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418 jermar 1
#
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# Copyright (C) 2005 Jakub Jermar
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions
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# are met:
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#
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# - Redistributions of source code must retain the above copyright
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#   notice, this list of conditions and the following disclaimer.
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# - Redistributions in binary form must reproduce the above copyright
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#   notice, this list of conditions and the following disclaimer in the
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#   documentation and/or other materials provided with the distribution.
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# - The name of the author may not be used to endorse or promote products
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#   derived from this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#
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1903 jermar 29
#include <arch/arch.h>
1789 jermar 30
#include <arch/regdef.h>
1823 jermar 31
#include <arch/boot/boot.h>
846 jermar 32
 
1823 jermar 33
#include <arch/mm/mmu.h>
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#include <arch/mm/tlb.h>
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#include <arch/mm/tte.h>
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1903 jermar 37
#ifdef CONFIG_SMP
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#include <arch/context_offset.h>
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#endif
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426 jermar 41
.register %g2, #scratch
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.register %g3, #scratch
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418 jermar 44
.section K_TEXT_START, "ax"
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847 jermar 46
/*
1789 jermar 47
 * Here is where the kernel is passed control
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 * from the boot loader.
1790 jermar 49
 * 
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 * The registers are expected to be in this state:
1900 jermar 51
 * - %o0 non-zero for the bootstrap processor, zero for application/secondary processors
1899 jermar 52
 * - %o1 bootinfo structure address
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 * - %o2 bootinfo structure size
1792 jermar 54
 *
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 * Moreover, we depend on boot having established the
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 * following environment:
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 * - TLBs are on
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 * - identity mapping for the kernel image
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 * - identity mapping for memory stack
847 jermar 60
 */
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418 jermar 62
.global kernel_image_start
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kernel_image_start:
1900 jermar 64
	mov %o0, %l7
846 jermar 65
 
1790 jermar 66
	/*
1823 jermar 67
	 * Setup basic runtime environment.
1790 jermar 68
	 */
424 jermar 69
 
1881 jermar 70
	flushw					! flush all but the active register window
1823 jermar 71
 
1881 jermar 72
	wrpr %g0, 0, %tl			! TL = 0, primary context register is used
1823 jermar 73
 
1881 jermar 74
	wrpr %g0, PSTATE_PRIV_BIT, %pstate	! Disable interrupts and disable 32-bit address masking.
1823 jermar 75
 
1881 jermar 76
	wrpr %g0, 0, %pil			! intialize %pil
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1790 jermar 78
	/*
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	 * Copy the bootinfo structure passed from the boot loader
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	 * to the kernel bootinfo structure.
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	 */
1900 jermar 82
	brz %l7, 0f				! skip if you are not the bootstrap CPU
1880 jermar 83
	sethi %hi(bootinfo), %o0
1790 jermar 84
	call memcpy
1880 jermar 85
	or %o0, %lo(bootinfo), %o0
1900 jermar 86
0:
867 jermar 87
 
1792 jermar 88
	/*
1823 jermar 89
	 * Switch to kernel trap table.
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	 */
1880 jermar 91
	sethi %hi(trap_table), %g1
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	wrpr %g1, %lo(trap_table), %tba
1823 jermar 93
 
94
	/* 
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	 * Take over the DMMU by installing global locked
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	 * TTE entry identically mapping the first 4M
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	 * of memory.
1792 jermar 98
	 *
1823 jermar 99
	 * In case of DMMU, no FLUSH instructions need to be
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	 * issued. Because of that, the old DTLB contents can
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	 * be demapped pretty straightforwardly and without
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	 * causing any traps.
1792 jermar 103
	 */
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1823 jermar 105
	wr %g0, ASI_DMMU, %asi
895 jermar 106
 
1823 jermar 107
#define SET_TLB_DEMAP_CMD(r1, context_id) \
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	set (TLB_DEMAP_CONTEXT<<TLB_DEMAP_TYPE_SHIFT) | (context_id<<TLB_DEMAP_CONTEXT_SHIFT), %r1
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	! demap context 0
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	SET_TLB_DEMAP_CMD(g1, TLB_DEMAP_NUCLEUS)
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	stxa %g0, [%g1] ASI_DMMU_DEMAP			
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	membar #Sync
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#define SET_TLB_TAG(r1, context) \
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	set VMA | (context<<TLB_TAG_ACCESS_CONTEXT_SHIFT), %r1
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	! write DTLB tag
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	SET_TLB_TAG(g1, MEM_CONTEXT_KERNEL)
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	stxa %g1, [VA_DMMU_TAG_ACCESS] %asi			
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	membar #Sync
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#define SET_TLB_DATA(r1, r2, imm) \
1887 jermar 124
	set TTE_CV | TTE_CP | TTE_P | LMA | imm, %r1; \
1823 jermar 125
	set PAGESIZE_4M, %r2; \
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	sllx %r2, TTE_SIZE_SHIFT, %r2; \
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	or %r1, %r2, %r1; \
1880 jermar 128
	mov 1, %r2; \
1823 jermar 129
	sllx %r2, TTE_V_SHIFT, %r2; \
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	or %r1, %r2, %r1;
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132
	! write DTLB data and install the kernel mapping
1887 jermar 133
	SET_TLB_DATA(g1, g2, TTE_L | TTE_W)	! use non-global mapping
1823 jermar 134
	stxa %g1, [%g0] ASI_DTLB_DATA_IN_REG		
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	membar #Sync
1868 jermar 136
 
137
	/*
138
	 * Because we cannot use global mappings (because we want to
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	 * have separate 64-bit address spaces for both the kernel
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	 * and the userspace), we prepare the identity mapping also in
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	 * context 1. This step is required by the
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	 * code installing the ITLB mapping.
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	 */
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	! write DTLB tag of context 1 (i.e. MEM_CONTEXT_TEMP)
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	SET_TLB_TAG(g1, MEM_CONTEXT_TEMP)
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	stxa %g1, [VA_DMMU_TAG_ACCESS] %asi			
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	membar #Sync
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149
	! write DTLB data and install the kernel mapping in context 1
1887 jermar 150
	SET_TLB_DATA(g1, g2, TTE_W)			! use non-global mapping
1868 jermar 151
	stxa %g1, [%g0] ASI_DTLB_DATA_IN_REG		
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	membar #Sync
1823 jermar 153
 
154
	/*
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	 * Now is time to take over the IMMU.
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	 * Unfortunatelly, it cannot be done as easily as the DMMU,
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	 * because the IMMU is mapping the code it executes.
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	 *
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	 * [ Note that brave experiments with disabling the IMMU
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	 * and using the DMMU approach failed after a dozen
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	 * of desparate days with only little success. ]
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	 *
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	 * The approach used here is inspired from OpenBSD.
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	 * First, the kernel creates IMMU mapping for itself
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	 * in context 1 (MEM_CONTEXT_TEMP) and switches to
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	 * it. Context 0 (MEM_CONTEXT_KERNEL) can be demapped
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	 * afterwards and replaced with the kernel permanent
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	 * mapping. Finally, the kernel switches back to
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	 * context 0 and demaps context 1.
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	 *
171
	 * Moreover, the IMMU requires use of the FLUSH instructions.
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	 * But that is OK because we always use operands with
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	 * addresses already mapped by the taken over DTLB.
174
	 */
175
 
1852 jermar 176
	set kernel_image_start, %g5
1823 jermar 177
 
178
	! write ITLB tag of context 1
179
	SET_TLB_TAG(g1, MEM_CONTEXT_TEMP)
1880 jermar 180
	mov VA_DMMU_TAG_ACCESS, %g2
1823 jermar 181
	stxa %g1, [%g2] ASI_IMMU
1852 jermar 182
	flush %g5
1823 jermar 183
 
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	! write ITLB data and install the temporary mapping in context 1
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	SET_TLB_DATA(g1, g2, 0)			! use non-global mapping
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	stxa %g1, [%g0] ASI_ITLB_DATA_IN_REG		
1852 jermar 187
	flush %g5
1823 jermar 188
 
189
	! switch to context 1
1880 jermar 190
	mov MEM_CONTEXT_TEMP, %g1
1823 jermar 191
	stxa %g1, [VA_PRIMARY_CONTEXT_REG] %asi	! ASI_DMMU is correct here !!!
1852 jermar 192
	flush %g5
1823 jermar 193
 
194
	! demap context 0
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	SET_TLB_DEMAP_CMD(g1, TLB_DEMAP_NUCLEUS)
196
	stxa %g0, [%g1] ASI_IMMU_DEMAP			
1852 jermar 197
	flush %g5
1823 jermar 198
 
199
	! write ITLB tag of context 0
200
	SET_TLB_TAG(g1, MEM_CONTEXT_KERNEL)
1880 jermar 201
	mov VA_DMMU_TAG_ACCESS, %g2
1823 jermar 202
	stxa %g1, [%g2] ASI_IMMU
1852 jermar 203
	flush %g5
1823 jermar 204
 
205
	! write ITLB data and install the permanent kernel mapping in context 0
1887 jermar 206
	SET_TLB_DATA(g1, g2, TTE_L)		! use non-global mapping
1823 jermar 207
	stxa %g1, [%g0] ASI_ITLB_DATA_IN_REG		
1852 jermar 208
	flush %g5
1823 jermar 209
 
210
	! switch to context 0
211
	stxa %g0, [VA_PRIMARY_CONTEXT_REG] %asi	! ASI_DMMU is correct here !!!
1852 jermar 212
	flush %g5
1823 jermar 213
 
214
	! ensure nucleus mapping
215
	wrpr %g0, 1, %tl
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217
	! set context 1 in the primary context register
1880 jermar 218
	mov MEM_CONTEXT_TEMP, %g1
1823 jermar 219
	stxa %g1, [VA_PRIMARY_CONTEXT_REG] %asi	! ASI_DMMU is correct here !!!
1852 jermar 220
	flush %g5
1823 jermar 221
 
222
	! demap context 1
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	SET_TLB_DEMAP_CMD(g1, TLB_DEMAP_PRIMARY)
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	stxa %g0, [%g1] ASI_IMMU_DEMAP			
1852 jermar 225
	flush %g5
1823 jermar 226
 
227
	! set context 0 in the primary context register
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	stxa %g0, [VA_PRIMARY_CONTEXT_REG] %asi	! ASI_DMMU is correct here !!!
1852 jermar 229
	flush %g5
1823 jermar 230
 
231
	! set TL back to 0
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	wrpr %g0, 0, %tl
1864 jermar 233
 
1903 jermar 234
	brz %l7, 1f				! skip if you are not the bootstrap CPU
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	nop
1900 jermar 236
 
1864 jermar 237
	call arch_pre_main
238
	nop
1823 jermar 239
 
426 jermar 240
	call main_bsp
241
	nop
242
 
243
	/* Not reached. */
244
 
1903 jermar 245
0:
246
	ba 0b
247
	nop
248
 
249
 
250
	/*
251
	 * Read MID from the processor.
252
	 */
253
1:
254
	ldxa [%g0] ASI_UPA_CONFIG, %g1
255
	srlx %g1, UPA_CONFIG_MID_SHIFT, %g1
256
	and %g1, UPA_CONFIG_MID_MASK, %g1
257
 
258
	/*
259
	 * Active loop for APs until the BSP picks them up.
260
	 * A processor cannot leave the loop until the
261
	 * global variable 'waking_up_mid' equals its
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	 * MID.
263
	 */
264
	set waking_up_mid, %g2
424 jermar 265
2:
1903 jermar 266
	ldx [%g2], %g3
267
	cmp %g3, %g1
268
	bne 2b
424 jermar 269
	nop
1903 jermar 270
 
271
#ifdef CONFIG_SMP
272
	/*
273
	 * Configure stack for the AP.
274
	 * The AP is expected to use the stack saved
275
	 * in the ctx global variable.
276
	 */
277
	set ctx, %g1
278
	add %g1, OFFSET_SP, %g1
279
	ldx [%g1], %o6
280
 
281
	call main_ap
282
	nop
283
#endif
284
 
285
	/* Not reached. */
286
 
287
0:
288
	ba 0b
289
	nop