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/*

 * Copyright (c) 2007 Petr Stepan

 * All rights reserved.

 *

 * Redistribution and use in source and binary forms, with or without

 * modification, are permitted provided that the following conditions

 * are met:

 *

 * - Redistributions of source code must retain the above copyright

 *   notice, this list of conditions and the following disclaimer.

 * - Redistributions in binary form must reproduce the above copyright

 *   notice, this list of conditions and the following disclaimer in the

 *   documentation and/or other materials provided with the distribution.

 * - The name of the author may not be used to endorse or promote products

 *   derived from this software without specific prior written permission.

 *

 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR

 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES

 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.

 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,

 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT

 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY

 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF

 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 */

/** @addtogroup arm32

 * @{

 */

/** @file

 *  @brief Exception handlers and exception initialization routines.

 */

#include <arch/exception.h>

#include <arch/memstr.h>

#include <arch/regutils.h>

#include <interrupt.h>

#include <arch/mm/page_fault.h>

#include <arch/barrier.h>

#include <arch/machine.h>

#include <print.h>

#include <syscall/syscall.h>

/** Offset used in calculation of exception handler's relative address.

 *

 * @see install_handler()

 */

#define PREFETCH_OFFSET      0x8

/** LDR instruction's code */

#define LDR_OPCODE           0xe59ff000

/** Number of exception vectors. */

#define EXC_VECTORS          8

/** Size of memory block occupied by exception vectors. */

#define EXC_VECTORS_SIZE     (EXC_VECTORS * 4)

/** Switches to kernel stack and saves all registers there.

 *

 * Temporary exception stack is used to save a few registers

 * before stack switch takes place.

 *

 *  The stack fram created by the function looks like:

 *

 * 		|_________________|

 * 		|                 |

 * 		|     SPSR        |

 * 		|                 |

 * 		|_________________|

 * 		| Stack Pointer   |

 * 		|      of         |

 * 		| Previous Mode   |

 * 		|_________________|

 * 		| Return address  |

 * 		|      of         |

 * 		| Previous Mode   |

 * 		|_________________|

 * 		|   R0  - R12     |

 * 		|      of         |

 * 		| Previous Mode   |

 * 		|_________________|

 * 		| Return address  |

 * 		|     from        |

 * 		|Exception Handler|

 * 		|_________________|

 * 		|                 |

 *

 */

inline static void setup_stack_and_save_regs()

{

	asm volatile (

		"ldr r13, =exc_stack\n"

		"stmfd r13!, {r0-r3}\n"

		"mrs r1, cpsr\n"

		"bic r1, r1, #0x1f\n"

		"mrs r2, spsr\n"

		"and r0, r2, #0x1f\n"

		"cmp r0, #0x10\n"

		"bne 1f\n"

		/* prev mode was usermode */

		"mov r0, sp\n"

		"mov r3, lr\n"

		/* Switch to supervisor mode */

		"orr r1, r1, #0x13\n"

		"msr cpsr_c, r1\n"

		/* Load sp with [supervisor_sp] */

		"ldr r13, =supervisor_sp\n"

		"ldr r13, [r13]\n"

		/* Populate the stack frame */

		"msr spsr, r2\n"

		"mov lr, r3\n"

		"stmfd r13!, {lr}\n"

		"stmfd r13!, {r4-r12}\n"

		"ldmfd r0!, {r4-r7}\n"

		"stmfd r13!, {r4-r7}\n"

		"stmfd r13!, {r13, lr}^\n"

		"stmfd r13!, {r2}\n"

		"b 2f\n"

		/* mode was not usermode */

		"1:\n"

			/* Switch to previous mode which is undoubtedly the supervisor mode */

			"orr r1, r1, r0\n"

			"mov r0, lr\n"

			"mov r3, sp\n"

			"msr cpsr_c, r1\n"

			/* Populate the stack frame */

			"mov r1, sp\n"

			"stmfd r13!, {r0}\n"

			"stmfd r13!, {r4-r12}\n"

			/* Store r0-r3 in r4-r7 and then push it on to stack */

			"ldmfd r3!, {r4-r7}\n"

			"stmfd r13!, {r4-r7}\n"

			/* Push return address and stack pointer on to stack */

			"stmfd r13!, {lr}\n"

			"stmfd r13!, {r1}\n"

			"mov lr, r0\n"

			"msr spsr, r2\n"

			"stmfd r13!, {r2}\n"

		"2:\n"

	);

}

/** Returns from exception mode.

 * 

 * Previously saved state of registers (including control register)

 * is restored from the stack.

 */

inline static void load_regs()

{

	asm volatile(

		"ldmfd r13!, {r0}		\n"

		"msr spsr, r0			\n"

		"and r0, r0, #0x1f		\n"

		"cmp r0, #0x10			\n"

		"bne 1f				\n"

		/* return to user mode */

		"ldmfd r13!, {r13, lr}^		\n"

		"b 2f				\n"

		/* return to non-user mode */

	"1:\n"

		"ldmfd r13!, {r1, r2}		\n"

		"mrs r3, cpsr			\n"

		"bic r3, r3, #0x1f		\n"

		"orr r3, r3, r0			\n"

		"mrs r0, cpsr			\n"

		"msr cpsr_c, r3			\n"

		"mov lr, r2			\n"

		"msr cpsr_c, r0			\n"

		/* actual return */

	"2:\n"

		"ldmfd r13!, {r0-r12, pc}^\n"

	);

}

/** Calls exception dispatch routine. */

#define CALL_EXC_DISPATCH(exception) \

	asm volatile ( \

		"mov r0, %[exc]\n" \

		"mov r1, r13\n" \

		"bl exc_dispatch\n" \

		:: [exc] "i" (exception) \

	);\

/** General exception handler.

 *

 *  Stores registers, dispatches the exception,

 *  and finally restores registers and returns from exception processing.

 *

 *  @param exception Exception number.

 */

#define PROCESS_EXCEPTION(exception) \

	setup_stack_and_save_regs(); \

	CALL_EXC_DISPATCH(exception) \

	load_regs();

/** Updates specified exception vector to jump to given handler.

 *

 *  Addresses of handlers are stored in memory following exception vectors.

 */

static void install_handler(unsigned handler_addr, unsigned *vector)

{

	/* relative address (related to exc. vector) of the word

	 * where handler's address is stored

	*/

	volatile uint32_t handler_address_ptr = EXC_VECTORS_SIZE -

	    PREFETCH_OFFSET;

	/* make it LDR instruction and store at exception vector */

	*vector = handler_address_ptr | LDR_OPCODE;

	smc_coherence(*vector);

	/* store handler's address */

	*(vector + EXC_VECTORS) = handler_addr;

}

/** Low-level Reset Exception handler. */

static void reset_exception_entry(void)

{

	PROCESS_EXCEPTION(EXC_RESET);

}

/** Low-level Software Interrupt Exception handler. */

static void swi_exception_entry(void)

{

	PROCESS_EXCEPTION(EXC_SWI);

}

/** Low-level Undefined Instruction Exception handler. */

static void undef_instr_exception_entry(void)

{

	PROCESS_EXCEPTION(EXC_UNDEF_INSTR);

}

/** Low-level Fast Interrupt Exception handler. */

static void fiq_exception_entry(void)

{

	PROCESS_EXCEPTION(EXC_FIQ);

}

/** Low-level Prefetch Abort Exception handler. */

static void prefetch_abort_exception_entry(void)

{

	asm volatile (

		"sub lr, lr, #4"

	);

	PROCESS_EXCEPTION(EXC_PREFETCH_ABORT);

} 

/** Low-level Data Abort Exception handler. */

static void data_abort_exception_entry(void)

{

	asm volatile (

		"sub lr, lr, #8"

	);

	PROCESS_EXCEPTION(EXC_DATA_ABORT);

}

/** Low-level Interrupt Exception handler.

 *

 * CPU is switched to Undefined mode before further interrupt processing

 * because of possible occurence of nested interrupt exception, which

 * would overwrite (and thus spoil) stack pointer.

 */

static void irq_exception_entry(void)

{

	asm volatile (

		"sub lr, lr, #4"

	);

	PROCESS_EXCEPTION(EXC_IRQ)

}

/** Software Interrupt handler.

 *

 * Dispatches the syscall.

 */

static void swi_exception(int exc_no, istate_t *istate)

{

	istate->r0 = syscall_handler(istate->r0, istate->r1, istate->r2,

	    istate->r3, istate->r4, istate->r5, istate->r6);

}

/** Fills exception vectors with appropriate exception handlers. */

void install_exception_handlers(void)

{

	install_handler((unsigned) reset_exception_entry,

	    (unsigned *) EXC_RESET_VEC);

	install_handler((unsigned) undef_instr_exception_entry,

	    (unsigned *) EXC_UNDEF_INSTR_VEC);

	install_handler((unsigned) swi_exception_entry,

	    (unsigned *) EXC_SWI_VEC);

	install_handler((unsigned) prefetch_abort_exception_entry,

	    (unsigned *) EXC_PREFETCH_ABORT_VEC);

	install_handler((unsigned) data_abort_exception_entry,

	    (unsigned *) EXC_DATA_ABORT_VEC);

	install_handler((unsigned) irq_exception_entry,

	    (unsigned *) EXC_IRQ_VEC);

	install_handler((unsigned) fiq_exception_entry,

	    (unsigned *) EXC_FIQ_VEC);

}

#ifdef HIGH_EXCEPTION_VECTORS

/** Activates use of high exception vectors addresses. */

static void high_vectors(void)

{

	uint32_t control_reg;

	asm volatile (

		"mrc p15, 0, %[control_reg], c1, c1"

		: [control_reg] "=r" (control_reg)

	);

	/* switch on the high vectors bit */

	control_reg |= CP15_R1_HIGH_VECTORS_BIT;

	asm volatile (

		"mcr p15, 0, %[control_reg], c1, c1"

		:: [control_reg] "r" (control_reg)

	);

}

#endif

/** Interrupt Exception handler.

 *

 * Determines the sources of interrupt and calls their handlers.

 */

static void irq_exception(int exc_no, istate_t *istate)

{

	machine_irq_exception(exc_no, istate);

}

/** Initializes exception handling.

 *

 * Installs low-level exception handlers and then registers

 * exceptions and their handlers to kernel exception dispatcher.

 */

void exception_init(void)

{

#ifdef HIGH_EXCEPTION_VECTORS

	high_vectors();

#endif

	install_exception_handlers();

	exc_register(EXC_IRQ, "interrupt", (iroutine) irq_exception);

	exc_register(EXC_PREFETCH_ABORT, "prefetch abort",

	    (iroutine) prefetch_abort);

	exc_register(EXC_DATA_ABORT, "data abort", (iroutine) data_abort);

	exc_register(EXC_SWI, "software interrupt", (iroutine) swi_exception);

}

/** Prints #istate_t structure content.

 *

 * @param istate Structure to be printed.

 */

void print_istate(istate_t *istate)

{

	printf("istate dump:\n");

	printf(" r0: %x    r1: %x    r2: %x    r3: %x\n",

	    istate->r0, istate->r1, istate->r2, istate->r3);

	printf(" r4: %x    r5: %x    r6: %x    r7: %x\n", 

	    istate->r4, istate->r5, istate->r6, istate->r7);

	printf(" r8: %x    r8: %x   r10: %x   r11: %x\n", 

	    istate->r8, istate->r9, istate->r10, istate->r11);

	printf(" r12: %x    sp: %x    lr: %x  spsr: %x\n",

	    istate->r12, istate->sp, istate->lr, istate->spsr);

	printf(" pc: %x\n", istate->pc);

}

/** @}

 */