bcm53xx_reg.h revision 1.3
1 1.1 matt /*- 2 1.1 matt * Copyright (c) 2012 The NetBSD Foundation, Inc. 3 1.1 matt * All rights reserved. 4 1.1 matt * 5 1.1 matt * This code is derived from software contributed to The NetBSD Foundation 6 1.1 matt * by Matt Thomas of 3am Software Foundry. 7 1.1 matt * 8 1.1 matt * Redistribution and use in source and binary forms, with or without 9 1.1 matt * modification, are permitted provided that the following conditions 10 1.1 matt * are met: 11 1.1 matt * 1. Redistributions of source code must retain the above copyright 12 1.1 matt * notice, this list of conditions and the following disclaimer. 13 1.1 matt * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 matt * notice, this list of conditions and the following disclaimer in the 15 1.1 matt * documentation and/or other materials provided with the distribution. 16 1.1 matt * 17 1.1 matt * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 18 1.1 matt * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 19 1.1 matt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 20 1.1 matt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 21 1.1 matt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 22 1.1 matt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 23 1.1 matt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 24 1.1 matt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 25 1.1 matt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 26 1.1 matt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 27 1.1 matt * POSSIBILITY OF SUCH DAMAGE. 28 1.1 matt */ 29 1.1 matt 30 1.1 matt #ifndef _ARM_BROADCOM_BCM53XX_REG_H_ 31 1.1 matt #define _ARM_BROADCOM_BCM53XX_REG_H_ 32 1.1 matt 33 1.1 matt /* 34 1.1 matt * 0x0000_0000..0x07ff_ffff 128MB DDR2/3 DRAM Memory Region (dual map) 35 1.1 matt * 0x0800_0000..0x0fff_ffff 128MB PCIe 0 Address Match Region 36 1.1 matt * 0x1800_0000..0x180f_ffff 1MB Core Register Region 37 1.1 matt * 0x1810_0000..0x181f_ffff 1MB IDM Register Region 38 1.1 matt * 0x1900_0000..0x190f_ffff 1MB ARMcore (CORTEX-A9) Register Region 39 1.1 matt * 0x1c00_0000..0x1dff_ffff 1MB NAND Flash Region 40 1.1 matt * 0x1e00_0000..0x1dff_ffff 1MB Serial Flash Region 41 1.1 matt * 0x4000_0000..0x47ff_ffff 128MB PCIe 1 Address Match Region 42 1.1 matt * 0x4800_0000..0x4fff_ffff 128MB PCIe 2 Address Match Region 43 1.1 matt * 0x8000_0000..0xbfff_ffff 1024MB DDR2/3 DRAM Memory Region 44 1.1 matt * 0xfffd_0000..0xfffe_ffff 128KB Internal Boot ROM Region 45 1.1 matt * 0xffff_0000..0xffff_043f 1088B Internal SKU ROM Region 46 1.1 matt * 0xffff_1000..0xffff_1fff 4KB Enumeration ROM Register Region 47 1.1 matt */ 48 1.3 matt #define BCM53XX_PCIE0_OWIN_PBASE 0x08000000 49 1.3 matt #define BCM53XX_PCIE0_OWIN_SIZE 0x04000000 50 1.3 matt #define BCM53XX_PCIE0_OWIN_MAX 0x08000000 51 1.3 matt 52 1.1 matt #define BCM53XX_IOREG_PBASE 0x18000000 53 1.1 matt #define BCM53XX_IOREG_SIZE 0x00200000 54 1.1 matt 55 1.1 matt #define BCM53XX_ARMCORE_PBASE 0x19000000 56 1.1 matt #define BCM53XX_ARMCORE_SIZE 0x00100000 57 1.1 matt 58 1.1 matt #define BCM53XX_NAND_PBASE 0x1c000000 59 1.1 matt #define BCM53XX_NAND_SIZE 0x01000000 60 1.1 matt 61 1.1 matt #define BCM53XX_SPIFLASH_PBASE 0x1d000000 62 1.1 matt #define BCM53XX_SPIFLASH_SIZE 0x01000000 63 1.1 matt 64 1.3 matt #define BCM53XX_PCIE1_OWIN_PBASE 0x40000000 65 1.3 matt #define BCM53XX_PCIE1_OWIN_SIZE 0x04000000 66 1.3 matt #define BCM53XX_PCIE1_OWIN_MAX 0x08000000 67 1.3 matt 68 1.3 matt #define BCM53XX_PCIE2_OWIN_PBASE 0x48000000 69 1.3 matt #define BCM53XX_PCIE2_OWIN_SIZE 0x04000000 70 1.3 matt #define BCM53XX_PCIE2_OWIN_MAX 0x08000000 71 1.3 matt 72 1.3 matt #define BCM53XX_IO_SIZE (BCM53XX_IOREG_SIZE \ 73 1.3 matt + BCM53XX_ARMCORE_SIZE \ 74 1.3 matt + BCM53XX_PCIE0_OWIN_SIZE \ 75 1.3 matt + BCM53XX_PCIE1_OWIN_SIZE \ 76 1.3 matt + BCM53XX_PCIE2_OWIN_SIZE) 77 1.1 matt 78 1.1 matt #define BCM53XX_REF_CLK (25*1000*1000) 79 1.1 matt 80 1.1 matt #define CCA_UART_FREQ BCM53XX_REF_CLK 81 1.1 matt 82 1.1 matt /* Chip Common A */ 83 1.1 matt #define CCA_MISC_BASE 0x000000 84 1.1 matt #define CCA_MISC_SIZE 0x001000 85 1.1 matt #define CCA_UART0_BASE 0x000300 86 1.1 matt #define CCA_UART1_BASE 0x000400 87 1.1 matt 88 1.1 matt /* Chip Common B */ 89 1.1 matt #define CCB_BASE 0x000000 90 1.1 matt #define CCB_SIZE 0x030000 91 1.1 matt #define PWM_BASE 0x002000 92 1.1 matt #define MII_BASE 0x003000 93 1.1 matt #define RNG_BASE 0x004000 94 1.1 matt #define TIMER0_BASE 0x005000 95 1.1 matt #define TIMER1_BASE 0x006000 96 1.1 matt #define SRAB_BASE 0x007000 97 1.1 matt #define UART2_BASE 0x008000 98 1.1 matt #define SMBUS_BASE 0x009000 99 1.1 matt 100 1.1 matt #define CRU_BASE 0x00b000 101 1.1 matt #define DMU_BASE 0x00c000 102 1.1 matt 103 1.1 matt #define DDR_BASE 0x010000 104 1.1 matt 105 1.1 matt #define PCIE0_BASE 0x012000 106 1.1 matt #define PCIE1_BASE 0x013000 107 1.1 matt #define PCIE2_BASE 0x014000 108 1.1 matt 109 1.1 matt #define SDIO_BASE 0x020000 110 1.1 matt #define EHCI_BASE 0x021000 111 1.1 matt #define OHCI_BASE 0x022000 112 1.1 matt 113 1.1 matt #define GMAC0_BASE 0x024000 114 1.1 matt #define GMAC1_BASE 0x025000 115 1.1 matt #define GMAC2_BASE 0x026000 116 1.1 matt #define GMAC3_BASE 0x027000 117 1.1 matt 118 1.1 matt #define IDM_BASE 0x100000 119 1.1 matt #define IDM_SIZE 0x100000 120 1.1 matt 121 1.1 matt /* Chip Common A */ 122 1.1 matt 123 1.1 matt #ifdef CCA_PRIVATE 124 1.1 matt 125 1.1 matt #define MISC_CHIPID 0x000 126 1.1 matt #define CHIPID_REV __BITS(19,16) 127 1.1 matt #define CHIPID_ID __BITS(15,0) 128 1.1 matt #define ID_BCM53010 0xcf12 // 53010 129 1.1 matt #define ID_BCM53011 0xcf13 // 53011 130 1.1 matt #define ID_BCM53012 0xcf14 // 53012 131 1.1 matt #define ID_BCM53013 0xcf15 // 53013 132 1.1 matt 133 1.1 matt #define MISC_CAPABILITY 0x004 134 1.1 matt #define CAPABILITY_JTAG_PRESENT __BIT(22) 135 1.1 matt #define CAPABILITY_UART_CLKSEL __BITS(4,3) 136 1.1 matt #define UART_CLKSEL_REFCLK 0 137 1.1 matt #define UART_CLKSEL_INTCLK 1 138 1.1 matt /* 2 & 3 are reserved */ 139 1.1 matt #define CAPABILITY_BIG_ENDIAN __BIT(2) 140 1.1 matt #define CAPABILITY_UART_COUNT __BITS(1,0) 141 1.1 matt 142 1.1 matt #define MISC_CORECTL 0x008 143 1.1 matt #define CORECTL_UART_CLK_EN __BIT(3) 144 1.1 matt #define CORECTL_GPIO_ASYNC_INT_EN __BIT(2) 145 1.1 matt #define CORECTL_UART_CLK_OVERRIDE __BIT(0) 146 1.1 matt 147 1.1 matt #define MISC_INTSTATUS 0x020 148 1.1 matt #define INTSTATUS_WDRESET __BIT(31) // WO2C 149 1.1 matt #define INTSTATUS_UARTINT __BIT(6) // RO 150 1.1 matt #define INTSTATUS_GPIOINT __BIT(0) // RO 151 1.1 matt 152 1.1 matt #define MISC_INTMASK 0x024 153 1.1 matt #define INTMASK_UARTINT __BIT(6) // 1 = enabled 154 1.1 matt #define INTMASK_GPIOINT __BIT(0) // 1 = enabled 155 1.1 matt 156 1.1 matt /* Only bits [23:0] are used in the GPIO registers */ 157 1.1 matt #define GPIO_INPUT 0x060 // RO 158 1.1 matt #define GPIO_OUT 0x064 159 1.1 matt #define GPIO_OUTEN 0x068 160 1.1 matt #define GPIO_INTPOLARITY 0x070 // 1 = active low 161 1.1 matt #define GPIO_INTMASK 0x074 // 1 = enabled (level) 162 1.1 matt #define GPIO_EVENT 0x078 // W1C, 1 = edge seen 163 1.1 matt #define GPIO_EVENT_INTMASK 0x07c // 1 = enabled (edge) 164 1.1 matt #define GPIO_EVENT_INTPOLARITY 0x084 // 1 = falling 165 1.1 matt #define GPIO_TIMER_VAL 0x088 166 1.1 matt #define TIMERVAL_ONCOUNT __BITS(31,16) 167 1.1 matt #define TIMERVAL_OFFCOUNT __BITS(15,0) 168 1.1 matt #define GPIO_TIMER_OUTMASK 0x08c 169 1.1 matt #define GPIO_DEBUG_SEL 0x0a8 170 1.1 matt 171 1.1 matt #define MISC_WATCHDOG 0x080 // 0 disables, 1 resets 172 1.1 matt 173 1.1 matt #define MISC_CLKDIV 0x0a4 174 1.1 matt #define CLKDIV_JTAG_MASTER_CLKDIV __BITS(13,9) 175 1.1 matt #define CLKDIV_UART_CLKDIV __BITS(7,1) 176 1.1 matt 177 1.1 matt #define MISC_CAPABILITY2 0x0ac 178 1.1 matt #define CAPABILITY2_GSIO_PRESENT __BIT(1) // SPI exists 179 1.1 matt 180 1.1 matt #define MISC_GSIOCTL 0x0e4 181 1.1 matt #define GSIOCTL_STARTBUSY __BIT(31) 182 1.1 matt #define GSIOCTL_GSIOMODE __BIT(30) // 0 = SPI 183 1.1 matt #define GSIOCTL_ERROR __BIT(23) 184 1.1 matt #define GSIOCTL_BIGENDIAN __BIT(22) 185 1.1 matt #define GSIOCTL_GSIOGO __BIT(21) 186 1.1 matt #define GSIOCTL_NUM_DATABYTES __BITS(17,16) // actual is + 1 187 1.1 matt #define GSIOCTL_NUM_WAITCYCLES __BITS(15,14) // actual is + 1 188 1.1 matt #define GSIOCTL_NUM_ADDRESSBYTES __BITS(13,12) // actual is + 1 189 1.1 matt #define GSIOCTL_GSIOCODE __BITS(10,8) 190 1.1 matt #define GSIOCODE_OP_RD1DATA 0 191 1.1 matt #define GSIOCODE_OP_WRADDR_RDADDR 1 192 1.1 matt #define GSIOCODE_OP_WRADDR_XFRDATA 2 193 1.1 matt #define GSIOCODE_OP_WRADDR_WAIT_XFRDATA 3 194 1.1 matt #define GSIOCODE_XFRDATA 4 195 1.1 matt #define GSIOCTL_GSIOOP __BITS(7,0) 196 1.1 matt 197 1.1 matt #define MISC_GSIOADDRESS 0x0e8 198 1.1 matt #define MISC_GSIODATA 0x0ec 199 1.1 matt 200 1.1 matt #define MISC_CLKDIV2 0x0f0 201 1.1 matt #define CLKDIV2_GSIODIV __BITS(20,5) 202 1.1 matt 203 1.1 matt #define MISC_EROM_PTR_OFFSET 0x0fc 204 1.1 matt 205 1.1 matt #endif /* CCA_PRIVATE */ 206 1.1 matt 207 1.1 matt /* 208 1.1 matt * UART0 & 1 use the standard 16550 register layout (normal 1 byte stride) 209 1.1 matt * and have 64-byte FIFOs 210 1.1 matt */ 211 1.1 matt 212 1.1 matt /* TIMER0 & 1 are implemented by the dtimer driver */ 213 1.1 matt 214 1.1 matt #define TIMER_FREQ BCM53XX_REF_CLK 215 1.1 matt 216 1.1 matt #ifdef MII_PRIVATE 217 1.1 matt #define MII_INTERNAL 0x0038003 /* internal phy bitmask */ 218 1.1 matt #define MIIMGT 0x000 219 1.1 matt #define MIIMGT_BYP __BIT(10) 220 1.1 matt #define MIIMGT_EXT __BIT(9) 221 1.1 matt #define MIIMGT_BSY __BIT(8) 222 1.1 matt #define MIIMGT_PRE __BIT(7) 223 1.1 matt #define MIIMGT_MDCDIV __BITS(6,0) 224 1.1 matt #define MIICMD 0x004 225 1.1 matt #define MIICMD_SB __BITS(31,30) 226 1.1 matt #define MIICMD_SB_DEF __SHIFTIN(1, MIICMD_OP) 227 1.1 matt #define MIICMD_OP __BITS(29,28) 228 1.1 matt #define MIICMD_OP_RD __SHIFTIN(2, MIICMD_OP) 229 1.1 matt #define MIICMD_OP_WR __SHIFTIN(1, MIICMD_OP) 230 1.1 matt #define MIICMD_PHY __BITS(27,23) 231 1.1 matt #define MIICMD_REG __BITS(22,18) 232 1.1 matt #define MIICMD_TA __BITS(17,16) 233 1.1 matt #define MIICMD_TA_DEF __SHIFTIN(2, MIICMD_OP) 234 1.1 matt #define MIICMD_DATA __BITS(15,0) 235 1.1 matt 236 1.1 matt #define MIICMD_RD_DEF (MIICMD_SB_DEF|MIICMD_OP_RD|MIICMD_TA_DEF) 237 1.1 matt #define MIICMD_WR_DEF (MIICMD_SB_DEF|MIICMD_OP_WR|MIICMD_TA_DEF) 238 1.1 matt #define MIICMD__PHYREG(p,r) (__SHIFTIN(p,MIICMD_PHY)|__SHIFTIN(r,MIICMD_REG)) 239 1.1 matt #define MIICMD_RD(p,r) (MIICMD_RD_DEF|MIICMD__PHYREG((p),(r))) 240 1.1 matt #define MIICMD_WR(p,r,v) (MIICMD_WR_DEF|MIICMD__PHYREG((p),(r))|(v)) 241 1.1 matt #endif /* MII_PRIVATE */ 242 1.1 matt 243 1.1 matt #ifdef RNG_PRIVATE 244 1.1 matt #define RNG_CTRL 0x000 245 1.1 matt #define RNG_COMBLK2_OSC_DIS __BITS(27,22) 246 1.1 matt #define RNG_COMBLK1_OSC_DIS __BITS(21,16) 247 1.1 matt #define RNG_ICLK_BYP_DIV_CNT __BITS(15,8) 248 1.1 matt #define RNG_JCLK_BYP_SRC __BIT(5) 249 1.1 matt #define RNG_JCLK_BYP_SEL __BIT(4) 250 1.1 matt #define RNG_RBG2X __BIT(1) 251 1.1 matt #define RNG_RBGEN __BIT(0) 252 1.1 matt #define RNG_STATUS 0x004 253 1.1 matt #define RNG_VAL __BITS(31,24) 254 1.1 matt #define RNG_WARM_CNT __BITS(19,0) 255 1.1 matt 256 1.1 matt #define RNG_DATA 0x008 257 1.1 matt #define RNG_FF_THRESHOLD 0x00c 258 1.1 matt #define RNG_INT_MASK 0x010 259 1.1 matt #define RNG_INT_OFF __BIT(0) 260 1.1 matt #endif /* RNG_PRIVATE */ 261 1.1 matt 262 1.1 matt #ifdef UART2_PRIVATE 263 1.1 matt /* 264 1.1 matt * UART2 (ChipCommonB) uses a 4-byte stride and 16-byte FIFO. 265 1.1 matt * Its frequency is the APB clock. 266 1.1 matt */ 267 1.1 matt #define UART2_LPDLL 0x020 268 1.1 matt #define UART2_LPDLH 0x024 269 1.1 matt #endif 270 1.1 matt 271 1.1 matt #ifdef CRU_PRIVATE 272 1.1 matt 273 1.1 matt #define CRU_CONTROL 0x000 274 1.1 matt #define CRUCTL_QSPI_CLK_SEL __BITS(2,1) 275 1.1 matt #define QSPI_CLK_25MHZ 0 // iproc_ref_clk 276 1.1 matt #define QSPI_CLK_50MHZ 1 // iproc_sdio_clk / 4 277 1.1 matt #define QSPI_CLK_31dot25MHZ 2 // iproc_clk250 / 8 278 1.1 matt #define QSPI_CLK_62dot5MHZ 3 // iproc_clk250 / 4 279 1.1 matt #define CRUCTL_SW_RESET __BIT(0) 280 1.1 matt 281 1.1 matt #define CRU_GENPLL_CONTROL5 0x1154 282 1.1 matt #define GENPLL_CONTROL5_NDIV_INT __BITS(29,20) // = (n ? n : 1024) 283 1.1 matt #define GENPLL_CONTROL5_NDIV_FRAC __BITS(19,0) // = 1 / n 284 1.1 matt #define CRU_GENPLL_CONTROL6 0x1158 285 1.1 matt #define GENPLL_CONTROL6_PDIV __BITS(26,24) // = (n ? n : 8) 286 1.1 matt #define GENPLL_CONTROL6_CH0_MDIV __BITS(23,16) // = (n ? n : 256), clk_mac 287 1.1 matt #define GENPLL_CONTROL6_CH1_MDIV __BITS(15,8) // = (n ? n : 256), clk_robo 288 1.1 matt #define GENPLL_CONTROL6_CH2_MDIV __BITS(7,0) // = (n ? n : 256), clf_usb2 289 1.1 matt #define CRU_GENPLL_CONTROL7 0x115c 290 1.1 matt #define GENPLL_CONTROL7_CH3_MDIV __BITS(23,16) // = (n ? n : 256), clk_iproc 291 1.1 matt 292 1.1 matt #define USB2_REF_CLK (1920*1000*1000) 293 1.1 matt #define CRU_USB2_CONTROL 0x1164 294 1.1 matt #define USB2_CONTROL_KA __BITS(24,22) 295 1.1 matt #define USB2_CONTROL_KI __BITS(31,19) 296 1.1 matt #define USB2_CONTROL_KP __BITS(18,15) 297 1.1 matt #define USB2_CONTROL_PDIV __BITS(14,12) // = (n ? n : 8) 298 1.1 matt #define USB2_CONTROL_NDIV_INT __BITS(11,2) // = (n ? n : 1024) 299 1.1 matt #define USB2_CONTROL_PLL_PCIEUSB3_RESET __BIT(1) // inverted 1=normal 300 1.1 matt #define USB2_CONTROL_PLL_USB2_RESET __BIT(0) // inverted 1=normal 301 1.1 matt 302 1.1 matt #define CRU_CLKSET_KEY 0x1180 303 1.1 matt #define CRU_CLKSET_KEY_MAGIC 0xea68 304 1.1 matt 305 1.1 matt #define CRU_GPIO_SELECT 0x11c0 // CRU GPIO Select 306 1.1 matt #define CRU_GPIO_DRIVE_SEL2 0x11c4 307 1.1 matt #define CRU_GPIO_DRIVE_SEL1 0x11c8 308 1.1 matt #define CRU_GPIO_DRIVE_SEL0 0x11cc 309 1.1 matt #define CRU_GPIO_INPUT_DISABLE 0x11d0 310 1.1 matt #define CRU_GPIO_HYSTERESIS 0x11d4 311 1.1 matt #define CRU_GPIO_SLEW_RATE 0x11d8 312 1.1 matt #define CRU_GPIO_PULL_UP 0x11dc 313 1.1 matt #define CRU_GPIO_PULL_DOWN 0x11e0 314 1.1 matt 315 1.1 matt #define CRU_STRAPS_CONTROL 0x12a0 316 1.1 matt #define STRAP_BOOT_DEV __BITS(17,16) 317 1.1 matt #define STRAP_NAND_TYPE __BITS(15,12) 318 1.1 matt #define STRAP_NAND_PAGE __BITS(11,10) 319 1.1 matt #define STRAP_DDR3 __BIT(9) 320 1.1 matt #define STRAP_P5_VOLT_15 __BIT(8) 321 1.1 matt #define STRAP_P5_MODE __BITS(7,6) 322 1.1 matt #define STRAP_PCIE0_MODE __BIT(5) 323 1.1 matt #define STRAP_USB3_SEL __BIT(4) 324 1.1 matt #define STRAP_EX_EXTCLK __BIT(3) 325 1.1 matt #define STRAP_HW_FWDG_EN __BIT(2) 326 1.1 matt #define STRAP_LED_SERIAL_MODE __BIT(1) 327 1.1 matt #define STRAP_BISR_BYPASS_AUTOLOAD __BIT(0) 328 1.1 matt 329 1.1 matt #endif /* CRU_PRIVATE */ 330 1.1 matt 331 1.1 matt #ifdef DMU_PRIVATE 332 1.1 matt 333 1.1 matt #define DMU_LCPLL_CONTROL0 0x100 334 1.1 matt #define DMU_LCPLL_CONTROL1 0x104 335 1.1 matt #define LCPLL_CONTROL1_PDIV __BITS(30,28) // = (n ? n : 8) 336 1.1 matt #define LCPLL_CONTROL1_NDIV_INT __BITS(27,20) // = (n ? n : 256) 337 1.1 matt #define LCPLL_CONTROL1_NDIV_FRAC __BITS(19,0) // = 1 / n 338 1.1 matt /* 339 1.1 matt * SYS_CLK = (1 / pdiv) * (ndiv_int + (ndiv_frac / 0x40000000)) x F(ref) 340 1.1 matt */ 341 1.1 matt #define DMU_LCPLL_CONTROL2 0x108 342 1.1 matt #define LCPLL_CONTROL2_CH0_MDIV __BITS(31,24) // = (n ? n : 256), clk_pcie_ref 343 1.1 matt #define LCPLL_CONTROL2_CH1_MDIV __BITS(23,16) // = (n ? n : 256), clk_sdio 344 1.1 matt #define LCPLL_CONTROL2_CH2_MDIV __BITS(15,8) // = (n ? n : 256), clk_ddr 345 1.1 matt #define LCPLL_CONTROL2_CH3_MDIV __BITS(7,0) // = (n ? n : 256), clf_dft 346 1.1 matt 347 1.1 matt #endif /* DMU_PRIVATE */ 348 1.1 matt 349 1.1 matt #ifdef DDR_PRIVATE 350 1.1 matt /* 351 1.1 matt * DDR CTL register has such inspired names. 352 1.1 matt */ 353 1.1 matt #define DDR_CTL_01 0x004 354 1.1 matt #define CTL_01_MAX_CHIP_SEL __BITS(18,16) // not documented as such 355 1.1 matt #define CTL_01_MAX_COL __BITS(11,8) 356 1.1 matt #define CTL_01_MAX_ROW __BITS(4,0) 357 1.1 matt 358 1.1 matt #define DDR_CTL_82 0x148 359 1.1 matt #define CTL_82_COL_DIFF __BITS(26,24) 360 1.1 matt #define CTL_82_ROW_DIFF __BITS(18,16) 361 1.1 matt #define CTL_82_BANK_DIFF __BITS(9,8) 362 1.1 matt #define CTL_82_ZQCS_ROTATE __BIT(0) 363 1.1 matt 364 1.1 matt #define DDR_CTL_86 0x158 365 1.1 matt #define CTL_86_CS_MAP __BITS(27,24) 366 1.1 matt #define CTL_86_INHIBIT_DRAM_CMD __BIT(16) 367 1.1 matt #define CTL_86_DIS_RD_INTRLV __BIT(8) 368 1.1 matt #define CTL_86_NUM_QENT_ACT_DIS __BITS(2,0) 369 1.1 matt 370 1.1 matt #define DDR_CTL_87 0x15c 371 1.1 matt #define CTL_87_IN_ORDER_ACCEPT __BIT(24) 372 1.1 matt #define CTL_87_Q_FULLNESS __BITS(18,16) 373 1.1 matt #define CTL_87_REDUC __BIT(8) 374 1.1 matt #define CTL_87_BURST_ON_FLY_BIT __BITS(3,0) 375 1.1 matt 376 1.1 matt #define DDR_PHY_CTL_PLL_STATUS 0x810 377 1.1 matt #define PLL_STATUS_LOCK_LOST __BIT(26) 378 1.1 matt #define PLL_STATUS_MHZ __BITS(25,14) 379 1.1 matt #define PLL_STATUS_CLOCKING_4X __BIT(13) 380 1.1 matt #define PLL_STATUS_STATUS __BITS(12,1) 381 1.1 matt #define PLL_STATUS_LOCK __BIT(0) 382 1.1 matt 383 1.1 matt #define DDR_PHY_CTL_PLL_DIVIDERS 0x81c 384 1.1 matt #define PLL_DIVIDERS_POST_DIV __BITS(13,11) 385 1.1 matt #define PLL_DIVIDERS_PDIV __BITS(10,8) // 4x: (n ? n : 8), n = n - 4, 4x 386 1.1 matt #define PLL_DIVIDERS_NDIV __BITS(7,0) 387 1.1 matt 388 1.1 matt #endif /* DDR_PRIVATE */ 389 1.1 matt 390 1.1 matt #ifdef PCIE_PRIVATE 391 1.1 matt 392 1.2 matt #define PCIE_CLK_CONTROL 0x000 393 1.2 matt 394 1.1 matt #define PCIE_CFG_IND_ADDR 0x120 395 1.1 matt #define CFG_IND_ADDR_FUNC __BITS(15,13) 396 1.1 matt #define CFG_IND_ADDR_LAYER __BITS(12,11) 397 1.2 matt #define CFG_IND_ADDR_REG __BITS(10,2) 398 1.1 matt #define PCIE_CFG_IND_DATA 0x124 399 1.1 matt #define PCIE_CFG_ADDR 0x1f8 400 1.1 matt #define CFG_ADDR_BUS __BITS(27,20) 401 1.1 matt #define CFG_ADDR_DEV __BITS(27,15) 402 1.1 matt #define CFG_ADDR_FUNC __BITS(14,12) 403 1.1 matt #define CFG_ADDR_REG __BITS(11,2) 404 1.1 matt #define CFG_ADDR_TYPE __BITS(1,0) 405 1.1 matt #define CFG_ADDR_TYPE0 __SHIFTIN(0, CFG_ADDR_TYPE) 406 1.1 matt #define CFG_ADDR_TYPE1 __SHIFTIN(1, CFG_ADDR_TYPE) 407 1.1 matt #define PCIE_CFG_DATA 0x1fc 408 1.1 matt #define PCIE_EQ_PAGE 0x200 409 1.1 matt #define PCIE_MSI_PAGE 0x204 410 1.1 matt #define PCIE_MSI_INTR_EN 0x208 411 1.1 matt #define PCIE_MSI_CTRL_0 0x210 412 1.1 matt #define PCIE_MSI_CTRL_1 0x214 413 1.1 matt #define PCIE_MSI_CTRL_2 0x218 414 1.1 matt #define PCIE_MSI_CTRL_3 0x21c 415 1.1 matt #define PCIE_MSI_CTRL_4 0x220 416 1.1 matt #define PCIE_MSI_CTRL_5 0x224 417 1.1 matt #define PCIE_SYS_EQ_HEAD_0 0x250 418 1.1 matt #define PCIE_SYS_EQ_TAIL_0 0x254 419 1.1 matt #define PCIE_SYS_EQ_HEAD_1 0x258 420 1.1 matt #define PCIE_SYS_EQ_TAIL_1 0x25c 421 1.1 matt #define PCIE_SYS_EQ_HEAD_2 0x260 422 1.1 matt #define PCIE_SYS_EQ_TAIL_2 0x264 423 1.1 matt #define PCIE_SYS_EQ_HEAD_3 0x268 424 1.1 matt #define PCIE_SYS_EQ_TAIL_3 0x26c 425 1.1 matt #define PCIE_SYS_EQ_HEAD_4 0x270 426 1.1 matt #define PCIE_SYS_EQ_TAIL_4 0x274 427 1.1 matt #define PCIE_SYS_EQ_HEAD_5 0x278 428 1.1 matt #define PCIE_SYS_EQ_TAIL_5 0x27c 429 1.1 matt #define PCIE_SYS_RC_INTX_EN 0x330 430 1.1 matt #define PCIE_SYS_RC_INTX_CSR 0x334 431 1.1 matt 432 1.1 matt #define PCIE_FUNC0_IMAP0_0 0xc00 433 1.1 matt #define PCIE_FUNC0_IMAP0_1 0xc04 434 1.1 matt #define PCIE_FUNC0_IMAP0_2 0xc08 435 1.1 matt #define PCIE_FUNC0_IMAP0_3 0xc0c 436 1.1 matt #define PCIE_FUNC0_IMAP0_4 0xc10 437 1.1 matt #define PCIE_FUNC0_IMAP0_5 0xc14 438 1.1 matt #define PCIE_FUNC0_IMAP0_6 0xc18 439 1.1 matt #define PCIE_FUNC0_IMAP0_7 0xc1c 440 1.1 matt 441 1.1 matt #define PCIE_FUNC0_IMAP1 0xc80 442 1.1 matt #define PCIE_FUNC1_IMAP1 0xc88 443 1.1 matt #define PCIE_FUNC0_IMAP2 0xcc0 444 1.1 matt #define PCIE_FUNC1_IMAP2 0xcc8 445 1.1 matt 446 1.1 matt #define PCIE_IARR_0_LOWER 0xd00 447 1.1 matt #define PCIE_IARR_0_UPPER 0xd04 448 1.1 matt #define PCIE_IARR_1_LOWER 0xd08 449 1.1 matt #define PCIE_IARR_1_UPPER 0xd0c 450 1.1 matt #define PCIE_IARR_2_LOWER 0xd10 451 1.1 matt #define PCIE_IARR_2_UPPER 0xd14 452 1.1 matt 453 1.1 matt #define PCIE_OARR_0 0xd20 454 1.1 matt #define PCIE_OARR_1 0xd28 455 1.1 matt 456 1.3 matt #define PCIE_OARR_ADDR __BITS(31,26) 457 1.3 matt 458 1.1 matt #define PCIE_OMAP_0_LOWER 0xd40 459 1.1 matt #define PCIE_OMAP_0_UPPER 0xd44 460 1.1 matt #define PCIE_OMAP_1_LOWER 0xd48 461 1.1 matt #define PCIE_OMAP_1_UPPER 0xd4c 462 1.1 matt 463 1.3 matt #define PCIE_OMAP_ADDRL __BITS(31,26) 464 1.3 matt 465 1.1 matt #define PCIE_FUNC1_IARR_1_SIZE 0xd58 466 1.1 matt #define PCIE_FUNC1_IARR_2_SIZE 0xd5c 467 1.1 matt 468 1.1 matt #define PCIE_MEM_CONTROL 0xf00 469 1.1 matt #define PCIE_MEM_ECC_ERR_LOG_0 0xf04 470 1.1 matt #define PCIE_MEM_ECC_ERR_LOG_1 0xf08 471 1.1 matt 472 1.1 matt #define PCIE_LINK_STATUS 0xf0c 473 1.1 matt #define PCIE_PHYLINKUP __BIT(3) 474 1.1 matt #define PCIE_DL_ACTIVE __BIT(2) 475 1.1 matt #define PCIE_RX_LOS_TIMEOUT __BIT(1) 476 1.1 matt #define PCIE_LINK_IN_L1 __BIT(0) 477 1.1 matt #define PCIE_STRAP_STATUS 0xf10 478 1.1 matt #define STRAP_PCIE_REPLAY_BUF_TM __BITS(8,4) 479 1.1 matt #define STRAP_PCIE_USER_FOR_CE_GEN1 __BIT(3) 480 1.1 matt #define STRAP_PCIE_USER_FOR_CE_1LANE __BIT(2) 481 1.1 matt #define STRAP_PCIE_IF_ENABLE __BIT(1) 482 1.1 matt #define STRAP_PCIE_USER_RC_MODE __BIT(0) 483 1.1 matt #define PCIE_RESET_STATUS 0xf14 484 1.1 matt 485 1.1 matt #define PCIE_RESET_ENABLE_IN_PCIE_LINK_DOWN 0xf18 486 1.1 matt 487 1.1 matt #define PCIE_MISC_INTR_EN 0xf1c 488 1.1 matt #define PCIE_TX_DEBUG_CFG 0xf20 489 1.1 matt 490 1.1 matt 491 1.1 matt // PCIE_SYS_MSI_INTR_EN 492 1.1 matt #define MSI_INTR_EN_EQ_5 __BIT(5) 493 1.1 matt #define MSI_INTR_EN_EQ_4 __BIT(4) 494 1.1 matt #define MSI_INTR_EN_EQ_3 __BIT(3) 495 1.1 matt #define MSI_INTR_EN_EQ_2 __BIT(2) 496 1.1 matt #define MSI_INTR_EN_EQ_1 __BIT(1) 497 1.1 matt #define MSI_INTR_EN_EQ_0 __BIT(0) 498 1.1 matt 499 1.1 matt // PCIE_SYS_MSI_CTRL<n> 500 1.1 matt #define INT_N_DELAY __BITS(9,6) 501 1.1 matt #define INT_N_EVENT __BITS(1,1) 502 1.1 matt #define EQ_ENABLE __BIT(0) 503 1.1 matt 504 1.1 matt // PCIE_SYS_EQ_HEAD<n> 505 1.1 matt #define HEAD_PTR __BITS(5,0) 506 1.1 matt 507 1.1 matt // PCIE_SYS_EQ_TAIL<n> 508 1.1 matt #define EQ_OVERFLOW __BIT(6) 509 1.1 matt #define TAIL_PTR __BITS(5,0) 510 1.1 matt 511 1.1 matt // PCIE_SYS_RC_INTRX_EN 512 1.1 matt #define RC_EN_INTD __BIT(3) 513 1.1 matt #define RC_EN_INTC __BIT(2) 514 1.1 matt #define RC_EN_INTB __BIT(1) 515 1.1 matt #define RC_EN_INTA __BIT(0) 516 1.1 matt 517 1.1 matt // PCIE_SYS_RC_INTRX_CSR 518 1.1 matt #define RC_INTD __BIT(3) 519 1.1 matt #define RC_INTC __BIT(2) 520 1.1 matt #define RC_INTB __BIT(1) 521 1.1 matt #define RC_INTA __BIT(0) 522 1.1 matt 523 1.1 matt // PCIE_IARR_0_LOWER / UPPER 524 1.1 matt #define IARR0_ADDR __BIT(31,15) 525 1.1 matt #define IARR0_VALID __BIT(0) 526 1.1 matt 527 1.1 matt // PCIE_IARR_1_LOWER / UPPER 528 1.1 matt #define IARR1_ADDR __BIT(31,20) 529 1.1 matt #define IARR1_SIZE __BIT(7,0) 530 1.1 matt #define IARR0_VALID __BIT(0) 531 1.1 matt 532 1.1 matt #define REGS_DEVICE_CAPACITY 0x04d4 533 1.1 matt #define REGS_LINK_CAPACITY 0x03dc 534 1.1 matt #define REGS_TL_CONTROL_0 0x0800 535 1.1 matt #define REGS_DL_STATUS 0x1048 536 1.1 matt 537 1.1 matt #endif /* PCIE_PRIVATE */ 538 1.1 matt 539 1.1 matt #define ARMCORE_SCU_BASE 0x20000 /* CBAR is 19020000 */ 540 1.3 matt #define ARMCORE_L2C_BASE 0x22000 541 1.1 matt 542 1.1 matt #ifdef ARMCORE_PRIVATE 543 1.1 matt 544 1.1 matt #define ARMCORE_CLK_POLICY_FREQ 0x008 545 1.1 matt #define CLK_POLICY_FREQ_PRIVED __BIT(31) 546 1.1 matt #define CLK_POLICY_FREQ_POLICY3 __BITS(26,24) 547 1.1 matt #define CLK_POLICY_FREQ_POLICY2 __BITS(18,16) 548 1.1 matt #define CLK_POLICY_FREQ_POLICY1 __BITS(10,8) 549 1.1 matt #define CLK_POLICY_FREQ_POLICY0 __BITS(2,0) 550 1.1 matt #define CLK_POLICY_REF_CLK 0 // 25 MHZ 551 1.1 matt #define CLK_POLICY_SYS_CLK 1 // sys clk (200MHZ) 552 1.1 matt #define CLK_POLICY_ARM_PLL_CH0 6 // slow clock 553 1.1 matt #define CLK_POLICY_ARM_PLL_CH1 7 // fast clock 554 1.1 matt 555 1.1 matt #define ARMCORE_CLK_APB_DIV 0xa10 556 1.1 matt #define CLK_APB_DIV_PRIVED __BIT(31) 557 1.1 matt #define CLK_APB_DIV_VALUE __BITS(1,0) // n = n + 1 558 1.1 matt 559 1.1 matt #define ARMCORE_CLK_APB_DIV_TRIGGER 0xa10 560 1.1 matt #define CLK_APB_DIV_TRIGGER_PRIVED __BIT(31) 561 1.1 matt #define CLK_APB_DIV_TRIGGER_OVERRIDE __BIT(0) 562 1.1 matt 563 1.1 matt #define ARMCORE_CLK_PLLARMA 0xc00 564 1.1 matt #define CLK_PLLARMA_PDIV __BITS(26,24) // = (n ? n : 16(?)) 565 1.1 matt #define CLK_PLLARMA_NDIV_INT __BITS(17,8) // = (n ? n : 1024) 566 1.1 matt 567 1.1 matt #define ARMCORE_CLK_PLLARMB 0xc04 568 1.1 matt #define CLK_PLLARMB_NDIV_FRAC __BITS(19,0) // = 1 / n 569 1.1 matt 570 1.1 matt #endif 571 1.1 matt 572 1.1 matt #ifdef IDM_PRIVATE 573 1.1 matt 574 1.1 matt #define IDM_ARMCORE_M0_BASE 0x00000 575 1.1 matt #define IDM_PCIE_M0_BASE 0x01000 576 1.1 matt #define IDM_PCIE_M1_BASE 0x02000 577 1.1 matt #define IDM_PCIE_M2_BASE 0x03000 578 1.1 matt #define IDM_USB3_BASE 0x05000 579 1.1 matt #define IDM_ARMCORE_S1_BASE 0x06000 580 1.1 matt #define IDM_ARMCORE_S0_BASE 0x07000 581 1.1 matt #define IDM_DDR_S1_BASE 0x08000 582 1.1 matt #define IDM_DDR_S2_BASE 0x09000 583 1.1 matt #define IDM_ROM_S0_BASE 0x0d000 584 1.1 matt #define IDM_AMAC0_BASE 0x10000 585 1.1 matt #define IDM_AMAC1_BASE 0x11000 586 1.1 matt #define IDM_AMAC2_BASE 0x12000 587 1.1 matt #define IDM_AMAC3_BASE 0x13000 588 1.1 matt #define IDM_DMAC_M0_BASE 0x14000 589 1.1 matt #define IDM_USB2_BASE 0x15000 590 1.1 matt #define IDM_SDIO_BASE 0x16000 591 1.1 matt #define IDM_I2S_M0_BASE 0x17000 592 1.1 matt #define IDM_A9JTAG_M0_BASE 0x18000 593 1.1 matt #define IDM_NAND_BASE 0x1a000 594 1.1 matt #define IDM_QSPI_BASE 0x1b000 595 1.1 matt #define IDM_APBX_BASE 0x21000 596 1.1 matt 597 1.1 matt #define IDM_IO_CONTROL_DIRECT 0x0408 598 1.1 matt #define IDM_IO_STATUS 0x0500 599 1.1 matt #define IDM_RESET_CONTROL 0x0800 600 1.1 matt #define IDM_RESET_STATUS 0x0804 601 1.1 matt #define IDM_INTERRUPT_STATUS 0x0a00 602 1.1 matt 603 1.1 matt #define IO_CONTROL_DIRECT_UARTCLKSEL __BIT(17) 604 1.1 matt 605 1.1 matt #define RESET_CONTROL_RESET __BIT(0) 606 1.1 matt 607 1.1 matt #endif /* IDM_PRIVATE */ 608 1.1 matt 609 1.1 matt #ifdef GMAC_PRIVATE 610 1.1 matt 611 1.1 matt struct gmac_txdb { 612 1.1 matt uint32_t txdb_flags; 613 1.1 matt uint16_t txdb_buflen; 614 1.1 matt uint16_t txdb_addrext; 615 1.1 matt uint32_t txdb_addrlo; 616 1.1 matt uint32_t txdb_addrhi; 617 1.1 matt }; 618 1.1 matt #define TXDB_FLAG_SF __BIT(31) // Start oF Frame 619 1.1 matt #define TXDB_FLAG_EF __BIT(30) // End oF Frame 620 1.1 matt #define TXDB_FLAG_IC __BIT(29) // Interupt on Completetion 621 1.1 matt #define TXDB_FLAG_ET __BIT(28) // End Of Table 622 1.1 matt 623 1.1 matt struct gmac_rxdb { 624 1.1 matt uint32_t rxdb_flags; 625 1.1 matt uint16_t rxdb_buflen; 626 1.1 matt uint16_t rxdb_addrext; 627 1.1 matt uint32_t rxdb_addrlo; 628 1.1 matt uint32_t rxdb_addrhi; 629 1.1 matt }; 630 1.1 matt #define RXDB_FLAG_SF __BIT(31) // Start oF Frame (ignored) 631 1.1 matt #define RXDB_FLAG_EF __BIT(30) // End oF Frame (ignored) 632 1.1 matt #define RXDB_FLAG_IC __BIT(29) // Interupt on Completetion 633 1.1 matt #define RXDB_FLAG_ET __BIT(28) // End Of Table 634 1.1 matt 635 1.1 matt #define RXSTS_FRAMELEN __BITS(15,0) // # of bytes (including padding) 636 1.1 matt #define RXSTS_PKTTYPE __BITS(17,16) 637 1.1 matt #define RXSTS_PKTTYPE_UC 0 // Unicast 638 1.1 matt #define RXSTS_PKTTYPE_MC 1 // Multicast 639 1.1 matt #define RXSTS_PKTTYPE_BC 2 // Broadcast 640 1.1 matt #define RXSTS_VLAN_PRESENT __BIT(18) 641 1.1 matt #define RXSTS_CRC_ERROR __BIT(19) 642 1.1 matt #define RXSTS_OVERSIZED __BIT(20) 643 1.1 matt #define RXSTS_CTF_HIT __BIT(21) 644 1.1 matt #define RXSTS_CTF_ERROR __BIT(22) 645 1.1 matt #define RXSTS_PKT_OVERFLOW __BIT(23) 646 1.1 matt #define RXSTS_DESC_COUNT __BITS(27,24) // # of descriptors - 1 647 1.1 matt 648 1.1 matt #define GMAC_DEVCONTROL 0x000 649 1.1 matt #define GMAC_DEVSTATUS 0x004 650 1.1 matt #define GMAC_BISTSTATUS 0x00c 651 1.1 matt #define GMAC_INTSTATUS 0x020 652 1.1 matt #define GMAC_INTMASK 0x024 653 1.1 matt #define GMAC_GPTIMER 0x028 654 1.1 matt 655 1.1 matt #define GMAC_INTRCVLAZY 0x100 656 1.1 matt #define GMAC_FLOWCNTL_TH 0x104 657 1.1 matt #define GMAC_TXARB_WRR_TH 0x108 658 1.1 matt #define GMAC_GMACIDLE_CNT_TH 0x10c 659 1.1 matt 660 1.1 matt #define GMAC_FIFOACCESSADDR 0x120 661 1.1 matt #define GMAC_FIFOACCESSBYTE 0x124 662 1.1 matt #define GMAC_FIFOACCESSDATA 0x128 663 1.1 matt 664 1.1 matt #define GMAC_PHYACCESS 0x180 665 1.1 matt #define GMAC_PHYCONTROL 0x188 666 1.1 matt #define GMAC_TXQCONTROL 0x18c 667 1.1 matt #define GMAC_RXQCONTROL 0x190 668 1.1 matt #define GMAC_GPIOSELECT 0x194 669 1.1 matt #define GMAC_GPIOOUTPUTEN 0x198 670 1.1 matt #define GMAC_TXQRXQMEMORYCONTROL 0x1a0 671 1.1 matt #define GMAC_MEMORYECCSTATUS 0x1a4 672 1.1 matt 673 1.1 matt #define GMAC_CLOCKCONTROLSTATUS 0x1e0 674 1.1 matt #define GMAC_POWERCONTROL 0x1e8 675 1.1 matt 676 1.1 matt #define GMAC_XMTCONTROL_0 0x200 677 1.1 matt #define GMAC_XMTPTR_0 0x204 678 1.1 matt #define GMAC_XMTADDR_LOW_0 0x208 679 1.1 matt #define GMAC_XMTADDR_HIGH_0 0x20c 680 1.1 matt #define GMAC_XMTSTATUS0_0 0x210 681 1.1 matt #define GMAC_XMTSTATUS1_0 0x214 682 1.1 matt #define GMAC_RCVCONTROL 0x220 683 1.1 matt #define GMAC_RCVPTR 0x224 684 1.1 matt #define GMAC_RCVADDR_LOW 0x228 685 1.1 matt #define GMAC_RCVADDR_HIGH 0x22c 686 1.1 matt #define GMAC_RCVSTATUS0 0x230 687 1.1 matt #define GMAC_RCVSTATUS1 0x234 688 1.1 matt 689 1.1 matt #define GMAC_TX_GD_OCTETS_LO 0x300 690 1.1 matt 691 1.1 matt 692 1.1 matt #define UNIMAC_IPG_HD_BPG_CNTL 0x804 693 1.1 matt #define UNIMAC_COMMAND_CONFIG 0x808 694 1.1 matt #define UNIMAC_MAC_0 0x80c // bits 16:47 of macaddr 695 1.1 matt #define UNIMAC_MAC_1 0x810 // bits 0:15 of macaddr 696 1.1 matt #define UNIMAC_FRAME_LEN 0x814 697 1.1 matt #define UNIMAC_PAUSE_QUANTA 0x818 698 1.1 matt #define UNIMAC_TX_TS_SEQ_ID 0x83c 699 1.1 matt #define UNIMAC_MAC_MODE 0x844 700 1.1 matt #define UNIMAC_TAG_0 0x848 701 1.1 matt #define UNIMAC_TAG_1 0x84c 702 1.1 matt #define UNIMAC_RX_PAUSE_QUANTA_SCALE 0x850 703 1.1 matt #define UNIMAC_TX_PREAMBLE 0x854 704 1.1 matt #define UNIMAC_TX_IPG_LENGTH 0x85c 705 1.1 matt #define UNIMAC_PRF_XOFF_TIMER 0x860 706 1.1 matt #define UNIMAC_UMAC_EEE_CTRL 0x864 707 1.1 matt #define UNIMAC_MII_EEE_DELAY_ENTRY_TIMER 0x868 708 1.1 matt #define UNIMAC_GMII_EEE_DELAY_ENTRY_TIMER 0x86c 709 1.1 matt #define UNIMAC_UMAC_EEE_REF_COUNT 0x870 710 1.1 matt #define UNIMAC_UMAX_RX_PKT_DROP_STATUS 0x878 711 1.1 matt 712 1.1 matt #define UNIMAC_UMAC_SYMMETRIC_IDLE_THRESHOLD 0x87c // RX IDLE threshold for LPI prediction 713 1.1 matt #define UNIMAC_MII_EEE_WAKE_TIMER 0x880 // MII_EEE Wake timer 714 1.1 matt #define UNIMAC_GMII_EEE_WAKE_TIMER 0x884 // GMII_EEE Wake timer 715 1.1 matt #define UNIMAC_UMAC_REV_ID 0x888 // UNIMAC_REV_ID 716 1.1 matt #define UNIMAC_MAC_PFC_TYPE 0xb00 // Programmable ethertype (GNAT 13440) 717 1.1 matt #define UNIMAC_MAC_PFC_OPCODE 0xb04 // Programmable opcode (GNAT 13440) 718 1.1 matt #define UNIMAC_MAC_PFC_DA_0 0xb08 // lower 32 bits of programmable DA for PPP (GNAT 13897) 719 1.1 matt #define UNIMAC_MAC_PFC_DA_1 0xb0c // upper 16 bits of programmable DA for PPP (GNAT 13897) 720 1.1 matt #define UNIMAC_MACSEC_CNTRL 0xb14 // Miscellaneous control for MACSEC (GNAT 11599,11600,12078,12198) 721 1.1 matt #define UNIMAC_TS_STATUS_CNTRL 0xb18 // Timestamp control/status 722 1.1 matt #define UNIMAC_TX_TS_DATA 0xb1c // Transmit Timestamp data 723 1.1 matt #define UNIMAC_PAUSE_CONTROL 0xb30 // PAUSE frame timer control register 724 1.1 matt #define UNIMAC_FLUSH_CONTROL 0xb34 // Flush enable control register 725 1.1 matt #define UNIMAC_RXFIFO_STAT 0xb38 // RXFIFO status register 726 1.1 matt #define UNIMAC_TXFIFO_STAT 0xb3c // TXFIFO status register 727 1.1 matt #define UNIMAC_MAC_PFC_CTRL 0xb40 // PPP control register 728 1.1 matt #define UNIMAC_MAC_PFC_REFRESH_CTRL 0xb44 // PPP refresh control register 729 1.1 matt 730 1.1 matt #endif /* GMAC_PRIVATE */ 731 1.1 matt 732 1.1 matt #endif /* _ARM_BROADCOM_BCM53XX_REG_H_ */ 733
Indexes created Tue Sep 30 20:09:53 GMT 2025