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-rw-r--r--cpukit/score/cpu/sparc/cpu.c181
-rw-r--r--cpukit/score/cpu/sparc/sparc-isr-install.c194
2 files changed, 201 insertions, 174 deletions
diff --git a/cpukit/score/cpu/sparc/cpu.c b/cpukit/score/cpu/sparc/cpu.c
index 9f84c28fc5..a7bf7dfcaf 100644
--- a/cpukit/score/cpu/sparc/cpu.c
+++ b/cpukit/score/cpu/sparc/cpu.c
@@ -1,7 +1,12 @@
/**
- * @file
+ * @file
*
- * @brief SPARC CPU Dependent Source
+ * @ingroup RTEMSScoreCPUSPARC
+ *
+ * @brief This source file contains static assertions to ensure the consistency
+ * of interfaces used in C and assembler and it contains the SPARC-specific
+ * implementation of _CPU_Initialize(), _CPU_ISR_Get_level(), and
+ * _CPU_Context_Initialize().
*/
/*
@@ -19,11 +24,9 @@
#include "config.h"
#endif
-#include <rtems/score/isr.h>
#include <rtems/score/percpu.h>
#include <rtems/score/tls.h>
#include <rtems/score/thread.h>
-#include <rtems/rtems/cache.h>
#if SPARC_HAS_FPU == 1
RTEMS_STATIC_ASSERT(
@@ -145,22 +148,6 @@ RTEMS_STATIC_ASSERT(
);
/*
- * This initializes the set of opcodes placed in each 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.
- */
-const CPU_Trap_table_entry _CPU_Trap_slot_template = {
- 0xa1480000, /* mov %psr, %l0 */
- 0x29000000, /* sethi %hi(_handler), %l4 */
- 0x81c52000, /* jmp %l4 + %lo(_handler) */
- 0xa6102000 /* mov _vector, %l3 */
-};
-
-/*
* _CPU_Initialize
*
* This routine performs processor dependent initialization.
@@ -197,160 +184,6 @@ uint32_t _CPU_ISR_Get_level( void )
return level;
}
-/*
- * _CPU_ISR_install_raw_handler
- *
- * This routine installs the specified handler as a "raw" non-executive
- * supported trap handler (a.k.a. interrupt service routine).
- *
- * Input Parameters:
- * vector - trap table entry number plus synchronous
- * vs. asynchronous information
- * new_handler - address of the handler to be installed
- * old_handler - pointer to an address of the handler previously installed
- *
- * Output Parameters: NONE
- * *new_handler - address of the handler previously installed
- *
- * NOTE:
- *
- * 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.
- */
-
-void _CPU_ISR_install_raw_handler(
- uint32_t vector,
- CPU_ISR_raw_handler new_handler,
- CPU_ISR_raw_handler *old_handler
-)
-{
- uint32_t real_vector;
- CPU_Trap_table_entry *tbr;
- CPU_Trap_table_entry *slot;
- uint32_t u32_tbr;
- uint32_t u32_handler;
-
- /*
- * Get the "real" trap number for this vector ignoring the synchronous
- * versus asynchronous indicator included with our vector numbers.
- */
-
- real_vector = SPARC_REAL_TRAP_NUMBER( vector );
-
- /*
- * Get the current base address of the trap table and calculate a pointer
- * to the slot we are interested in.
- */
-
- sparc_get_tbr( u32_tbr );
-
- u32_tbr &= 0xfffff000;
-
- tbr = (CPU_Trap_table_entry *) u32_tbr;
-
- slot = &tbr[ real_vector ];
-
- /*
- * Get the address of the old_handler from the trap table.
- *
- * NOTE: The old_handler returned will be bogus if it does not follow
- * the RTEMS model.
- */
-
-#define HIGH_BITS_MASK 0xFFFFFC00
-#define HIGH_BITS_SHIFT 10
-#define LOW_BITS_MASK 0x000003FF
-
- if ( slot->mov_psr_l0 == _CPU_Trap_slot_template.mov_psr_l0 ) {
- u32_handler =
- (slot->sethi_of_handler_to_l4 << HIGH_BITS_SHIFT) |
- (slot->jmp_to_low_of_handler_plus_l4 & LOW_BITS_MASK);
- *old_handler = (CPU_ISR_raw_handler) u32_handler;
- } else
- *old_handler = 0;
-
- /*
- * Copy the template to the slot and then fix it.
- */
-
- *slot = _CPU_Trap_slot_template;
-
- u32_handler = (uint32_t) new_handler;
-
- slot->mov_vector_l3 |= vector;
- slot->sethi_of_handler_to_l4 |=
- (u32_handler & HIGH_BITS_MASK) >> HIGH_BITS_SHIFT;
- slot->jmp_to_low_of_handler_plus_l4 |= (u32_handler & LOW_BITS_MASK);
-
- /*
- * There is no instruction cache snooping, so we need to invalidate
- * the instruction cache to make sure that the processor sees the
- * changes to the trap table. This step is required on both single-
- * and multiprocessor systems.
- *
- * In a SMP configuration a change to the trap table might be
- * missed by other cores. If the system state is up, the other
- * cores can be notified using SMP messages that they need to
- * flush their icache. If the up state has not been reached
- * there is no need to notify other cores. They will do an
- * automatic flush of the icache just after entering the up
- * state, but before enabling interrupts.
- */
- rtems_cache_invalidate_entire_instruction();
-}
-
-void _CPU_ISR_install_vector(
- uint32_t vector,
- CPU_ISR_handler new_handler,
- CPU_ISR_handler *old_handler
-)
-{
- uint32_t real_vector;
- CPU_ISR_raw_handler ignored;
-
- /*
- * Get the "real" trap number for this vector ignoring the synchronous
- * versus asynchronous indicator included with our vector numbers.
- */
-
- real_vector = SPARC_REAL_TRAP_NUMBER( vector );
-
- /*
- * Return the previous ISR handler.
- */
-
- *old_handler = _ISR_Vector_table[ real_vector ];
-
- /*
- * Install the wrapper so this ISR can be invoked properly.
- */
-
- _CPU_ISR_install_raw_handler( vector, _ISR_Handler, &ignored );
-
- /*
- * We put the actual user ISR address in '_ISR_vector_table'. This will
- * be used by the _ISR_Handler so the user gets control.
- */
-
- _ISR_Vector_table[ real_vector ] = new_handler;
-}
-
void _CPU_Context_Initialize(
Context_Control *the_context,
uint32_t *stack_base,
diff --git a/cpukit/score/cpu/sparc/sparc-isr-install.c b/cpukit/score/cpu/sparc/sparc-isr-install.c
new file mode 100644
index 0000000000..017173c489
--- /dev/null
+++ b/cpukit/score/cpu/sparc/sparc-isr-install.c
@@ -0,0 +1,194 @@
+/**
+ * @file
+ *
+ * @ingroup RTEMSScoreCPUSPARC
+ *
+ * @brief This source file contains the SPARC-specific implementation of
+ * _CPU_ISR_install_raw_handler() and _CPU_ISR_install_vector().
+ */
+
+/*
+ * COPYRIGHT (c) 1989-2007.
+ * On-Line Applications Research Corporation (OAR).
+ *
+ * The license and distribution terms for this file may be
+ * found in the file LICENSE in this distribution or at
+ * http://www.rtems.org/license/LICENSE.
+ */
+
+#ifdef HAVE_CONFIG_H
+#include "config.h"
+#endif
+
+#include <rtems/score/isr.h>
+#include <rtems/rtems/cache.h>
+
+/*
+ * This initializes the set of opcodes placed in each 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.
+ */
+const CPU_Trap_table_entry _CPU_Trap_slot_template = {
+ 0xa1480000, /* mov %psr, %l0 */
+ 0x29000000, /* sethi %hi(_handler), %l4 */
+ 0x81c52000, /* jmp %l4 + %lo(_handler) */
+ 0xa6102000 /* mov _vector, %l3 */
+};
+
+/*
+ * _CPU_ISR_install_raw_handler
+ *
+ * This routine installs the specified handler as a "raw" non-executive
+ * supported trap handler (a.k.a. interrupt service routine).
+ *
+ * Input Parameters:
+ * vector - trap table entry number plus synchronous
+ * vs. asynchronous information
+ * new_handler - address of the handler to be installed
+ * old_handler - pointer to an address of the handler previously installed
+ *
+ * Output Parameters: NONE
+ * *new_handler - address of the handler previously installed
+ *
+ * NOTE:
+ *
+ * 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.
+ */
+
+void _CPU_ISR_install_raw_handler(
+ uint32_t vector,
+ CPU_ISR_raw_handler new_handler,
+ CPU_ISR_raw_handler *old_handler
+)
+{
+ uint32_t real_vector;
+ CPU_Trap_table_entry *tbr;
+ CPU_Trap_table_entry *slot;
+ uint32_t u32_tbr;
+ uint32_t u32_handler;
+
+ /*
+ * Get the "real" trap number for this vector ignoring the synchronous
+ * versus asynchronous indicator included with our vector numbers.
+ */
+
+ real_vector = SPARC_REAL_TRAP_NUMBER( vector );
+
+ /*
+ * Get the current base address of the trap table and calculate a pointer
+ * to the slot we are interested in.
+ */
+
+ sparc_get_tbr( u32_tbr );
+
+ u32_tbr &= 0xfffff000;
+
+ tbr = (CPU_Trap_table_entry *) u32_tbr;
+
+ slot = &tbr[ real_vector ];
+
+ /*
+ * Get the address of the old_handler from the trap table.
+ *
+ * NOTE: The old_handler returned will be bogus if it does not follow
+ * the RTEMS model.
+ */
+
+#define HIGH_BITS_MASK 0xFFFFFC00
+#define HIGH_BITS_SHIFT 10
+#define LOW_BITS_MASK 0x000003FF
+
+ if ( slot->mov_psr_l0 == _CPU_Trap_slot_template.mov_psr_l0 ) {
+ u32_handler =
+ (slot->sethi_of_handler_to_l4 << HIGH_BITS_SHIFT) |
+ (slot->jmp_to_low_of_handler_plus_l4 & LOW_BITS_MASK);
+ *old_handler = (CPU_ISR_raw_handler) u32_handler;
+ } else
+ *old_handler = 0;
+
+ /*
+ * Copy the template to the slot and then fix it.
+ */
+
+ *slot = _CPU_Trap_slot_template;
+
+ u32_handler = (uint32_t) new_handler;
+
+ slot->mov_vector_l3 |= vector;
+ slot->sethi_of_handler_to_l4 |=
+ (u32_handler & HIGH_BITS_MASK) >> HIGH_BITS_SHIFT;
+ slot->jmp_to_low_of_handler_plus_l4 |= (u32_handler & LOW_BITS_MASK);
+
+ /*
+ * There is no instruction cache snooping, so we need to invalidate
+ * the instruction cache to make sure that the processor sees the
+ * changes to the trap table. This step is required on both single-
+ * and multiprocessor systems.
+ *
+ * In a SMP configuration a change to the trap table might be
+ * missed by other cores. If the system state is up, the other
+ * cores can be notified using SMP messages that they need to
+ * flush their icache. If the up state has not been reached
+ * there is no need to notify other cores. They will do an
+ * automatic flush of the icache just after entering the up
+ * state, but before enabling interrupts.
+ */
+ rtems_cache_invalidate_entire_instruction();
+}
+
+void _CPU_ISR_install_vector(
+ uint32_t vector,
+ CPU_ISR_handler new_handler,
+ CPU_ISR_handler *old_handler
+)
+{
+ uint32_t real_vector;
+ CPU_ISR_raw_handler ignored;
+
+ /*
+ * Get the "real" trap number for this vector ignoring the synchronous
+ * versus asynchronous indicator included with our vector numbers.
+ */
+
+ real_vector = SPARC_REAL_TRAP_NUMBER( vector );
+
+ /*
+ * Return the previous ISR handler.
+ */
+
+ *old_handler = _ISR_Vector_table[ real_vector ];
+
+ /*
+ * Install the wrapper so this ISR can be invoked properly.
+ */
+
+ _CPU_ISR_install_raw_handler( vector, _ISR_Handler, &ignored );
+
+ /*
+ * We put the actual user ISR address in '_ISR_vector_table'. This will
+ * be used by the _ISR_Handler so the user gets control.
+ */
+
+ _ISR_Vector_table[ real_vector ] = new_handler;
+}