tegra_i2c.c revision 1.16.10.1
1 1.16.10.1 pgoyette /* $NetBSD: tegra_i2c.c,v 1.16.10.1 2018/05/21 04:35:59 pgoyette Exp $ */ 2 1.1 jmcneill 3 1.1 jmcneill /*- 4 1.1 jmcneill * Copyright (c) 2015 Jared D. McNeill <jmcneill (at) invisible.ca> 5 1.1 jmcneill * All rights reserved. 6 1.1 jmcneill * 7 1.1 jmcneill * Redistribution and use in source and binary forms, with or without 8 1.1 jmcneill * modification, are permitted provided that the following conditions 9 1.1 jmcneill * are met: 10 1.1 jmcneill * 1. Redistributions of source code must retain the above copyright 11 1.1 jmcneill * notice, this list of conditions and the following disclaimer. 12 1.1 jmcneill * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 jmcneill * notice, this list of conditions and the following disclaimer in the 14 1.1 jmcneill * documentation and/or other materials provided with the distribution. 15 1.1 jmcneill * 16 1.1 jmcneill * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.1 jmcneill * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.1 jmcneill * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.1 jmcneill * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.1 jmcneill * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 21 1.1 jmcneill * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 22 1.1 jmcneill * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 23 1.1 jmcneill * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 24 1.1 jmcneill * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 1.1 jmcneill * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 1.1 jmcneill * SUCH DAMAGE. 27 1.1 jmcneill */ 28 1.1 jmcneill 29 1.1 jmcneill #include <sys/cdefs.h> 30 1.16.10.1 pgoyette __KERNEL_RCSID(0, "$NetBSD: tegra_i2c.c,v 1.16.10.1 2018/05/21 04:35:59 pgoyette Exp $"); 31 1.1 jmcneill 32 1.1 jmcneill #include <sys/param.h> 33 1.1 jmcneill #include <sys/bus.h> 34 1.1 jmcneill #include <sys/device.h> 35 1.1 jmcneill #include <sys/intr.h> 36 1.1 jmcneill #include <sys/systm.h> 37 1.1 jmcneill #include <sys/kernel.h> 38 1.1 jmcneill 39 1.1 jmcneill #include <dev/i2c/i2cvar.h> 40 1.1 jmcneill 41 1.1 jmcneill #include <arm/nvidia/tegra_reg.h> 42 1.1 jmcneill #include <arm/nvidia/tegra_i2creg.h> 43 1.1 jmcneill #include <arm/nvidia/tegra_var.h> 44 1.1 jmcneill 45 1.9 jmcneill #include <dev/fdt/fdtvar.h> 46 1.9 jmcneill 47 1.1 jmcneill static int tegra_i2c_match(device_t, cfdata_t, void *); 48 1.1 jmcneill static void tegra_i2c_attach(device_t, device_t, void *); 49 1.1 jmcneill 50 1.9 jmcneill static i2c_tag_t tegra_i2c_get_tag(device_t); 51 1.9 jmcneill 52 1.9 jmcneill struct fdtbus_i2c_controller_func tegra_i2c_funcs = { 53 1.9 jmcneill .get_tag = tegra_i2c_get_tag 54 1.9 jmcneill }; 55 1.9 jmcneill 56 1.1 jmcneill struct tegra_i2c_softc { 57 1.1 jmcneill device_t sc_dev; 58 1.1 jmcneill bus_space_tag_t sc_bst; 59 1.1 jmcneill bus_space_handle_t sc_bsh; 60 1.1 jmcneill void * sc_ih; 61 1.11 jmcneill struct clk * sc_clk; 62 1.11 jmcneill struct fdtbus_reset * sc_rst; 63 1.11 jmcneill u_int sc_cid; 64 1.1 jmcneill 65 1.1 jmcneill struct i2c_controller sc_ic; 66 1.1 jmcneill kmutex_t sc_lock; 67 1.1 jmcneill kcondvar_t sc_cv; 68 1.1 jmcneill device_t sc_i2cdev; 69 1.1 jmcneill }; 70 1.1 jmcneill 71 1.1 jmcneill static void tegra_i2c_init(struct tegra_i2c_softc *); 72 1.1 jmcneill static int tegra_i2c_intr(void *); 73 1.1 jmcneill 74 1.1 jmcneill static int tegra_i2c_acquire_bus(void *, int); 75 1.1 jmcneill static void tegra_i2c_release_bus(void *, int); 76 1.1 jmcneill static int tegra_i2c_exec(void *, i2c_op_t, i2c_addr_t, const void *, 77 1.1 jmcneill size_t, void *, size_t, int); 78 1.1 jmcneill 79 1.1 jmcneill static int tegra_i2c_wait(struct tegra_i2c_softc *, int); 80 1.1 jmcneill static int tegra_i2c_write(struct tegra_i2c_softc *, i2c_addr_t, 81 1.6 jmcneill const uint8_t *, size_t, int, bool); 82 1.1 jmcneill static int tegra_i2c_read(struct tegra_i2c_softc *, i2c_addr_t, uint8_t *, 83 1.1 jmcneill size_t, int); 84 1.1 jmcneill 85 1.1 jmcneill CFATTACH_DECL_NEW(tegra_i2c, sizeof(struct tegra_i2c_softc), 86 1.1 jmcneill tegra_i2c_match, tegra_i2c_attach, NULL, NULL); 87 1.1 jmcneill 88 1.1 jmcneill #define I2C_WRITE(sc, reg, val) \ 89 1.1 jmcneill bus_space_write_4((sc)->sc_bst, (sc)->sc_bsh, (reg), (val)) 90 1.1 jmcneill #define I2C_READ(sc, reg) \ 91 1.1 jmcneill bus_space_read_4((sc)->sc_bst, (sc)->sc_bsh, (reg)) 92 1.1 jmcneill #define I2C_SET_CLEAR(sc, reg, setval, clrval) \ 93 1.1 jmcneill tegra_reg_set_clear((sc)->sc_bst, (sc)->sc_bsh, (reg), (setval), (clrval)) 94 1.1 jmcneill 95 1.1 jmcneill static int 96 1.1 jmcneill tegra_i2c_match(device_t parent, cfdata_t cf, void *aux) 97 1.1 jmcneill { 98 1.16 jmcneill const char * const compatible[] = { 99 1.16 jmcneill "nvidia,tegra210-i2c", 100 1.16 jmcneill "nvidia,tegra124-i2c", 101 1.16 jmcneill "nvidia,tegra114-i2c", 102 1.16 jmcneill NULL 103 1.16 jmcneill }; 104 1.9 jmcneill struct fdt_attach_args * const faa = aux; 105 1.1 jmcneill 106 1.9 jmcneill return of_match_compatible(faa->faa_phandle, compatible); 107 1.1 jmcneill } 108 1.1 jmcneill 109 1.1 jmcneill static void 110 1.1 jmcneill tegra_i2c_attach(device_t parent, device_t self, void *aux) 111 1.1 jmcneill { 112 1.1 jmcneill struct tegra_i2c_softc * const sc = device_private(self); 113 1.9 jmcneill struct fdt_attach_args * const faa = aux; 114 1.10 jmcneill const int phandle = faa->faa_phandle; 115 1.1 jmcneill struct i2cbus_attach_args iba; 116 1.9 jmcneill prop_dictionary_t devs; 117 1.9 jmcneill char intrstr[128]; 118 1.9 jmcneill bus_addr_t addr; 119 1.9 jmcneill bus_size_t size; 120 1.9 jmcneill u_int address_cells; 121 1.10 jmcneill int error; 122 1.9 jmcneill 123 1.10 jmcneill if (fdtbus_get_reg(phandle, 0, &addr, &size) != 0) { 124 1.9 jmcneill aprint_error(": couldn't get registers\n"); 125 1.9 jmcneill return; 126 1.9 jmcneill } 127 1.11 jmcneill sc->sc_clk = fdtbus_clock_get(phandle, "div-clk"); 128 1.11 jmcneill if (sc->sc_clk == NULL) { 129 1.11 jmcneill aprint_error(": couldn't get clock div-clk\n"); 130 1.11 jmcneill return; 131 1.11 jmcneill } 132 1.11 jmcneill sc->sc_rst = fdtbus_reset_get(phandle, "i2c"); 133 1.11 jmcneill if (sc->sc_rst == NULL) { 134 1.11 jmcneill aprint_error(": couldn't get reset i2c\n"); 135 1.11 jmcneill return; 136 1.11 jmcneill } 137 1.1 jmcneill 138 1.1 jmcneill sc->sc_dev = self; 139 1.9 jmcneill sc->sc_bst = faa->faa_bst; 140 1.11 jmcneill sc->sc_cid = device_unit(self); 141 1.9 jmcneill error = bus_space_map(sc->sc_bst, addr, size, 0, &sc->sc_bsh); 142 1.9 jmcneill if (error) { 143 1.9 jmcneill aprint_error(": couldn't map %#llx: %d", (uint64_t)addr, error); 144 1.9 jmcneill return; 145 1.9 jmcneill } 146 1.1 jmcneill mutex_init(&sc->sc_lock, MUTEX_DEFAULT, IPL_VM); 147 1.1 jmcneill cv_init(&sc->sc_cv, device_xname(self)); 148 1.1 jmcneill 149 1.1 jmcneill aprint_naive("\n"); 150 1.11 jmcneill aprint_normal(": I2C\n"); 151 1.1 jmcneill 152 1.10 jmcneill if (!fdtbus_intr_str(phandle, 0, intrstr, sizeof(intrstr))) { 153 1.9 jmcneill aprint_error_dev(self, "failed to decode interrupt\n"); 154 1.9 jmcneill return; 155 1.9 jmcneill } 156 1.9 jmcneill 157 1.10 jmcneill sc->sc_ih = fdtbus_intr_establish(phandle, 0, IPL_VM, 158 1.9 jmcneill FDT_INTR_MPSAFE, tegra_i2c_intr, sc); 159 1.1 jmcneill if (sc->sc_ih == NULL) { 160 1.9 jmcneill aprint_error_dev(self, "couldn't establish interrupt on %s\n", 161 1.9 jmcneill intrstr); 162 1.1 jmcneill return; 163 1.1 jmcneill } 164 1.9 jmcneill aprint_normal_dev(self, "interrupting on %s\n", intrstr); 165 1.1 jmcneill 166 1.8 jmcneill /* 167 1.8 jmcneill * Recommended setting for standard mode is to use an I2C source div 168 1.8 jmcneill * of 20 (Tegra K1 Technical Reference Manual, Table 137) 169 1.8 jmcneill */ 170 1.11 jmcneill fdtbus_reset_assert(sc->sc_rst); 171 1.11 jmcneill error = clk_set_rate(sc->sc_clk, 20400000); 172 1.11 jmcneill if (error) { 173 1.11 jmcneill aprint_error_dev(self, "couldn't set frequency: %d\n", error); 174 1.11 jmcneill return; 175 1.11 jmcneill } 176 1.11 jmcneill error = clk_enable(sc->sc_clk); 177 1.11 jmcneill if (error) { 178 1.11 jmcneill aprint_error_dev(self, "couldn't enable clock: %d\n", error); 179 1.11 jmcneill return; 180 1.11 jmcneill } 181 1.11 jmcneill fdtbus_reset_deassert(sc->sc_rst); 182 1.1 jmcneill 183 1.1 jmcneill tegra_i2c_init(sc); 184 1.1 jmcneill 185 1.1 jmcneill sc->sc_ic.ic_cookie = sc; 186 1.1 jmcneill sc->sc_ic.ic_acquire_bus = tegra_i2c_acquire_bus; 187 1.1 jmcneill sc->sc_ic.ic_release_bus = tegra_i2c_release_bus; 188 1.1 jmcneill sc->sc_ic.ic_exec = tegra_i2c_exec; 189 1.1 jmcneill 190 1.10 jmcneill fdtbus_register_i2c_controller(self, phandle, &tegra_i2c_funcs); 191 1.9 jmcneill 192 1.9 jmcneill devs = prop_dictionary_create(); 193 1.10 jmcneill 194 1.10 jmcneill if (of_getprop_uint32(phandle, "#address-cells", &address_cells)) 195 1.9 jmcneill address_cells = 1; 196 1.10 jmcneill 197 1.9 jmcneill of_enter_i2c_devs(devs, faa->faa_phandle, address_cells * 4, 0); 198 1.9 jmcneill 199 1.13 chs memset(&iba, 0, sizeof(iba)); 200 1.1 jmcneill iba.iba_tag = &sc->sc_ic; 201 1.9 jmcneill iba.iba_child_devices = prop_dictionary_get(devs, "i2c-child-devices"); 202 1.16.10.1 pgoyette if (iba.iba_child_devices != NULL) 203 1.9 jmcneill prop_object_retain(iba.iba_child_devices); 204 1.9 jmcneill prop_object_release(devs); 205 1.9 jmcneill 206 1.1 jmcneill sc->sc_i2cdev = config_found_ia(self, "i2cbus", &iba, iicbus_print); 207 1.1 jmcneill } 208 1.1 jmcneill 209 1.9 jmcneill static i2c_tag_t 210 1.9 jmcneill tegra_i2c_get_tag(device_t dev) 211 1.9 jmcneill { 212 1.9 jmcneill struct tegra_i2c_softc * const sc = device_private(dev); 213 1.9 jmcneill 214 1.9 jmcneill return &sc->sc_ic; 215 1.9 jmcneill } 216 1.9 jmcneill 217 1.1 jmcneill static void 218 1.1 jmcneill tegra_i2c_init(struct tegra_i2c_softc *sc) 219 1.1 jmcneill { 220 1.4 jmcneill int retry = 10000; 221 1.4 jmcneill 222 1.1 jmcneill I2C_WRITE(sc, I2C_CLK_DIVISOR_REG, 223 1.1 jmcneill __SHIFTIN(0x19, I2C_CLK_DIVISOR_STD_FAST_MODE) | 224 1.1 jmcneill __SHIFTIN(0x1, I2C_CLK_DIVISOR_HSMODE)); 225 1.1 jmcneill 226 1.1 jmcneill I2C_WRITE(sc, I2C_INTERRUPT_MASK_REG, 0); 227 1.2 jmcneill I2C_WRITE(sc, I2C_CNFG_REG, 228 1.2 jmcneill I2C_CNFG_NEW_MASTER_FSM | I2C_CNFG_PACKET_MODE_EN); 229 1.1 jmcneill I2C_SET_CLEAR(sc, I2C_SL_CNFG_REG, I2C_SL_CNFG_NEWSL, 0); 230 1.4 jmcneill I2C_WRITE(sc, I2C_FIFO_CONTROL_REG, 231 1.4 jmcneill __SHIFTIN(7, I2C_FIFO_CONTROL_TX_FIFO_TRIG) | 232 1.4 jmcneill __SHIFTIN(0, I2C_FIFO_CONTROL_RX_FIFO_TRIG)); 233 1.4 jmcneill 234 1.3 jmcneill I2C_WRITE(sc, I2C_BUS_CONFIG_LOAD_REG, 235 1.3 jmcneill I2C_BUS_CONFIG_LOAD_MSTR_CONFIG_LOAD); 236 1.4 jmcneill while (--retry > 0) { 237 1.4 jmcneill if (I2C_READ(sc, I2C_BUS_CONFIG_LOAD_REG) == 0) 238 1.4 jmcneill break; 239 1.4 jmcneill delay(10); 240 1.4 jmcneill } 241 1.4 jmcneill if (retry == 0) { 242 1.4 jmcneill device_printf(sc->sc_dev, "config load timeout\n"); 243 1.4 jmcneill } 244 1.1 jmcneill } 245 1.1 jmcneill 246 1.1 jmcneill static int 247 1.1 jmcneill tegra_i2c_intr(void *priv) 248 1.1 jmcneill { 249 1.1 jmcneill struct tegra_i2c_softc * const sc = priv; 250 1.1 jmcneill 251 1.1 jmcneill const uint32_t istatus = I2C_READ(sc, I2C_INTERRUPT_STATUS_REG); 252 1.1 jmcneill if (istatus == 0) 253 1.1 jmcneill return 0; 254 1.1 jmcneill I2C_WRITE(sc, I2C_INTERRUPT_STATUS_REG, istatus); 255 1.1 jmcneill 256 1.1 jmcneill mutex_enter(&sc->sc_lock); 257 1.1 jmcneill cv_broadcast(&sc->sc_cv); 258 1.1 jmcneill mutex_exit(&sc->sc_lock); 259 1.1 jmcneill 260 1.1 jmcneill return 1; 261 1.1 jmcneill } 262 1.1 jmcneill 263 1.1 jmcneill static int 264 1.1 jmcneill tegra_i2c_acquire_bus(void *priv, int flags) 265 1.1 jmcneill { 266 1.1 jmcneill struct tegra_i2c_softc * const sc = priv; 267 1.1 jmcneill 268 1.1 jmcneill mutex_enter(&sc->sc_lock); 269 1.1 jmcneill 270 1.1 jmcneill return 0; 271 1.1 jmcneill } 272 1.1 jmcneill 273 1.1 jmcneill static void 274 1.1 jmcneill tegra_i2c_release_bus(void *priv, int flags) 275 1.1 jmcneill { 276 1.1 jmcneill struct tegra_i2c_softc * const sc = priv; 277 1.1 jmcneill 278 1.1 jmcneill mutex_exit(&sc->sc_lock); 279 1.1 jmcneill } 280 1.1 jmcneill 281 1.1 jmcneill static int 282 1.1 jmcneill tegra_i2c_exec(void *priv, i2c_op_t op, i2c_addr_t addr, const void *cmdbuf, 283 1.1 jmcneill size_t cmdlen, void *buf, size_t buflen, int flags) 284 1.1 jmcneill { 285 1.1 jmcneill struct tegra_i2c_softc * const sc = priv; 286 1.1 jmcneill int retry, error; 287 1.1 jmcneill 288 1.1 jmcneill #if notyet 289 1.1 jmcneill if (cold) 290 1.1 jmcneill #endif 291 1.1 jmcneill flags |= I2C_F_POLL; 292 1.1 jmcneill 293 1.1 jmcneill KASSERT(mutex_owned(&sc->sc_lock)); 294 1.1 jmcneill 295 1.1 jmcneill if ((flags & I2C_F_POLL) == 0) { 296 1.1 jmcneill I2C_WRITE(sc, I2C_INTERRUPT_MASK_REG, 297 1.1 jmcneill I2C_INTERRUPT_MASK_NOACK | I2C_INTERRUPT_MASK_ARB_LOST | 298 1.1 jmcneill I2C_INTERRUPT_MASK_TIMEOUT | 299 1.1 jmcneill I2C_INTERRUPT_MASK_ALL_PACKETS_XFER_COMPLETE); 300 1.1 jmcneill } 301 1.1 jmcneill 302 1.1 jmcneill const uint32_t flush_mask = 303 1.1 jmcneill I2C_FIFO_CONTROL_TX_FIFO_FLUSH | I2C_FIFO_CONTROL_RX_FIFO_FLUSH; 304 1.1 jmcneill 305 1.1 jmcneill I2C_SET_CLEAR(sc, I2C_FIFO_CONTROL_REG, flush_mask, 0); 306 1.1 jmcneill for (retry = 10000; retry > 0; retry--) { 307 1.1 jmcneill const uint32_t v = I2C_READ(sc, I2C_FIFO_CONTROL_REG); 308 1.1 jmcneill if ((v & flush_mask) == 0) 309 1.1 jmcneill break; 310 1.1 jmcneill delay(1); 311 1.1 jmcneill } 312 1.1 jmcneill if (retry == 0) { 313 1.1 jmcneill device_printf(sc->sc_dev, "timeout flushing FIFO\n"); 314 1.1 jmcneill return EIO; 315 1.1 jmcneill } 316 1.1 jmcneill 317 1.1 jmcneill if (cmdlen > 0) { 318 1.7 jmcneill error = tegra_i2c_write(sc, addr, cmdbuf, cmdlen, flags, 319 1.15 jakllsch buflen > 0 ? true : false); 320 1.1 jmcneill if (error) { 321 1.1 jmcneill goto done; 322 1.1 jmcneill } 323 1.1 jmcneill } 324 1.1 jmcneill 325 1.1 jmcneill if (I2C_OP_READ_P(op)) { 326 1.1 jmcneill error = tegra_i2c_read(sc, addr, buf, buflen, flags); 327 1.1 jmcneill } else { 328 1.6 jmcneill error = tegra_i2c_write(sc, addr, buf, buflen, flags, false); 329 1.1 jmcneill } 330 1.1 jmcneill 331 1.1 jmcneill done: 332 1.1 jmcneill if ((flags & I2C_F_POLL) == 0) { 333 1.1 jmcneill I2C_WRITE(sc, I2C_INTERRUPT_MASK_REG, 0); 334 1.1 jmcneill } 335 1.3 jmcneill 336 1.3 jmcneill if (error) { 337 1.3 jmcneill tegra_i2c_init(sc); 338 1.3 jmcneill } 339 1.3 jmcneill 340 1.1 jmcneill return error; 341 1.1 jmcneill } 342 1.1 jmcneill 343 1.1 jmcneill static int 344 1.1 jmcneill tegra_i2c_wait(struct tegra_i2c_softc *sc, int flags) 345 1.1 jmcneill { 346 1.2 jmcneill int error, retry; 347 1.2 jmcneill uint32_t stat = 0; 348 1.2 jmcneill 349 1.2 jmcneill retry = (flags & I2C_F_POLL) ? 100000 : 100; 350 1.2 jmcneill 351 1.2 jmcneill while (--retry > 0) { 352 1.1 jmcneill if ((flags & I2C_F_POLL) == 0) { 353 1.1 jmcneill error = cv_timedwait_sig(&sc->sc_cv, &sc->sc_lock, 354 1.2 jmcneill max(mstohz(10), 1)); 355 1.1 jmcneill if (error) { 356 1.1 jmcneill return error; 357 1.1 jmcneill } 358 1.1 jmcneill } 359 1.2 jmcneill stat = I2C_READ(sc, I2C_INTERRUPT_STATUS_REG); 360 1.2 jmcneill if (stat & I2C_INTERRUPT_STATUS_PACKET_XFER_COMPLETE) { 361 1.1 jmcneill break; 362 1.1 jmcneill } 363 1.1 jmcneill if (flags & I2C_F_POLL) { 364 1.2 jmcneill delay(10); 365 1.1 jmcneill } 366 1.1 jmcneill } 367 1.2 jmcneill if (retry == 0) { 368 1.2 jmcneill stat = I2C_READ(sc, I2C_INTERRUPT_STATUS_REG); 369 1.2 jmcneill device_printf(sc->sc_dev, "timed out, status = %#x\n", stat); 370 1.2 jmcneill return ETIMEDOUT; 371 1.2 jmcneill } 372 1.1 jmcneill 373 1.2 jmcneill const uint32_t err_mask = 374 1.2 jmcneill I2C_INTERRUPT_STATUS_NOACK | 375 1.2 jmcneill I2C_INTERRUPT_STATUS_ARB_LOST | 376 1.2 jmcneill I2C_INTERRUPT_MASK_TIMEOUT; 377 1.1 jmcneill 378 1.2 jmcneill if (stat & err_mask) { 379 1.2 jmcneill device_printf(sc->sc_dev, "error, status = %#x\n", stat); 380 1.1 jmcneill return EIO; 381 1.2 jmcneill } 382 1.1 jmcneill 383 1.1 jmcneill return 0; 384 1.1 jmcneill } 385 1.1 jmcneill 386 1.1 jmcneill static int 387 1.1 jmcneill tegra_i2c_write(struct tegra_i2c_softc *sc, i2c_addr_t addr, const uint8_t *buf, 388 1.6 jmcneill size_t buflen, int flags, bool repeat_start) 389 1.1 jmcneill { 390 1.2 jmcneill const uint8_t *p = buf; 391 1.2 jmcneill size_t n, resid = buflen; 392 1.2 jmcneill uint32_t data; 393 1.2 jmcneill int retry; 394 1.1 jmcneill 395 1.2 jmcneill const uint32_t istatus = I2C_READ(sc, I2C_INTERRUPT_STATUS_REG); 396 1.2 jmcneill I2C_WRITE(sc, I2C_INTERRUPT_STATUS_REG, istatus); 397 1.1 jmcneill 398 1.2 jmcneill /* Generic Header 0 */ 399 1.2 jmcneill I2C_WRITE(sc, I2C_TX_PACKET_FIFO_REG, 400 1.2 jmcneill __SHIFTIN(I2C_IOPACKET_WORD0_PROTHDRSZ_REQ, 401 1.2 jmcneill I2C_IOPACKET_WORD0_PROTHDRSZ) | 402 1.11 jmcneill __SHIFTIN(sc->sc_cid, I2C_IOPACKET_WORD0_CONTROLLERID) | 403 1.2 jmcneill __SHIFTIN(1, I2C_IOPACKET_WORD0_PKTID) | 404 1.2 jmcneill __SHIFTIN(I2C_IOPACKET_WORD0_PROTOCOL_I2C, 405 1.2 jmcneill I2C_IOPACKET_WORD0_PROTOCOL) | 406 1.2 jmcneill __SHIFTIN(I2C_IOPACKET_WORD0_PKTTYPE_REQ, 407 1.2 jmcneill I2C_IOPACKET_WORD0_PKTTYPE)); 408 1.2 jmcneill /* Generic Header 1 */ 409 1.2 jmcneill I2C_WRITE(sc, I2C_TX_PACKET_FIFO_REG, 410 1.2 jmcneill __SHIFTIN(buflen - 1, I2C_IOPACKET_WORD1_PAYLOADSIZE)); 411 1.2 jmcneill /* I2C Master Transmit Packet Header */ 412 1.2 jmcneill I2C_WRITE(sc, I2C_TX_PACKET_FIFO_REG, 413 1.2 jmcneill I2C_IOPACKET_XMITHDR_IE | 414 1.6 jmcneill (repeat_start ? I2C_IOPACKET_XMITHDR_REPEAT_STARTSTOP : 0) | 415 1.2 jmcneill __SHIFTIN((addr << 1), I2C_IOPACKET_XMITHDR_SLAVE_ADDR)); 416 1.2 jmcneill 417 1.2 jmcneill /* Transmit data */ 418 1.2 jmcneill while (resid > 0) { 419 1.2 jmcneill retry = 10000; 420 1.2 jmcneill while (--retry > 0) { 421 1.2 jmcneill const uint32_t fs = I2C_READ(sc, I2C_FIFO_STATUS_REG); 422 1.2 jmcneill const u_int cnt = 423 1.2 jmcneill __SHIFTOUT(fs, I2C_FIFO_STATUS_TX_FIFO_EMPTY_CNT); 424 1.2 jmcneill if (cnt > 0) 425 1.2 jmcneill break; 426 1.2 jmcneill delay(10); 427 1.2 jmcneill } 428 1.2 jmcneill if (retry == 0) { 429 1.2 jmcneill device_printf(sc->sc_dev, "TX FIFO timeout\n"); 430 1.2 jmcneill return ETIMEDOUT; 431 1.2 jmcneill } 432 1.1 jmcneill 433 1.2 jmcneill for (n = 0, data = 0; n < min(resid, 4); n++) { 434 1.2 jmcneill data |= (uint32_t)p[n] << (n * 8); 435 1.2 jmcneill } 436 1.2 jmcneill I2C_WRITE(sc, I2C_TX_PACKET_FIFO_REG, data); 437 1.14 jakllsch p += min(resid, 4); 438 1.2 jmcneill resid -= min(resid, 4); 439 1.2 jmcneill } 440 1.1 jmcneill 441 1.1 jmcneill return tegra_i2c_wait(sc, flags); 442 1.1 jmcneill } 443 1.1 jmcneill 444 1.1 jmcneill static int 445 1.1 jmcneill tegra_i2c_read(struct tegra_i2c_softc *sc, i2c_addr_t addr, uint8_t *buf, 446 1.1 jmcneill size_t buflen, int flags) 447 1.1 jmcneill { 448 1.2 jmcneill uint8_t *p = buf; 449 1.2 jmcneill size_t n, resid = buflen; 450 1.2 jmcneill uint32_t data; 451 1.3 jmcneill int retry; 452 1.2 jmcneill 453 1.2 jmcneill const uint32_t istatus = I2C_READ(sc, I2C_INTERRUPT_STATUS_REG); 454 1.2 jmcneill I2C_WRITE(sc, I2C_INTERRUPT_STATUS_REG, istatus); 455 1.1 jmcneill 456 1.2 jmcneill /* Generic Header 0 */ 457 1.2 jmcneill I2C_WRITE(sc, I2C_TX_PACKET_FIFO_REG, 458 1.2 jmcneill __SHIFTIN(I2C_IOPACKET_WORD0_PROTHDRSZ_REQ, 459 1.2 jmcneill I2C_IOPACKET_WORD0_PROTHDRSZ) | 460 1.11 jmcneill __SHIFTIN(sc->sc_cid, I2C_IOPACKET_WORD0_CONTROLLERID) | 461 1.2 jmcneill __SHIFTIN(1, I2C_IOPACKET_WORD0_PKTID) | 462 1.2 jmcneill __SHIFTIN(I2C_IOPACKET_WORD0_PROTOCOL_I2C, 463 1.2 jmcneill I2C_IOPACKET_WORD0_PROTOCOL) | 464 1.2 jmcneill __SHIFTIN(I2C_IOPACKET_WORD0_PKTTYPE_REQ, 465 1.2 jmcneill I2C_IOPACKET_WORD0_PKTTYPE)); 466 1.2 jmcneill /* Generic Header 1 */ 467 1.2 jmcneill I2C_WRITE(sc, I2C_TX_PACKET_FIFO_REG, 468 1.2 jmcneill __SHIFTIN(buflen - 1, I2C_IOPACKET_WORD1_PAYLOADSIZE)); 469 1.2 jmcneill /* I2C Master Transmit Packet Header */ 470 1.2 jmcneill I2C_WRITE(sc, I2C_TX_PACKET_FIFO_REG, 471 1.2 jmcneill I2C_IOPACKET_XMITHDR_IE | I2C_IOPACKET_XMITHDR_READ | 472 1.2 jmcneill __SHIFTIN((addr << 1) | 1, I2C_IOPACKET_XMITHDR_SLAVE_ADDR)); 473 1.1 jmcneill 474 1.2 jmcneill while (resid > 0) { 475 1.2 jmcneill retry = 10000; 476 1.2 jmcneill while (--retry > 0) { 477 1.2 jmcneill const uint32_t fs = I2C_READ(sc, I2C_FIFO_STATUS_REG); 478 1.2 jmcneill const u_int cnt = 479 1.2 jmcneill __SHIFTOUT(fs, I2C_FIFO_STATUS_RX_FIFO_FULL_CNT); 480 1.2 jmcneill if (cnt > 0) 481 1.2 jmcneill break; 482 1.2 jmcneill delay(10); 483 1.2 jmcneill } 484 1.2 jmcneill if (retry == 0) { 485 1.2 jmcneill device_printf(sc->sc_dev, "RX FIFO timeout\n"); 486 1.2 jmcneill return ETIMEDOUT; 487 1.2 jmcneill } 488 1.1 jmcneill 489 1.2 jmcneill data = I2C_READ(sc, I2C_RX_FIFO_REG); 490 1.2 jmcneill for (n = 0; n < min(resid, 4); n++) { 491 1.2 jmcneill p[n] = (data >> (n * 8)) & 0xff; 492 1.2 jmcneill } 493 1.14 jakllsch p += min(resid, 4); 494 1.2 jmcneill resid -= min(resid, 4); 495 1.1 jmcneill } 496 1.1 jmcneill 497 1.3 jmcneill return tegra_i2c_wait(sc, flags); 498 1.1 jmcneill } 499
Indexes created Thu Oct 02 14:10:14 GMT 2025