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3502 | rimsky | 1 | /* |
2 | * Copyright (c) 2008 Pavel Rimsky |
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3 | * All rights reserved. |
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4 | * |
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5 | * Redistribution and use in source and binary forms, with or without |
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6 | * modification, are permitted provided that the following conditions |
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7 | * are met: |
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8 | * |
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9 | * - Redistributions of source code must retain the above copyright |
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10 | * notice, this list of conditions and the following disclaimer. |
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11 | * - Redistributions in binary form must reproduce the above copyright |
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12 | * notice, this list of conditions and the following disclaimer in the |
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13 | * documentation and/or other materials provided with the distribution. |
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14 | * - The name of the author may not be used to endorse or promote products |
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15 | * derived from this software without specific prior written permission. |
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16 | * |
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17 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
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18 | * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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19 | * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
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20 | * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
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21 | * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
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22 | * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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23 | * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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24 | * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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25 | * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
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26 | * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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27 | */ |
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28 | |||
29 | /** @addtogroup sparc64 |
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30 | * @{ |
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31 | */ |
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32 | /** |
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33 | * @file |
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34 | * @brief SGCN driver. |
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35 | */ |
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36 | |||
37 | #include <arch/drivers/sgcn.h> |
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3549 | rimsky | 38 | #include <arch/drivers/kbd.h> |
3502 | rimsky | 39 | #include <genarch/ofw/ofw_tree.h> |
40 | #include <debug.h> |
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41 | #include <func.h> |
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42 | #include <print.h> |
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43 | #include <mm/page.h> |
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3549 | rimsky | 44 | #include <ipc/irq.h> |
45 | #include <ddi/ddi.h> |
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46 | #include <ddi/device.h> |
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3502 | rimsky | 47 | #include <console/chardev.h> |
48 | #include <console/console.h> |
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3549 | rimsky | 49 | #include <ddi/device.h> |
50 | #include <sysinfo/sysinfo.h> |
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3502 | rimsky | 51 | #include <synch/spinlock.h> |
52 | |||
53 | /* |
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54 | * Physical address at which the SBBC starts. This value has been obtained |
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55 | * by inspecting (using Simics) memory accesses made by OBP. It is valid |
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56 | * for the Simics-simulated Serengeti machine. The author of this code is |
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57 | * not sure whether this value is valid generally. |
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58 | */ |
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59 | #define SBBC_START 0x63000000000 |
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60 | |||
61 | /* offset of SRAM within the SBBC memory */ |
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62 | #define SBBC_SRAM_OFFSET 0x900000 |
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63 | |||
3549 | rimsky | 64 | /* size (in bytes) of the physical memory area which will be mapped */ |
65 | #define MAPPED_AREA_SIZE (128 * 1024) |
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66 | |||
3502 | rimsky | 67 | /* magic string contained at the beginning of SRAM */ |
68 | #define SRAM_TOC_MAGIC "TOCSRAM" |
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69 | |||
70 | /* |
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71 | * Key into the SRAM table of contents which identifies the entry |
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72 | * describing the OBP console buffer. It is worth mentioning |
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73 | * that the OBP console buffer is not the only console buffer |
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74 | * which can be used. It is, however, used because when the kernel |
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75 | * is running, the OBP buffer is not used by OBP any more but OBP |
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76 | * has already made neccessary arangements so that the output will |
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77 | * be read from the OBP buffer and input will go to the OBP buffer. |
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78 | * Therefore HelenOS needs to make no such arrangements any more. |
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79 | */ |
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80 | #define CONSOLE_KEY "OBPCONS" |
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81 | |||
82 | /* magic string contained at the beginning of the console buffer */ |
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83 | #define SGCN_BUFFER_MAGIC "CON" |
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84 | |||
3549 | rimsky | 85 | /** |
86 | * The driver is polling based, but in order to notify the userspace |
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87 | * of a key being pressed, we need to supply the interface with some |
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88 | * interrupt number. The interrupt number can be arbitrary as it it |
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89 | * will never be used for identifying HW interrupts, but only in |
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90 | * notifying the userspace. |
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91 | */ |
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92 | #define FICTIONAL_INR 1 |
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3502 | rimsky | 93 | |
3549 | rimsky | 94 | |
3502 | rimsky | 95 | /* |
96 | * Returns a pointer to the object of a given type which is placed at the given |
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97 | * offset from the SRAM beginning. |
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98 | */ |
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99 | #define SRAM(type, offset) ((type *) (sram_begin + (offset))) |
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100 | |||
101 | /* Returns a pointer to the SRAM table of contents. */ |
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102 | #define SRAM_TOC (SRAM(iosram_toc_t, 0)) |
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103 | |||
104 | /* |
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105 | * Returns a pointer to the object of a given type which is placed at the given |
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106 | * offset from the console buffer beginning. |
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107 | */ |
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108 | #define SGCN_BUFFER(type, offset) \ |
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109 | ((type *) (sgcn_buffer_begin + (offset))) |
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110 | |||
3549 | rimsky | 111 | /** Returns a pointer to the console buffer header. */ |
3502 | rimsky | 112 | #define SGCN_BUFFER_HEADER (SGCN_BUFFER(sgcn_buffer_header_t, 0)) |
113 | |||
3549 | rimsky | 114 | /** defined in drivers/kbd.c */ |
115 | extern kbd_type_t kbd_type; |
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3502 | rimsky | 116 | |
3549 | rimsky | 117 | /** starting address of SRAM, will be set by the init_sram_begin function */ |
3502 | rimsky | 118 | static uintptr_t sram_begin; |
119 | |||
3549 | rimsky | 120 | /** |
3502 | rimsky | 121 | * starting address of the SGCN buffer, will be set by the |
122 | * init_sgcn_buffer_begin function |
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123 | */ |
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124 | static uintptr_t sgcn_buffer_begin; |
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125 | |||
3549 | rimsky | 126 | /** |
127 | * SGCN IRQ structure. So far used only for notifying the userspace of the |
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128 | * key being pressed, not for kernel being informed about keyboard interrupts. |
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129 | */ |
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130 | static irq_t sgcn_irq; |
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3502 | rimsky | 131 | |
3549 | rimsky | 132 | // TODO think of a way how to synchronize accesses to SGCN buffer between the kernel and the userspace |
133 | |||
3502 | rimsky | 134 | /* |
135 | * Ensures that writing to the buffer and consequent update of the write pointer |
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136 | * are together one atomic operation. |
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137 | */ |
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138 | SPINLOCK_INITIALIZE(sgcn_output_lock); |
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139 | |||
3514 | rimsky | 140 | /* |
3549 | rimsky | 141 | * Prevents the input buffer read/write pointers from getting to inconsistent |
142 | * state. |
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3514 | rimsky | 143 | */ |
144 | SPINLOCK_INITIALIZE(sgcn_input_lock); |
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3502 | rimsky | 145 | |
146 | |||
3514 | rimsky | 147 | /* functions referenced from definitions of I/O operations structures */ |
148 | static void sgcn_noop(chardev_t *); |
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149 | static void sgcn_putchar(chardev_t *, const char); |
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150 | static char sgcn_key_read(chardev_t *); |
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151 | |||
3549 | rimsky | 152 | /** character device operations */ |
153 | static chardev_operations_t sgcn_ops = { |
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3514 | rimsky | 154 | .suspend = sgcn_noop, |
155 | .resume = sgcn_noop, |
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3549 | rimsky | 156 | .read = sgcn_key_read, |
157 | .write = sgcn_putchar |
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3502 | rimsky | 158 | }; |
159 | |||
3549 | rimsky | 160 | /** SGCN character device */ |
161 | chardev_t sgcn_io; |
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3514 | rimsky | 162 | |
3549 | rimsky | 163 | /** |
164 | * Registers the physical area of the SRAM so that the userspace SGCN |
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165 | * driver can map it. Moreover, it sets some sysinfo values (SRAM address |
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166 | * and SRAM size). |
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167 | */ |
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168 | static void register_sram_parea(uintptr_t sram_begin_physical) |
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169 | { |
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170 | static parea_t sram_parea; |
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171 | sram_parea.pbase = sram_begin_physical; |
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172 | sram_parea.vbase = (uintptr_t) sram_begin; |
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173 | sram_parea.frames = MAPPED_AREA_SIZE / FRAME_SIZE; |
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174 | sram_parea.cacheable = false; |
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175 | ddi_parea_register(&sram_parea); |
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176 | |||
177 | sysinfo_set_item_val("sram.area.size", NULL, MAPPED_AREA_SIZE); |
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3618 | rimsky | 178 | sysinfo_set_item_val("sram.address.physical", NULL, |
179 | sram_begin_physical); |
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3549 | rimsky | 180 | } |
3514 | rimsky | 181 | |
3502 | rimsky | 182 | /** |
183 | * Initializes the starting address of SRAM. |
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184 | * |
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185 | * The SRAM starts 0x900000 + C bytes behind the SBBC start in the |
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186 | * physical memory, where C is the value read from the "iosram-toc" |
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187 | * property of the "/chosen" OBP node. The sram_begin variable will |
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188 | * be set to the virtual address which maps to the SRAM physical |
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3549 | rimsky | 189 | * address. |
190 | * |
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191 | * It also registers the physical area of SRAM and sets some sysinfo |
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192 | * values (SRAM address and SRAM size). |
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3502 | rimsky | 193 | */ |
194 | static void init_sram_begin(void) |
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195 | { |
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196 | ofw_tree_node_t *chosen; |
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197 | ofw_tree_property_t *iosram_toc; |
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3549 | rimsky | 198 | uintptr_t sram_begin_physical; |
3502 | rimsky | 199 | |
200 | chosen = ofw_tree_lookup("/chosen"); |
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201 | if (!chosen) |
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3790 | svoboda | 202 | panic("Cannot find '/chosen'."); |
3502 | rimsky | 203 | |
204 | iosram_toc = ofw_tree_getprop(chosen, "iosram-toc"); |
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205 | if (!iosram_toc) |
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3790 | svoboda | 206 | panic("Cannot find property 'iosram-toc'."); |
3502 | rimsky | 207 | if (!iosram_toc->value) |
3790 | svoboda | 208 | panic("Cannot find SRAM TOC."); |
3502 | rimsky | 209 | |
3549 | rimsky | 210 | sram_begin_physical = SBBC_START + SBBC_SRAM_OFFSET |
211 | + *((uint32_t *) iosram_toc->value); |
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212 | sram_begin = hw_map(sram_begin_physical, MAPPED_AREA_SIZE); |
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213 | |||
214 | register_sram_parea(sram_begin_physical); |
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3502 | rimsky | 215 | } |
216 | |||
217 | /** |
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218 | * Initializes the starting address of the SGCN buffer. |
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219 | * |
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220 | * The offset of the SGCN buffer within SRAM is obtained from the |
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221 | * SRAM table of contents. The table of contents contains |
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222 | * information about several buffers, among which there is an OBP |
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223 | * console buffer - this one will be used as the SGCN buffer. |
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3549 | rimsky | 224 | * |
225 | * This function also writes the offset of the SGCN buffer within SRAM |
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226 | * under the sram.buffer.offset sysinfo key. |
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3502 | rimsky | 227 | */ |
228 | static void sgcn_buffer_begin_init(void) |
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229 | { |
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230 | init_sram_begin(); |
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231 | |||
232 | ASSERT(strcmp(SRAM_TOC->magic, SRAM_TOC_MAGIC) == 0); |
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233 | |||
234 | /* lookup TOC entry with the correct key */ |
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235 | uint32_t i; |
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236 | for (i = 0; i < MAX_TOC_ENTRIES; i++) { |
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237 | if (strcmp(SRAM_TOC->keys[i].key, CONSOLE_KEY) == 0) |
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238 | break; |
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239 | } |
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240 | ASSERT(i < MAX_TOC_ENTRIES); |
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241 | |||
242 | sgcn_buffer_begin = sram_begin + SRAM_TOC->keys[i].offset; |
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3549 | rimsky | 243 | |
244 | sysinfo_set_item_val("sram.buffer.offset", NULL, |
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245 | SRAM_TOC->keys[i].offset); |
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3502 | rimsky | 246 | } |
247 | |||
248 | /** |
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3514 | rimsky | 249 | * Default suspend/resume operation for the input device. |
250 | */ |
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251 | static void sgcn_noop(chardev_t *d) |
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252 | { |
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253 | } |
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254 | |||
255 | /** |
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3502 | rimsky | 256 | * Writes a single character to the SGCN (circular) output buffer |
257 | * and updates the output write pointer so that SGCN gets to know |
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258 | * that the character has been written. |
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259 | */ |
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260 | static void sgcn_do_putchar(const char c) |
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261 | { |
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262 | uint32_t begin = SGCN_BUFFER_HEADER->out_begin; |
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263 | uint32_t end = SGCN_BUFFER_HEADER->out_end; |
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264 | uint32_t size = end - begin; |
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265 | |||
266 | /* we need pointers to volatile variables */ |
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267 | volatile char *buf_ptr = (volatile char *) |
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268 | SGCN_BUFFER(char, SGCN_BUFFER_HEADER->out_wrptr); |
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269 | volatile uint32_t *out_wrptr_ptr = &(SGCN_BUFFER_HEADER->out_wrptr); |
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270 | volatile uint32_t *out_rdptr_ptr = &(SGCN_BUFFER_HEADER->out_rdptr); |
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271 | |||
272 | /* |
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273 | * Write the character and increment the write pointer modulo the |
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274 | * output buffer size. Note that if we are to rewrite a character |
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275 | * which has not been read by the SGCN controller yet (i.e. the output |
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276 | * buffer is full), we need to wait until the controller reads some more |
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277 | * characters. We wait actively, which means that all threads waiting |
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278 | * for the lock are blocked. However, this situation is |
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279 | * 1) rare - the output buffer is big, so filling the whole |
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280 | * output buffer is improbable |
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281 | * 2) short-lasting - it will take the controller only a fraction |
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282 | * of millisecond to pick the unread characters up |
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283 | * 3) not serious - the blocked threads are those that print something |
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284 | * to user console, which is not a time-critical operation |
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285 | */ |
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286 | uint32_t new_wrptr = (((*out_wrptr_ptr) - begin + 1) % size) + begin; |
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287 | while (*out_rdptr_ptr == new_wrptr) |
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288 | ; |
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289 | *buf_ptr = c; |
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290 | *out_wrptr_ptr = new_wrptr; |
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291 | } |
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292 | |||
293 | /** |
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294 | * SGCN output operation. Prints a single character to the SGCN. If the line |
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295 | * feed character is written ('\n'), the carriage return character ('\r') is |
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296 | * written straight away. |
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297 | */ |
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298 | static void sgcn_putchar(struct chardev * cd, const char c) |
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299 | { |
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300 | spinlock_lock(&sgcn_output_lock); |
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301 | |||
302 | sgcn_do_putchar(c); |
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303 | if (c == '\n') { |
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304 | sgcn_do_putchar('\r'); |
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305 | } |
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306 | |||
307 | spinlock_unlock(&sgcn_output_lock); |
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308 | } |
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309 | |||
310 | /** |
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3514 | rimsky | 311 | * Called when actively reading the character. Not implemented yet. |
312 | */ |
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313 | static char sgcn_key_read(chardev_t *d) |
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314 | { |
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315 | return (char) 0; |
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316 | } |
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317 | |||
318 | /** |
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3549 | rimsky | 319 | * The driver works in polled mode, so no interrupt should be handled by it. |
320 | */ |
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321 | static irq_ownership_t sgcn_claim(void) |
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322 | { |
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323 | return IRQ_DECLINE; |
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324 | } |
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325 | |||
326 | /** |
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327 | * The driver works in polled mode, so no interrupt should be handled by it. |
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328 | */ |
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329 | static void sgcn_irq_handler(irq_t *irq, void *arg, ...) |
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330 | { |
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3790 | svoboda | 331 | panic("Not yet implemented, SGCN works in polled mode."); |
3549 | rimsky | 332 | } |
333 | |||
334 | /** |
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335 | * Grabs the input for kernel. |
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336 | */ |
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337 | void sgcn_grab(void) |
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338 | { |
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339 | ipl_t ipl = interrupts_disable(); |
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340 | |||
341 | volatile uint32_t *in_wrptr_ptr = &(SGCN_BUFFER_HEADER->in_wrptr); |
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342 | volatile uint32_t *in_rdptr_ptr = &(SGCN_BUFFER_HEADER->in_rdptr); |
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343 | |||
344 | /* skip all the user typed before the grab and hasn't been processed */ |
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345 | spinlock_lock(&sgcn_input_lock); |
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346 | *in_rdptr_ptr = *in_wrptr_ptr; |
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347 | spinlock_unlock(&sgcn_input_lock); |
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348 | |||
349 | spinlock_lock(&sgcn_irq.lock); |
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350 | sgcn_irq.notif_cfg.notify = false; |
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351 | spinlock_unlock(&sgcn_irq.lock); |
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352 | |||
353 | interrupts_restore(ipl); |
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354 | } |
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355 | |||
356 | /** |
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357 | * Releases the input so that userspace can use it. |
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358 | */ |
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359 | void sgcn_release(void) |
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360 | { |
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361 | ipl_t ipl = interrupts_disable(); |
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362 | spinlock_lock(&sgcn_irq.lock); |
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363 | if (sgcn_irq.notif_cfg.answerbox) |
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364 | sgcn_irq.notif_cfg.notify = true; |
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365 | spinlock_unlock(&sgcn_irq.lock); |
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366 | interrupts_restore(ipl); |
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367 | } |
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368 | |||
369 | /** |
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3514 | rimsky | 370 | * Function regularly called by the keyboard polling thread. Finds out whether |
371 | * there are some unread characters in the input queue. If so, it picks them up |
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372 | * and sends them to the upper layers of HelenOS. |
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373 | */ |
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374 | void sgcn_poll(void) |
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375 | { |
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376 | uint32_t begin = SGCN_BUFFER_HEADER->in_begin; |
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377 | uint32_t end = SGCN_BUFFER_HEADER->in_end; |
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378 | uint32_t size = end - begin; |
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379 | |||
3549 | rimsky | 380 | spinlock_lock(&sgcn_input_lock); |
381 | |||
382 | ipl_t ipl = interrupts_disable(); |
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383 | spinlock_lock(&sgcn_irq.lock); |
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384 | |||
3514 | rimsky | 385 | /* we need pointers to volatile variables */ |
386 | volatile char *buf_ptr = (volatile char *) |
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387 | SGCN_BUFFER(char, SGCN_BUFFER_HEADER->in_rdptr); |
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388 | volatile uint32_t *in_wrptr_ptr = &(SGCN_BUFFER_HEADER->in_wrptr); |
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389 | volatile uint32_t *in_rdptr_ptr = &(SGCN_BUFFER_HEADER->in_rdptr); |
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390 | |||
3549 | rimsky | 391 | if (*in_rdptr_ptr != *in_wrptr_ptr) { |
392 | if (sgcn_irq.notif_cfg.notify && sgcn_irq.notif_cfg.answerbox) { |
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393 | ipc_irq_send_notif(&sgcn_irq); |
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394 | spinlock_unlock(&sgcn_irq.lock); |
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395 | interrupts_restore(ipl); |
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396 | spinlock_unlock(&sgcn_input_lock); |
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397 | return; |
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398 | } |
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399 | } |
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400 | |||
401 | spinlock_unlock(&sgcn_irq.lock); |
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402 | interrupts_restore(ipl); |
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403 | |||
3514 | rimsky | 404 | while (*in_rdptr_ptr != *in_wrptr_ptr) { |
3549 | rimsky | 405 | |
3514 | rimsky | 406 | buf_ptr = (volatile char *) |
407 | SGCN_BUFFER(char, SGCN_BUFFER_HEADER->in_rdptr); |
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3549 | rimsky | 408 | char c = *buf_ptr; |
409 | *in_rdptr_ptr = (((*in_rdptr_ptr) - begin + 1) % size) + begin; |
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410 | |||
411 | if (c == '\r') { |
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412 | c = '\n'; |
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413 | } |
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414 | chardev_push_character(&sgcn_io, c); |
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415 | } |
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3514 | rimsky | 416 | |
417 | spinlock_unlock(&sgcn_input_lock); |
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418 | } |
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419 | |||
420 | /** |
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3502 | rimsky | 421 | * A public function which initializes I/O from/to Serengeti console |
422 | * and sets it as a default input/output. |
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423 | */ |
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424 | void sgcn_init(void) |
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425 | { |
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426 | sgcn_buffer_begin_init(); |
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3549 | rimsky | 427 | |
428 | kbd_type = KBD_SGCN; |
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429 | |||
430 | devno_t devno = device_assign_devno(); |
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431 | irq_initialize(&sgcn_irq); |
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432 | sgcn_irq.devno = devno; |
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433 | sgcn_irq.inr = FICTIONAL_INR; |
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434 | sgcn_irq.claim = sgcn_claim; |
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435 | sgcn_irq.handler = sgcn_irq_handler; |
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436 | irq_register(&sgcn_irq); |
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3502 | rimsky | 437 | |
3549 | rimsky | 438 | sysinfo_set_item_val("kbd", NULL, true); |
439 | sysinfo_set_item_val("kbd.type", NULL, KBD_SGCN); |
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440 | sysinfo_set_item_val("kbd.devno", NULL, devno); |
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441 | sysinfo_set_item_val("kbd.inr", NULL, FICTIONAL_INR); |
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442 | sysinfo_set_item_val("fb.kind", NULL, 4); |
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3502 | rimsky | 443 | |
3549 | rimsky | 444 | chardev_initialize("sgcn_io", &sgcn_io, &sgcn_ops); |
445 | stdin = &sgcn_io; |
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446 | stdout = &sgcn_io; |
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3502 | rimsky | 447 | } |
448 | |||
449 | /** @} |
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3549 | rimsky | 450 | */ |