +#endif + +/* end of Bitfield handler macros */ + +/* Priority handler handler macros */ + +/* + * The SPARC port uses the generic C algorithm for bitfield scan if the + * CPU model does not have a scan instruction. + */ + +#if ( SPARC_HAS_BITSCAN == 1 ) +#error "scan instruction not currently supported by RTEMS!!" +#endif + +/* end of Priority handler macros */ + +/* functions */ + +/* + * _CPU_Initialize + * + * This routine performs CPU dependent initialization. + */ + +void _CPU_Initialize( + rtems_cpu_table *cpu_table, + void (*thread_dispatch) +); + +/* + * _CPU_ISR_install_raw_handler + * + * This routine installs new_handler to be directly called from the trap + * table. + */ + +void _CPU_ISR_install_raw_handler( + unsigned32 vector, + proc_ptr new_handler, + proc_ptr *old_handler +); + +/* + * _CPU_ISR_install_vector + * + * This routine installs an interrupt vector. + */ + +void _CPU_ISR_install_vector( + unsigned32 vector, + proc_ptr new_handler, + proc_ptr *old_handler +); + +#if (CPU_PROVIDES_IDLE_THREAD_BODY == TRUE) + +/* + * _CPU_Thread_Idle_body + * + * Some SPARC implementations have low power, sleep, or idle modes. This + * tries to take advantage of those models. + */ + +void _CPU_Thread_Idle_body( void ); + +#endif /* CPU_PROVIDES_IDLE_THREAD_BODY */ + +/* + * _CPU_Context_switch + * + * This routine switches from the run context to the heir context. + */ + +void _CPU_Context_switch( + Context_Control *run, + Context_Control *heir +); + +/* + * _CPU_Context_restore + * + * This routine is generally used only to restart self in an + * efficient manner. + */ + +void _CPU_Context_restore( + Context_Control *new_context +); + +/* + * _CPU_Context_save_fp + * + * This routine saves the floating point context passed to it. + */ + +void _CPU_Context_save_fp( + void **fp_context_ptr +); + +/* + * _CPU_Context_restore_fp + * + * This routine restores the floating point context passed to it. + */ + +void _CPU_Context_restore_fp( + void **fp_context_ptr +); + +/* + * CPU_swap_u32 + * + * The following routine swaps the endian format of an unsigned int. + * It must be static because it is referenced indirectly. + * + * This version will work on any processor, but if you come across a better + * way for the SPARC PLEASE use it. The most common way to swap a 32-bit + * entity as shown below is not any more efficient on the SPARC. + * + * swap least significant two bytes with 16-bit rotate + * swap upper and lower 16-bits + * swap most significant two bytes with 16-bit rotate + * + * It is not obvious how the SPARC can do significantly better than the + * generic code. gcc 2.7.0 only generates about 12 instructions for the + * following code at optimization level four (i.e. -O4). + */ + +static inline unsigned int CPU_swap_u32( + unsigned int value +) +{ + unsigned32 byte1, byte2, byte3, byte4, swapped; + + byte4 = (value >> 24) & 0xff; + byte3 = (value >> 16) & 0xff; + byte2 = (value >> 8) & 0xff; + byte1 = value & 0xff; + + swapped = (byte1 << 24) | (byte2 << 16) | (byte3 << 8) | byte4; + return( swapped ); +} + +#define CPU_swap_u16( value ) \ + (((value&0xff) << 8) | ((value >> 8)&0xff)) + +#endif ASM + +#ifdef __cplusplus +} +#endif + +#endif diff --git a/c/src/exec/score/cpu/sparc/rtems/score/sparc.h b/c/src/exec/score/cpu/sparc/rtems/score/sparc.h new file mode 100644 index 0000000000..283548728a --- /dev/null +++ b/c/src/exec/score/cpu/sparc/rtems/score/sparc.h @@ -0,0 +1,253 @@ +/* sparc.h + * + * This include file contains information pertaining to the SPARC + * processor family. + * + * COPYRIGHT (c) 1989-1998. + * On-Line Applications Research Corporation (OAR). + * Copyright assigned to U.S. Government, 1994. + * + * The license and distribution terms for this file may be + * found in the file LICENSE in this distribution or at + * http://www.OARcorp.com/rtems/license.html. + * + * Ported to ERC32 implementation of the SPARC by On-Line Applications + * Research Corporation (OAR) under contract to the European Space + * Agency (ESA). + * + * ERC32 modifications of respective RTEMS file: COPYRIGHT (c) 1995. + * European Space Agency. + * + * $Id$ + */ + +#ifndef _INCLUDE_SPARC_h +#define _INCLUDE_SPARC_h + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * This file contains the information required to build + * RTEMS for a particular member of the "sparc" family. It does + * this by setting variables to indicate which implementation + * dependent features are present in a particular member + * of the family. + * + * Currently recognized feature flags: + * + * + SPARC_HAS_FPU + * 0 - no HW FPU + * 1 - has HW FPU (assumed to be compatible w/90C602) + * + * + SPARC_HAS_BITSCAN + * 0 - does not have scan instructions + * 1 - has scan instruction (not currently implemented) + * + * + SPARC_NUMBER_OF_REGISTER_WINDOWS + * 8 is the most common number supported by SPARC implementations. + * SPARC_PSR_CWP_MASK is derived from this value. + * + * + SPARC_HAS_LOW_POWER_MODE + * 0 - does not have low power mode support (or not supported) + * 1 - has low power mode and thus a CPU model dependent idle task. + * + */ + +#if defined(erc32) + +#define CPU_MODEL_NAME "erc32" +#define SPARC_HAS_FPU 1 +#define SPARC_HAS_BITSCAN 0 +#define SPARC_NUMBER_OF_REGISTER_WINDOWS 8 +#define SPARC_HAS_LOW_POWER_MODE 1 + +#else + +#error "Unsupported CPU Model" + +#endif + +/* + * Define the name of the CPU family. + */ + +#define CPU_NAME "SPARC" + +/* + * Miscellaneous constants + */ + +/* + * PSR masks and starting bit positions + * + * NOTE: Reserved bits are ignored. + */ + +#if (SPARC_NUMBER_OF_REGISTER_WINDOWS == 8) +#define SPARC_PSR_CWP_MASK 0x07 /* bits 0 - 4 */ +#elif (SPARC_NUMBER_OF_REGISTER_WINDOWS == 16) +#define SPARC_PSR_CWP_MASK 0x0F /* bits 0 - 4 */ +#elif (SPARC_NUMBER_OF_REGISTER_WINDOWS == 32) +#define SPARC_PSR_CWP_MASK 0x1F /* bits 0 - 4 */ +#else +#error "Unsupported number of register windows for this cpu" +#endif + +#define SPARC_PSR_ET_MASK 0x00000020 /* bit 5 */ +#define SPARC_PSR_PS_MASK 0x00000040 /* bit 6 */ +#define SPARC_PSR_S_MASK 0x00000080 /* bit 7 */ +#define SPARC_PSR_PIL_MASK 0x00000F00 /* bits 8 - 11 */ +#define SPARC_PSR_EF_MASK 0x00001000 /* bit 12 */ +#define SPARC_PSR_EC_MASK 0x00002000 /* bit 13 */ +#define SPARC_PSR_ICC_MASK 0x00F00000 /* bits 20 - 23 */ +#define SPARC_PSR_VER_MASK 0x0F000000 /* bits 24 - 27 */ +#define SPARC_PSR_IMPL_MASK 0xF0000000 /* bits 28 - 31 */ + +#define SPARC_PSR_CWP_BIT_POSITION 0 /* bits 0 - 4 */ +#define SPARC_PSR_ET_BIT_POSITION 5 /* bit 5 */ +#define SPARC_PSR_PS_BIT_POSITION 6 /* bit 6 */ +#define SPARC_PSR_S_BIT_POSITION 7 /* bit 7 */ +#define SPARC_PSR_PIL_BIT_POSITION 8 /* bits 8 - 11 */ +#define SPARC_PSR_EF_BIT_POSITION 12 /* bit 12 */ +#define SPARC_PSR_EC_BIT_POSITION 13 /* bit 13 */ +#define SPARC_PSR_ICC_BIT_POSITION 20 /* bits 20 - 23 */ +#define SPARC_PSR_VER_BIT_POSITION 24 /* bits 24 - 27 */ +#define SPARC_PSR_IMPL_BIT_POSITION 28 /* bits 28 - 31 */ + +#ifndef ASM + +/* + * Standard nop + */ + +#define nop() \ + do { \ + asm volatile ( "nop" ); \ + } while ( 0 ) + +/* + * Get and set the PSR + */ + +#define sparc_get_psr( _psr ) \ + do { \ + (_psr) = 0; \ + asm volatile( "rd %%psr, %0" : "=r" (_psr) : "0" (_psr) ); \ + } while ( 0 ) + +#define sparc_set_psr( _psr ) \ + do { \ + asm volatile ( "mov %0, %%psr " : "=r" ((_psr)) : "0" ((_psr)) ); \ + nop(); \ + nop(); \ + nop(); \ + } while ( 0 ) + +/* + * Get and set the TBR + */ + +#define sparc_get_tbr( _tbr ) \ + do { \ + (_tbr) = 0; /* to avoid unitialized warnings */ \ + asm volatile( "rd %%tbr, %0" : "=r" (_tbr) : "0" (_tbr) ); \ + } while ( 0 ) + +#define sparc_set_tbr( _tbr ) \ + do { \ + asm volatile( "wr %0, 0, %%tbr" : "=r" (_tbr) : "0" (_tbr) ); \ + } while ( 0 ) + +/* + * Get and set the WIM + */ + +#define sparc_get_wim( _wim ) \ + do { \ + asm volatile( "rd %%wim, %0" : "=r" (_wim) : "0" (_wim) ); \ + } while ( 0 ) + +#define sparc_set_wim( _wim ) \ + do { \ + asm volatile( "wr %0, %%wim" : "=r" (_wim) : "0" (_wim) ); \ + nop(); \ + nop(); \ + nop(); \ + } while ( 0 ) + +/* + * Get and set the Y + */ + +#define sparc_get_y( _y ) \ + do { \ + asm volatile( "rd %%y, %0" : "=r" (_y) : "0" (_y) ); \ + } while ( 0 ) + +#define sparc_set_y( _y ) \ + do { \ + asm volatile( "wr %0, %%y" : "=r" (_y) : "0" (_y) ); \ + } while ( 0 ) + +/* + * Manipulate the interrupt level in the psr + * + */ + +#define sparc_disable_interrupts( _level ) \ + do { \ + register unsigned int _newlevel; \ + \ + sparc_get_psr( _level ); \ + (_newlevel) = (_level) | SPARC_PSR_PIL_MASK; \ + sparc_set_psr( _newlevel ); \ + } while ( 0 ) + +#define sparc_enable_interrupts( _level ) \ + do { \ + unsigned int _tmp; \ + \ + sparc_get_psr( _tmp ); \ + _tmp &= ~SPARC_PSR_PIL_MASK; \ + _tmp |= (_level) & SPARC_PSR_PIL_MASK; \ + sparc_set_psr( _tmp ); \ + } while ( 0 ) + +#define sparc_flash_interrupts( _level ) \ + do { \ + register unsigned32 _ignored = 0; \ + \ + sparc_enable_interrupts( (_level) ); \ + sparc_disable_interrupts( _ignored ); \ + } while ( 0 ) + +#define sparc_set_interrupt_level( _new_level ) \ + do { \ + register unsigned32 _new_psr_level = 0; \ + \ + sparc_get_psr( _new_psr_level ); \ + _new_psr_level &= ~SPARC_PSR_PIL_MASK; \ + _new_psr_level |= \ + (((_new_level) << SPARC_PSR_PIL_BIT_POSITION) & SPARC_PSR_PIL_MASK); \ + sparc_set_psr( _new_psr_level ); \ + } while ( 0 ) + +#define sparc_get_interrupt_level( _level ) \ + do { \ + register unsigned32 _psr_level = 0; \ + \ + sparc_get_psr( _psr_level ); \ + (_level) = \ + (_psr_level & SPARC_PSR_PIL_MASK) >> SPARC_PSR_PIL_BIT_POSITION; \ + } while ( 0 ) + +#endif + +#ifdef __cplusplus +} +#endif + +#endif /* ! _INCLUDE_SPARC_h */ +/* end of include file */ diff --git a/c/src/exec/score/cpu/sparc/rtems/score/sparctypes.h b/c/src/exec/score/cpu/sparc/rtems/score/sparctypes.h new file mode 100644 index 0000000000..7a7b2bb606 --- /dev/null +++ b/c/src/exec/score/cpu/sparc/rtems/score/sparctypes.h @@ -0,0 +1,64 @@ +/* sparctypes.h + * + * This include file contains type definitions pertaining to the + * SPARC processor family. + * + * COPYRIGHT (c) 1989-1998. + * On-Line Applications Research Corporation (OAR). + * Copyright assigned to U.S. Government, 1994. + * + * The license and distribution terms for this file may be + * found in the file LICENSE in this distribution or at + * http://www.OARcorp.com/rtems/license.html. + * + * Ported to ERC32 implementation of the SPARC by On-Line Applications + * Research Corporation (OAR) under contract to the European Space + * Agency (ESA). + * + * ERC32 modifications of respective RTEMS file: COPYRIGHT (c) 1995. + * European Space Agency. + * + * $Id$ + */ + +#ifndef __SPARC_TYPES_h +#define __SPARC_TYPES_h + +#ifndef ASM + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * This section defines the basic types for this processor. + */ + +typedef unsigned char unsigned8; /* unsigned 8-bit integer */ +typedef unsigned short unsigned16; /* unsigned 16-bit integer */ +typedef unsigned int unsigned32; /* unsigned 32-bit integer */ +typedef unsigned long long unsigned64; /* unsigned 64-bit integer */ + +typedef unsigned16 Priority_Bit_map_control; + +typedef signed char signed8; /* 8-bit signed integer */ +typedef signed short signed16; /* 16-bit signed integer */ +typedef signed int signed32; /* 32-bit signed integer */ +typedef signed long long signed64; /* 64 bit signed integer */ + +typedef unsigned32 boolean; /* Boolean value */ + +typedef float single_precision; /* single precision float */ +typedef double double_precision; /* double precision float */ + +typedef void sparc_isr; +typedef void ( *sparc_isr_entry )( void ); + +#ifdef __cplusplus +} +#endif + +#endif /* !ASM */ + +#endif +/* end of include file */ diff --git a/c/src/exec/score/cpu/sparc/rtems/score/types.h b/c/src/exec/score/cpu/sparc/rtems/score/types.h new file mode 100644 index 0000000000..7a7b2bb606 --- /dev/null +++ b/c/src/exec/score/cpu/sparc/rtems/score/types.h @@ -0,0 +1,64 @@ +/* sparctypes.h + * + * This include file contains type definitions pertaining to the + * SPARC processor family. + * + * COPYRIGHT (c) 1989-1998. + * On-Line Applications Research Corporation (OAR). + * Copyright assigned to U.S. Government, 1994. + * + * The license and distribution terms for this file may be + * found in the file LICENSE in this distribution or at + * http://www.OARcorp.com/rtems/license.html. + * + * Ported to ERC32 implementation of the SPARC by On-Line Applications + * Research Corporation (OAR) under contract to the European Space + * Agency (ESA). + * + * ERC32 modifications of respective RTEMS file: COPYRIGHT (c) 1995. + * European Space Agency. + * + * $Id$ + */ + +#ifndef __SPARC_TYPES_h +#define __SPARC_TYPES_h + +#ifndef ASM + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * This section defines the basic types for this processor. + */ + +typedef unsigned char unsigned8; /* unsigned 8-bit integer */ +typedef unsigned short unsigned16; /* unsigned 16-bit integer */ +typedef unsigned int unsigned32; /* unsigned 32-bit integer */ +typedef unsigned long long unsigned64; /* unsigned 64-bit integer */ + +typedef unsigned16 Priority_Bit_map_control; + +typedef signed char signed8; /* 8-bit signed integer */ +typedef signed short signed16; /* 16-bit signed integer */ +typedef signed int signed32; /* 32-bit signed integer */ +typedef signed long long signed64; /* 64 bit signed integer */ + +typedef unsigned32 boolean; /* Boolean value */ + +typedef float single_precision; /* single precision float */ +typedef double double_precision; /* double precision float */ + +typedef void sparc_isr; +typedef void ( *sparc_isr_entry )( void ); + +#ifdef __cplusplus +} +#endif + +#endif /* !ASM */ + +#endif +/* end of include file */ -- cgit v1.2.3