1 /*- 2 * Copyright (c) 2011 3 * Ben Gray <ben.r.gray@gmail.com>. 4 * All rights reserved. 5 * 6 * Redistribution and use in source and binary forms, with or without 7 * modification, are permitted provided that the following conditions 8 * are met: 9 * 1. Redistributions of source code must retain the above copyright 10 * notice, this list of conditions and the following disclaimer. 11 * 2. Redistributions in binary form must reproduce the above copyright 12 * notice, this list of conditions and the following disclaimer in the 13 * documentation and/or other materials provided with the distribution. 14 * 3. The name of the company nor the name of the author may be used to 15 * endorse or promote products derived from this software without specific 16 * prior written permission. 17 * 18 * THIS SOFTWARE IS PROVIDED BY BEN GRAY ``AS IS'' AND ANY EXPRESS OR 19 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 20 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 21 * IN NO EVENT SHALL BEN GRAY BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 22 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 23 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 24 * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 25 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 26 * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 27 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 28 */ 29 30 #include <sys/cdefs.h> 31 __FBSDID("$FreeBSD$"); 32 33 #include <sys/param.h> 34 #include <sys/systm.h> 35 #include <sys/kernel.h> 36 #include <sys/module.h> 37 #include <sys/bus.h> 38 #include <sys/resource.h> 39 #include <sys/rman.h> 40 #include <sys/lock.h> 41 #include <sys/malloc.h> 42 43 #include <machine/bus.h> 44 #include <machine/cpu.h> 45 #include <machine/cpufunc.h> 46 #include <machine/resource.h> 47 #include <machine/intr.h> 48 49 #include <arm/arm/mpcore_timervar.h> 50 #include <arm/ti/tivar.h> 51 #include <arm/ti/ti_prcm.h> 52 #include <arm/ti/omap4/omap4_reg.h> 53 54 #include <dev/fdt/fdt_common.h> 55 #include <dev/ofw/openfirm.h> 56 #include <dev/ofw/ofw_bus.h> 57 #include <dev/ofw/ofw_bus_subr.h> 58 59 /* 60 * This file defines the clock configuration for the OMAP4xxx series of 61 * devices. 62 * 63 * How This is Suppose to Work 64 * =========================== 65 * - There is a top level omap_prcm module that defines all OMAP SoC drivers 66 * should use to enable/disable the system clocks regardless of the version 67 * of OMAP device they are running on. This top level PRCM module is just 68 * a thin shim to chip specific functions that perform the donkey work of 69 * configuring the clock - this file is the 'donkey' for OMAP44xx devices. 70 * 71 * - The key bit in this file is the omap_clk_devmap array, it's 72 * used by the omap_prcm driver to determine what clocks are valid and which 73 * functions to call to manipulate them. 74 * 75 * - In essence you just need to define some callbacks for each of the 76 * clocks and then you're done. 77 * 78 * - The other thing that is worth noting is that when the omap_prcm device 79 * is registered you typically pass in some memory ranges which are the 80 * SYS_MEMORY resources. These resources are in turn allocated using 81 * bus_allocate_resources(...) and the resource handles are passed to all 82 * individual clock callback handlers. 83 * 84 * 85 * 86 * OMAP4 devices are different from the previous OMAP3 devices in that there 87 * is no longer a separate functional and interface clock for each module, 88 * instead there is typically an interface clock that spans many modules. 89 */ 90 91 #define FREQ_96MHZ 96000000 92 #define FREQ_64MHZ 64000000 93 #define FREQ_48MHZ 48000000 94 #define FREQ_32KHZ 32000 95 96 /** 97 * We need three memory regions to cover all the clock configuration registers. 98 * 99 * PRM Instance - 0x4A30 6000 : 0x4A30 8000 100 * CM1 Instance - 0x4A00 4000 : 0x4A00 5000 101 * CM2 Instance - 0x4A00 8000 : 0x4A00 A000 102 * 103 */ 104 #define PRM_INSTANCE_MEM_REGION 0 105 #define CM1_INSTANCE_MEM_REGION 1 106 #define CM2_INSTANCE_MEM_REGION 2 107 108 /** 109 * Address offsets from the PRM memory region to the top level clock control 110 * registers. 111 */ 112 #define CKGEN_PRM_OFFSET 0x00000100UL 113 #define MPU_PRM_OFFSET 0x00000300UL 114 #define DSP_PRM_OFFSET 0x00000400UL 115 #define ABE_PRM_OFFSET 0x00000500UL 116 #define ALWAYS_ON_PRM_OFFSET 0x00000600UL 117 #define CORE_PRM_OFFSET 0x00000700UL 118 #define IVAHD_PRM_OFFSET 0x00000F00UL 119 #define CAM_PRM_OFFSET 0x00001000UL 120 #define DSS_PRM_OFFSET 0x00001100UL 121 #define SGX_PRM_OFFSET 0x00001200UL 122 #define L3INIT_PRM_OFFSET 0x00001300UL 123 #define L4PER_PRM_OFFSET 0x00001400UL 124 #define WKUP_PRM_OFFSET 0x00001700UL 125 #define WKUP_CM_OFFSET 0x00001800UL 126 #define EMU_PRM_OFFSET 0x00001900UL 127 #define EMU_CM_OFFSET 0x00001A00UL 128 #define DEVICE_PRM_OFFSET 0x00001B00UL 129 #define INSTR_PRM_OFFSET 0x00001F00UL 130 131 #define CM_ABE_DSS_SYS_CLKSEL_OFFSET (CKGEN_PRM_OFFSET + 0x0000UL) 132 #define CM_L4_WKUP_CLKSELL_OFFSET (CKGEN_PRM_OFFSET + 0x0008UL) 133 #define CM_ABE_PLL_REF_CLKSEL_OFFSET (CKGEN_PRM_OFFSET + 0x000CUL) 134 #define CM_SYS_CLKSEL_OFFSET (CKGEN_PRM_OFFSET + 0x0010UL) 135 136 /** 137 * Address offsets from the CM1 memory region to the top level clock control 138 * registers. 139 */ 140 #define CKGEN_CM1_OFFSET 0x00000100UL 141 #define MPU_CM1_OFFSET 0x00000300UL 142 #define DSP_CM1_OFFSET 0x00000400UL 143 #define ABE_CM1_OFFSET 0x00000500UL 144 #define RESTORE_CM1_OFFSET 0x00000E00UL 145 #define INSTR_CM1_OFFSET 0x00000F00UL 146 147 #define CM_CLKSEL_DPLL_MPU (CKGEN_CM1_OFFSET + 0x006CUL) 148 149 /** 150 * Address offsets from the CM2 memory region to the top level clock control 151 * registers. 152 */ 153 #define INTRCONN_SOCKET_CM2_OFFSET 0x00000000UL 154 #define CKGEN_CM2_OFFSET 0x00000100UL 155 #define ALWAYS_ON_CM2_OFFSET 0x00000600UL 156 #define CORE_CM2_OFFSET 0x00000700UL 157 #define IVAHD_CM2_OFFSET 0x00000F00UL 158 #define CAM_CM2_OFFSET 0x00001000UL 159 #define DSS_CM2_OFFSET 0x00001100UL 160 #define SGX_CM2_OFFSET 0x00001200UL 161 #define L3INIT_CM2_OFFSET 0x00001300UL 162 #define L4PER_CM2_OFFSET 0x00001400UL 163 #define RESTORE_CM2_OFFSET 0x00001E00UL 164 #define INSTR_CM2_OFFSET 0x00001F00UL 165 166 #define CLKCTRL_MODULEMODE_MASK 0x00000003UL 167 #define CLKCTRL_MODULEMODE_DISABLE 0x00000000UL 168 #define CLKCTRL_MODULEMODE_AUTO 0x00000001UL 169 #define CLKCTRL_MODULEMODE_ENABLE 0x00000001UL 170 171 #define CLKCTRL_IDLEST_MASK 0x00030000UL 172 #define CLKCTRL_IDLEST_ENABLED 0x00000000UL 173 #define CLKCTRL_IDLEST_WAKING 0x00010000UL 174 #define CLKCTRL_IDLEST_IDLE 0x00020000UL 175 #define CLKCTRL_IDLEST_DISABLED 0x00030000UL 176 177 static struct resource_spec omap4_scm_res_spec[] = { 178 { SYS_RES_MEMORY, 0, RF_ACTIVE }, /* Control memory window */ 179 { SYS_RES_MEMORY, 1, RF_ACTIVE }, /* Control memory window */ 180 { SYS_RES_MEMORY, 2, RF_ACTIVE }, /* Control memory window */ 181 { -1, 0 } 182 }; 183 184 struct omap4_prcm_softc { 185 struct resource *sc_res[3]; 186 }; 187 188 static struct omap4_prcm_softc *omap4_prcm_sc; 189 190 static int omap4_clk_generic_activate(struct ti_clock_dev *clkdev); 191 static int omap4_clk_generic_deactivate(struct ti_clock_dev *clkdev); 192 static int omap4_clk_generic_accessible(struct ti_clock_dev *clkdev); 193 static int omap4_clk_generic_set_source(struct ti_clock_dev *clkdev, clk_src_t clksrc); 194 static int omap4_clk_generic_get_source_freq(struct ti_clock_dev *clkdev, unsigned int *freq); 195 196 static int omap4_clk_gptimer_set_source(struct ti_clock_dev *clkdev, clk_src_t clksrc); 197 static int omap4_clk_gptimer_get_source_freq(struct ti_clock_dev *clkdev, unsigned int *freq); 198 199 static int omap4_clk_hsmmc_set_source(struct ti_clock_dev *clkdev, clk_src_t clksrc); 200 static int omap4_clk_hsmmc_get_source_freq(struct ti_clock_dev *clkdev, unsigned int *freq); 201 202 static int omap4_clk_hsusbhost_set_source(struct ti_clock_dev *clkdev, clk_src_t clksrc); 203 static int omap4_clk_hsusbhost_activate(struct ti_clock_dev *clkdev); 204 static int omap4_clk_hsusbhost_deactivate(struct ti_clock_dev *clkdev); 205 static int omap4_clk_hsusbhost_accessible(struct ti_clock_dev *clkdev); 206 207 static int omap4_clk_get_sysclk_freq(struct ti_clock_dev *clkdev, unsigned int *freq); 208 static int omap4_clk_get_arm_fclk_freq(struct ti_clock_dev *clkdev, unsigned int *freq); 209 210 /** 211 * omap_clk_devmap - Array of clock devices available on OMAP4xxx devices 212 * 213 * This map only defines which clocks are valid and the callback functions 214 * for clock activate, deactivate, etc. It is used by the top level omap_prcm 215 * driver. 216 * 217 * The actual details of the clocks (config registers, bit fields, sources, 218 * etc) are in the private g_omap3_clk_details array below. 219 * 220 */ 221 222 #define OMAP4_GENERIC_CLOCK_DEV(i) \ 223 { .id = (i), \ 224 .clk_activate = omap4_clk_generic_activate, \ 225 .clk_deactivate = omap4_clk_generic_deactivate, \ 226 .clk_set_source = omap4_clk_generic_set_source, \ 227 .clk_accessible = omap4_clk_generic_accessible, \ 228 .clk_get_source_freq = omap4_clk_generic_get_source_freq \ 229 } 230 231 #define OMAP4_GPTIMER_CLOCK_DEV(i) \ 232 { .id = (i), \ 233 .clk_activate = omap4_clk_generic_activate, \ 234 .clk_deactivate = omap4_clk_generic_deactivate, \ 235 .clk_set_source = omap4_clk_gptimer_set_source, \ 236 .clk_accessible = omap4_clk_generic_accessible, \ 237 .clk_get_source_freq = omap4_clk_gptimer_get_source_freq \ 238 } 239 240 #define OMAP4_HSMMC_CLOCK_DEV(i) \ 241 { .id = (i), \ 242 .clk_activate = omap4_clk_generic_activate, \ 243 .clk_deactivate = omap4_clk_generic_deactivate, \ 244 .clk_set_source = omap4_clk_hsmmc_set_source, \ 245 .clk_accessible = omap4_clk_generic_accessible, \ 246 .clk_get_source_freq = omap4_clk_hsmmc_get_source_freq \ 247 } 248 249 #define OMAP4_HSUSBHOST_CLOCK_DEV(i) \ 250 { .id = (i), \ 251 .clk_activate = omap4_clk_hsusbhost_activate, \ 252 .clk_deactivate = omap4_clk_hsusbhost_deactivate, \ 253 .clk_set_source = omap4_clk_hsusbhost_set_source, \ 254 .clk_accessible = omap4_clk_hsusbhost_accessible, \ 255 .clk_get_source_freq = NULL \ 256 } 257 258 259 struct ti_clock_dev ti_omap4_clk_devmap[] = { 260 261 /* System clocks */ 262 { .id = SYS_CLK, 263 .clk_activate = NULL, 264 .clk_deactivate = NULL, 265 .clk_set_source = NULL, 266 .clk_accessible = NULL, 267 .clk_get_source_freq = omap4_clk_get_sysclk_freq, 268 }, 269 /* MPU (ARM) core clocks */ 270 { .id = MPU_CLK, 271 .clk_activate = NULL, 272 .clk_deactivate = NULL, 273 .clk_set_source = NULL, 274 .clk_accessible = NULL, 275 .clk_get_source_freq = omap4_clk_get_arm_fclk_freq, 276 }, 277 278 279 /* UART device clocks */ 280 OMAP4_GENERIC_CLOCK_DEV(UART1_CLK), 281 OMAP4_GENERIC_CLOCK_DEV(UART2_CLK), 282 OMAP4_GENERIC_CLOCK_DEV(UART3_CLK), 283 OMAP4_GENERIC_CLOCK_DEV(UART4_CLK), 284 285 /* Timer device source clocks */ 286 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER1_CLK), 287 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER2_CLK), 288 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER3_CLK), 289 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER4_CLK), 290 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER5_CLK), 291 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER6_CLK), 292 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER7_CLK), 293 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER8_CLK), 294 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER9_CLK), 295 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER10_CLK), 296 OMAP4_GPTIMER_CLOCK_DEV(GPTIMER11_CLK), 297 298 /* MMC device clocks (MMC1 and MMC2 can have different input clocks) */ 299 OMAP4_HSMMC_CLOCK_DEV(MMC1_CLK), 300 OMAP4_HSMMC_CLOCK_DEV(MMC2_CLK), 301 OMAP4_GENERIC_CLOCK_DEV(MMC3_CLK), 302 OMAP4_GENERIC_CLOCK_DEV(MMC4_CLK), 303 OMAP4_GENERIC_CLOCK_DEV(MMC5_CLK), 304 305 /* USB HS (high speed TLL, EHCI and OHCI) */ 306 OMAP4_HSUSBHOST_CLOCK_DEV(USBTLL_CLK), 307 OMAP4_HSUSBHOST_CLOCK_DEV(USBHSHOST_CLK), 308 OMAP4_HSUSBHOST_CLOCK_DEV(USBFSHOST_CLK), 309 OMAP4_HSUSBHOST_CLOCK_DEV(USBP1_PHY_CLK), 310 OMAP4_HSUSBHOST_CLOCK_DEV(USBP2_PHY_CLK), 311 OMAP4_HSUSBHOST_CLOCK_DEV(USBP1_UTMI_CLK), 312 OMAP4_HSUSBHOST_CLOCK_DEV(USBP2_UTMI_CLK), 313 OMAP4_HSUSBHOST_CLOCK_DEV(USBP1_HSIC_CLK), 314 OMAP4_HSUSBHOST_CLOCK_DEV(USBP2_HSIC_CLK), 315 316 /* GPIO */ 317 OMAP4_GENERIC_CLOCK_DEV(GPIO1_CLK), 318 OMAP4_GENERIC_CLOCK_DEV(GPIO2_CLK), 319 OMAP4_GENERIC_CLOCK_DEV(GPIO3_CLK), 320 OMAP4_GENERIC_CLOCK_DEV(GPIO4_CLK), 321 OMAP4_GENERIC_CLOCK_DEV(GPIO5_CLK), 322 OMAP4_GENERIC_CLOCK_DEV(GPIO6_CLK), 323 324 /* sDMA */ 325 OMAP4_GENERIC_CLOCK_DEV(SDMA_CLK), 326 327 /* I2C */ 328 OMAP4_GENERIC_CLOCK_DEV(I2C1_CLK), 329 OMAP4_GENERIC_CLOCK_DEV(I2C2_CLK), 330 OMAP4_GENERIC_CLOCK_DEV(I2C3_CLK), 331 OMAP4_GENERIC_CLOCK_DEV(I2C4_CLK), 332 333 { INVALID_CLK_IDENT, NULL, NULL, NULL, NULL } 334 }; 335 336 /** 337 * omap4_clk_details - Stores details for all the different clocks supported 338 * 339 * Whenever an operation on a clock is being performed (activated, deactivated, 340 * etc) this array is looked up to find the correct register and bit(s) we 341 * should be modifying. 342 * 343 */ 344 struct omap4_clk_details { 345 clk_ident_t id; 346 347 uint32_t mem_region; 348 uint32_t clksel_reg; 349 350 int32_t src_freq; 351 352 uint32_t enable_mode; 353 }; 354 355 #define OMAP4_GENERIC_CLOCK_DETAILS(i, f, m, r, e) \ 356 { .id = (i), \ 357 .mem_region = (m), \ 358 .clksel_reg = (r), \ 359 .src_freq = (f), \ 360 .enable_mode = (e), \ 361 } 362 363 static struct omap4_clk_details g_omap4_clk_details[] = { 364 365 /* UART */ 366 OMAP4_GENERIC_CLOCK_DETAILS(UART1_CLK, FREQ_48MHZ, CM2_INSTANCE_MEM_REGION, 367 (L4PER_CM2_OFFSET + 0x0140), CLKCTRL_MODULEMODE_ENABLE), 368 OMAP4_GENERIC_CLOCK_DETAILS(UART2_CLK, FREQ_48MHZ, CM2_INSTANCE_MEM_REGION, 369 (L4PER_CM2_OFFSET + 0x0148), CLKCTRL_MODULEMODE_ENABLE), 370 OMAP4_GENERIC_CLOCK_DETAILS(UART3_CLK, FREQ_48MHZ, CM2_INSTANCE_MEM_REGION, 371 (L4PER_CM2_OFFSET + 0x0140), CLKCTRL_MODULEMODE_ENABLE), 372 OMAP4_GENERIC_CLOCK_DETAILS(UART4_CLK, FREQ_48MHZ, CM2_INSTANCE_MEM_REGION, 373 (L4PER_CM2_OFFSET + 0x0148), CLKCTRL_MODULEMODE_ENABLE), 374 375 /* General purpose timers */ 376 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER1_CLK, -1, PRM_INSTANCE_MEM_REGION, 377 (WKUP_CM_OFFSET + 0x040), CLKCTRL_MODULEMODE_ENABLE), 378 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER2_CLK, -1, CM2_INSTANCE_MEM_REGION, 379 (L4PER_CM2_OFFSET + 0x038), CLKCTRL_MODULEMODE_ENABLE), 380 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER3_CLK, -1, CM2_INSTANCE_MEM_REGION, 381 (L4PER_CM2_OFFSET + 0x040), CLKCTRL_MODULEMODE_ENABLE), 382 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER4_CLK, -1, CM2_INSTANCE_MEM_REGION, 383 (L4PER_CM2_OFFSET + 0x048), CLKCTRL_MODULEMODE_ENABLE), 384 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER5_CLK, -1, CM1_INSTANCE_MEM_REGION, 385 (ABE_CM1_OFFSET + 0x068), CLKCTRL_MODULEMODE_ENABLE), 386 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER6_CLK, -1, CM1_INSTANCE_MEM_REGION, 387 (ABE_CM1_OFFSET + 0x070), CLKCTRL_MODULEMODE_ENABLE), 388 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER7_CLK, -1, CM1_INSTANCE_MEM_REGION, 389 (ABE_CM1_OFFSET + 0x078), CLKCTRL_MODULEMODE_ENABLE), 390 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER8_CLK, -1, CM1_INSTANCE_MEM_REGION, 391 (ABE_CM1_OFFSET + 0x080), CLKCTRL_MODULEMODE_ENABLE), 392 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER9_CLK, -1, CM2_INSTANCE_MEM_REGION, 393 (L4PER_CM2_OFFSET + 0x050), CLKCTRL_MODULEMODE_ENABLE), 394 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER10_CLK, -1, CM2_INSTANCE_MEM_REGION, 395 (L4PER_CM2_OFFSET + 0x028), CLKCTRL_MODULEMODE_ENABLE), 396 OMAP4_GENERIC_CLOCK_DETAILS(GPTIMER11_CLK, -1, CM2_INSTANCE_MEM_REGION, 397 (L4PER_CM2_OFFSET + 0x030), CLKCTRL_MODULEMODE_ENABLE), 398 399 /* HSMMC (MMC1 and MMC2 can have different input clocks) */ 400 OMAP4_GENERIC_CLOCK_DETAILS(MMC1_CLK, -1, CM2_INSTANCE_MEM_REGION, 401 (L3INIT_CM2_OFFSET + 0x028), /*CLKCTRL_MODULEMODE_ENABLE*/2), 402 OMAP4_GENERIC_CLOCK_DETAILS(MMC2_CLK, -1, CM2_INSTANCE_MEM_REGION, 403 (L3INIT_CM2_OFFSET + 0x030), /*CLKCTRL_MODULEMODE_ENABLE*/2), 404 OMAP4_GENERIC_CLOCK_DETAILS(MMC3_CLK, FREQ_48MHZ, CM2_INSTANCE_MEM_REGION, 405 (L4PER_CM2_OFFSET + 0x120), /*CLKCTRL_MODULEMODE_ENABLE*/2), 406 OMAP4_GENERIC_CLOCK_DETAILS(MMC4_CLK, FREQ_48MHZ, CM2_INSTANCE_MEM_REGION, 407 (L4PER_CM2_OFFSET + 0x128), /*CLKCTRL_MODULEMODE_ENABLE*/2), 408 OMAP4_GENERIC_CLOCK_DETAILS(MMC5_CLK, FREQ_48MHZ, CM2_INSTANCE_MEM_REGION, 409 (L4PER_CM2_OFFSET + 0x160), /*CLKCTRL_MODULEMODE_ENABLE*/1), 410 411 /* GPIO modules */ 412 OMAP4_GENERIC_CLOCK_DETAILS(GPIO1_CLK, -1, PRM_INSTANCE_MEM_REGION, 413 (WKUP_CM_OFFSET + 0x038), CLKCTRL_MODULEMODE_AUTO), 414 OMAP4_GENERIC_CLOCK_DETAILS(GPIO2_CLK, -1, CM2_INSTANCE_MEM_REGION, 415 (L4PER_CM2_OFFSET + 0x060), CLKCTRL_MODULEMODE_AUTO), 416 OMAP4_GENERIC_CLOCK_DETAILS(GPIO3_CLK, -1, CM2_INSTANCE_MEM_REGION, 417 (L4PER_CM2_OFFSET + 0x068), CLKCTRL_MODULEMODE_AUTO), 418 OMAP4_GENERIC_CLOCK_DETAILS(GPIO4_CLK, -1, CM2_INSTANCE_MEM_REGION, 419 (L4PER_CM2_OFFSET + 0x070), CLKCTRL_MODULEMODE_AUTO), 420 OMAP4_GENERIC_CLOCK_DETAILS(GPIO5_CLK, -1, CM2_INSTANCE_MEM_REGION, 421 (L4PER_CM2_OFFSET + 0x078), CLKCTRL_MODULEMODE_AUTO), 422 OMAP4_GENERIC_CLOCK_DETAILS(GPIO6_CLK, -1, CM2_INSTANCE_MEM_REGION, 423 (L4PER_CM2_OFFSET + 0x080), CLKCTRL_MODULEMODE_AUTO), 424 425 /* sDMA block */ 426 OMAP4_GENERIC_CLOCK_DETAILS(SDMA_CLK, -1, CM2_INSTANCE_MEM_REGION, 427 (CORE_CM2_OFFSET + 0x300), CLKCTRL_MODULEMODE_AUTO), 428 429 /* I2C modules */ 430 OMAP4_GENERIC_CLOCK_DETAILS(I2C1_CLK, -1, CM2_INSTANCE_MEM_REGION, 431 (L4PER_CM2_OFFSET + 0x0A0), CLKCTRL_MODULEMODE_ENABLE), 432 OMAP4_GENERIC_CLOCK_DETAILS(I2C2_CLK, -1, CM2_INSTANCE_MEM_REGION, 433 (L4PER_CM2_OFFSET + 0x0A8), CLKCTRL_MODULEMODE_ENABLE), 434 OMAP4_GENERIC_CLOCK_DETAILS(I2C3_CLK, -1, CM2_INSTANCE_MEM_REGION, 435 (L4PER_CM2_OFFSET + 0x0B0), CLKCTRL_MODULEMODE_ENABLE), 436 OMAP4_GENERIC_CLOCK_DETAILS(I2C4_CLK, -1, CM2_INSTANCE_MEM_REGION, 437 (L4PER_CM2_OFFSET + 0x0B8), CLKCTRL_MODULEMODE_ENABLE), 438 439 { INVALID_CLK_IDENT, 0, 0, 0, 0 }, 440 }; 441 442 /** 443 * MAX_MODULE_ENABLE_WAIT - the number of loops to wait for the module to come 444 * alive. 445 * 446 */ 447 #define MAX_MODULE_ENABLE_WAIT 100 448 449 /** 450 * ARRAY_SIZE - Macro to return the number of elements in a static const array. 451 * 452 */ 453 #define ARRAY_SIZE(x) (sizeof(x)/sizeof(x[0])) 454 455 /** 456 * omap4_clk_details - writes a 32-bit value to one of the timer registers 457 * @timer: Timer device context 458 * @off: The offset of a register from the timer register address range 459 * @val: The value to write into the register 460 * 461 * 462 * RETURNS: 463 * nothing 464 */ 465 static struct omap4_clk_details* 466 omap4_clk_details(clk_ident_t id) 467 { 468 struct omap4_clk_details *walker; 469 470 for (walker = g_omap4_clk_details; walker->id != INVALID_CLK_IDENT; walker++) { 471 if (id == walker->id) 472 return (walker); 473 } 474 475 return NULL; 476 } 477 478 /** 479 * omap4_clk_generic_activate - checks if a module is accessible 480 * @module: identifier for the module to check, see omap3_prcm.h for a list 481 * of possible modules. 482 * Example: OMAP3_MODULE_MMC1 483 * 484 * 485 * 486 * LOCKING: 487 * Inherits the locks from the omap_prcm driver, no internal locking. 488 * 489 * RETURNS: 490 * Returns 0 on success or a positive error code on failure. 491 */ 492 static int 493 omap4_clk_generic_activate(struct ti_clock_dev *clkdev) 494 { 495 struct omap4_prcm_softc *sc = omap4_prcm_sc; 496 struct omap4_clk_details* clk_details; 497 struct resource* clk_mem_res; 498 uint32_t clksel; 499 unsigned int i; 500 501 if (sc == NULL) 502 return ENXIO; 503 504 clk_details = omap4_clk_details(clkdev->id); 505 506 if (clk_details == NULL) 507 return (ENXIO); 508 509 clk_mem_res = sc->sc_res[clk_details->mem_region]; 510 511 if (clk_mem_res == NULL) 512 return (EINVAL); 513 514 /* All the 'generic' clocks have a CLKCTRL register which is more or less 515 * generic - the have at least two fielda called MODULEMODE and IDLEST. 516 */ 517 clksel = bus_read_4(clk_mem_res, clk_details->clksel_reg); 518 clksel &= ~CLKCTRL_MODULEMODE_MASK; 519 clksel |= clk_details->enable_mode; 520 bus_write_4(clk_mem_res, clk_details->clksel_reg, clksel); 521 522 /* Now poll on the IDLEST register to tell us if the module has come up. 523 * TODO: We need to take into account the parent clocks. 524 */ 525 526 /* Try MAX_MODULE_ENABLE_WAIT number of times to check if enabled */ 527 for (i = 0; i < MAX_MODULE_ENABLE_WAIT; i++) { 528 clksel = bus_read_4(clk_mem_res, clk_details->clksel_reg); 529 if ((clksel & CLKCTRL_IDLEST_MASK) == CLKCTRL_IDLEST_ENABLED) 530 break; 531 DELAY(10); 532 } 533 534 /* Check the enabled state */ 535 if ((clksel & CLKCTRL_IDLEST_MASK) != CLKCTRL_IDLEST_ENABLED) { 536 printf("Error: failed to enable module with clock %d\n", clkdev->id); 537 printf("Error: 0x%08x => 0x%08x\n", clk_details->clksel_reg, clksel); 538 return (ETIMEDOUT); 539 } 540 541 return (0); 542 } 543 544 /** 545 * omap4_clk_generic_deactivate - checks if a module is accessible 546 * @module: identifier for the module to check, see omap3_prcm.h for a list 547 * of possible modules. 548 * Example: OMAP3_MODULE_MMC1 549 * 550 * 551 * 552 * LOCKING: 553 * Inherits the locks from the omap_prcm driver, no internal locking. 554 * 555 * RETURNS: 556 * Returns 0 on success or a positive error code on failure. 557 */ 558 static int 559 omap4_clk_generic_deactivate(struct ti_clock_dev *clkdev) 560 { 561 struct omap4_prcm_softc *sc = omap4_prcm_sc; 562 struct omap4_clk_details* clk_details; 563 struct resource* clk_mem_res; 564 uint32_t clksel; 565 566 if (sc == NULL) 567 return ENXIO; 568 569 clk_details = omap4_clk_details(clkdev->id); 570 571 if (clk_details == NULL) 572 return (ENXIO); 573 574 clk_mem_res = sc->sc_res[clk_details->mem_region]; 575 576 if (clk_mem_res == NULL) 577 return (EINVAL); 578 579 /* All the 'generic' clocks have a CLKCTRL register which is more or less 580 * generic - the have at least two fielda called MODULEMODE and IDLEST. 581 */ 582 clksel = bus_read_4(clk_mem_res, clk_details->clksel_reg); 583 clksel &= ~CLKCTRL_MODULEMODE_MASK; 584 clksel |= CLKCTRL_MODULEMODE_DISABLE; 585 bus_write_4(clk_mem_res, clk_details->clksel_reg, clksel); 586 587 return (0); 588 } 589 590 /** 591 * omap4_clk_generic_set_source - checks if a module is accessible 592 * @module: identifier for the module to check, see omap3_prcm.h for a list 593 * of possible modules. 594 * Example: OMAP3_MODULE_MMC1 595 * 596 * 597 * 598 * LOCKING: 599 * Inherits the locks from the omap_prcm driver, no internal locking. 600 * 601 * RETURNS: 602 * Returns 0 on success or a positive error code on failure. 603 */ 604 static int 605 omap4_clk_generic_set_source(struct ti_clock_dev *clkdev, 606 clk_src_t clksrc) 607 { 608 609 return (0); 610 } 611 612 /** 613 * omap4_clk_generic_accessible - checks if a module is accessible 614 * @module: identifier for the module to check, see omap3_prcm.h for a list 615 * of possible modules. 616 * Example: OMAP3_MODULE_MMC1 617 * 618 * 619 * 620 * LOCKING: 621 * Inherits the locks from the omap_prcm driver, no internal locking. 622 * 623 * RETURNS: 624 * Returns 0 on success or a negative error code on failure. 625 */ 626 static int 627 omap4_clk_generic_accessible(struct ti_clock_dev *clkdev) 628 { 629 struct omap4_prcm_softc *sc = omap4_prcm_sc; 630 struct omap4_clk_details* clk_details; 631 struct resource* clk_mem_res; 632 uint32_t clksel; 633 634 if (sc == NULL) 635 return ENXIO; 636 637 clk_details = omap4_clk_details(clkdev->id); 638 639 if (clk_details == NULL) 640 return (ENXIO); 641 642 clk_mem_res = sc->sc_res[clk_details->mem_region]; 643 644 if (clk_mem_res == NULL) 645 return (EINVAL); 646 647 clksel = bus_read_4(clk_mem_res, clk_details->clksel_reg); 648 649 /* Check the enabled state */ 650 if ((clksel & CLKCTRL_IDLEST_MASK) != CLKCTRL_IDLEST_ENABLED) 651 return (0); 652 653 return (1); 654 } 655 656 /** 657 * omap4_clk_generic_get_source_freq - checks if a module is accessible 658 * @module: identifier for the module to check, see omap3_prcm.h for a list 659 * of possible modules. 660 * Example: OMAP3_MODULE_MMC1 661 * 662 * 663 * 664 * LOCKING: 665 * Inherits the locks from the omap_prcm driver, no internal locking. 666 * 667 * RETURNS: 668 * Returns 0 on success or a negative error code on failure. 669 */ 670 static int 671 omap4_clk_generic_get_source_freq(struct ti_clock_dev *clkdev, 672 unsigned int *freq 673 ) 674 { 675 struct omap4_clk_details* clk_details = omap4_clk_details(clkdev->id); 676 677 if (clk_details == NULL) 678 return (ENXIO); 679 680 /* Simply return the stored frequency */ 681 if (freq) 682 *freq = (unsigned int)clk_details->src_freq; 683 684 return (0); 685 } 686 687 688 /** 689 * omap4_clk_gptimer_set_source - checks if a module is accessible 690 * @module: identifier for the module to check, see omap3_prcm.h for a list 691 * of possible modules. 692 * Example: OMAP3_MODULE_MMC1 693 * 694 * 695 * 696 * LOCKING: 697 * Inherits the locks from the omap_prcm driver, no internal locking. 698 * 699 * RETURNS: 700 * Returns 0 on success or a negative error code on failure. 701 */ 702 static int 703 omap4_clk_gptimer_set_source(struct ti_clock_dev *clkdev, 704 clk_src_t clksrc) 705 { 706 struct omap4_prcm_softc *sc = omap4_prcm_sc; 707 struct omap4_clk_details* clk_details; 708 struct resource* clk_mem_res; 709 710 if (sc == NULL) 711 return ENXIO; 712 713 clk_details = omap4_clk_details(clkdev->id); 714 715 if (clk_details == NULL) 716 return (ENXIO); 717 718 clk_mem_res = sc->sc_res[clk_details->mem_region]; 719 720 if (clk_mem_res == NULL) 721 return (EINVAL); 722 723 /* TODO: Implement */ 724 725 return (0); 726 } 727 728 /** 729 * omap4_clk_gptimer_get_source_freq - checks if a module is accessible 730 * @module: identifier for the module to check, see omap3_prcm.h for a list 731 * of possible modules. 732 * Example: OMAP3_MODULE_MMC1 733 * 734 * 735 * 736 * LOCKING: 737 * Inherits the locks from the omap_prcm driver, no internal locking. 738 * 739 * RETURNS: 740 * Returns 0 on success or a negative error code on failure. 741 */ 742 static int 743 omap4_clk_gptimer_get_source_freq(struct ti_clock_dev *clkdev, 744 unsigned int *freq 745 ) 746 { 747 struct omap4_prcm_softc *sc = omap4_prcm_sc; 748 struct omap4_clk_details* clk_details; 749 struct resource* clk_mem_res; 750 uint32_t clksel; 751 unsigned int src_freq; 752 753 if (sc == NULL) 754 return ENXIO; 755 756 clk_details = omap4_clk_details(clkdev->id); 757 758 if (clk_details == NULL) 759 return (ENXIO); 760 761 clk_mem_res = sc->sc_res[clk_details->mem_region]; 762 763 if (clk_mem_res == NULL) 764 return (EINVAL); 765 766 /* Need to read the CLKSEL field to determine the clock source */ 767 clksel = bus_read_4(clk_mem_res, clk_details->clksel_reg); 768 if (clksel & (0x1UL << 24)) 769 src_freq = FREQ_32KHZ; 770 else 771 omap4_clk_get_sysclk_freq(NULL, &src_freq); 772 773 /* Return the frequency */ 774 if (freq) 775 *freq = src_freq; 776 777 return (0); 778 } 779 780 /** 781 * omap4_clk_hsmmc_set_source - sets the source clock (freq) 782 * @clkdev: pointer to the clockdev structure (id field will contain clock id) 783 * 784 * The MMC 1 and 2 clocks can be source from either a 64MHz or 96MHz clock. 785 * 786 * LOCKING: 787 * Inherits the locks from the omap_prcm driver, no internal locking. 788 * 789 * RETURNS: 790 * Returns 0 on success or a negative error code on failure. 791 */ 792 static int 793 omap4_clk_hsmmc_set_source(struct ti_clock_dev *clkdev, 794 clk_src_t clksrc) 795 { 796 struct omap4_prcm_softc *sc = omap4_prcm_sc; 797 struct omap4_clk_details* clk_details; 798 struct resource* clk_mem_res; 799 uint32_t clksel; 800 801 if (sc == NULL) 802 return ENXIO; 803 804 clk_details = omap4_clk_details(clkdev->id); 805 806 if (clk_details == NULL) 807 return (ENXIO); 808 809 clk_mem_res = sc->sc_res[clk_details->mem_region]; 810 811 if (clk_mem_res == NULL) 812 return (EINVAL); 813 814 /* For MMC modules 3, 4 & 5 you can't change the freq, it's always 48MHz */ 815 if ((clkdev->id == MMC3_CLK) || (clkdev->id == MMC4_CLK) || 816 (clkdev->id == MMC5_CLK)) { 817 if (clksrc != F48MHZ_CLK) 818 return (EINVAL); 819 return 0; 820 } 821 822 823 clksel = bus_read_4(clk_mem_res, clk_details->clksel_reg); 824 825 /* Bit 24 is set if 96MHz clock or cleared for 64MHz clock */ 826 if (clksrc == F64MHZ_CLK) 827 clksel &= ~(0x1UL << 24); 828 else if (clksrc == F96MHZ_CLK) 829 clksel |= (0x1UL << 24); 830 else 831 return (EINVAL); 832 833 bus_write_4(clk_mem_res, clk_details->clksel_reg, clksel); 834 835 return (0); 836 } 837 838 /** 839 * omap4_clk_hsmmc_get_source_freq - checks if a module is accessible 840 * @clkdev: pointer to the clockdev structure (id field will contain clock id) 841 * 842 * 843 * 844 * LOCKING: 845 * Inherits the locks from the omap_prcm driver, no internal locking. 846 * 847 * RETURNS: 848 * Returns 0 on success or a negative error code on failure. 849 */ 850 static int 851 omap4_clk_hsmmc_get_source_freq(struct ti_clock_dev *clkdev, 852 unsigned int *freq 853 ) 854 { 855 struct omap4_prcm_softc *sc = omap4_prcm_sc; 856 struct omap4_clk_details* clk_details; 857 struct resource* clk_mem_res; 858 uint32_t clksel; 859 unsigned int src_freq; 860 861 if (sc == NULL) 862 return ENXIO; 863 864 clk_details = omap4_clk_details(clkdev->id); 865 866 if (clk_details == NULL) 867 return (ENXIO); 868 869 clk_mem_res = sc->sc_res[clk_details->mem_region]; 870 871 if (clk_mem_res == NULL) 872 return (EINVAL); 873 874 switch (clkdev->id) { 875 case MMC1_CLK: 876 case MMC2_CLK: 877 /* Need to read the CLKSEL field to determine the clock source */ 878 clksel = bus_read_4(clk_mem_res, clk_details->clksel_reg); 879 if (clksel & (0x1UL << 24)) 880 src_freq = FREQ_96MHZ; 881 else 882 src_freq = FREQ_64MHZ; 883 break; 884 case MMC3_CLK: 885 case MMC4_CLK: 886 case MMC5_CLK: 887 src_freq = FREQ_48MHZ; 888 break; 889 default: 890 return (EINVAL); 891 } 892 893 /* Return the frequency */ 894 if (freq) 895 *freq = src_freq; 896 897 return (0); 898 } 899 900 /** 901 * omap4_clk_get_sysclk_freq - gets the sysclk frequency 902 * @sc: pointer to the clk module/device context 903 * 904 * Read the clocking information from the power-control/boot-strap registers, 905 * and stored in two global variables. 906 * 907 * RETURNS: 908 * nothing, values are saved in global variables 909 */ 910 static int 911 omap4_clk_get_sysclk_freq(struct ti_clock_dev *clkdev, 912 unsigned int *freq) 913 { 914 uint32_t clksel; 915 uint32_t sysclk; 916 struct omap4_prcm_softc *sc = omap4_prcm_sc; 917 918 if (sc == NULL) 919 return ENXIO; 920 921 /* Read the input clock freq from the configuration register (CM_SYS_CLKSEL) */ 922 clksel = bus_read_4(sc->sc_res[PRM_INSTANCE_MEM_REGION], CM_SYS_CLKSEL_OFFSET); 923 switch (clksel & 0x7) { 924 case 0x1: 925 /* 12Mhz */ 926 sysclk = 12000000; 927 break; 928 case 0x3: 929 /* 16.8Mhz */ 930 sysclk = 16800000; 931 break; 932 case 0x4: 933 /* 19.2Mhz */ 934 sysclk = 19200000; 935 break; 936 case 0x5: 937 /* 26Mhz */ 938 sysclk = 26000000; 939 break; 940 case 0x7: 941 /* 38.4Mhz */ 942 sysclk = 38400000; 943 break; 944 default: 945 panic("%s: Invalid clock freq", __func__); 946 } 947 948 /* Return the value */ 949 if (freq) 950 *freq = sysclk; 951 952 return (0); 953 } 954 955 /** 956 * omap4_clk_get_arm_fclk_freq - gets the MPU clock frequency 957 * @clkdev: ignored 958 * @freq: pointer which upon return will contain the freq in hz 959 * @mem_res: array of allocated memory resources 960 * 961 * Reads the frequency setting information registers and returns the value 962 * in the freq variable. 963 * 964 * RETURNS: 965 * returns 0 on success, a positive error code on failure. 966 */ 967 static int 968 omap4_clk_get_arm_fclk_freq(struct ti_clock_dev *clkdev, 969 unsigned int *freq) 970 { 971 uint32_t clksel; 972 uint32_t pll_mult, pll_div; 973 uint32_t mpuclk, sysclk; 974 struct omap4_prcm_softc *sc = omap4_prcm_sc; 975 976 if (sc == NULL) 977 return ENXIO; 978 979 /* Read the clksel register which contains the DPLL multiple and divide 980 * values. These are applied to the sysclk. 981 */ 982 clksel = bus_read_4(sc->sc_res[CM1_INSTANCE_MEM_REGION], CM_CLKSEL_DPLL_MPU); 983 984 pll_mult = ((clksel >> 8) & 0x7ff); 985 pll_div = (clksel & 0x7f) + 1; 986 987 988 /* Get the system clock freq */ 989 omap4_clk_get_sysclk_freq(NULL, &sysclk); 990 991 992 /* Calculate the MPU freq */ 993 mpuclk = ((uint64_t)sysclk * pll_mult) / pll_div; 994 995 /* Return the value */ 996 if (freq) 997 *freq = mpuclk; 998 999 return (0); 1000 } 1001 1002 /** 1003 * omap4_clk_hsusbhost_activate - activates the USB clocks for the given module 1004 * @clkdev: pointer to the clock device structure. 1005 * @mem_res: array of memory resources allocated by the top level PRCM driver. 1006 * 1007 * The USB clocking setup seems to be a bit more tricky than the other modules, 1008 * to start with the clocking diagram for the HS host module shows 13 different 1009 * clocks. So to try and make it easier to follow the clocking activation 1010 * and deactivation is handled in it's own set of callbacks. 1011 * 1012 * LOCKING: 1013 * Inherits the locks from the omap_prcm driver, no internal locking. 1014 * 1015 * RETURNS: 1016 * Returns 0 on success or a positive error code on failure. 1017 */ 1018 1019 struct dpll_param { 1020 unsigned int m; 1021 unsigned int n; 1022 unsigned int m2; 1023 unsigned int m3; 1024 unsigned int m4; 1025 unsigned int m5; 1026 unsigned int m6; 1027 unsigned int m7; 1028 }; 1029 /* USB parameters */ 1030 struct dpll_param usb_dpll_param[7] = { 1031 /* 12M values */ 1032 {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}, 1033 /* 13M values */ 1034 {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}, 1035 /* 16.8M values */ 1036 {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}, 1037 /* 19.2M values */ 1038 {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}, 1039 /* 26M values */ 1040 {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}, 1041 /* 27M values */ 1042 {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0}, 1043 /* 38.4M values */ 1044 #ifdef CONFIG_OMAP4_SDC 1045 {0x32, 0x1, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0}, 1046 #else 1047 {0x32, 0x1, 0x2, 0x0, 0x0, 0x0, 0x0, 0x0}, 1048 #endif 1049 }; 1050 static int 1051 omap4_clk_hsusbhost_activate(struct ti_clock_dev *clkdev) 1052 { 1053 struct omap4_prcm_softc *sc = omap4_prcm_sc; 1054 struct resource* clk_mem_res; 1055 uint32_t clksel_reg_off; 1056 uint32_t clksel; 1057 unsigned int i; 1058 1059 if (sc == NULL) 1060 return ENXIO; 1061 1062 switch (clkdev->id) { 1063 case USBTLL_CLK: 1064 /* For the USBTLL module we need to enable the following clocks: 1065 * - INIT_L4_ICLK (will be enabled by bootloader) 1066 * - TLL_CH0_FCLK 1067 * - TLL_CH1_FCLK 1068 */ 1069 1070 /* We need the CM_L3INIT_HSUSBTLL_CLKCTRL register in CM2 register set */ 1071 clk_mem_res = sc->sc_res[CM2_INSTANCE_MEM_REGION]; 1072 clksel_reg_off = L3INIT_CM2_OFFSET + 0x68; 1073 1074 /* Enable the module and also enable the optional func clocks for 1075 * channels 0 & 1 (is this needed ?) 1076 */ 1077 clksel = bus_read_4(clk_mem_res, clksel_reg_off); 1078 clksel &= ~CLKCTRL_MODULEMODE_MASK; 1079 clksel |= CLKCTRL_MODULEMODE_ENABLE; 1080 1081 clksel |= (0x1 << 8); /* USB-HOST optional clock: USB_CH0_CLK */ 1082 clksel |= (0x1 << 9); /* USB-HOST optional clock: USB_CH1_CLK */ 1083 break; 1084 1085 case USBHSHOST_CLK: 1086 case USBP1_PHY_CLK: 1087 case USBP2_PHY_CLK: 1088 case USBP1_UTMI_CLK: 1089 case USBP2_UTMI_CLK: 1090 case USBP1_HSIC_CLK: 1091 case USBP2_HSIC_CLK: 1092 /* For the USB HS HOST module we need to enable the following clocks: 1093 * - INIT_L4_ICLK (will be enabled by bootloader) 1094 * - INIT_L3_ICLK (will be enabled by bootloader) 1095 * - INIT_48MC_FCLK 1096 * - UTMI_ROOT_GFCLK (UTMI only, create a new clock for that ?) 1097 * - UTMI_P1_FCLK (UTMI only, create a new clock for that ?) 1098 * - UTMI_P2_FCLK (UTMI only, create a new clock for that ?) 1099 * - HSIC_P1_60 (HSIC only, create a new clock for that ?) 1100 * - HSIC_P1_480 (HSIC only, create a new clock for that ?) 1101 * - HSIC_P2_60 (HSIC only, create a new clock for that ?) 1102 * - HSIC_P2_480 (HSIC only, create a new clock for that ?) 1103 */ 1104 1105 /* We need the CM_L3INIT_HSUSBHOST_CLKCTRL register in CM2 register set */ 1106 clk_mem_res = sc->sc_res[CM2_INSTANCE_MEM_REGION]; 1107 clksel_reg_off = L3INIT_CM2_OFFSET + 0x58; 1108 clksel = bus_read_4(clk_mem_res, clksel_reg_off); 1109 /* Enable the module and also enable the optional func clocks */ 1110 if (clkdev->id == USBHSHOST_CLK) { 1111 clksel &= ~CLKCTRL_MODULEMODE_MASK; 1112 clksel |= /*CLKCTRL_MODULEMODE_ENABLE*/2; 1113 1114 clksel |= (0x1 << 15); /* USB-HOST clock control: FUNC48MCLK */ 1115 } 1116 1117 else if (clkdev->id == USBP1_UTMI_CLK) 1118 clksel |= (0x1 << 8); /* UTMI_P1_CLK */ 1119 else if (clkdev->id == USBP2_UTMI_CLK) 1120 clksel |= (0x1 << 9); /* UTMI_P2_CLK */ 1121 1122 else if (clkdev->id == USBP1_HSIC_CLK) 1123 clksel |= (0x5 << 11); /* HSIC60M_P1_CLK + HSIC480M_P1_CLK */ 1124 else if (clkdev->id == USBP2_HSIC_CLK) 1125 clksel |= (0x5 << 12); /* HSIC60M_P2_CLK + HSIC480M_P2_CLK */ 1126 1127 break; 1128 1129 default: 1130 return (EINVAL); 1131 } 1132 1133 bus_write_4(clk_mem_res, clksel_reg_off, clksel); 1134 1135 /* Try MAX_MODULE_ENABLE_WAIT number of times to check if enabled */ 1136 for (i = 0; i < MAX_MODULE_ENABLE_WAIT; i++) { 1137 clksel = bus_read_4(clk_mem_res, clksel_reg_off); 1138 if ((clksel & CLKCTRL_IDLEST_MASK) == CLKCTRL_IDLEST_ENABLED) 1139 break; 1140 } 1141 1142 /* Check the enabled state */ 1143 if ((clksel & CLKCTRL_IDLEST_MASK) != CLKCTRL_IDLEST_ENABLED) { 1144 printf("Error: HERE failed to enable module with clock %d\n", clkdev->id); 1145 printf("Error: 0x%08x => 0x%08x\n", clksel_reg_off, clksel); 1146 return (ETIMEDOUT); 1147 } 1148 1149 return (0); 1150 } 1151 1152 /** 1153 * omap4_clk_generic_deactivate - checks if a module is accessible 1154 * @clkdev: pointer to the clock device structure. 1155 * @mem_res: array of memory resources allocated by the top level PRCM driver. 1156 * 1157 * 1158 * 1159 * LOCKING: 1160 * Inherits the locks from the omap_prcm driver, no internal locking. 1161 * 1162 * RETURNS: 1163 * Returns 0 on success or a positive error code on failure. 1164 */ 1165 static int 1166 omap4_clk_hsusbhost_deactivate(struct ti_clock_dev *clkdev) 1167 { 1168 struct omap4_prcm_softc *sc = omap4_prcm_sc; 1169 struct resource* clk_mem_res; 1170 uint32_t clksel_reg_off; 1171 uint32_t clksel; 1172 1173 if (sc == NULL) 1174 return ENXIO; 1175 1176 switch (clkdev->id) { 1177 case USBTLL_CLK: 1178 /* We need the CM_L3INIT_HSUSBTLL_CLKCTRL register in CM2 register set */ 1179 clk_mem_res = sc->sc_res[CM2_INSTANCE_MEM_REGION]; 1180 clksel_reg_off = L3INIT_CM2_OFFSET + 0x68; 1181 1182 clksel = bus_read_4(clk_mem_res, clksel_reg_off); 1183 clksel &= ~CLKCTRL_MODULEMODE_MASK; 1184 clksel |= CLKCTRL_MODULEMODE_DISABLE; 1185 break; 1186 1187 case USBHSHOST_CLK: 1188 case USBP1_PHY_CLK: 1189 case USBP2_PHY_CLK: 1190 case USBP1_UTMI_CLK: 1191 case USBP2_UTMI_CLK: 1192 case USBP1_HSIC_CLK: 1193 case USBP2_HSIC_CLK: 1194 /* For the USB HS HOST module we need to enable the following clocks: 1195 * - INIT_L4_ICLK (will be enabled by bootloader) 1196 * - INIT_L3_ICLK (will be enabled by bootloader) 1197 * - INIT_48MC_FCLK 1198 * - UTMI_ROOT_GFCLK (UTMI only, create a new clock for that ?) 1199 * - UTMI_P1_FCLK (UTMI only, create a new clock for that ?) 1200 * - UTMI_P2_FCLK (UTMI only, create a new clock for that ?) 1201 * - HSIC_P1_60 (HSIC only, create a new clock for that ?) 1202 * - HSIC_P1_480 (HSIC only, create a new clock for that ?) 1203 * - HSIC_P2_60 (HSIC only, create a new clock for that ?) 1204 * - HSIC_P2_480 (HSIC only, create a new clock for that ?) 1205 */ 1206 1207 /* We need the CM_L3INIT_HSUSBHOST_CLKCTRL register in CM2 register set */ 1208 clk_mem_res = sc->sc_res[CM2_INSTANCE_MEM_REGION]; 1209 clksel_reg_off = L3INIT_CM2_OFFSET + 0x58; 1210 clksel = bus_read_4(clk_mem_res, clksel_reg_off); 1211 1212 /* Enable the module and also enable the optional func clocks */ 1213 if (clkdev->id == USBHSHOST_CLK) { 1214 clksel &= ~CLKCTRL_MODULEMODE_MASK; 1215 clksel |= CLKCTRL_MODULEMODE_DISABLE; 1216 1217 clksel &= ~(0x1 << 15); /* USB-HOST clock control: FUNC48MCLK */ 1218 } 1219 1220 else if (clkdev->id == USBP1_UTMI_CLK) 1221 clksel &= ~(0x1 << 8); /* UTMI_P1_CLK */ 1222 else if (clkdev->id == USBP2_UTMI_CLK) 1223 clksel &= ~(0x1 << 9); /* UTMI_P2_CLK */ 1224 1225 else if (clkdev->id == USBP1_HSIC_CLK) 1226 clksel &= ~(0x5 << 11); /* HSIC60M_P1_CLK + HSIC480M_P1_CLK */ 1227 else if (clkdev->id == USBP2_HSIC_CLK) 1228 clksel &= ~(0x5 << 12); /* HSIC60M_P2_CLK + HSIC480M_P2_CLK */ 1229 1230 break; 1231 1232 default: 1233 return (EINVAL); 1234 } 1235 1236 bus_write_4(clk_mem_res, clksel_reg_off, clksel); 1237 1238 return (0); 1239 } 1240 1241 /** 1242 * omap4_clk_hsusbhost_accessible - checks if a module is accessible 1243 * @clkdev: pointer to the clock device structure. 1244 * @mem_res: array of memory resources allocated by the top level PRCM driver. 1245 * 1246 * 1247 * 1248 * LOCKING: 1249 * Inherits the locks from the omap_prcm driver, no internal locking. 1250 * 1251 * RETURNS: 1252 * Returns 0 if module is not enable, 1 if module is enabled or a negative 1253 * error code on failure. 1254 */ 1255 static int 1256 omap4_clk_hsusbhost_accessible(struct ti_clock_dev *clkdev) 1257 { 1258 struct omap4_prcm_softc *sc = omap4_prcm_sc; 1259 struct resource* clk_mem_res; 1260 uint32_t clksel_reg_off; 1261 uint32_t clksel; 1262 1263 if (sc == NULL) 1264 return ENXIO; 1265 1266 if (clkdev->id == USBTLL_CLK) { 1267 /* We need the CM_L3INIT_HSUSBTLL_CLKCTRL register in CM2 register set */ 1268 clk_mem_res = sc->sc_res[CM2_INSTANCE_MEM_REGION]; 1269 clksel_reg_off = L3INIT_CM2_OFFSET + 0x68; 1270 } 1271 else if (clkdev->id == USBHSHOST_CLK) { 1272 /* We need the CM_L3INIT_HSUSBHOST_CLKCTRL register in CM2 register set */ 1273 clk_mem_res = sc->sc_res[CM2_INSTANCE_MEM_REGION]; 1274 clksel_reg_off = L3INIT_CM2_OFFSET + 0x58; 1275 } 1276 else { 1277 return (EINVAL); 1278 } 1279 1280 clksel = bus_read_4(clk_mem_res, clksel_reg_off); 1281 1282 /* Check the enabled state */ 1283 if ((clksel & CLKCTRL_IDLEST_MASK) != CLKCTRL_IDLEST_ENABLED) 1284 return (0); 1285 1286 return (1); 1287 } 1288 1289 /** 1290 * omap4_clk_hsusbhost_set_source - sets the source clocks 1291 * @clkdev: pointer to the clock device structure. 1292 * @clksrc: the clock source ID for the given clock. 1293 * @mem_res: array of memory resources allocated by the top level PRCM driver. 1294 * 1295 * 1296 * 1297 * LOCKING: 1298 * Inherits the locks from the omap_prcm driver, no internal locking. 1299 * 1300 * RETURNS: 1301 * Returns 0 if sucessful otherwise a negative error code on failure. 1302 */ 1303 static int 1304 omap4_clk_hsusbhost_set_source(struct ti_clock_dev *clkdev, 1305 clk_src_t clksrc) 1306 { 1307 struct omap4_prcm_softc *sc = omap4_prcm_sc; 1308 struct resource* clk_mem_res; 1309 uint32_t clksel_reg_off; 1310 uint32_t clksel; 1311 unsigned int bit; 1312 1313 if (sc == NULL) 1314 return ENXIO; 1315 1316 if (clkdev->id == USBP1_PHY_CLK) 1317 bit = 24; 1318 else if (clkdev->id != USBP2_PHY_CLK) 1319 bit = 25; 1320 else 1321 return (EINVAL); 1322 1323 /* We need the CM_L3INIT_HSUSBHOST_CLKCTRL register in CM2 register set */ 1324 clk_mem_res = sc->sc_res[CM2_INSTANCE_MEM_REGION]; 1325 clksel_reg_off = L3INIT_CM2_OFFSET + 0x58; 1326 clksel = bus_read_4(clk_mem_res, clksel_reg_off); 1327 1328 /* Set the clock source to either external or internal */ 1329 if (clksrc == EXT_CLK) 1330 clksel |= (0x1 << bit); 1331 else 1332 clksel &= ~(0x1 << bit); 1333 1334 bus_write_4(clk_mem_res, clksel_reg_off, clksel); 1335 1336 return (0); 1337 } 1338 1339 #define PRM_RSTCTRL 0x1b00 1340 #define PRM_RSTCTRL_RESET 0x2 1341 1342 static void 1343 omap4_prcm_reset(void) 1344 { 1345 struct omap4_prcm_softc *sc = omap4_prcm_sc; 1346 bus_write_4(sc->sc_res[0], PRM_RSTCTRL, 1347 bus_read_4(sc->sc_res[0], PRM_RSTCTRL) | PRM_RSTCTRL_RESET); 1348 bus_read_4(sc->sc_res[0], PRM_RSTCTRL); 1349 } 1350 1351 /** 1352 * omap4_prcm_probe - probe function for the driver 1353 * @dev: prcm device handle 1354 * 1355 * Simply sets the name of the driver module. 1356 * 1357 * LOCKING: 1358 * None 1359 * 1360 * RETURNS: 1361 * Always returns 0 1362 */ 1363 static int 1364 omap4_prcm_probe(device_t dev) 1365 { 1366 1367 if (!ofw_bus_status_okay(dev)) 1368 return (ENXIO); 1369 1370 if (!ofw_bus_is_compatible(dev, "ti,omap4_prcm")) 1371 return (ENXIO); 1372 1373 device_set_desc(dev, "TI OMAP Power, Reset and Clock Management"); 1374 return (0); 1375 } 1376 1377 /** 1378 * omap_prcm_attach - attach function for the driver 1379 * @dev: prcm device handle 1380 * 1381 * Allocates and sets up the driver context, this simply entails creating a 1382 * bus mappings for the PRCM register set. 1383 * 1384 * LOCKING: 1385 * None 1386 * 1387 * RETURNS: 1388 * Always returns 0 1389 */ 1390 1391 extern uint32_t platform_arm_tmr_freq; 1392 1393 static int 1394 omap4_prcm_attach(device_t dev) 1395 { 1396 struct omap4_prcm_softc *sc = device_get_softc(dev); 1397 unsigned int freq; 1398 1399 if (bus_alloc_resources(dev, omap4_scm_res_spec, sc->sc_res)) { 1400 device_printf(dev, "could not allocate resources\n"); 1401 return (ENXIO); 1402 } 1403 1404 omap4_prcm_sc = sc; 1405 ti_cpu_reset = omap4_prcm_reset; 1406 omap4_clk_get_arm_fclk_freq(NULL, &freq); 1407 arm_tmr_change_frequency(freq / 2); 1408 1409 return (0); 1410 } 1411 1412 static device_method_t omap4_prcm_methods[] = { 1413 DEVMETHOD(device_probe, omap4_prcm_probe), 1414 DEVMETHOD(device_attach, omap4_prcm_attach), 1415 {0, 0}, 1416 }; 1417 1418 static driver_t omap4_prcm_driver = { 1419 "omap4_prcm", 1420 omap4_prcm_methods, 1421 sizeof(struct omap4_prcm_softc), 1422 }; 1423 1424 static devclass_t omap4_prcm_devclass; 1425 1426 EARLY_DRIVER_MODULE(omap4_prcm, simplebus, omap4_prcm_driver, 1427 omap4_prcm_devclass, 0, 0, BUS_PASS_TIMER + BUS_PASS_ORDER_EARLY); 1428 MODULE_VERSION(omap4_prcm, 1); 1429