tests/tcg/aarch64/system/boot.S - qemu - Git at Google

 /*
  * Minimal AArch64 system boot code.
  *
  * Copyright Linaro Ltd 2019
  *
  * Loosely based on the newlib/libgloss setup stubs. Using semihosting
  * for serial output and exit functions.
  */

 /*
  * Semihosting interface on ARM AArch64
  * See "Semihosting for AArch32 and AArch64 Release 2.0" by ARM
  * w0 - semihosting call number
  * x1 - semihosting parameter
  */
 #define semihosting_call hlt 0xf000
 #define SYS_WRITEC	0x03	/* character to debug channel */
 #define SYS_WRITE0	0x04	/* string to debug channel */
 #define SYS_EXIT	0x18

 	.align	12

 	.macro	ventry	label
 	.align	7
 	b	\label
 	.endm

 vector_table:
 	/* Current EL with SP0.	 */
 	ventry	curr_sp0_sync		/* Synchronous	*/
 	ventry	curr_sp0_irq		/* Irq/vIRQ  */
 	ventry	curr_sp0_fiq		/* Fiq/vFIQ  */
 	ventry	curr_sp0_serror		/* SError/VSError  */

 	/* Current EL with SPx.	 */
 	ventry	curr_spx_sync		/* Synchronous	*/
 	ventry	curr_spx_irq		/* IRQ/vIRQ  */
 	ventry	curr_spx_fiq		/* FIQ/vFIQ  */
 	ventry	curr_spx_serror		/* SError/VSError  */

 	/* Lower EL using AArch64.  */
 	ventry	lower_a64_sync		/* Synchronous	*/
 	ventry	lower_a64_irq		/* IRQ/vIRQ  */
 	ventry	lower_a64_fiq		/* FIQ/vFIQ  */
 	ventry	lower_a64_serror	/* SError/VSError  */

 	/* Lower EL using AArch32.  */
 	ventry	lower_a32_sync		/* Synchronous	*/
 	ventry	lower_a32_irq		/* IRQ/vIRQ  */
 	ventry	lower_a32_fiq		/* FIQ/vFIQ  */
 	ventry	lower_a32_serror	/* SError/VSError  */

 	.text
 	.align 4

 	/* Common vector handling for now */
 curr_sp0_sync:
 curr_sp0_irq:
 curr_sp0_fiq:
 curr_sp0_serror:
 curr_spx_sync:
 curr_spx_irq:
 curr_spx_fiq:
 curr_spx_serror:
 lower_a64_sync:
 lower_a64_irq:
 lower_a64_fiq:
 lower_a64_serror:
 lower_a32_sync:
 lower_a32_irq:
 lower_a32_fiq:
 lower_a32_serror:
 	mov	x0, SYS_WRITE0
 	adr	x1, .error
 	semihosting_call
 	mov	x0, SYS_EXIT
 	mov	x1, 1
 	semihosting_call
 	/* never returns */

 	.section .rodata
 .error:
 	.string "Terminated by exception.\n"

 	.text
 	.align 4
 	.global __start
 __start:
 	/* Installs a table of exception vectors to catch and handle all
 	   exceptions by terminating the process with a diagnostic.  */
 	adr	x0, vector_table
 	msr	vbar_el1, x0

 	/* Page table setup (identity mapping). */
 	adrp	x0, ttb
 	add	x0, x0, :lo12:ttb
 	msr	ttbr0_el1, x0

 	/*
 	 * Setup a flat address mapping page-tables. Stage one simply
 	 * maps RAM to the first Gb. The stage2 tables have two 2mb
 	 * translation block entries covering a series of adjacent
 	 * 4k pages.
 	*/

 	/* Stage 1 entry: indexed by IA[38:30] */
 	adr	x1, .				/* phys address */
 	bic	x1, x1, #(1 << 30) - 1		/* 1GB alignment*/
 	add	x2, x0, x1, lsr #(30 - 3)	/* offset in l1 page table */

 	/* point to stage 2 table [47:12] */
 	adrp	x0, ttb_stage2
 	orr 	x1, x0, #3 			/* ptr to stage 2 */
 	str	x1, [x2]

 	/* Stage 2 entries: indexed by IA[29:21] */
 	ldr	x5, =(((1 << 9) - 1) << 21)

 	/* First block: .text/RO/execute enabled */
 	adr	x1, .				/* phys address */
 	bic	x1, x1, #(1 << 21) - 1		/* 2mb block alignment	*/
 	and	x4, x1, x5			/* IA[29:21] */
 	add	x2, x0, x4, lsr #(21 - 3)	/* offset in l2 page table */
 	ldr	x3, =0x401			/* attr(AF, block) */
 	orr	x1, x1, x3
 	str	x1, [x2]			/* 1st 2mb (.text & rodata) */

 	/* Second block: .data/RW/no execute */
 	adrp	x1, .data
 	add	x1, x1, :lo12:.data
 	bic	x1, x1, #(1 << 21) - 1		/* 2mb block alignment */
 	and	x4, x1, x5			/* IA[29:21] */
 	add	x2, x0, x4, lsr #(21 - 3)	/* offset in l2 page table */
 	ldr	x3, =(3 << 53) | 0x401		/* attr(AF, NX, block) */
 	orr	x1, x1, x3
 	str	x1, [x2]			/* 2nd 2mb (.data & .bss)*/

 	/* Setup/enable the MMU.  */

 	/*
 	 * TCR_EL1 - Translation Control Registers
 	 *
 	 * IPS[34:32] = 40-bit PA, 1TB
 	 * TG0[14:15] = b00 => 4kb granuale
 	 * ORGN0[11:10] = Outer: Normal, WB Read-Alloc No Write-Alloc Cacheable
 	 * IRGN0[9:8] = Inner: Normal, WB Read-Alloc No Write-Alloc Cacheable
 	 * T0SZ[5:0]  = 2^(64 - 25)
 	 *
 	 * The size of T0SZ controls what the initial lookup level. It
 	 * would be nice to start at level 2 but unfortunately for a
 	 * flat-mapping on the virt machine we need to handle IA's
 	 * with at least 1gb range to see RAM. So we start with a
 	 * level 1 lookup.
 	 */
 	ldr	x0, = (2 << 32) | 25 | (3 << 10) | (3 << 8)
 	msr	tcr_el1, x0

 	mov	x0, #0xee			/* Inner/outer cacheable WB */
 	msr	mair_el1, x0
 	isb

 	/*
 	 * SCTLR_EL1 - System Control Register
 	 *
 	 * WXN[19] = 0 = no effect, Write does not imply XN (execute never)
 	 * I[12] = Instruction cachability control
 	 * SA[3] = SP alignment check
 	 * C[2] = Data cachability control
 	 * M[0] = 1, enable stage 1 address translation for EL0/1
 	 */
 	mrs	x0, sctlr_el1
 	ldr	x1, =0x100d			/* bits I(12) SA(3) C(2) M(0) */
 	bic	x0, x0, #(1 << 1)		/* clear bit A(1) */
 	bic	x0, x0, #(1 << 19)		/* clear WXN */
 	orr	x0, x0, x1			/* set bits */

 	dsb	sy
 	msr	sctlr_el1, x0
 	isb

 	/*
 	 * Enable FP/SVE registers. The standard C pre-amble will be
 	 * saving these and A-profile compilers will use AdvSIMD
 	 * registers unless we tell it not to.
 	*/
 	mrs	x0, cpacr_el1
 	orr	x0, x0, #(3 << 20)
 	orr	x0, x0, #(3 << 16)
 	msr	cpacr_el1, x0

 	/* Setup some stack space and enter the test code.
 	 * Assume everything except the return value is garbage when we
 	 * return, we won't need it.
 	 */
 	adrp	x0, stack_end
 	add	x0, x0, :lo12:stack_end
 	mov	sp, x0
 	bl	main

 	/* pass return value to sys exit */
 _exit:
 	mov    x1, x0
 	ldr    x0, =0x20026 /* ADP_Stopped_ApplicationExit */
 	stp    x0, x1, [sp, #-16]!
 	mov    x1, sp
 	mov    x0, SYS_EXIT
 	semihosting_call
 	/* never returns */

 	/*
 	 * Helper Functions
 	*/

 	/* Output a single character to serial port */
 	.global __sys_outc
 __sys_outc:
 	stp x0, x1, [sp, #-16]!
 	/* pass address of c on stack */
 	mov x1, sp
 	mov x0, SYS_WRITEC
 	semihosting_call
 	ldp x0, x1, [sp], #16
 	ret

 	.data
 	.align	12

 	/* Translation table
 	 * @4k granuale: 9 bit lookup, 512 entries
 	*/
 ttb:
 	.space	4096, 0

 	.align	12
 ttb_stage2:
 	.space	4096, 0

 	.align	12
 stack:
 	.space 65536, 0
 stack_end:
	/*
	* Minimal AArch64 system boot code.
	*
	* Copyright Linaro Ltd 2019
	*
	* Loosely based on the newlib/libgloss setup stubs. Using semihosting
	* for serial output and exit functions.
	*/

	/*
	* Semihosting interface on ARM AArch64
	* See "Semihosting for AArch32 and AArch64 Release 2.0" by ARM
	* w0 - semihosting call number
	* x1 - semihosting parameter
	*/
	#define semihosting_call hlt 0xf000
	#define SYS_WRITEC 0x03 /* character to debug channel */
	#define SYS_WRITE0 0x04 /* string to debug channel */
	#define SYS_EXIT 0x18

	.align 12

	.macro ventry label
	.align 7
	b \label
	.endm

	vector_table:
	/* Current EL with SP0. */
	ventry curr_sp0_sync /* Synchronous */
	ventry curr_sp0_irq /* Irq/vIRQ */
	ventry curr_sp0_fiq /* Fiq/vFIQ */
	ventry curr_sp0_serror /* SError/VSError */

	/* Current EL with SPx. */
	ventry curr_spx_sync /* Synchronous */
	ventry curr_spx_irq /* IRQ/vIRQ */
	ventry curr_spx_fiq /* FIQ/vFIQ */
	ventry curr_spx_serror /* SError/VSError */

	/* Lower EL using AArch64. */
	ventry lower_a64_sync /* Synchronous */
	ventry lower_a64_irq /* IRQ/vIRQ */
	ventry lower_a64_fiq /* FIQ/vFIQ */
	ventry lower_a64_serror /* SError/VSError */

	/* Lower EL using AArch32. */
	ventry lower_a32_sync /* Synchronous */
	ventry lower_a32_irq /* IRQ/vIRQ */
	ventry lower_a32_fiq /* FIQ/vFIQ */
	ventry lower_a32_serror /* SError/VSError */

	.text
	.align 4

	/* Common vector handling for now */
	curr_sp0_sync:
	curr_sp0_irq:
	curr_sp0_fiq:
	curr_sp0_serror:
	curr_spx_sync:
	curr_spx_irq:
	curr_spx_fiq:
	curr_spx_serror:
	lower_a64_sync:
	lower_a64_irq:
	lower_a64_fiq:
	lower_a64_serror:
	lower_a32_sync:
	lower_a32_irq:
	lower_a32_fiq:
	lower_a32_serror:
	mov x0, SYS_WRITE0
	adr x1, .error
	semihosting_call
	mov x0, SYS_EXIT
	mov x1, 1
	semihosting_call
	/* never returns */

	.section .rodata
	.error:
	.string "Terminated by exception.\n"

	.text
	.align 4
	.global __start
	__start:
	/* Installs a table of exception vectors to catch and handle all
	exceptions by terminating the process with a diagnostic. */
	adr x0, vector_table
	msr vbar_el1, x0

	/* Page table setup (identity mapping). */
	adrp x0, ttb
	add x0, x0, :lo12:ttb
	msr ttbr0_el1, x0

	/*
	* Setup a flat address mapping page-tables. Stage one simply
	* maps RAM to the first Gb. The stage2 tables have two 2mb
	* translation block entries covering a series of adjacent
	* 4k pages.
	*/

	/* Stage 1 entry: indexed by IA[38:30] */
	adr x1, . /* phys address */
	bic x1, x1, #(1 << 30) - 1 /* 1GB alignment*/
	add x2, x0, x1, lsr #(30 - 3) /* offset in l1 page table */

	/* point to stage 2 table [47:12] */
	adrp x0, ttb_stage2
	orr x1, x0, #3 /* ptr to stage 2 */
	str x1, [x2]

	/* Stage 2 entries: indexed by IA[29:21] */
	ldr x5, =(((1 << 9) - 1) << 21)

	/* First block: .text/RO/execute enabled */
	adr x1, . /* phys address */
	bic x1, x1, #(1 << 21) - 1 /* 2mb block alignment */
	and x4, x1, x5 /* IA[29:21] */
	add x2, x0, x4, lsr #(21 - 3) /* offset in l2 page table */
	ldr x3, =0x401 /* attr(AF, block) */
	orr x1, x1, x3
	str x1, [x2] /* 1st 2mb (.text & rodata) */

	/* Second block: .data/RW/no execute */
	adrp x1, .data
	add x1, x1, :lo12:.data
	bic x1, x1, #(1 << 21) - 1 /* 2mb block alignment */
	and x4, x1, x5 /* IA[29:21] */
	add x2, x0, x4, lsr #(21 - 3) /* offset in l2 page table */
	ldr x3, =(3 << 53) \| 0x401 /* attr(AF, NX, block) */
	orr x1, x1, x3
	str x1, [x2] /* 2nd 2mb (.data & .bss)*/

	/* Setup/enable the MMU. */

	/*
	* TCR_EL1 - Translation Control Registers
	*
	* IPS[34:32] = 40-bit PA, 1TB
	* TG0[14:15] = b00 => 4kb granuale
	* ORGN0[11:10] = Outer: Normal, WB Read-Alloc No Write-Alloc Cacheable
	* IRGN0[9:8] = Inner: Normal, WB Read-Alloc No Write-Alloc Cacheable
	* T0SZ[5:0] = 2^(64 - 25)
	*
	* The size of T0SZ controls what the initial lookup level. It
	* would be nice to start at level 2 but unfortunately for a
	* flat-mapping on the virt machine we need to handle IA's
	* with at least 1gb range to see RAM. So we start with a
	* level 1 lookup.
	*/
	ldr x0, = (2 << 32) \| 25 \| (3 << 10) \| (3 << 8)
	msr tcr_el1, x0

	mov x0, #0xee /* Inner/outer cacheable WB */
	msr mair_el1, x0
	isb

	/*
	* SCTLR_EL1 - System Control Register
	*
	* WXN[19] = 0 = no effect, Write does not imply XN (execute never)
	* I[12] = Instruction cachability control
	* SA[3] = SP alignment check
	* C[2] = Data cachability control
	* M[0] = 1, enable stage 1 address translation for EL0/1
	*/
	mrs x0, sctlr_el1
	ldr x1, =0x100d /* bits I(12) SA(3) C(2) M(0) */
	bic x0, x0, #(1 << 1) /* clear bit A(1) */
	bic x0, x0, #(1 << 19) /* clear WXN */
	orr x0, x0, x1 /* set bits */

	dsb sy
	msr sctlr_el1, x0
	isb

	/*
	* Enable FP/SVE registers. The standard C pre-amble will be
	* saving these and A-profile compilers will use AdvSIMD
	* registers unless we tell it not to.
	*/
	mrs x0, cpacr_el1
	orr x0, x0, #(3 << 20)
	orr x0, x0, #(3 << 16)
	msr cpacr_el1, x0

	/* Setup some stack space and enter the test code.
	* Assume everything except the return value is garbage when we
	* return, we won't need it.
	*/
	adrp x0, stack_end
	add x0, x0, :lo12:stack_end
	mov sp, x0
	bl main

	/* pass return value to sys exit */
	_exit:
	mov x1, x0
	ldr x0, =0x20026 /* ADP_Stopped_ApplicationExit */
	stp x0, x1, [sp, #-16]!
	mov x1, sp
	mov x0, SYS_EXIT
	semihosting_call
	/* never returns */

	/*
	* Helper Functions
	*/

	/* Output a single character to serial port */
	.global __sys_outc
	__sys_outc:
	stp x0, x1, [sp, #-16]!
	/* pass address of c on stack */
	mov x1, sp
	mov x0, SYS_WRITEC
	semihosting_call
	ldp x0, x1, [sp], #16
	ret

	.data
	.align 12

	/* Translation table
	* @4k granuale: 9 bit lookup, 512 entries
	*/
	ttb:
	.space 4096, 0

	.align 12
	ttb_stage2:
	.space 4096, 0

	.align 12
	stack:
	.space 65536, 0
	stack_end: