1 | /* $Id: UartCore.cpp 77806 2019-03-20 12:52:20Z vboxsync $ */
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2 | /** @file
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3 | * UartCore - UART (16550A up to 16950) emulation.
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4 | *
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5 | * The documentation for this device was taken from the PC16550D spec from TI.
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6 | */
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7 |
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8 | /*
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9 | * Copyright (C) 2018-2019 Oracle Corporation
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10 | *
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11 | * This file is part of VirtualBox Open Source Edition (OSE), as
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12 | * available from http://www.virtualbox.org. This file is free software;
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13 | * you can redistribute it and/or modify it under the terms of the GNU
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14 | * General Public License (GPL) as published by the Free Software
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15 | * Foundation, in version 2 as it comes in the "COPYING" file of the
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16 | * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
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17 | * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
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18 | */
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19 |
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20 |
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21 | /*********************************************************************************************************************************
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22 | * Header Files *
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23 | *********************************************************************************************************************************/
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24 | #define LOG_GROUP LOG_GROUP_DEV_SERIAL
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25 | #include <VBox/vmm/tm.h>
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26 | #include <iprt/log.h>
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27 | #include <iprt/uuid.h>
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28 | #include <iprt/assert.h>
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29 |
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30 | #include "VBoxDD.h"
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31 | #include "UartCore.h"
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32 |
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33 |
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34 | /*********************************************************************************************************************************
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35 | * Defined Constants And Macros *
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36 | *********************************************************************************************************************************/
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37 |
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38 | /** The RBR/DLL register index (from the base of the port range). */
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39 | #define UART_REG_RBR_DLL_INDEX 0
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40 |
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41 | /** The THR/DLL register index (from the base of the port range). */
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42 | #define UART_REG_THR_DLL_INDEX 0
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43 |
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44 | /** The IER/DLM register index (from the base of the port range). */
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45 | #define UART_REG_IER_DLM_INDEX 1
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46 | /** Enable received data available interrupt */
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47 | # define UART_REG_IER_ERBFI RT_BIT(0)
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48 | /** Enable transmitter holding register empty interrupt */
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49 | # define UART_REG_IER_ETBEI RT_BIT(1)
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50 | /** Enable receiver line status interrupt */
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51 | # define UART_REG_IER_ELSI RT_BIT(2)
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52 | /** Enable modem status interrupt. */
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53 | # define UART_REG_IER_EDSSI RT_BIT(3)
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54 | /** Sleep mode enable. */
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55 | # define UART_REG_IER_SLEEP_MODE_EN RT_BIT(4)
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56 | /** Low power mode enable. */
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57 | # define UART_REG_IER_LP_MODE_EN RT_BIT(5)
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58 | /** Mask of writeable bits. */
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59 | # define UART_REG_IER_MASK_WR 0x0f
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60 | /** Mask of writeable bits for 16750+. */
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61 | # define UART_REG_IER_MASK_WR_16750 0x3f
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62 |
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63 | /** The IIR register index (from the base of the port range). */
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64 | #define UART_REG_IIR_INDEX 2
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65 | /** Interrupt Pending - high means no interrupt pending. */
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66 | # define UART_REG_IIR_IP_NO_INT RT_BIT(0)
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67 | /** Interrupt identification mask. */
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68 | # define UART_REG_IIR_ID_MASK 0x0e
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69 | /** Sets the interrupt identification to the given value. */
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70 | # define UART_REG_IIR_ID_SET(a_Val) (((a_Val) << 1) & UART_REG_IIR_ID_MASK)
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71 | /** Gets the interrupt identification from the given IIR register value. */
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72 | # define UART_REG_IIR_ID_GET(a_Val) (((a_Val) & UART_REG_IIR_ID_MASK) >> 1)
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73 | /** Receiver Line Status interrupt. */
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74 | # define UART_REG_IIR_ID_RCL 0x3
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75 | /** Received Data Available interrupt. */
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76 | # define UART_REG_IIR_ID_RDA 0x2
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77 | /** Character Timeou Indicator interrupt. */
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78 | # define UART_REG_IIR_ID_CTI 0x6
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79 | /** Transmitter Holding Register Empty interrupt. */
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80 | # define UART_REG_IIR_ID_THRE 0x1
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81 | /** Modem Status interrupt. */
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82 | # define UART_REG_IIR_ID_MS 0x0
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83 | /** 64 byte FIFOs enabled (15750+ only). */
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84 | # define UART_REG_IIR_64BYTE_FIFOS_EN RT_BIT(5)
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85 | /** FIFOs enabled. */
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86 | # define UART_REG_IIR_FIFOS_EN 0xc0
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87 | /** Bits relevant for checking whether the interrupt status has changed. */
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88 | # define UART_REG_IIR_CHANGED_MASK 0x0f
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89 |
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90 | /** The FCR register index (from the base of the port range). */
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91 | #define UART_REG_FCR_INDEX 2
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92 | /** Enable the TX/RX FIFOs. */
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93 | # define UART_REG_FCR_FIFO_EN RT_BIT(0)
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94 | /** Reset the receive FIFO. */
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95 | # define UART_REG_FCR_RCV_FIFO_RST RT_BIT(1)
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96 | /** Reset the transmit FIFO. */
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97 | # define UART_REG_FCR_XMIT_FIFO_RST RT_BIT(2)
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98 | /** DMA Mode Select. */
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99 | # define UART_REG_FCR_DMA_MODE_SEL RT_BIT(3)
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100 | /** 64 Byte FIFO enable (15750+ only). */
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101 | # define UART_REG_FCR_64BYTE_FIFO_EN RT_BIT(5)
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102 | /** Receiver level interrupt trigger. */
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103 | # define UART_REG_FCR_RCV_LVL_IRQ_MASK 0xc0
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104 | /** Returns the receive level trigger value from the given FCR register. */
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105 | # define UART_REG_FCR_RCV_LVL_IRQ_GET(a_Fcr) (((a_Fcr) & UART_REG_FCR_RCV_LVL_IRQ_MASK) >> 6)
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106 | /** RCV Interrupt trigger level - 1 byte. */
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107 | # define UART_REG_FCR_RCV_LVL_IRQ_1 0x0
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108 | /** RCV Interrupt trigger level - 4 bytes. */
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109 | # define UART_REG_FCR_RCV_LVL_IRQ_4 0x1
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110 | /** RCV Interrupt trigger level - 8 bytes. */
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111 | # define UART_REG_FCR_RCV_LVL_IRQ_8 0x2
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112 | /** RCV Interrupt trigger level - 14 bytes. */
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113 | # define UART_REG_FCR_RCV_LVL_IRQ_14 0x3
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114 | /** Mask of writeable bits. */
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115 | # define UART_REG_FCR_MASK_WR 0xcf
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116 | /** Mask of sticky bits. */
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117 | # define UART_REG_FCR_MASK_STICKY 0xe9
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118 |
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119 | /** The LCR register index (from the base of the port range). */
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120 | #define UART_REG_LCR_INDEX 3
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121 | /** Word Length Select Mask. */
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122 | # define UART_REG_LCR_WLS_MASK 0x3
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123 | /** Returns the WLS value form the given LCR register value. */
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124 | # define UART_REG_LCR_WLS_GET(a_Lcr) ((a_Lcr) & UART_REG_LCR_WLS_MASK)
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125 | /** Number of stop bits. */
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126 | # define UART_REG_LCR_STB RT_BIT(2)
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127 | /** Parity Enable. */
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128 | # define UART_REG_LCR_PEN RT_BIT(3)
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129 | /** Even Parity. */
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130 | # define UART_REG_LCR_EPS RT_BIT(4)
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131 | /** Stick parity. */
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132 | # define UART_REG_LCR_PAR_STICK RT_BIT(5)
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133 | /** Set Break. */
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134 | # define UART_REG_LCR_BRK_SET RT_BIT(6)
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135 | /** Divisor Latch Access Bit. */
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136 | # define UART_REG_LCR_DLAB RT_BIT(7)
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137 |
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138 | /** The MCR register index (from the base of the port range). */
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139 | #define UART_REG_MCR_INDEX 4
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140 | /** Data Terminal Ready. */
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141 | # define UART_REG_MCR_DTR RT_BIT(0)
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142 | /** Request To Send. */
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143 | # define UART_REG_MCR_RTS RT_BIT(1)
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144 | /** Out1. */
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145 | # define UART_REG_MCR_OUT1 RT_BIT(2)
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146 | /** Out2. */
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147 | # define UART_REG_MCR_OUT2 RT_BIT(3)
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148 | /** Loopback connection. */
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149 | # define UART_REG_MCR_LOOP RT_BIT(4)
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150 | /** Flow Control Enable (15750+ only). */
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151 | # define UART_REG_MCR_AFE RT_BIT(5)
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152 | /** Mask of writeable bits (15450 and 15550A). */
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153 | # define UART_REG_MCR_MASK_WR 0x1f
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154 | /** Mask of writeable bits (15750+). */
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155 | # define UART_REG_MCR_MASK_WR_15750 0x3f
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156 |
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157 | /** The LSR register index (from the base of the port range). */
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158 | #define UART_REG_LSR_INDEX 5
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159 | /** Data Ready. */
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160 | # define UART_REG_LSR_DR RT_BIT(0)
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161 | /** Overrun Error. */
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162 | # define UART_REG_LSR_OE RT_BIT(1)
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163 | /** Parity Error. */
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164 | # define UART_REG_LSR_PE RT_BIT(2)
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165 | /** Framing Error. */
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166 | # define UART_REG_LSR_FE RT_BIT(3)
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167 | /** Break Interrupt. */
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168 | # define UART_REG_LSR_BI RT_BIT(4)
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169 | /** Transmitter Holding Register. */
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170 | # define UART_REG_LSR_THRE RT_BIT(5)
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171 | /** Transmitter Empty. */
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172 | # define UART_REG_LSR_TEMT RT_BIT(6)
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173 | /** Error in receiver FIFO. */
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174 | # define UART_REG_LSR_RCV_FIFO_ERR RT_BIT(7)
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175 | /** The bits to check in this register when checking for the RCL interrupt. */
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176 | # define UART_REG_LSR_BITS_IIR_RCL 0x1e
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177 |
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178 | /** The MSR register index (from the base of the port range). */
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179 | #define UART_REG_MSR_INDEX 6
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180 | /** Delta Clear to Send. */
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181 | # define UART_REG_MSR_DCTS RT_BIT(0)
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182 | /** Delta Data Set Ready. */
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183 | # define UART_REG_MSR_DDSR RT_BIT(1)
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184 | /** Trailing Edge Ring Indicator. */
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185 | # define UART_REG_MSR_TERI RT_BIT(2)
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186 | /** Delta Data Carrier Detect. */
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187 | # define UART_REG_MSR_DDCD RT_BIT(3)
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188 | /** Clear to Send. */
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189 | # define UART_REG_MSR_CTS RT_BIT(4)
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190 | /** Data Set Ready. */
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191 | # define UART_REG_MSR_DSR RT_BIT(5)
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192 | /** Ring Indicator. */
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193 | # define UART_REG_MSR_RI RT_BIT(6)
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194 | /** Data Carrier Detect. */
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195 | # define UART_REG_MSR_DCD RT_BIT(7)
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196 | /** The bits to check in this register when checking for the MS interrupt. */
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197 | # define UART_REG_MSR_BITS_IIR_MS 0x0f
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198 |
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199 | /** The SCR register index (from the base of the port range). */
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200 | #define UART_REG_SCR_INDEX 7
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201 |
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202 | /** Set the specified bits in the given register. */
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203 | #define UART_REG_SET(a_Reg, a_Set) ((a_Reg) |= (a_Set))
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204 | /** Clear the specified bits in the given register. */
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205 | #define UART_REG_CLR(a_Reg, a_Clr) ((a_Reg) &= ~(a_Clr))
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206 |
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207 |
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208 | /*********************************************************************************************************************************
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209 | * Structures and Typedefs *
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210 | *********************************************************************************************************************************/
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211 |
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212 | #ifndef VBOX_DEVICE_STRUCT_TESTCASE
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213 |
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214 |
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215 | /*********************************************************************************************************************************
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216 | * Global Variables *
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217 | *********************************************************************************************************************************/
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218 |
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219 | #ifdef IN_RING3
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220 | /**
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221 | * FIFO ITL levels.
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222 | */
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223 | static struct
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224 | {
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225 | /** ITL level for a 16byte FIFO. */
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226 | uint8_t cbItl16;
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227 | /** ITL level for a 64byte FIFO. */
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228 | uint8_t cbItl64;
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229 | } s_aFifoItl[] =
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230 | {
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231 | /* cbItl16 cbItl64 */
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232 | { 1, 1 },
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233 | { 4, 16 },
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234 | { 8, 32 },
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235 | { 14, 56 }
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236 | };
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237 |
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238 |
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239 | /**
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240 | * String versions of the parity enum.
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241 | */
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242 | static const char *s_aszParity[] =
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243 | {
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244 | "INVALID",
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245 | "NONE",
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246 | "EVEN",
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247 | "ODD",
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248 | "MARK",
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249 | "SPACE",
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250 | "INVALID"
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251 | };
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252 |
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253 |
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254 | /**
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255 | * String versions of the stop bits enum.
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256 | */
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257 | static const char *s_aszStopBits[] =
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258 | {
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259 | "INVALID",
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260 | "1",
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261 | "1.5",
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262 | "2",
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263 | "INVALID"
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264 | };
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265 | #endif
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266 |
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267 |
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268 | /*********************************************************************************************************************************
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269 | * Internal Functions *
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270 | *********************************************************************************************************************************/
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271 |
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272 |
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273 | /**
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274 | * Updates the IRQ state based on the current device state.
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275 | *
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276 | * @returns nothing.
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277 | * @param pThis The UART core instance.
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278 | */
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279 | static void uartIrqUpdate(PUARTCORE pThis)
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280 | {
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281 | LogFlowFunc(("pThis=%#p\n", pThis));
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282 |
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283 | /*
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284 | * The interrupt uses a priority scheme, only the interrupt with the
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285 | * highest priority is indicated in the interrupt identification register.
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286 | *
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287 | * The priorities are as follows (high to low):
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288 | * * Receiver line status
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289 | * * Received data available
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290 | * * Character timeout indication (only in FIFO mode).
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291 | * * Transmitter holding register empty
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292 | * * Modem status change.
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293 | */
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294 | uint8_t uRegIirNew = UART_REG_IIR_IP_NO_INT;
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295 | if ( (pThis->uRegLsr & UART_REG_LSR_BITS_IIR_RCL)
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296 | && (pThis->uRegIer & UART_REG_IER_ELSI))
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297 | uRegIirNew = UART_REG_IIR_ID_SET(UART_REG_IIR_ID_RCL);
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298 | else if ( (pThis->uRegIer & UART_REG_IER_ERBFI)
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299 | && pThis->fIrqCtiPending)
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300 | uRegIirNew = UART_REG_IIR_ID_SET(UART_REG_IIR_ID_CTI);
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301 | else if ( (pThis->uRegLsr & UART_REG_LSR_DR)
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302 | && (pThis->uRegIer & UART_REG_IER_ERBFI)
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303 | && ( !(pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
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304 | || pThis->FifoRecv.cbUsed >= pThis->FifoRecv.cbItl))
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305 | uRegIirNew = UART_REG_IIR_ID_SET(UART_REG_IIR_ID_RDA);
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306 | else if ( (pThis->uRegIer & UART_REG_IER_ETBEI)
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307 | && pThis->fThreEmptyPending)
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308 | uRegIirNew = UART_REG_IIR_ID_SET(UART_REG_IIR_ID_THRE);
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309 | else if ( (pThis->uRegMsr & UART_REG_MSR_BITS_IIR_MS)
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310 | && (pThis->uRegIer & UART_REG_IER_EDSSI))
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311 | uRegIirNew = UART_REG_IIR_ID_SET(UART_REG_IIR_ID_MS);
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312 |
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313 | LogFlowFunc((" uRegIirNew=%#x uRegIir=%#x\n", uRegIirNew, pThis->uRegIir));
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314 |
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315 | /* Change interrupt only if the interrupt status really changed from the previous value. */
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316 | if (uRegIirNew != (pThis->uRegIir & UART_REG_IIR_CHANGED_MASK))
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317 | {
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318 | LogFlow((" Interrupt source changed from %#x -> %#x (IRQ %d -> %d)\n",
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319 | pThis->uRegIir, uRegIirNew,
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320 | pThis->uRegIir == UART_REG_IIR_IP_NO_INT ? 0 : 1,
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321 | uRegIirNew == UART_REG_IIR_IP_NO_INT ? 0 : 1));
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322 | if (uRegIirNew == UART_REG_IIR_IP_NO_INT)
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323 | pThis->CTX_SUFF(pfnUartIrqReq)(pThis->CTX_SUFF(pDevIns), pThis, pThis->iLUN, 0);
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324 | else
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325 | pThis->CTX_SUFF(pfnUartIrqReq)(pThis->CTX_SUFF(pDevIns), pThis, pThis->iLUN, 1);
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326 | }
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327 | else
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328 | LogFlow((" No change in interrupt source\n"));
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329 |
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330 | if (pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
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331 | uRegIirNew |= UART_REG_IIR_FIFOS_EN;
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332 | if (pThis->uRegFcr & UART_REG_FCR_64BYTE_FIFO_EN)
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333 | uRegIirNew |= UART_REG_IIR_64BYTE_FIFOS_EN;
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334 |
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335 | pThis->uRegIir = uRegIirNew;
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336 | }
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337 |
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338 |
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339 | /**
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340 | * Returns the amount of bytes stored in the given FIFO.
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341 | *
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342 | * @returns Amount of bytes stored in the FIFO.
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343 | * @param pFifo The FIFO.
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344 | */
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345 | DECLINLINE(size_t) uartFifoUsedGet(PUARTFIFO pFifo)
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346 | {
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347 | return pFifo->cbUsed;
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348 | }
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349 |
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350 |
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351 | /**
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352 | * Puts a new character into the given FIFO.
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353 | *
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354 | * @returns Flag whether the FIFO overflowed.
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355 | * @param pFifo The FIFO to put the data into.
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356 | * @param fOvrWr Flag whether to overwrite data if the FIFO is full.
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357 | * @param bData The data to add.
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358 | */
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359 | DECLINLINE(bool) uartFifoPut(PUARTFIFO pFifo, bool fOvrWr, uint8_t bData)
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360 | {
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361 | if (fOvrWr || pFifo->cbUsed < pFifo->cbMax)
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362 | {
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363 | pFifo->abBuf[pFifo->offWrite] = bData;
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364 | pFifo->offWrite = (pFifo->offWrite + 1) % pFifo->cbMax;
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365 | }
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366 |
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367 | bool fOverFlow = false;
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368 | if (pFifo->cbUsed < pFifo->cbMax)
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369 | pFifo->cbUsed++;
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370 | else
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371 | {
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372 | fOverFlow = true;
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373 | if (fOvrWr) /* Advance the read position to account for the lost character. */
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374 | pFifo->offRead = (pFifo->offRead + 1) % pFifo->cbMax;
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375 | }
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376 |
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377 | return fOverFlow;
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378 | }
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379 |
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380 |
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381 | /**
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382 | * Returns the next character in the FIFO.
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383 | *
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384 | * @return Next byte in the FIFO.
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385 | * @param pFifo The FIFO to get data from.
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386 | */
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387 | DECLINLINE(uint8_t) uartFifoGet(PUARTFIFO pFifo)
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388 | {
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389 | uint8_t bRet = 0;
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390 |
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391 | if (pFifo->cbUsed)
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392 | {
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393 | bRet = pFifo->abBuf[pFifo->offRead];
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394 | pFifo->offRead = (pFifo->offRead + 1) % pFifo->cbMax;
|
---|
395 | pFifo->cbUsed--;
|
---|
396 | }
|
---|
397 |
|
---|
398 | return bRet;
|
---|
399 | }
|
---|
400 |
|
---|
401 |
|
---|
402 | #ifdef IN_RING3
|
---|
403 | /**
|
---|
404 | * Clears the given FIFO.
|
---|
405 | *
|
---|
406 | * @returns nothing.
|
---|
407 | * @param pFifo The FIFO to clear.
|
---|
408 | */
|
---|
409 | DECLINLINE(void) uartFifoClear(PUARTFIFO pFifo)
|
---|
410 | {
|
---|
411 | memset(&pFifo->abBuf[0], 0, sizeof(pFifo->abBuf));
|
---|
412 | pFifo->cbUsed = 0;
|
---|
413 | pFifo->offWrite = 0;
|
---|
414 | pFifo->offRead = 0;
|
---|
415 | }
|
---|
416 |
|
---|
417 |
|
---|
418 | /**
|
---|
419 | * Returns the amount of free bytes in the given FIFO.
|
---|
420 | *
|
---|
421 | * @returns The amount of bytes free in the given FIFO.
|
---|
422 | * @param pFifo The FIFO.
|
---|
423 | */
|
---|
424 | DECLINLINE(size_t) uartFifoFreeGet(PUARTFIFO pFifo)
|
---|
425 | {
|
---|
426 | return pFifo->cbMax - pFifo->cbUsed;
|
---|
427 | }
|
---|
428 |
|
---|
429 |
|
---|
430 | /**
|
---|
431 | * Tries to copy the requested amount of data from the given FIFO into the provided buffer.
|
---|
432 | *
|
---|
433 | * @returns Amount of bytes actually copied.
|
---|
434 | * @param pFifo The FIFO to copy data from.
|
---|
435 | * @param pvDst Where to copy the data to.
|
---|
436 | * @param cbCopy How much to copy.
|
---|
437 | */
|
---|
438 | DECLINLINE(size_t) uartFifoCopyTo(PUARTFIFO pFifo, void *pvDst, size_t cbCopy)
|
---|
439 | {
|
---|
440 | size_t cbCopied = 0;
|
---|
441 | uint8_t *pbDst = (uint8_t *)pvDst;
|
---|
442 |
|
---|
443 | cbCopy = RT_MIN(cbCopy, pFifo->cbUsed);
|
---|
444 | while (cbCopy)
|
---|
445 | {
|
---|
446 | uint8_t cbThisCopy = (uint8_t)RT_MIN(cbCopy, (uint8_t)(pFifo->cbMax - pFifo->offRead));
|
---|
447 | memcpy(pbDst, &pFifo->abBuf[pFifo->offRead], cbThisCopy);
|
---|
448 |
|
---|
449 | pFifo->offRead = (pFifo->offRead + cbThisCopy) % pFifo->cbMax;
|
---|
450 | pFifo->cbUsed -= cbThisCopy;
|
---|
451 | pbDst += cbThisCopy;
|
---|
452 | cbCopied += cbThisCopy;
|
---|
453 | cbCopy -= cbThisCopy;
|
---|
454 | }
|
---|
455 |
|
---|
456 | return cbCopied;
|
---|
457 | }
|
---|
458 |
|
---|
459 |
|
---|
460 | #if 0 /* unused */
|
---|
461 | /**
|
---|
462 | * Tries to copy the requested amount of data from the provided buffer into the given FIFO.
|
---|
463 | *
|
---|
464 | * @returns Amount of bytes actually copied.
|
---|
465 | * @param pFifo The FIFO to copy data to.
|
---|
466 | * @param pvSrc Where to copy the data from.
|
---|
467 | * @param cbCopy How much to copy.
|
---|
468 | */
|
---|
469 | DECLINLINE(size_t) uartFifoCopyFrom(PUARTFIFO pFifo, void *pvSrc, size_t cbCopy)
|
---|
470 | {
|
---|
471 | size_t cbCopied = 0;
|
---|
472 | uint8_t *pbSrc = (uint8_t *)pvSrc;
|
---|
473 |
|
---|
474 | cbCopy = RT_MIN(cbCopy, uartFifoFreeGet(pFifo));
|
---|
475 | while (cbCopy)
|
---|
476 | {
|
---|
477 | uint8_t cbThisCopy = (uint8_t)RT_MIN(cbCopy, (uint8_t)(pFifo->cbMax - pFifo->offWrite));
|
---|
478 | memcpy(&pFifo->abBuf[pFifo->offWrite], pbSrc, cbThisCopy);
|
---|
479 |
|
---|
480 | pFifo->offWrite = (pFifo->offWrite + cbThisCopy) % pFifo->cbMax;
|
---|
481 | pFifo->cbUsed += cbThisCopy;
|
---|
482 | pbSrc += cbThisCopy;
|
---|
483 | cbCopied += cbThisCopy;
|
---|
484 | cbCopy -= cbThisCopy;
|
---|
485 | }
|
---|
486 |
|
---|
487 | return cbCopied;
|
---|
488 | }
|
---|
489 | #endif
|
---|
490 |
|
---|
491 |
|
---|
492 | /**
|
---|
493 | * Updates the delta bits for the given MSR register value which has the status line
|
---|
494 | * bits set.
|
---|
495 | *
|
---|
496 | * @returns nothing.
|
---|
497 | * @param pThis The serial port instance.
|
---|
498 | * @param uMsrSts MSR value with the appropriate status bits set.
|
---|
499 | */
|
---|
500 | static void uartR3MsrUpdate(PUARTCORE pThis, uint8_t uMsrSts)
|
---|
501 | {
|
---|
502 | /* Compare current and new states and set remaining bits accordingly. */
|
---|
503 | if ((uMsrSts & UART_REG_MSR_CTS) != (pThis->uRegMsr & UART_REG_MSR_CTS))
|
---|
504 | uMsrSts |= UART_REG_MSR_DCTS;
|
---|
505 | if ((uMsrSts & UART_REG_MSR_DSR) != (pThis->uRegMsr & UART_REG_MSR_DSR))
|
---|
506 | uMsrSts |= UART_REG_MSR_DDSR;
|
---|
507 | if ((uMsrSts & UART_REG_MSR_RI) != 0 && (pThis->uRegMsr & UART_REG_MSR_RI) == 0)
|
---|
508 | uMsrSts |= UART_REG_MSR_TERI;
|
---|
509 | if ((uMsrSts & UART_REG_MSR_DCD) != (pThis->uRegMsr & UART_REG_MSR_DCD))
|
---|
510 | uMsrSts |= UART_REG_MSR_DDCD;
|
---|
511 |
|
---|
512 | pThis->uRegMsr = uMsrSts;
|
---|
513 |
|
---|
514 | uartIrqUpdate(pThis);
|
---|
515 | }
|
---|
516 |
|
---|
517 |
|
---|
518 | /**
|
---|
519 | * Updates the serial port parameters of the attached driver with the current configuration.
|
---|
520 | *
|
---|
521 | * @returns nothing.
|
---|
522 | * @param pThis The serial port instance.
|
---|
523 | */
|
---|
524 | static void uartR3ParamsUpdate(PUARTCORE pThis)
|
---|
525 | {
|
---|
526 | if ( pThis->uRegDivisor != 0
|
---|
527 | && pThis->pDrvSerial)
|
---|
528 | {
|
---|
529 | uint32_t uBps = 115200 / pThis->uRegDivisor; /* This is for PC compatible serial port with a 1.8432 MHz crystal. */
|
---|
530 | unsigned cDataBits = UART_REG_LCR_WLS_GET(pThis->uRegLcr) + 5;
|
---|
531 | uint32_t cFrameBits = cDataBits;
|
---|
532 | PDMSERIALSTOPBITS enmStopBits = PDMSERIALSTOPBITS_ONE;
|
---|
533 | PDMSERIALPARITY enmParity = PDMSERIALPARITY_NONE;
|
---|
534 |
|
---|
535 | if (pThis->uRegLcr & UART_REG_LCR_STB)
|
---|
536 | {
|
---|
537 | enmStopBits = cDataBits == 5 ? PDMSERIALSTOPBITS_ONEPOINTFIVE : PDMSERIALSTOPBITS_TWO;
|
---|
538 | cFrameBits += 2;
|
---|
539 | }
|
---|
540 | else
|
---|
541 | cFrameBits++;
|
---|
542 |
|
---|
543 | if (pThis->uRegLcr & UART_REG_LCR_PEN)
|
---|
544 | {
|
---|
545 | /* Select the correct parity mode based on the even and stick parity bits. */
|
---|
546 | switch (pThis->uRegLcr & (UART_REG_LCR_EPS | UART_REG_LCR_PAR_STICK))
|
---|
547 | {
|
---|
548 | case 0:
|
---|
549 | enmParity = PDMSERIALPARITY_ODD;
|
---|
550 | break;
|
---|
551 | case UART_REG_LCR_EPS:
|
---|
552 | enmParity = PDMSERIALPARITY_EVEN;
|
---|
553 | break;
|
---|
554 | case UART_REG_LCR_EPS | UART_REG_LCR_PAR_STICK:
|
---|
555 | enmParity = PDMSERIALPARITY_SPACE;
|
---|
556 | break;
|
---|
557 | case UART_REG_LCR_PAR_STICK:
|
---|
558 | enmParity = PDMSERIALPARITY_MARK;
|
---|
559 | break;
|
---|
560 | default:
|
---|
561 | /* We should never get here as all cases where caught earlier. */
|
---|
562 | AssertMsgFailed(("This shouldn't happen at all: %#x\n",
|
---|
563 | pThis->uRegLcr & (UART_REG_LCR_EPS | UART_REG_LCR_PAR_STICK)));
|
---|
564 | }
|
---|
565 |
|
---|
566 | cFrameBits++;
|
---|
567 | }
|
---|
568 |
|
---|
569 | uint64_t uTimerFreq = TMTimerGetFreq(pThis->CTX_SUFF(pTimerRcvFifoTimeout));
|
---|
570 | pThis->cSymbolXferTicks = (uTimerFreq / uBps) * cFrameBits;
|
---|
571 |
|
---|
572 | LogFlowFunc(("Changing parameters to: %u,%s,%u,%s\n",
|
---|
573 | uBps, s_aszParity[enmParity], cDataBits, s_aszStopBits[enmStopBits]));
|
---|
574 |
|
---|
575 | int rc = pThis->pDrvSerial->pfnChgParams(pThis->pDrvSerial, uBps, enmParity, cDataBits, enmStopBits);
|
---|
576 | if (RT_FAILURE(rc))
|
---|
577 | LogRelMax(10, ("Serial#%d: Failed to change parameters to %u,%s,%u,%s -> %Rrc\n",
|
---|
578 | pThis->pDevInsR3->iInstance, uBps, s_aszParity[enmParity], cDataBits, s_aszStopBits[enmStopBits], rc));
|
---|
579 |
|
---|
580 | /* Changed parameters will flush all receive queues, so there won't be any data to read even if indicated. */
|
---|
581 | pThis->pDrvSerial->pfnQueuesFlush(pThis->pDrvSerial, true /*fQueueRecv*/, false /*fQueueXmit*/);
|
---|
582 | ASMAtomicWriteU32(&pThis->cbAvailRdr, 0);
|
---|
583 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
584 | }
|
---|
585 | }
|
---|
586 |
|
---|
587 |
|
---|
588 | /**
|
---|
589 | * Updates the internal device state with the given PDM status line states.
|
---|
590 | *
|
---|
591 | * @returns nothing.
|
---|
592 | * @param pThis The serial port instance.
|
---|
593 | * @param fStsLines The PDM status line states.
|
---|
594 | */
|
---|
595 | static void uartR3StsLinesUpdate(PUARTCORE pThis, uint32_t fStsLines)
|
---|
596 | {
|
---|
597 | uint8_t uRegMsrNew = 0; /* The new MSR value. */
|
---|
598 |
|
---|
599 | if (fStsLines & PDMISERIALPORT_STS_LINE_DCD)
|
---|
600 | uRegMsrNew |= UART_REG_MSR_DCD;
|
---|
601 | if (fStsLines & PDMISERIALPORT_STS_LINE_RI)
|
---|
602 | uRegMsrNew |= UART_REG_MSR_RI;
|
---|
603 | if (fStsLines & PDMISERIALPORT_STS_LINE_DSR)
|
---|
604 | uRegMsrNew |= UART_REG_MSR_DSR;
|
---|
605 | if (fStsLines & PDMISERIALPORT_STS_LINE_CTS)
|
---|
606 | uRegMsrNew |= UART_REG_MSR_CTS;
|
---|
607 |
|
---|
608 | uartR3MsrUpdate(pThis, uRegMsrNew);
|
---|
609 | }
|
---|
610 |
|
---|
611 |
|
---|
612 | /**
|
---|
613 | * Fills up the receive FIFO with as much data as possible.
|
---|
614 | *
|
---|
615 | * @returns nothing.
|
---|
616 | * @param pThis The serial port instance.
|
---|
617 | */
|
---|
618 | static void uartR3RecvFifoFill(PUARTCORE pThis)
|
---|
619 | {
|
---|
620 | LogFlowFunc(("pThis=%#p\n", pThis));
|
---|
621 |
|
---|
622 | PUARTFIFO pFifo = &pThis->FifoRecv;
|
---|
623 | size_t cbFill = RT_MIN(uartFifoFreeGet(pFifo),
|
---|
624 | ASMAtomicReadU32(&pThis->cbAvailRdr));
|
---|
625 | size_t cbFilled = 0;
|
---|
626 |
|
---|
627 | while (cbFilled < cbFill)
|
---|
628 | {
|
---|
629 | size_t cbThisRead = cbFill - cbFilled;
|
---|
630 |
|
---|
631 | if (pFifo->offRead <= pFifo->offWrite)
|
---|
632 | cbThisRead = RT_MIN(cbThisRead, (uint8_t)(pFifo->cbMax - pFifo->offWrite));
|
---|
633 | else
|
---|
634 | cbThisRead = RT_MIN(cbThisRead, (uint8_t)(pFifo->offRead - pFifo->offWrite));
|
---|
635 |
|
---|
636 | size_t cbRead = 0;
|
---|
637 | int rc = pThis->pDrvSerial->pfnReadRdr(pThis->pDrvSerial, &pFifo->abBuf[pFifo->offWrite], cbThisRead, &cbRead);
|
---|
638 | AssertRC(rc); Assert(cbRead <= UINT8_MAX); RT_NOREF(rc);
|
---|
639 |
|
---|
640 | pFifo->offWrite = (pFifo->offWrite + (uint8_t)cbRead) % pFifo->cbMax;
|
---|
641 | pFifo->cbUsed += (uint8_t)cbRead;
|
---|
642 | cbFilled += cbRead;
|
---|
643 |
|
---|
644 | if (cbRead < cbThisRead)
|
---|
645 | break;
|
---|
646 | }
|
---|
647 |
|
---|
648 | if (cbFilled)
|
---|
649 | {
|
---|
650 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
651 | if (pFifo->cbUsed < pFifo->cbItl)
|
---|
652 | {
|
---|
653 | pThis->fIrqCtiPending = false;
|
---|
654 | TMTimerSetRelative(pThis->CTX_SUFF(pTimerRcvFifoTimeout), pThis->cSymbolXferTicks * 4, NULL);
|
---|
655 | }
|
---|
656 | uartIrqUpdate(pThis);
|
---|
657 | }
|
---|
658 |
|
---|
659 | Assert(cbFilled <= (size_t)pThis->cbAvailRdr);
|
---|
660 | ASMAtomicSubU32(&pThis->cbAvailRdr, (uint32_t)cbFilled);
|
---|
661 | }
|
---|
662 |
|
---|
663 |
|
---|
664 | /**
|
---|
665 | * Fetches a single byte and writes it to RBR.
|
---|
666 | *
|
---|
667 | * @returns nothing.
|
---|
668 | * @param pThis The serial port instance.
|
---|
669 | */
|
---|
670 | static void uartR3ByteFetch(PUARTCORE pThis)
|
---|
671 | {
|
---|
672 | if (ASMAtomicReadU32(&pThis->cbAvailRdr))
|
---|
673 | {
|
---|
674 | size_t cbRead = 0;
|
---|
675 | int rc2 = pThis->pDrvSerial->pfnReadRdr(pThis->pDrvSerial, &pThis->uRegRbr, 1, &cbRead);
|
---|
676 | AssertMsg(RT_SUCCESS(rc2) && cbRead == 1, ("This shouldn't fail and always return one byte!\n")); RT_NOREF(rc2);
|
---|
677 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
678 | uartIrqUpdate(pThis);
|
---|
679 | }
|
---|
680 | }
|
---|
681 |
|
---|
682 |
|
---|
683 | /**
|
---|
684 | * Fetches a ready data based on the FIFO setting.
|
---|
685 | *
|
---|
686 | * @returns nothing.
|
---|
687 | * @param pThis The serial port instance.
|
---|
688 | */
|
---|
689 | static void uartR3DataFetch(PUARTCORE pThis)
|
---|
690 | {
|
---|
691 | AssertPtrReturnVoid(pThis->pDrvSerial);
|
---|
692 |
|
---|
693 | if (pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
|
---|
694 | uartR3RecvFifoFill(pThis);
|
---|
695 | else
|
---|
696 | uartR3ByteFetch(pThis);
|
---|
697 | }
|
---|
698 |
|
---|
699 |
|
---|
700 | /**
|
---|
701 | * Reset the transmit/receive related bits to the standard values
|
---|
702 | * (after a detach/attach/reset event).
|
---|
703 | *
|
---|
704 | * @returns nothing.
|
---|
705 | * @param pThis The serial port instance.
|
---|
706 | */
|
---|
707 | static void uartR3XferReset(PUARTCORE pThis)
|
---|
708 | {
|
---|
709 | TMTimerStop(pThis->CTX_SUFF(pTimerRcvFifoTimeout));
|
---|
710 | TMTimerStop(pThis->CTX_SUFF(pTimerTxUnconnected));
|
---|
711 | pThis->uRegLsr = UART_REG_LSR_THRE | UART_REG_LSR_TEMT;
|
---|
712 | pThis->fThreEmptyPending = false;
|
---|
713 |
|
---|
714 | uartFifoClear(&pThis->FifoXmit);
|
---|
715 | uartFifoClear(&pThis->FifoRecv);
|
---|
716 | uartR3ParamsUpdate(pThis);
|
---|
717 | uartIrqUpdate(pThis);
|
---|
718 |
|
---|
719 | if (pThis->pDrvSerial)
|
---|
720 | {
|
---|
721 | /* Set the modem lines to reflect the current state. */
|
---|
722 | int rc = pThis->pDrvSerial->pfnChgModemLines(pThis->pDrvSerial, false /*fRts*/, false /*fDtr*/);
|
---|
723 | if (RT_FAILURE(rc))
|
---|
724 | LogRel(("Serial#%d: Failed to set modem lines with %Rrc during reset\n",
|
---|
725 | pThis->pDevInsR3->iInstance, rc));
|
---|
726 |
|
---|
727 | uint32_t fStsLines = 0;
|
---|
728 | rc = pThis->pDrvSerial->pfnQueryStsLines(pThis->pDrvSerial, &fStsLines);
|
---|
729 | if (RT_SUCCESS(rc))
|
---|
730 | uartR3StsLinesUpdate(pThis, fStsLines);
|
---|
731 | else
|
---|
732 | LogRel(("Serial#%d: Failed to query status line status with %Rrc during reset\n",
|
---|
733 | pThis->pDevInsR3->iInstance, rc));
|
---|
734 | }
|
---|
735 |
|
---|
736 | }
|
---|
737 |
|
---|
738 |
|
---|
739 | /**
|
---|
740 | * Tries to copy the specified amount of data from the active TX queue (register or FIFO).
|
---|
741 | *
|
---|
742 | * @returns nothing.
|
---|
743 | * @param pThis The serial port instance.
|
---|
744 | * @param pvBuf Where to store the data.
|
---|
745 | * @param cbRead How much to read from the TX queue.
|
---|
746 | * @param pcbRead Where to store the amount of data read.
|
---|
747 | */
|
---|
748 | static void uartR3TxQueueCopyFrom(PUARTCORE pThis, void *pvBuf, size_t cbRead, size_t *pcbRead)
|
---|
749 | {
|
---|
750 | if (pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
|
---|
751 | {
|
---|
752 | *pcbRead = uartFifoCopyTo(&pThis->FifoXmit, pvBuf, cbRead);
|
---|
753 | if (!pThis->FifoXmit.cbUsed)
|
---|
754 | {
|
---|
755 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_THRE);
|
---|
756 | pThis->fThreEmptyPending = true;
|
---|
757 | }
|
---|
758 | if (*pcbRead)
|
---|
759 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_TEMT);
|
---|
760 | uartIrqUpdate(pThis);
|
---|
761 | }
|
---|
762 | else if (!(pThis->uRegLsr & UART_REG_LSR_THRE))
|
---|
763 | {
|
---|
764 | *(uint8_t *)pvBuf = pThis->uRegThr;
|
---|
765 | *pcbRead = 1;
|
---|
766 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_THRE);
|
---|
767 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_TEMT);
|
---|
768 | pThis->fThreEmptyPending = true;
|
---|
769 | uartIrqUpdate(pThis);
|
---|
770 | }
|
---|
771 | else
|
---|
772 | {
|
---|
773 | /*
|
---|
774 | * This can happen if there was data in the FIFO when the connection was closed,
|
---|
775 | * indicate this condition to the lower driver by returning 0 bytes.
|
---|
776 | */
|
---|
777 | *pcbRead = 0;
|
---|
778 | }
|
---|
779 | }
|
---|
780 | #endif
|
---|
781 |
|
---|
782 |
|
---|
783 | /**
|
---|
784 | * Transmits the given byte.
|
---|
785 | *
|
---|
786 | * @returns VBox status code.
|
---|
787 | * @param pThis The serial port instance.
|
---|
788 | * @param bVal Byte to transmit.
|
---|
789 | */
|
---|
790 | static int uartXmit(PUARTCORE pThis, uint8_t bVal)
|
---|
791 | {
|
---|
792 | int rc = VINF_SUCCESS;
|
---|
793 |
|
---|
794 | if (pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
|
---|
795 | {
|
---|
796 | #ifndef IN_RING3
|
---|
797 | if (!uartFifoUsedGet(&pThis->FifoXmit))
|
---|
798 | rc = VINF_IOM_R3_IOPORT_WRITE;
|
---|
799 | else
|
---|
800 | {
|
---|
801 | uartFifoPut(&pThis->FifoXmit, true /*fOvrWr*/, bVal);
|
---|
802 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_THRE | UART_REG_LSR_TEMT);
|
---|
803 | }
|
---|
804 | #else
|
---|
805 | uartFifoPut(&pThis->FifoXmit, true /*fOvrWr*/, bVal);
|
---|
806 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_THRE | UART_REG_LSR_TEMT);
|
---|
807 | pThis->fThreEmptyPending = false;
|
---|
808 | uartIrqUpdate(pThis);
|
---|
809 | if (uartFifoUsedGet(&pThis->FifoXmit) == 1)
|
---|
810 | {
|
---|
811 | if ( pThis->pDrvSerial
|
---|
812 | && !(pThis->uRegMcr & UART_REG_MCR_LOOP))
|
---|
813 | {
|
---|
814 | int rc2 = pThis->pDrvSerial->pfnDataAvailWrNotify(pThis->pDrvSerial);
|
---|
815 | if (RT_FAILURE(rc2))
|
---|
816 | LogRelMax(10, ("Serial#%d: Failed to send data with %Rrc\n", pThis->pDevInsR3->iInstance, rc2));
|
---|
817 | }
|
---|
818 | else
|
---|
819 | TMTimerSetRelative(pThis->CTX_SUFF(pTimerTxUnconnected), pThis->cSymbolXferTicks, NULL);
|
---|
820 | }
|
---|
821 | #endif
|
---|
822 | }
|
---|
823 | else
|
---|
824 | {
|
---|
825 | /* Notify the lower driver about available data only if the register was empty before. */
|
---|
826 | if (pThis->uRegLsr & UART_REG_LSR_THRE)
|
---|
827 | {
|
---|
828 | #ifndef IN_RING3
|
---|
829 | rc = VINF_IOM_R3_IOPORT_WRITE;
|
---|
830 | #else
|
---|
831 | pThis->uRegThr = bVal;
|
---|
832 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_THRE | UART_REG_LSR_TEMT);
|
---|
833 | pThis->fThreEmptyPending = false;
|
---|
834 | uartIrqUpdate(pThis);
|
---|
835 | if ( pThis->pDrvSerial
|
---|
836 | && !(pThis->uRegMcr & UART_REG_MCR_LOOP))
|
---|
837 | {
|
---|
838 | int rc2 = pThis->pDrvSerial->pfnDataAvailWrNotify(pThis->pDrvSerial);
|
---|
839 | if (RT_FAILURE(rc2))
|
---|
840 | LogRelMax(10, ("Serial#%d: Failed to send data with %Rrc\n", pThis->pDevInsR3->iInstance, rc2));
|
---|
841 | }
|
---|
842 | else
|
---|
843 | TMTimerSetRelative(pThis->CTX_SUFF(pTimerTxUnconnected), pThis->cSymbolXferTicks, NULL);
|
---|
844 | #endif
|
---|
845 | }
|
---|
846 | else
|
---|
847 | pThis->uRegThr = bVal;
|
---|
848 | }
|
---|
849 |
|
---|
850 | return rc;
|
---|
851 | }
|
---|
852 |
|
---|
853 |
|
---|
854 | /**
|
---|
855 | * Write handler for the THR/DLL register (depending on the DLAB bit in LCR).
|
---|
856 | *
|
---|
857 | * @returns VBox status code.
|
---|
858 | * @param pThis The serial port instance.
|
---|
859 | * @param uVal The value to write.
|
---|
860 | */
|
---|
861 | DECLINLINE(int) uartRegThrDllWrite(PUARTCORE pThis, uint8_t uVal)
|
---|
862 | {
|
---|
863 | int rc = VINF_SUCCESS;
|
---|
864 |
|
---|
865 | /* A set DLAB causes a write to the lower 8bits of the divisor latch. */
|
---|
866 | if (pThis->uRegLcr & UART_REG_LCR_DLAB)
|
---|
867 | {
|
---|
868 | if (uVal != (pThis->uRegDivisor & 0xff))
|
---|
869 | {
|
---|
870 | #ifndef IN_RING3
|
---|
871 | rc = VINF_IOM_R3_IOPORT_WRITE;
|
---|
872 | #else
|
---|
873 | pThis->uRegDivisor = (pThis->uRegDivisor & 0xff00) | uVal;
|
---|
874 | uartR3ParamsUpdate(pThis);
|
---|
875 | #endif
|
---|
876 | }
|
---|
877 | }
|
---|
878 | else
|
---|
879 | rc = uartXmit(pThis, uVal);
|
---|
880 |
|
---|
881 | return rc;
|
---|
882 | }
|
---|
883 |
|
---|
884 |
|
---|
885 | /**
|
---|
886 | * Write handler for the IER/DLM register (depending on the DLAB bit in LCR).
|
---|
887 | *
|
---|
888 | * @returns VBox status code.
|
---|
889 | * @param pThis The serial port instance.
|
---|
890 | * @param uVal The value to write.
|
---|
891 | */
|
---|
892 | DECLINLINE(int) uartRegIerDlmWrite(PUARTCORE pThis, uint8_t uVal)
|
---|
893 | {
|
---|
894 | int rc = VINF_SUCCESS;
|
---|
895 |
|
---|
896 | /* A set DLAB causes a write to the higher 8bits of the divisor latch. */
|
---|
897 | if (pThis->uRegLcr & UART_REG_LCR_DLAB)
|
---|
898 | {
|
---|
899 | if (uVal != (pThis->uRegDivisor & 0xff00) >> 8)
|
---|
900 | {
|
---|
901 | #ifndef IN_RING3
|
---|
902 | rc = VINF_IOM_R3_IOPORT_WRITE;
|
---|
903 | #else
|
---|
904 | pThis->uRegDivisor = (pThis->uRegDivisor & 0xff) | (uVal << 8);
|
---|
905 | uartR3ParamsUpdate(pThis);
|
---|
906 | #endif
|
---|
907 | }
|
---|
908 | }
|
---|
909 | else
|
---|
910 | {
|
---|
911 | if (pThis->enmType < UARTTYPE_16750)
|
---|
912 | pThis->uRegIer = uVal & UART_REG_IER_MASK_WR;
|
---|
913 | else
|
---|
914 | pThis->uRegIer = uVal & UART_REG_IER_MASK_WR_16750;
|
---|
915 |
|
---|
916 | if (pThis->uRegLsr & UART_REG_LSR_THRE)
|
---|
917 | pThis->fThreEmptyPending = true;
|
---|
918 |
|
---|
919 | uartIrqUpdate(pThis);
|
---|
920 | }
|
---|
921 |
|
---|
922 | return rc;
|
---|
923 | }
|
---|
924 |
|
---|
925 |
|
---|
926 | /**
|
---|
927 | * Write handler for the FCR register.
|
---|
928 | *
|
---|
929 | * @returns VBox status code.
|
---|
930 | * @param pThis The serial port instance.
|
---|
931 | * @param uVal The value to write.
|
---|
932 | */
|
---|
933 | DECLINLINE(int) uartRegFcrWrite(PUARTCORE pThis, uint8_t uVal)
|
---|
934 | {
|
---|
935 | #ifndef IN_RING3
|
---|
936 | RT_NOREF(pThis, uVal);
|
---|
937 | return VINF_IOM_R3_IOPORT_WRITE;
|
---|
938 | #else
|
---|
939 | int rc = VINF_SUCCESS;
|
---|
940 | if ( pThis->enmType >= UARTTYPE_16550A
|
---|
941 | && uVal != pThis->uRegFcr)
|
---|
942 | {
|
---|
943 | /* A change in the FIFO enable bit clears both FIFOs automatically. */
|
---|
944 | if ((uVal ^ pThis->uRegFcr) & UART_REG_FCR_FIFO_EN)
|
---|
945 | {
|
---|
946 | uartFifoClear(&pThis->FifoXmit);
|
---|
947 | uartFifoClear(&pThis->FifoRecv);
|
---|
948 |
|
---|
949 | /*
|
---|
950 | * If the FIFO is about to be enabled and the DR bit is ready we have an unacknowledged
|
---|
951 | * byte in the RBR register which will be lost so we have to adjust the available bytes.
|
---|
952 | */
|
---|
953 | if ( ASMAtomicReadU32(&pThis->cbAvailRdr) > 0
|
---|
954 | && (uVal & UART_REG_FCR_FIFO_EN))
|
---|
955 | ASMAtomicDecU32(&pThis->cbAvailRdr);
|
---|
956 |
|
---|
957 | /* Clear the DR bit too. */
|
---|
958 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
959 | }
|
---|
960 |
|
---|
961 | if (rc == VINF_SUCCESS)
|
---|
962 | {
|
---|
963 | if (uVal & UART_REG_FCR_RCV_FIFO_RST)
|
---|
964 | {
|
---|
965 | TMTimerStop(pThis->CTX_SUFF(pTimerRcvFifoTimeout));
|
---|
966 | pThis->fIrqCtiPending = false;
|
---|
967 | uartFifoClear(&pThis->FifoRecv);
|
---|
968 | }
|
---|
969 | if (uVal & UART_REG_FCR_XMIT_FIFO_RST)
|
---|
970 | uartFifoClear(&pThis->FifoXmit);
|
---|
971 |
|
---|
972 | /*
|
---|
973 | * The 64byte FIFO enable bit is only changeable for 16750
|
---|
974 | * and if the DLAB bit in LCR is set.
|
---|
975 | */
|
---|
976 | if ( pThis->enmType < UARTTYPE_16750
|
---|
977 | || !(pThis->uRegLcr & UART_REG_LCR_DLAB))
|
---|
978 | uVal &= ~UART_REG_FCR_64BYTE_FIFO_EN;
|
---|
979 | else /* Use previous value. */
|
---|
980 | uVal |= pThis->uRegFcr & UART_REG_FCR_64BYTE_FIFO_EN;
|
---|
981 |
|
---|
982 | if (uVal & UART_REG_FCR_64BYTE_FIFO_EN)
|
---|
983 | {
|
---|
984 | pThis->FifoRecv.cbMax = 64;
|
---|
985 | pThis->FifoXmit.cbMax = 64;
|
---|
986 | }
|
---|
987 | else
|
---|
988 | {
|
---|
989 | pThis->FifoRecv.cbMax = 16;
|
---|
990 | pThis->FifoXmit.cbMax = 16;
|
---|
991 | }
|
---|
992 |
|
---|
993 | if (uVal & UART_REG_FCR_FIFO_EN)
|
---|
994 | {
|
---|
995 | uint8_t idxItl = UART_REG_FCR_RCV_LVL_IRQ_GET(uVal);
|
---|
996 | if (uVal & UART_REG_FCR_64BYTE_FIFO_EN)
|
---|
997 | pThis->FifoRecv.cbItl = s_aFifoItl[idxItl].cbItl64;
|
---|
998 | else
|
---|
999 | pThis->FifoRecv.cbItl = s_aFifoItl[idxItl].cbItl16;
|
---|
1000 | }
|
---|
1001 |
|
---|
1002 | /* The FIFO reset bits are self clearing. */
|
---|
1003 | pThis->uRegFcr = uVal & UART_REG_FCR_MASK_STICKY;
|
---|
1004 | uartIrqUpdate(pThis);
|
---|
1005 | }
|
---|
1006 |
|
---|
1007 | /* Fill in the next data. */
|
---|
1008 | if (ASMAtomicReadU32(&pThis->cbAvailRdr))
|
---|
1009 | uartR3DataFetch(pThis);
|
---|
1010 | }
|
---|
1011 |
|
---|
1012 | return rc;
|
---|
1013 | #endif
|
---|
1014 | }
|
---|
1015 |
|
---|
1016 |
|
---|
1017 | /**
|
---|
1018 | * Write handler for the LCR register.
|
---|
1019 | *
|
---|
1020 | * @returns VBox status code.
|
---|
1021 | * @param pThis The serial port instance.
|
---|
1022 | * @param uVal The value to write.
|
---|
1023 | */
|
---|
1024 | DECLINLINE(int) uartRegLcrWrite(PUARTCORE pThis, uint8_t uVal)
|
---|
1025 | {
|
---|
1026 | int rc = VINF_SUCCESS;
|
---|
1027 |
|
---|
1028 | /* Any change except the DLAB bit causes a switch to R3. */
|
---|
1029 | if ((pThis->uRegLcr & ~UART_REG_LCR_DLAB) != (uVal & ~UART_REG_LCR_DLAB))
|
---|
1030 | {
|
---|
1031 | #ifndef IN_RING3
|
---|
1032 | rc = VINF_IOM_R3_IOPORT_WRITE;
|
---|
1033 | #else
|
---|
1034 | /* Check whether the BREAK bit changed before updating the LCR value. */
|
---|
1035 | bool fBrkEn = RT_BOOL(uVal & UART_REG_LCR_BRK_SET);
|
---|
1036 | bool fBrkChg = fBrkEn != RT_BOOL(pThis->uRegLcr & UART_REG_LCR_BRK_SET);
|
---|
1037 | pThis->uRegLcr = uVal;
|
---|
1038 | uartR3ParamsUpdate(pThis);
|
---|
1039 |
|
---|
1040 | if ( fBrkChg
|
---|
1041 | && pThis->pDrvSerial)
|
---|
1042 | pThis->pDrvSerial->pfnChgBrk(pThis->pDrvSerial, fBrkEn);
|
---|
1043 | #endif
|
---|
1044 | }
|
---|
1045 | else
|
---|
1046 | pThis->uRegLcr = uVal;
|
---|
1047 |
|
---|
1048 | return rc;
|
---|
1049 | }
|
---|
1050 |
|
---|
1051 |
|
---|
1052 | /**
|
---|
1053 | * Write handler for the MCR register.
|
---|
1054 | *
|
---|
1055 | * @returns VBox status code.
|
---|
1056 | * @param pThis The serial port instance.
|
---|
1057 | * @param uVal The value to write.
|
---|
1058 | */
|
---|
1059 | DECLINLINE(int) uartRegMcrWrite(PUARTCORE pThis, uint8_t uVal)
|
---|
1060 | {
|
---|
1061 | int rc = VINF_SUCCESS;
|
---|
1062 |
|
---|
1063 | if (pThis->enmType < UARTTYPE_16750)
|
---|
1064 | uVal &= UART_REG_MCR_MASK_WR;
|
---|
1065 | else
|
---|
1066 | uVal &= UART_REG_MCR_MASK_WR_15750;
|
---|
1067 | if (pThis->uRegMcr != uVal)
|
---|
1068 | {
|
---|
1069 | #ifndef IN_RING3
|
---|
1070 | rc = VINF_IOM_R3_IOPORT_WRITE;
|
---|
1071 | #else
|
---|
1072 | /*
|
---|
1073 | * When loopback mode is activated the RTS, DTR, OUT1 and OUT2 lines are
|
---|
1074 | * disconnected and looped back to MSR.
|
---|
1075 | */
|
---|
1076 | if ( (uVal & UART_REG_MCR_LOOP)
|
---|
1077 | && !(pThis->uRegMcr & UART_REG_MCR_LOOP)
|
---|
1078 | && pThis->pDrvSerial)
|
---|
1079 | pThis->pDrvSerial->pfnChgModemLines(pThis->pDrvSerial, false /*fRts*/, false /*fDtr*/);
|
---|
1080 |
|
---|
1081 | pThis->uRegMcr = uVal;
|
---|
1082 | if (uVal & UART_REG_MCR_LOOP)
|
---|
1083 | {
|
---|
1084 | uint8_t uRegMsrSts = 0;
|
---|
1085 |
|
---|
1086 | if (uVal & UART_REG_MCR_RTS)
|
---|
1087 | uRegMsrSts |= UART_REG_MSR_CTS;
|
---|
1088 | if (uVal & UART_REG_MCR_DTR)
|
---|
1089 | uRegMsrSts |= UART_REG_MSR_DSR;
|
---|
1090 | if (uVal & UART_REG_MCR_OUT1)
|
---|
1091 | uRegMsrSts |= UART_REG_MSR_RI;
|
---|
1092 | if (uVal & UART_REG_MCR_OUT2)
|
---|
1093 | uRegMsrSts |= UART_REG_MSR_DCD;
|
---|
1094 | uartR3MsrUpdate(pThis, uRegMsrSts);
|
---|
1095 | }
|
---|
1096 | else if (pThis->pDrvSerial)
|
---|
1097 | pThis->pDrvSerial->pfnChgModemLines(pThis->pDrvSerial,
|
---|
1098 | RT_BOOL(uVal & UART_REG_MCR_RTS),
|
---|
1099 | RT_BOOL(uVal & UART_REG_MCR_DTR));
|
---|
1100 | #endif
|
---|
1101 | }
|
---|
1102 |
|
---|
1103 | return rc;
|
---|
1104 | }
|
---|
1105 |
|
---|
1106 |
|
---|
1107 | /**
|
---|
1108 | * Read handler for the RBR/DLL register (depending on the DLAB bit in LCR).
|
---|
1109 | *
|
---|
1110 | * @returns VBox status code.
|
---|
1111 | * @param pThis The serial port instance.
|
---|
1112 | * @param puVal Where to store the read value on success.
|
---|
1113 | */
|
---|
1114 | DECLINLINE(int) uartRegRbrDllRead(PUARTCORE pThis, uint32_t *puVal)
|
---|
1115 | {
|
---|
1116 | int rc = VINF_SUCCESS;
|
---|
1117 |
|
---|
1118 | /* A set DLAB causes a read from the lower 8bits of the divisor latch. */
|
---|
1119 | if (pThis->uRegLcr & UART_REG_LCR_DLAB)
|
---|
1120 | *puVal = pThis->uRegDivisor & 0xff;
|
---|
1121 | else
|
---|
1122 | {
|
---|
1123 | if (pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
|
---|
1124 | {
|
---|
1125 | /*
|
---|
1126 | * Only go back to R3 if there is new data available for the FIFO
|
---|
1127 | * and we would clear the interrupt to fill it up again.
|
---|
1128 | */
|
---|
1129 | if ( pThis->FifoRecv.cbUsed <= pThis->FifoRecv.cbItl
|
---|
1130 | && ASMAtomicReadU32(&pThis->cbAvailRdr) > 0)
|
---|
1131 | {
|
---|
1132 | #ifndef IN_RING3
|
---|
1133 | rc = VINF_IOM_R3_IOPORT_READ;
|
---|
1134 | #else
|
---|
1135 | uartR3RecvFifoFill(pThis);
|
---|
1136 | #endif
|
---|
1137 | }
|
---|
1138 |
|
---|
1139 | if (rc == VINF_SUCCESS)
|
---|
1140 | {
|
---|
1141 | *puVal = uartFifoGet(&pThis->FifoRecv);
|
---|
1142 | pThis->fIrqCtiPending = false;
|
---|
1143 | if (!pThis->FifoRecv.cbUsed)
|
---|
1144 | {
|
---|
1145 | TMTimerStop(pThis->CTX_SUFF(pTimerRcvFifoTimeout));
|
---|
1146 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
1147 | }
|
---|
1148 | else if (pThis->FifoRecv.cbUsed < pThis->FifoRecv.cbItl)
|
---|
1149 | TMTimerSetRelative(pThis->CTX_SUFF(pTimerRcvFifoTimeout), pThis->cSymbolXferTicks * 4, NULL);
|
---|
1150 | uartIrqUpdate(pThis);
|
---|
1151 | }
|
---|
1152 | }
|
---|
1153 | else
|
---|
1154 | {
|
---|
1155 | *puVal = pThis->uRegRbr;
|
---|
1156 |
|
---|
1157 | if (pThis->uRegLsr & UART_REG_LSR_DR)
|
---|
1158 | {
|
---|
1159 | Assert(pThis->cbAvailRdr);
|
---|
1160 | uint32_t cbAvail = ASMAtomicDecU32(&pThis->cbAvailRdr);
|
---|
1161 | if (!cbAvail)
|
---|
1162 | {
|
---|
1163 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
1164 | uartIrqUpdate(pThis);
|
---|
1165 | }
|
---|
1166 | else
|
---|
1167 | {
|
---|
1168 | #ifndef IN_RING3
|
---|
1169 | /* Restore state and go back to R3. */
|
---|
1170 | ASMAtomicIncU32(&pThis->cbAvailRdr);
|
---|
1171 | rc = VINF_IOM_R3_IOPORT_READ;
|
---|
1172 | #else
|
---|
1173 | /* Fetch new data and keep the DR bit set. */
|
---|
1174 | uartR3DataFetch(pThis);
|
---|
1175 | #endif
|
---|
1176 | }
|
---|
1177 | }
|
---|
1178 | }
|
---|
1179 | }
|
---|
1180 |
|
---|
1181 | return rc;
|
---|
1182 | }
|
---|
1183 |
|
---|
1184 |
|
---|
1185 | /**
|
---|
1186 | * Read handler for the IER/DLM register (depending on the DLAB bit in LCR).
|
---|
1187 | *
|
---|
1188 | * @returns VBox status code.
|
---|
1189 | * @param pThis The serial port instance.
|
---|
1190 | * @param puVal Where to store the read value on success.
|
---|
1191 | */
|
---|
1192 | DECLINLINE(int) uartRegIerDlmRead(PUARTCORE pThis, uint32_t *puVal)
|
---|
1193 | {
|
---|
1194 | int rc = VINF_SUCCESS;
|
---|
1195 |
|
---|
1196 | /* A set DLAB causes a read from the upper 8bits of the divisor latch. */
|
---|
1197 | if (pThis->uRegLcr & UART_REG_LCR_DLAB)
|
---|
1198 | *puVal = (pThis->uRegDivisor & 0xff00) >> 8;
|
---|
1199 | else
|
---|
1200 | *puVal = pThis->uRegIer;
|
---|
1201 |
|
---|
1202 | return rc;
|
---|
1203 | }
|
---|
1204 |
|
---|
1205 |
|
---|
1206 | /**
|
---|
1207 | * Read handler for the IIR register.
|
---|
1208 | *
|
---|
1209 | * @returns VBox status code.
|
---|
1210 | * @param pThis The serial port instance.
|
---|
1211 | * @param puVal Where to store the read value on success.
|
---|
1212 | */
|
---|
1213 | DECLINLINE(int) uartRegIirRead(PUARTCORE pThis, uint32_t *puVal)
|
---|
1214 | {
|
---|
1215 | *puVal = pThis->uRegIir;
|
---|
1216 | /* Reset the THRE empty interrupt id when this gets returned to the guest (see table 3 UART Reset configuration). */
|
---|
1217 | if (UART_REG_IIR_ID_GET(pThis->uRegIir) == UART_REG_IIR_ID_THRE)
|
---|
1218 | {
|
---|
1219 | pThis->fThreEmptyPending = false;
|
---|
1220 | uartIrqUpdate(pThis);
|
---|
1221 | }
|
---|
1222 | return VINF_SUCCESS;
|
---|
1223 | }
|
---|
1224 |
|
---|
1225 |
|
---|
1226 | /**
|
---|
1227 | * Read handler for the LSR register.
|
---|
1228 | *
|
---|
1229 | * @returns VBox status code.
|
---|
1230 | * @param pThis The serial port instance.
|
---|
1231 | * @param puVal Where to store the read value on success.
|
---|
1232 | */
|
---|
1233 | DECLINLINE(int) uartRegLsrRead(PUARTCORE pThis, uint32_t *puVal)
|
---|
1234 | {
|
---|
1235 | int rc = VINF_SUCCESS;
|
---|
1236 |
|
---|
1237 | /* Yield if configured and there is no data available. */
|
---|
1238 | if ( !(pThis->uRegLsr & UART_REG_LSR_DR)
|
---|
1239 | && (pThis->fFlags & UART_CORE_YIELD_ON_LSR_READ))
|
---|
1240 | {
|
---|
1241 | #ifndef IN_RING3
|
---|
1242 | return VINF_IOM_R3_IOPORT_READ;
|
---|
1243 | #else
|
---|
1244 | RTThreadYield();
|
---|
1245 | #endif
|
---|
1246 | }
|
---|
1247 |
|
---|
1248 | *puVal = pThis->uRegLsr;
|
---|
1249 | /*
|
---|
1250 | * Reading this register clears the Overrun (OE), Parity (PE) and Framing (FE) error
|
---|
1251 | * as well as the Break Interrupt (BI).
|
---|
1252 | */
|
---|
1253 | UART_REG_CLR(pThis->uRegLsr, UART_REG_LSR_BITS_IIR_RCL);
|
---|
1254 | uartIrqUpdate(pThis);
|
---|
1255 |
|
---|
1256 | return rc;
|
---|
1257 | }
|
---|
1258 |
|
---|
1259 |
|
---|
1260 | /**
|
---|
1261 | * Read handler for the MSR register.
|
---|
1262 | *
|
---|
1263 | * @returns VBox status code.
|
---|
1264 | * @param pThis The serial port instance.
|
---|
1265 | * @param puVal Where to store the read value on success.
|
---|
1266 | */
|
---|
1267 | DECLINLINE(int) uartRegMsrRead(PUARTCORE pThis, uint32_t *puVal)
|
---|
1268 | {
|
---|
1269 | *puVal = pThis->uRegMsr;
|
---|
1270 |
|
---|
1271 | /* Clear any of the delta bits. */
|
---|
1272 | UART_REG_CLR(pThis->uRegMsr, UART_REG_MSR_BITS_IIR_MS);
|
---|
1273 | uartIrqUpdate(pThis);
|
---|
1274 | return VINF_SUCCESS;
|
---|
1275 | }
|
---|
1276 |
|
---|
1277 |
|
---|
1278 | #ifdef LOG_ENABLED
|
---|
1279 | /**
|
---|
1280 | * Converts the register index into a sensible memnonic.
|
---|
1281 | *
|
---|
1282 | * @returns Register memnonic.
|
---|
1283 | * @param pThis The serial port instance.
|
---|
1284 | * @param idxReg Register index.
|
---|
1285 | * @param fWrite Flag whether the register gets written.
|
---|
1286 | */
|
---|
1287 | DECLINLINE(const char *) uartRegIdx2Str(PUARTCORE pThis, uint8_t idxReg, bool fWrite)
|
---|
1288 | {
|
---|
1289 | const char *psz = "INV";
|
---|
1290 |
|
---|
1291 | switch (idxReg)
|
---|
1292 | {
|
---|
1293 | /*case UART_REG_THR_DLL_INDEX:*/
|
---|
1294 | case UART_REG_RBR_DLL_INDEX:
|
---|
1295 | if (pThis->uRegLcr & UART_REG_LCR_DLAB)
|
---|
1296 | psz = "DLL";
|
---|
1297 | else if (fWrite)
|
---|
1298 | psz = "THR";
|
---|
1299 | else
|
---|
1300 | psz = "RBR";
|
---|
1301 | break;
|
---|
1302 | case UART_REG_IER_DLM_INDEX:
|
---|
1303 | if (pThis->uRegLcr & UART_REG_LCR_DLAB)
|
---|
1304 | psz = "DLM";
|
---|
1305 | else
|
---|
1306 | psz = "IER";
|
---|
1307 | break;
|
---|
1308 | /*case UART_REG_IIR_INDEX:*/
|
---|
1309 | case UART_REG_FCR_INDEX:
|
---|
1310 | if (fWrite)
|
---|
1311 | psz = "FCR";
|
---|
1312 | else
|
---|
1313 | psz = "IIR";
|
---|
1314 | break;
|
---|
1315 | case UART_REG_LCR_INDEX:
|
---|
1316 | psz = "LCR";
|
---|
1317 | break;
|
---|
1318 | case UART_REG_MCR_INDEX:
|
---|
1319 | psz = "MCR";
|
---|
1320 | break;
|
---|
1321 | case UART_REG_LSR_INDEX:
|
---|
1322 | psz = "LSR";
|
---|
1323 | break;
|
---|
1324 | case UART_REG_MSR_INDEX:
|
---|
1325 | psz = "MSR";
|
---|
1326 | break;
|
---|
1327 | case UART_REG_SCR_INDEX:
|
---|
1328 | psz = "SCR";
|
---|
1329 | break;
|
---|
1330 | }
|
---|
1331 |
|
---|
1332 | return psz;
|
---|
1333 | }
|
---|
1334 | #endif
|
---|
1335 |
|
---|
1336 |
|
---|
1337 | DECLHIDDEN(int) uartRegWrite(PUARTCORE pThis, uint32_t uReg, uint32_t u32, size_t cb)
|
---|
1338 | {
|
---|
1339 | AssertMsgReturn(cb == 1, ("uReg=%#x cb=%d u32=%#x\n", uReg, cb, u32), VINF_SUCCESS);
|
---|
1340 |
|
---|
1341 | int rc = PDMCritSectEnter(&pThis->CritSect, VINF_IOM_R3_IOPORT_WRITE);
|
---|
1342 | if (rc != VINF_SUCCESS)
|
---|
1343 | return rc;
|
---|
1344 |
|
---|
1345 | uint8_t idxReg = uReg & 0x7;
|
---|
1346 | LogFlowFunc(("pThis=%#p uReg=%u{%s} u32=%#x cb=%u\n",
|
---|
1347 | pThis, uReg, uartRegIdx2Str(pThis, idxReg, true /*fWrite*/), u32, cb));
|
---|
1348 |
|
---|
1349 | uint8_t uVal = (uint8_t)u32;
|
---|
1350 | switch (idxReg)
|
---|
1351 | {
|
---|
1352 | case UART_REG_THR_DLL_INDEX:
|
---|
1353 | rc = uartRegThrDllWrite(pThis, uVal);
|
---|
1354 | break;
|
---|
1355 | case UART_REG_IER_DLM_INDEX:
|
---|
1356 | rc = uartRegIerDlmWrite(pThis, uVal);
|
---|
1357 | break;
|
---|
1358 | case UART_REG_FCR_INDEX:
|
---|
1359 | rc = uartRegFcrWrite(pThis, uVal);
|
---|
1360 | break;
|
---|
1361 | case UART_REG_LCR_INDEX:
|
---|
1362 | rc = uartRegLcrWrite(pThis, uVal);
|
---|
1363 | break;
|
---|
1364 | case UART_REG_MCR_INDEX:
|
---|
1365 | rc = uartRegMcrWrite(pThis, uVal);
|
---|
1366 | break;
|
---|
1367 | case UART_REG_SCR_INDEX:
|
---|
1368 | pThis->uRegScr = u32;
|
---|
1369 | break;
|
---|
1370 | default:
|
---|
1371 | break;
|
---|
1372 | }
|
---|
1373 |
|
---|
1374 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1375 | LogFlowFunc(("-> %Rrc\n", rc));
|
---|
1376 | return rc;
|
---|
1377 | }
|
---|
1378 |
|
---|
1379 |
|
---|
1380 | DECLHIDDEN(int) uartRegRead(PUARTCORE pThis, uint32_t uReg, uint32_t *pu32, size_t cb)
|
---|
1381 | {
|
---|
1382 | if (cb != 1)
|
---|
1383 | return VERR_IOM_IOPORT_UNUSED;
|
---|
1384 |
|
---|
1385 | int rc = PDMCritSectEnter(&pThis->CritSect, VINF_IOM_R3_IOPORT_READ);
|
---|
1386 | if (rc != VINF_SUCCESS)
|
---|
1387 | return rc;
|
---|
1388 |
|
---|
1389 | uint8_t idxReg = uReg & 0x7;
|
---|
1390 | switch (idxReg)
|
---|
1391 | {
|
---|
1392 | case UART_REG_RBR_DLL_INDEX:
|
---|
1393 | rc = uartRegRbrDllRead(pThis, pu32);
|
---|
1394 | break;
|
---|
1395 | case UART_REG_IER_DLM_INDEX:
|
---|
1396 | rc = uartRegIerDlmRead(pThis, pu32);
|
---|
1397 | break;
|
---|
1398 | case UART_REG_IIR_INDEX:
|
---|
1399 | rc = uartRegIirRead(pThis, pu32);
|
---|
1400 | break;
|
---|
1401 | case UART_REG_LCR_INDEX:
|
---|
1402 | *pu32 = pThis->uRegLcr;
|
---|
1403 | break;
|
---|
1404 | case UART_REG_MCR_INDEX:
|
---|
1405 | *pu32 = pThis->uRegMcr;
|
---|
1406 | break;
|
---|
1407 | case UART_REG_LSR_INDEX:
|
---|
1408 | rc = uartRegLsrRead(pThis, pu32);
|
---|
1409 | break;
|
---|
1410 | case UART_REG_MSR_INDEX:
|
---|
1411 | rc = uartRegMsrRead(pThis, pu32);
|
---|
1412 | break;
|
---|
1413 | case UART_REG_SCR_INDEX:
|
---|
1414 | *pu32 = pThis->uRegScr;
|
---|
1415 | break;
|
---|
1416 | default:
|
---|
1417 | rc = VERR_IOM_IOPORT_UNUSED;
|
---|
1418 | }
|
---|
1419 |
|
---|
1420 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1421 | LogFlowFunc(("pThis=%#p uReg=%u{%s} u32=%#x cb=%u -> %Rrc\n",
|
---|
1422 | pThis, uReg, uartRegIdx2Str(pThis, idxReg, false /*fWrite*/), *pu32, cb, rc));
|
---|
1423 | return rc;
|
---|
1424 | }
|
---|
1425 |
|
---|
1426 |
|
---|
1427 | #ifdef IN_RING3
|
---|
1428 |
|
---|
1429 | /* -=-=-=-=-=-=-=-=- Timer callbacks -=-=-=-=-=-=-=-=- */
|
---|
1430 |
|
---|
1431 | /**
|
---|
1432 | * @callback_method_impl{FNTMTIMERDEV, Fifo timer function.}
|
---|
1433 | */
|
---|
1434 | static DECLCALLBACK(void) uartR3RcvFifoTimeoutTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
1435 | {
|
---|
1436 | LogFlowFunc(("pDevIns=%#p pTimer=%#p pvUser=%#p\n", pDevIns, pTimer, pvUser));
|
---|
1437 | RT_NOREF(pDevIns, pTimer);
|
---|
1438 | PUARTCORE pThis = (PUARTCORE)pvUser;
|
---|
1439 | PDMCritSectEnter(&pThis->CritSect, VERR_IGNORED);
|
---|
1440 | if (pThis->FifoRecv.cbUsed < pThis->FifoRecv.cbItl)
|
---|
1441 | {
|
---|
1442 | pThis->fIrqCtiPending = true;
|
---|
1443 | uartIrqUpdate(pThis);
|
---|
1444 | }
|
---|
1445 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1446 | }
|
---|
1447 |
|
---|
1448 | /**
|
---|
1449 | * @callback_method_impl{FNTMTIMERDEV, TX timer function when there is no driver connected for draining the THR/FIFO.}
|
---|
1450 | */
|
---|
1451 | static DECLCALLBACK(void) uartR3TxUnconnectedTimer(PPDMDEVINS pDevIns, PTMTIMER pTimer, void *pvUser)
|
---|
1452 | {
|
---|
1453 | LogFlowFunc(("pDevIns=%#p pTimer=%#p pvUser=%#p\n", pDevIns, pTimer, pvUser));
|
---|
1454 | RT_NOREF(pDevIns, pTimer);
|
---|
1455 | PUARTCORE pThis = (PUARTCORE)pvUser;
|
---|
1456 | PDMCritSectEnter(&pThis->CritSect, VERR_IGNORED);
|
---|
1457 | uint8_t bVal = 0;
|
---|
1458 | size_t cbRead = 0;
|
---|
1459 | uartR3TxQueueCopyFrom(pThis, &bVal, sizeof(bVal), &cbRead);
|
---|
1460 | if (pThis->uRegMcr & UART_REG_MCR_LOOP)
|
---|
1461 | {
|
---|
1462 | /* Loopback mode is active, feed in the data at the receiving end. */
|
---|
1463 | uint32_t cbAvailOld = ASMAtomicAddU32(&pThis->cbAvailRdr, 1);
|
---|
1464 | if (pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
|
---|
1465 | {
|
---|
1466 | PUARTFIFO pFifo = &pThis->FifoRecv;
|
---|
1467 | if (uartFifoFreeGet(pFifo) > 0)
|
---|
1468 | {
|
---|
1469 | pFifo->abBuf[pFifo->offWrite] = bVal;
|
---|
1470 | pFifo->offWrite = (pFifo->offWrite + 1) % pFifo->cbMax;
|
---|
1471 | pFifo->cbUsed++;
|
---|
1472 |
|
---|
1473 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
1474 | if (pFifo->cbUsed < pFifo->cbItl)
|
---|
1475 | {
|
---|
1476 | pThis->fIrqCtiPending = false;
|
---|
1477 | TMTimerSetRelative(pThis->CTX_SUFF(pTimerRcvFifoTimeout), pThis->cSymbolXferTicks * 4, NULL);
|
---|
1478 | }
|
---|
1479 | uartIrqUpdate(pThis);
|
---|
1480 | }
|
---|
1481 |
|
---|
1482 | ASMAtomicSubU32(&pThis->cbAvailRdr, 1);
|
---|
1483 | }
|
---|
1484 | else if (!cbAvailOld)
|
---|
1485 | {
|
---|
1486 | pThis->uRegRbr = bVal;
|
---|
1487 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
1488 | uartIrqUpdate(pThis);
|
---|
1489 | }
|
---|
1490 | }
|
---|
1491 | if (cbRead == 1)
|
---|
1492 | TMTimerSetRelative(pThis->CTX_SUFF(pTimerTxUnconnected), pThis->cSymbolXferTicks, NULL);
|
---|
1493 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1494 | }
|
---|
1495 |
|
---|
1496 |
|
---|
1497 | /* -=-=-=-=-=-=-=-=- PDMISERIALPORT on LUN#0 -=-=-=-=-=-=-=-=- */
|
---|
1498 |
|
---|
1499 |
|
---|
1500 | /**
|
---|
1501 | * @interface_method_impl{PDMISERIALPORT,pfnDataAvailRdrNotify}
|
---|
1502 | */
|
---|
1503 | static DECLCALLBACK(int) uartR3DataAvailRdrNotify(PPDMISERIALPORT pInterface, size_t cbAvail)
|
---|
1504 | {
|
---|
1505 | LogFlowFunc(("pInterface=%#p cbAvail=%zu\n", pInterface, cbAvail));
|
---|
1506 | PUARTCORE pThis = RT_FROM_MEMBER(pInterface, UARTCORE, ISerialPort);
|
---|
1507 |
|
---|
1508 | AssertMsg((uint32_t)cbAvail == cbAvail, ("Too much data available\n"));
|
---|
1509 |
|
---|
1510 | PDMCritSectEnter(&pThis->CritSect, VERR_IGNORED);
|
---|
1511 | uint32_t cbAvailOld = ASMAtomicAddU32(&pThis->cbAvailRdr, (uint32_t)cbAvail);
|
---|
1512 | LogFlow((" cbAvailRdr=%u -> cbAvailRdr=%u\n", cbAvailOld, cbAvail + cbAvailOld));
|
---|
1513 | if (pThis->uRegFcr & UART_REG_FCR_FIFO_EN)
|
---|
1514 | uartR3RecvFifoFill(pThis);
|
---|
1515 | else if (!cbAvailOld)
|
---|
1516 | {
|
---|
1517 | size_t cbRead = 0;
|
---|
1518 | int rc = pThis->pDrvSerial->pfnReadRdr(pThis->pDrvSerial, &pThis->uRegRbr, 1, &cbRead);
|
---|
1519 | AssertMsg(RT_SUCCESS(rc) && cbRead == 1, ("This shouldn't fail and always return one byte!\n")); RT_NOREF(rc);
|
---|
1520 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_DR);
|
---|
1521 | uartIrqUpdate(pThis);
|
---|
1522 | }
|
---|
1523 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1524 |
|
---|
1525 | return VINF_SUCCESS;
|
---|
1526 | }
|
---|
1527 |
|
---|
1528 |
|
---|
1529 | /**
|
---|
1530 | * @interface_method_impl{PDMISERIALPORT,pfnDataSentNotify}
|
---|
1531 | */
|
---|
1532 | static DECLCALLBACK(int) uartR3DataSentNotify(PPDMISERIALPORT pInterface)
|
---|
1533 | {
|
---|
1534 | LogFlowFunc(("pInterface=%#p\n", pInterface));
|
---|
1535 | PUARTCORE pThis = RT_FROM_MEMBER(pInterface, UARTCORE, ISerialPort);
|
---|
1536 |
|
---|
1537 | /* Set the transmitter empty bit because everything was sent. */
|
---|
1538 | PDMCritSectEnter(&pThis->CritSect, VERR_IGNORED);
|
---|
1539 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_TEMT);
|
---|
1540 | uartIrqUpdate(pThis);
|
---|
1541 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1542 | return VINF_SUCCESS;
|
---|
1543 | }
|
---|
1544 |
|
---|
1545 |
|
---|
1546 | /**
|
---|
1547 | * @interface_method_impl{PDMISERIALPORT,pfnReadWr}
|
---|
1548 | */
|
---|
1549 | static DECLCALLBACK(int) uartR3ReadWr(PPDMISERIALPORT pInterface, void *pvBuf, size_t cbRead, size_t *pcbRead)
|
---|
1550 | {
|
---|
1551 | LogFlowFunc(("pInterface=%#p pvBuf=%#p cbRead=%zu pcbRead=%#p\n", pInterface, pvBuf, cbRead, pcbRead));
|
---|
1552 | PUARTCORE pThis = RT_FROM_MEMBER(pInterface, UARTCORE, ISerialPort);
|
---|
1553 |
|
---|
1554 | AssertReturn(cbRead > 0, VERR_INVALID_PARAMETER);
|
---|
1555 |
|
---|
1556 | PDMCritSectEnter(&pThis->CritSect, VERR_IGNORED);
|
---|
1557 | uartR3TxQueueCopyFrom(pThis, pvBuf, cbRead, pcbRead);
|
---|
1558 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1559 |
|
---|
1560 | LogFlowFunc(("-> VINF_SUCCESS{*pcbRead=%zu}\n", *pcbRead));
|
---|
1561 | return VINF_SUCCESS;
|
---|
1562 | }
|
---|
1563 |
|
---|
1564 |
|
---|
1565 | /**
|
---|
1566 | * @interface_method_impl{PDMISERIALPORT,pfnNotifyStsLinesChanged}
|
---|
1567 | */
|
---|
1568 | static DECLCALLBACK(int) uartR3NotifyStsLinesChanged(PPDMISERIALPORT pInterface, uint32_t fNewStatusLines)
|
---|
1569 | {
|
---|
1570 | LogFlowFunc(("pInterface=%#p fNewStatusLines=%#x\n", pInterface, fNewStatusLines));
|
---|
1571 | PUARTCORE pThis = RT_FROM_MEMBER(pInterface, UARTCORE, ISerialPort);
|
---|
1572 |
|
---|
1573 | PDMCritSectEnter(&pThis->CritSect, VERR_IGNORED);
|
---|
1574 | uartR3StsLinesUpdate(pThis, fNewStatusLines);
|
---|
1575 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1576 | return VINF_SUCCESS;
|
---|
1577 | }
|
---|
1578 |
|
---|
1579 |
|
---|
1580 | /**
|
---|
1581 | * @interface_method_impl{PDMISERIALPORT,pfnNotifyBrk}
|
---|
1582 | */
|
---|
1583 | static DECLCALLBACK(int) uartR3NotifyBrk(PPDMISERIALPORT pInterface)
|
---|
1584 | {
|
---|
1585 | LogFlowFunc(("pInterface=%#p\n", pInterface));
|
---|
1586 | PUARTCORE pThis = RT_FROM_MEMBER(pInterface, UARTCORE, ISerialPort);
|
---|
1587 |
|
---|
1588 | PDMCritSectEnter(&pThis->CritSect, VERR_IGNORED);
|
---|
1589 | UART_REG_SET(pThis->uRegLsr, UART_REG_LSR_BI);
|
---|
1590 | uartIrqUpdate(pThis);
|
---|
1591 | PDMCritSectLeave(&pThis->CritSect);
|
---|
1592 | return VINF_SUCCESS;
|
---|
1593 | }
|
---|
1594 |
|
---|
1595 |
|
---|
1596 | /* -=-=-=-=-=-=-=-=- PDMIBASE -=-=-=-=-=-=-=-=- */
|
---|
1597 |
|
---|
1598 | /**
|
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1599 | * @interface_method_impl{PDMIBASE,pfnQueryInterface}
|
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1600 | */
|
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1601 | static DECLCALLBACK(void *) uartR3QueryInterface(PPDMIBASE pInterface, const char *pszIID)
|
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1602 | {
|
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1603 | PUARTCORE pThis = RT_FROM_MEMBER(pInterface, UARTCORE, IBase);
|
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1604 | PDMIBASE_RETURN_INTERFACE(pszIID, PDMIBASE, &pThis->IBase);
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1605 | PDMIBASE_RETURN_INTERFACE(pszIID, PDMISERIALPORT, &pThis->ISerialPort);
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1606 | return NULL;
|
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1607 | }
|
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1608 |
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1609 |
|
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1610 | DECLHIDDEN(int) uartR3SaveExec(PUARTCORE pThis, PSSMHANDLE pSSM)
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1611 | {
|
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1612 | SSMR3PutU16(pSSM, pThis->uRegDivisor);
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1613 | SSMR3PutU8(pSSM, pThis->uRegRbr);
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1614 | SSMR3PutU8(pSSM, pThis->uRegThr);
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1615 | SSMR3PutU8(pSSM, pThis->uRegIer);
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1616 | SSMR3PutU8(pSSM, pThis->uRegIir);
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1617 | SSMR3PutU8(pSSM, pThis->uRegFcr);
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1618 | SSMR3PutU8(pSSM, pThis->uRegLcr);
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1619 | SSMR3PutU8(pSSM, pThis->uRegMcr);
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1620 | SSMR3PutU8(pSSM, pThis->uRegLsr);
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1621 | SSMR3PutU8(pSSM, pThis->uRegMsr);
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1622 | SSMR3PutU8(pSSM, pThis->uRegScr);
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1623 | SSMR3PutBool(pSSM, pThis->fIrqCtiPending);
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1624 | SSMR3PutBool(pSSM, pThis->fThreEmptyPending);
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1625 | SSMR3PutU8(pSSM, pThis->FifoXmit.cbMax);
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1626 | SSMR3PutU8(pSSM, pThis->FifoXmit.cbItl);
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1627 | SSMR3PutU8(pSSM, pThis->FifoRecv.cbMax);
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1628 | SSMR3PutU8(pSSM, pThis->FifoRecv.cbItl);
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1629 |
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1630 | int rc = TMR3TimerSave(pThis->pTimerRcvFifoTimeoutR3, pSSM);
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1631 | if (RT_SUCCESS(rc))
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1632 | rc = TMR3TimerSave(pThis->pTimerTxUnconnectedR3, pSSM);
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1633 |
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1634 | return rc;
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1635 | }
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1636 |
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1637 |
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1638 | DECLHIDDEN(int) uartR3LoadExec(PUARTCORE pThis, PSSMHANDLE pSSM, uint32_t uVersion, uint32_t uPass,
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1639 | uint8_t *pbIrq, RTIOPORT *pPortBase)
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1640 | {
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1641 | RT_NOREF(uPass);
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1642 | int rc;
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1643 |
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1644 | if (uVersion > UART_SAVED_STATE_VERSION_LEGACY_CODE)
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1645 | {
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1646 | SSMR3GetU16(pSSM, &pThis->uRegDivisor);
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1647 | SSMR3GetU8(pSSM, &pThis->uRegRbr);
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1648 | SSMR3GetU8(pSSM, &pThis->uRegThr);
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1649 | SSMR3GetU8(pSSM, &pThis->uRegIer);
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1650 | SSMR3GetU8(pSSM, &pThis->uRegIir);
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1651 | SSMR3GetU8(pSSM, &pThis->uRegFcr);
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1652 | SSMR3GetU8(pSSM, &pThis->uRegLcr);
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1653 | SSMR3GetU8(pSSM, &pThis->uRegMcr);
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1654 | SSMR3GetU8(pSSM, &pThis->uRegLsr);
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1655 | SSMR3GetU8(pSSM, &pThis->uRegMsr);
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1656 | SSMR3GetU8(pSSM, &pThis->uRegScr);
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1657 | SSMR3GetBool(pSSM, &pThis->fIrqCtiPending);
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1658 | SSMR3GetBool(pSSM, &pThis->fThreEmptyPending);
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1659 | SSMR3GetU8(pSSM, &pThis->FifoXmit.cbMax);
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1660 | SSMR3GetU8(pSSM, &pThis->FifoXmit.cbItl);
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1661 | SSMR3GetU8(pSSM, &pThis->FifoRecv.cbMax);
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1662 | SSMR3GetU8(pSSM, &pThis->FifoRecv.cbItl);
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1663 |
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1664 | rc = TMR3TimerLoad(pThis->pTimerRcvFifoTimeoutR3, pSSM);
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1665 | if (uVersion > UART_SAVED_STATE_VERSION_PRE_UNCONNECTED_TX_TIMER)
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1666 | rc = TMR3TimerLoad(pThis->pTimerTxUnconnectedR3, pSSM);
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1667 | }
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1668 | else
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1669 | {
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1670 | AssertPtr(pbIrq);
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1671 | AssertPtr(pPortBase);
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1672 | if (uVersion == UART_SAVED_STATE_VERSION_16450)
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1673 | {
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1674 | pThis->enmType = UARTTYPE_16450;
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1675 | LogRel(("Serial#%d: falling back to 16450 mode from load state\n", pThis->pDevInsR3->iInstance));
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1676 | }
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1677 |
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1678 | SSMR3GetU16(pSSM, &pThis->uRegDivisor);
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1679 | SSMR3GetU8(pSSM, &pThis->uRegRbr);
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1680 | SSMR3GetU8(pSSM, &pThis->uRegIer);
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1681 | SSMR3GetU8(pSSM, &pThis->uRegLcr);
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1682 | SSMR3GetU8(pSSM, &pThis->uRegMcr);
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1683 | SSMR3GetU8(pSSM, &pThis->uRegLsr);
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1684 | SSMR3GetU8(pSSM, &pThis->uRegMsr);
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1685 | SSMR3GetU8(pSSM, &pThis->uRegScr);
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1686 | if (uVersion > UART_SAVED_STATE_VERSION_16450)
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1687 | SSMR3GetU8(pSSM, &pThis->uRegFcr);
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1688 |
|
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1689 | int32_t iTmp = 0;
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1690 | SSMR3GetS32(pSSM, &iTmp);
|
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1691 | pThis->fThreEmptyPending = RT_BOOL(iTmp);
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1692 |
|
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1693 | rc = SSMR3GetS32(pSSM, &iTmp);
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1694 | AssertRCReturn(rc, rc);
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1695 | *pbIrq = (uint8_t)iTmp;
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1696 |
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1697 | SSMR3Skip(pSSM, sizeof(int32_t)); /* was: last_break_enable */
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1698 |
|
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1699 | uint32_t uPortBaseTmp = 0;
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1700 | rc = SSMR3GetU32(pSSM, &uPortBaseTmp);
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1701 | AssertRCReturn(rc, rc);
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1702 | *pPortBase = (RTIOPORT)uPortBaseTmp;
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1703 |
|
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1704 | rc = SSMR3Skip(pSSM, sizeof(bool)); /* was: msr_changed */
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1705 | if ( RT_SUCCESS(rc)
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1706 | && uVersion > UART_SAVED_STATE_VERSION_MISSING_BITS)
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1707 | {
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1708 | SSMR3GetU8(pSSM, &pThis->uRegThr);
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1709 | SSMR3Skip(pSSM, sizeof(uint8_t)); /* The old transmit shift register, not used anymore. */
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1710 | SSMR3GetU8(pSSM, &pThis->uRegIir);
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1711 |
|
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1712 | int32_t iTimeoutPending = 0;
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1713 | SSMR3GetS32(pSSM, &iTimeoutPending);
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1714 | pThis->fIrqCtiPending = RT_BOOL(iTimeoutPending);
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1715 |
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1716 | rc = TMR3TimerLoad(pThis->pTimerRcvFifoTimeoutR3, pSSM);
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1717 | AssertRCReturn(rc, rc);
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1718 |
|
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1719 | bool fWasActiveIgn;
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1720 | rc = TMR3TimerSkip(pSSM, &fWasActiveIgn); /* was: transmit_timerR3 */
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1721 | AssertRCReturn(rc, rc);
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1722 |
|
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1723 | SSMR3GetU8(pSSM, &pThis->FifoRecv.cbItl);
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1724 | rc = SSMR3GetU8(pSSM, &pThis->FifoRecv.cbItl);
|
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1725 | }
|
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1726 | }
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1727 |
|
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1728 | return rc;
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1729 | }
|
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1730 |
|
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1731 |
|
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1732 | DECLHIDDEN(int) uartR3LoadDone(PUARTCORE pThis, PSSMHANDLE pSSM)
|
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1733 | {
|
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1734 | RT_NOREF(pSSM);
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1735 |
|
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1736 | uartR3ParamsUpdate(pThis);
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1737 | uartIrqUpdate(pThis);
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1738 |
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1739 | if (pThis->pDrvSerial)
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1740 | {
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1741 | /* Set the modem lines to reflect the current state. */
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1742 | int rc = pThis->pDrvSerial->pfnChgModemLines(pThis->pDrvSerial,
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1743 | RT_BOOL(pThis->uRegMcr & UART_REG_MCR_RTS),
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1744 | RT_BOOL(pThis->uRegMcr & UART_REG_MCR_DTR));
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1745 | if (RT_FAILURE(rc))
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1746 | LogRel(("Serial#%d: Failed to set modem lines with %Rrc during saved state load\n",
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1747 | pThis->pDevInsR3->iInstance, rc));
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1748 |
|
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1749 | uint32_t fStsLines = 0;
|
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1750 | rc = pThis->pDrvSerial->pfnQueryStsLines(pThis->pDrvSerial, &fStsLines);
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1751 | if (RT_SUCCESS(rc))
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1752 | uartR3StsLinesUpdate(pThis, fStsLines);
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1753 | else
|
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1754 | LogRel(("Serial#%d: Failed to query status line status with %Rrc during reset\n",
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1755 | pThis->pDevInsR3->iInstance, rc));
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1756 | }
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1757 |
|
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1758 | return VINF_SUCCESS;
|
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1759 | }
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1760 |
|
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1761 |
|
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1762 | DECLHIDDEN(void) uartR3Relocate(PUARTCORE pThis, RTGCINTPTR offDelta)
|
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1763 | {
|
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1764 | RT_NOREF(offDelta);
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1765 | pThis->pDevInsRC = PDMDEVINS_2_RCPTR(pThis->pDevInsR3);
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1766 | pThis->pTimerRcvFifoTimeoutRC = TMTimerRCPtr(pThis->pTimerRcvFifoTimeoutR3);
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1767 | pThis->pTimerTxUnconnectedRC = TMTimerRCPtr(pThis->pTimerTxUnconnectedR3);
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1768 | }
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1769 |
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1770 |
|
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1771 | DECLHIDDEN(void) uartR3Reset(PUARTCORE pThis)
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1772 | {
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1773 | pThis->uRegDivisor = 0x0c; /* Default to 9600 Baud. */
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1774 | pThis->uRegRbr = 0;
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1775 | pThis->uRegThr = 0;
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1776 | pThis->uRegIer = 0;
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1777 | pThis->uRegIir = UART_REG_IIR_IP_NO_INT;
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1778 | pThis->uRegFcr = 0;
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1779 | pThis->uRegLcr = 0; /* 5 data bits, no parity, 1 stop bit. */
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1780 | pThis->uRegMcr = 0;
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1781 | pThis->uRegLsr = UART_REG_LSR_THRE | UART_REG_LSR_TEMT;
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1782 | pThis->uRegMsr = 0; /* Updated below. */
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1783 | pThis->uRegScr = 0;
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1784 | pThis->fIrqCtiPending = false;
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1785 | pThis->fThreEmptyPending = true;
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1786 |
|
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1787 | /* Standard FIFO size for 15550A. */
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1788 | pThis->FifoXmit.cbMax = 16;
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1789 | pThis->FifoRecv.cbMax = 16;
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1790 | pThis->FifoRecv.cbItl = 1;
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1791 |
|
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1792 | uartR3XferReset(pThis);
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1793 | }
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1794 |
|
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1795 |
|
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1796 | DECLHIDDEN(int) uartR3Attach(PUARTCORE pThis, unsigned iLUN)
|
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1797 | {
|
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1798 | int rc = PDMDevHlpDriverAttach(pThis->pDevInsR3, iLUN, &pThis->IBase, &pThis->pDrvBase, "Serial Char");
|
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1799 | if (RT_SUCCESS(rc))
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1800 | {
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1801 | pThis->pDrvSerial = PDMIBASE_QUERY_INTERFACE(pThis->pDrvBase, PDMISERIALCONNECTOR);
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1802 | if (!pThis->pDrvSerial)
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1803 | {
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1804 | AssertLogRelMsgFailed(("Configuration error: instance %d has no serial interface!\n", pThis->pDevInsR3->iInstance));
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1805 | return VERR_PDM_MISSING_INTERFACE;
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1806 | }
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1807 | uartR3XferReset(pThis);
|
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1808 | }
|
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1809 | else if (rc == VERR_PDM_NO_ATTACHED_DRIVER)
|
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1810 | {
|
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1811 | pThis->pDrvBase = NULL;
|
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1812 | pThis->pDrvSerial = NULL;
|
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1813 | rc = VINF_SUCCESS;
|
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1814 | uartR3XferReset(pThis);
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1815 | LogRel(("Serial#%d: no unit\n", pThis->pDevInsR3->iInstance));
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1816 | }
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1817 | else /* Don't call VMSetError here as we assume that the driver already set an appropriate error */
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1818 | LogRel(("Serial#%d: Failed to attach to serial driver. rc=%Rrc\n", pThis->pDevInsR3->iInstance, rc));
|
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1819 |
|
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1820 | return rc;
|
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1821 | }
|
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1822 |
|
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1823 |
|
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1824 | DECLHIDDEN(void) uartR3Detach(PUARTCORE pThis)
|
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1825 | {
|
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1826 | /* Zero out important members. */
|
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1827 | pThis->pDrvBase = NULL;
|
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1828 | pThis->pDrvSerial = NULL;
|
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1829 | uartR3XferReset(pThis);
|
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1830 | }
|
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1831 |
|
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1832 |
|
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1833 | DECLHIDDEN(void) uartR3Destruct(PUARTCORE pThis)
|
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1834 | {
|
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1835 | PDMR3CritSectDelete(&pThis->CritSect);
|
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1836 | }
|
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1837 |
|
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1838 |
|
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1839 | DECLHIDDEN(int) uartR3Init(PUARTCORE pThis, PPDMDEVINS pDevInsR3, UARTTYPE enmType, unsigned iLUN, uint32_t fFlags,
|
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1840 | R3PTRTYPE(PFNUARTCOREIRQREQ) pfnUartIrqReqR3, R0PTRTYPE(PFNUARTCOREIRQREQ) pfnUartIrqReqR0,
|
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1841 | RCPTRTYPE(PFNUARTCOREIRQREQ) pfnUartIrqReqRC)
|
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1842 | {
|
---|
1843 | int rc = VINF_SUCCESS;
|
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1844 |
|
---|
1845 | /*
|
---|
1846 | * Initialize the instance data.
|
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1847 | * (Do this early or the destructor might choke on something!)
|
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1848 | */
|
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1849 | pThis->pDevInsR3 = pDevInsR3;
|
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1850 | pThis->pDevInsR0 = PDMDEVINS_2_R0PTR(pDevInsR3);
|
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1851 | pThis->pDevInsRC = PDMDEVINS_2_RCPTR(pDevInsR3);
|
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1852 | pThis->iLUN = iLUN;
|
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1853 | pThis->enmType = enmType;
|
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1854 | pThis->fFlags = fFlags;
|
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1855 | pThis->pfnUartIrqReqR3 = pfnUartIrqReqR3;
|
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1856 | pThis->pfnUartIrqReqR0 = pfnUartIrqReqR0;
|
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1857 | pThis->pfnUartIrqReqRC = pfnUartIrqReqRC;
|
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1858 |
|
---|
1859 | /* IBase */
|
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1860 | pThis->IBase.pfnQueryInterface = uartR3QueryInterface;
|
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1861 |
|
---|
1862 | /* ISerialPort */
|
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1863 | pThis->ISerialPort.pfnDataAvailRdrNotify = uartR3DataAvailRdrNotify;
|
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1864 | pThis->ISerialPort.pfnDataSentNotify = uartR3DataSentNotify;
|
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1865 | pThis->ISerialPort.pfnReadWr = uartR3ReadWr;
|
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1866 | pThis->ISerialPort.pfnNotifyStsLinesChanged = uartR3NotifyStsLinesChanged;
|
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1867 | pThis->ISerialPort.pfnNotifyBrk = uartR3NotifyBrk;
|
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1868 |
|
---|
1869 | rc = PDMDevHlpCritSectInit(pDevInsR3, &pThis->CritSect, RT_SRC_POS, "Uart{%s#%d}#%d",
|
---|
1870 | pDevInsR3->pReg->szName, pDevInsR3->iInstance, iLUN);
|
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1871 | AssertRCReturn(rc, rc);
|
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1872 |
|
---|
1873 | /*
|
---|
1874 | * Attach the char driver and get the interfaces.
|
---|
1875 | */
|
---|
1876 | rc = PDMDevHlpDriverAttach(pDevInsR3, iLUN, &pThis->IBase, &pThis->pDrvBase, "UART");
|
---|
1877 | if (RT_SUCCESS(rc))
|
---|
1878 | {
|
---|
1879 | pThis->pDrvSerial = PDMIBASE_QUERY_INTERFACE(pThis->pDrvBase, PDMISERIALCONNECTOR);
|
---|
1880 | if (!pThis->pDrvSerial)
|
---|
1881 | {
|
---|
1882 | AssertLogRelMsgFailed(("Configuration error: instance %d has no serial interface!\n", iLUN));
|
---|
1883 | return VERR_PDM_MISSING_INTERFACE;
|
---|
1884 | }
|
---|
1885 | }
|
---|
1886 | else if (rc == VERR_PDM_NO_ATTACHED_DRIVER)
|
---|
1887 | {
|
---|
1888 | pThis->pDrvBase = NULL;
|
---|
1889 | pThis->pDrvSerial = NULL;
|
---|
1890 | LogRel(("Serial#%d: no unit\n", iLUN));
|
---|
1891 | }
|
---|
1892 | else
|
---|
1893 | {
|
---|
1894 | AssertLogRelMsgFailed(("Serial#%d: Failed to attach to char driver. rc=%Rrc\n", iLUN, rc));
|
---|
1895 | /* Don't call VMSetError here as we assume that the driver already set an appropriate error */
|
---|
1896 | return rc;
|
---|
1897 | }
|
---|
1898 |
|
---|
1899 | /*
|
---|
1900 | * Create the receive FIFO character timeout indicator timer.
|
---|
1901 | */
|
---|
1902 | rc = PDMDevHlpTMTimerCreate(pDevInsR3, TMCLOCK_VIRTUAL, uartR3RcvFifoTimeoutTimer, pThis,
|
---|
1903 | TMTIMER_FLAGS_NO_CRIT_SECT, "UART Rcv FIFO Timer",
|
---|
1904 | &pThis->pTimerRcvFifoTimeoutR3);
|
---|
1905 | AssertRCReturn(rc, rc);
|
---|
1906 |
|
---|
1907 | rc = TMR3TimerSetCritSect(pThis->pTimerRcvFifoTimeoutR3, &pThis->CritSect);
|
---|
1908 | AssertRCReturn(rc, rc);
|
---|
1909 |
|
---|
1910 | pThis->pTimerRcvFifoTimeoutR0 = TMTimerR0Ptr(pThis->pTimerRcvFifoTimeoutR3);
|
---|
1911 | pThis->pTimerRcvFifoTimeoutRC = TMTimerRCPtr(pThis->pTimerRcvFifoTimeoutR3);
|
---|
1912 |
|
---|
1913 | /*
|
---|
1914 | * Create the transmit timer when no device is connected.
|
---|
1915 | */
|
---|
1916 | rc = PDMDevHlpTMTimerCreate(pDevInsR3, TMCLOCK_VIRTUAL, uartR3TxUnconnectedTimer, pThis,
|
---|
1917 | TMTIMER_FLAGS_NO_CRIT_SECT, "UART TX uncon. Timer",
|
---|
1918 | &pThis->pTimerTxUnconnectedR3);
|
---|
1919 | AssertRCReturn(rc, rc);
|
---|
1920 |
|
---|
1921 | rc = TMR3TimerSetCritSect(pThis->pTimerTxUnconnectedR3, &pThis->CritSect);
|
---|
1922 | AssertRCReturn(rc, rc);
|
---|
1923 |
|
---|
1924 | pThis->pTimerTxUnconnectedR0 = TMTimerR0Ptr(pThis->pTimerTxUnconnectedR3);
|
---|
1925 | pThis->pTimerTxUnconnectedRC = TMTimerRCPtr(pThis->pTimerTxUnconnectedR3);
|
---|
1926 |
|
---|
1927 | uartR3Reset(pThis);
|
---|
1928 | return VINF_SUCCESS;
|
---|
1929 | }
|
---|
1930 |
|
---|
1931 | #endif /* IN_RING3 */
|
---|
1932 |
|
---|
1933 | #endif /* !VBOX_DEVICE_STRUCT_TESTCASE */
|
---|