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Rev | Author | Line No. | Line |
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1018 | decky | 1 | /* |
2071 | jermar | 2 | * Copyright (c) 2005 Martin Decky |
3 | * Copyright (c) 2006 Jakub Jermar |
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1018 | decky | 4 | * All rights reserved. |
5 | * |
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6 | * Redistribution and use in source and binary forms, with or without |
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7 | * modification, are permitted provided that the following conditions |
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8 | * are met: |
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9 | * |
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10 | * - Redistributions of source code must retain the above copyright |
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11 | * notice, this list of conditions and the following disclaimer. |
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12 | * - Redistributions in binary form must reproduce the above copyright |
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13 | * notice, this list of conditions and the following disclaimer in the |
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14 | * documentation and/or other materials provided with the distribution. |
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15 | * - The name of the author may not be used to endorse or promote products |
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16 | * derived from this software without specific prior written permission. |
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17 | * |
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18 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
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19 | * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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20 | * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
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21 | * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
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22 | * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
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23 | * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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24 | * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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25 | * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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26 | * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
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27 | * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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28 | */ |
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29 | |||
30 | #include "main.h" |
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1764 | jermar | 31 | #include <printf.h> |
1018 | decky | 32 | #include "asm.h" |
1685 | decky | 33 | #include "_components.h" |
1894 | jermar | 34 | #include <balloc.h> |
1782 | jermar | 35 | #include <ofw.h> |
1894 | jermar | 36 | #include <ofw_tree.h> |
1837 | jermar | 37 | #include "ofwarch.h" |
1789 | jermar | 38 | #include <align.h> |
4055 | trochtova | 39 | #include <macros.h> |
40 | #include <string.h> |
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1018 | decky | 41 | |
1782 | jermar | 42 | bootinfo_t bootinfo; |
4055 | trochtova | 43 | |
1972 | jermar | 44 | component_t components[COMPONENTS]; |
1782 | jermar | 45 | |
4055 | trochtova | 46 | char *release = STRING(RELEASE); |
1997 | decky | 47 | |
48 | #ifdef REVISION |
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4055 | trochtova | 49 | char *revision = ", revision " STRING(REVISION); |
1997 | decky | 50 | #else |
51 | char *revision = ""; |
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52 | #endif |
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53 | |||
54 | #ifdef TIMESTAMP |
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4055 | trochtova | 55 | char *timestamp = "\nBuilt on " STRING(TIMESTAMP); |
1997 | decky | 56 | #else |
57 | char *timestamp = ""; |
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58 | #endif |
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59 | |||
4055 | trochtova | 60 | /** UltraSPARC subarchitecture - 1 for US, 3 for US3 */ |
61 | uint8_t subarchitecture; |
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62 | |||
63 | /** |
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64 | * mask of the MID field inside the ICBUS_CONFIG register shifted by |
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65 | * MID_SHIFT bits to the right |
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66 | */ |
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67 | uint16_t mid_mask; |
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68 | |||
1997 | decky | 69 | /** Print version information. */ |
70 | static void version_print(void) |
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71 | { |
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4055 | trochtova | 72 | printf("HelenOS SPARC64 Bootloader\nRelease %s%s%s\n" |
73 | "Copyright (c) 2006 HelenOS project\n", |
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74 | release, revision, timestamp); |
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1997 | decky | 75 | } |
76 | |||
4055 | trochtova | 77 | /* the lowest ID (read from the VER register) of some US3 CPU model */ |
78 | #define FIRST_US3_CPU 0x14 |
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79 | |||
80 | /* the greatest ID (read from the VER register) of some US3 CPU model */ |
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81 | #define LAST_US3_CPU 0x19 |
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82 | |||
83 | /* UltraSPARC IIIi processor implementation code */ |
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84 | #define US_IIIi_CODE 0x15 |
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85 | |||
86 | /** |
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87 | * Sets the global variables "subarchitecture" and "mid_mask" to |
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88 | * correct values. |
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89 | */ |
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90 | static void detect_subarchitecture(void) |
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91 | { |
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92 | uint64_t v; |
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93 | asm volatile ("rdpr %%ver, %0\n" : "=r" (v)); |
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94 | |||
95 | v = (v << 16) >> 48; |
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96 | if ((v >= FIRST_US3_CPU) && (v <= LAST_US3_CPU)) { |
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97 | subarchitecture = SUBARCH_US3; |
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98 | if (v == US_IIIi_CODE) |
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99 | mid_mask = (1 << 5) - 1; |
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100 | else |
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101 | mid_mask = (1 << 10) - 1; |
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102 | } else if (v < FIRST_US3_CPU) { |
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103 | subarchitecture = SUBARCH_US; |
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104 | mid_mask = (1 << 5) - 1; |
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105 | } else { |
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106 | printf("\nThis CPU is not supported by HelenOS."); |
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107 | } |
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108 | } |
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109 | |||
1018 | decky | 110 | void bootstrap(void) |
111 | { |
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4055 | trochtova | 112 | void *base = (void *) KERNEL_VIRTUAL_ADDRESS; |
113 | void *balloc_base; |
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114 | unsigned int top = 0; |
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115 | int i, j; |
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116 | |||
1997 | decky | 117 | version_print(); |
1972 | jermar | 118 | |
4055 | trochtova | 119 | detect_subarchitecture(); |
1685 | decky | 120 | init_components(components); |
1782 | jermar | 121 | |
1978 | jermar | 122 | if (!ofw_get_physmem_start(&bootinfo.physmem_start)) { |
123 | printf("Error: unable to get start of physical memory.\n"); |
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124 | halt(); |
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125 | } |
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126 | |||
1789 | jermar | 127 | if (!ofw_memmap(&bootinfo.memmap)) { |
128 | printf("Error: unable to get memory map, halting.\n"); |
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129 | halt(); |
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130 | } |
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4055 | trochtova | 131 | |
1789 | jermar | 132 | if (bootinfo.memmap.total == 0) { |
133 | printf("Error: no memory detected, halting.\n"); |
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134 | halt(); |
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135 | } |
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4055 | trochtova | 136 | |
137 | /* |
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138 | * SILO for some reason adds 0x400000 and subtracts |
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139 | * bootinfo.physmem_start to/from silo_ramdisk_image. |
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140 | * We just need plain physical address so we fix it up. |
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141 | */ |
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142 | if (silo_ramdisk_image) { |
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143 | silo_ramdisk_image += bootinfo.physmem_start; |
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144 | silo_ramdisk_image -= 0x400000; |
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145 | /* Install 1:1 mapping for the ramdisk. */ |
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146 | if (ofw_map((void *)((uintptr_t) silo_ramdisk_image), |
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147 | (void *)((uintptr_t) silo_ramdisk_image), |
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148 | silo_ramdisk_size, -1) != 0) { |
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149 | printf("Failed to map ramdisk.\n"); |
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150 | halt(); |
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151 | } |
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152 | } |
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1789 | jermar | 153 | |
1899 | jermar | 154 | printf("\nSystem info\n"); |
1978 | jermar | 155 | printf(" memory: %dM starting at %P\n", |
4055 | trochtova | 156 | bootinfo.memmap.total >> 20, bootinfo.physmem_start); |
1789 | jermar | 157 | |
1685 | decky | 158 | printf("\nMemory statistics\n"); |
1789 | jermar | 159 | printf(" kernel entry point at %P\n", KERNEL_VIRTUAL_ADDRESS); |
160 | printf(" %P: boot info structure\n", &bootinfo); |
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1685 | decky | 161 | |
4055 | trochtova | 162 | /* |
163 | * Figure out destination address for each component. |
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164 | * In this phase, we don't copy the components yet because we want to |
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165 | * to be careful not to overwrite anything, especially the components |
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166 | * which haven't been copied yet. |
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167 | */ |
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168 | bootinfo.taskmap.count = 0; |
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169 | for (i = 0; i < COMPONENTS; i++) { |
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1978 | jermar | 170 | printf(" %P: %s image (size %d bytes)\n", components[i].start, |
2250 | jermar | 171 | components[i].name, components[i].size); |
4055 | trochtova | 172 | top = ALIGN_UP(top, PAGE_SIZE); |
173 | if (i > 0) { |
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174 | if (bootinfo.taskmap.count == TASKMAP_MAX_RECORDS) { |
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175 | printf("Skipping superfluous components.\n"); |
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176 | break; |
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177 | } |
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178 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].addr = |
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179 | base + top; |
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180 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].size = |
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181 | components[i].size; |
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182 | strncpy(bootinfo.taskmap.tasks[ |
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183 | bootinfo.taskmap.count].name, components[i].name, |
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184 | BOOTINFO_TASK_NAME_BUFLEN); |
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185 | bootinfo.taskmap.count++; |
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186 | } |
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187 | top += components[i].size; |
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188 | } |
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1782 | jermar | 189 | |
4055 | trochtova | 190 | j = bootinfo.taskmap.count - 1; /* do not consider ramdisk */ |
1894 | jermar | 191 | |
4055 | trochtova | 192 | if (silo_ramdisk_image) { |
193 | /* Treat the ramdisk as the last bootinfo task. */ |
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194 | if (bootinfo.taskmap.count == TASKMAP_MAX_RECORDS) { |
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195 | printf("Skipping ramdisk.\n"); |
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196 | goto skip_ramdisk; |
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197 | } |
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1685 | decky | 198 | top = ALIGN_UP(top, PAGE_SIZE); |
4055 | trochtova | 199 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].addr = |
200 | base + top; |
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201 | bootinfo.taskmap.tasks[bootinfo.taskmap.count].size = |
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202 | silo_ramdisk_size; |
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203 | bootinfo.taskmap.count++; |
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204 | printf("\nCopying ramdisk..."); |
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205 | /* |
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206 | * Claim and map the whole ramdisk as it may exceed the area |
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207 | * given to us by SILO. |
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208 | */ |
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209 | (void) ofw_claim_phys(base + top, silo_ramdisk_size); |
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210 | (void) ofw_map(bootinfo.physmem_start + base + top, base + top, |
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211 | silo_ramdisk_size, -1); |
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212 | memmove(base + top, (void *)((uintptr_t)silo_ramdisk_image), |
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213 | silo_ramdisk_size); |
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214 | printf("done.\n"); |
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215 | top += silo_ramdisk_size; |
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216 | } |
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217 | skip_ramdisk: |
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2250 | jermar | 218 | |
4055 | trochtova | 219 | /* |
220 | * Now we can proceed to copy the components. We do it in reverse order |
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221 | * so that we don't overwrite anything even if the components overlap |
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222 | * with base. |
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223 | */ |
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224 | printf("\nCopying bootinfo tasks\n"); |
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225 | for (i = COMPONENTS - 1; i > 0; i--, j--) { |
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226 | printf(" %s...", components[i].name); |
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227 | |||
2250 | jermar | 228 | /* |
229 | * At this point, we claim the physical memory that we are |
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230 | * going to use. We should be safe in case of the virtual |
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231 | * address space because the OpenFirmware, according to its |
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232 | * SPARC binding, should restrict its use of virtual memory |
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233 | * to addresses from [0xffd00000; 0xffefffff] and |
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234 | * [0xfe000000; 0xfeffffff]. |
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4055 | trochtova | 235 | * |
236 | * XXX We don't map this piece of memory. We simply rely on |
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237 | * SILO to have it done for us already in this case. |
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2250 | jermar | 238 | */ |
4055 | trochtova | 239 | (void) ofw_claim_phys(bootinfo.physmem_start + |
240 | bootinfo.taskmap.tasks[j].addr, |
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2250 | jermar | 241 | ALIGN_UP(components[i].size, PAGE_SIZE)); |
242 | |||
4055 | trochtova | 243 | memcpy((void *)bootinfo.taskmap.tasks[j].addr, |
244 | components[i].start, components[i].size); |
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1685 | decky | 245 | printf("done.\n"); |
1018 | decky | 246 | } |
1782 | jermar | 247 | |
4055 | trochtova | 248 | printf("\nCopying kernel..."); |
249 | (void) ofw_claim_phys(bootinfo.physmem_start + base, |
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250 | ALIGN_UP(components[0].size, PAGE_SIZE)); |
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251 | memcpy(base, components[0].start, components[0].size); |
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252 | printf("done.\n"); |
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253 | |||
2250 | jermar | 254 | /* |
4055 | trochtova | 255 | * Claim and map the physical memory for the boot allocator. |
2250 | jermar | 256 | * Initialize the boot allocator. |
257 | */ |
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4055 | trochtova | 258 | balloc_base = base + ALIGN_UP(top, PAGE_SIZE); |
259 | (void) ofw_claim_phys(bootinfo.physmem_start + balloc_base, |
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260 | BALLOC_MAX_SIZE); |
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261 | (void) ofw_map(bootinfo.physmem_start + balloc_base, balloc_base, |
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262 | BALLOC_MAX_SIZE, -1); |
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263 | balloc_init(&bootinfo.ballocs, (uintptr_t)balloc_base); |
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1894 | jermar | 264 | |
265 | printf("\nCanonizing OpenFirmware device tree..."); |
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266 | bootinfo.ofw_root = ofw_tree_build(); |
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267 | printf("done.\n"); |
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268 | |||
4055 | trochtova | 269 | #ifdef CONFIG_AP |
1899 | jermar | 270 | printf("\nChecking for secondary processors..."); |
271 | if (!ofw_cpu()) |
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1978 | jermar | 272 | printf("Error: unable to get CPU properties\n"); |
1899 | jermar | 273 | printf("done.\n"); |
1979 | jermar | 274 | #endif |
1899 | jermar | 275 | |
4055 | trochtova | 276 | ofw_setup_palette(); |
277 | |||
1018 | decky | 278 | printf("\nBooting the kernel...\n"); |
1978 | jermar | 279 | jump_to_kernel((void *) KERNEL_VIRTUAL_ADDRESS, |
2250 | jermar | 280 | bootinfo.physmem_start | BSP_PROCESSOR, &bootinfo, |
281 | sizeof(bootinfo)); |
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1018 | decky | 282 | } |