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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 | /* linux/drivers/mfd/sm501.c * * Copyright (C) 2006 Simtec Electronics * Ben Dooks <ben@simtec.co.uk> * Vincent Sanders <vince@simtec.co.uk> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * SM501 MFD driver */ #include <linux/kernel.h> #include <linux/module.h> #include <linux/delay.h> #include <linux/init.h> #include <linux/list.h> #include <linux/device.h> #include <linux/platform_device.h> #include <linux/pci.h> #include <linux/sm501.h> #include <linux/sm501-regs.h> #include <linux/serial_8250.h> #include <asm/io.h> struct sm501_device { struct list_head list; struct platform_device pdev; }; struct sm501_devdata { spinlock_t reg_lock; struct mutex clock_lock; struct list_head devices; struct device *dev; struct resource *io_res; struct resource *mem_res; struct resource *regs_claim; struct sm501_platdata *platdata; unsigned int in_suspend; unsigned long pm_misc; int unit_power[20]; unsigned int pdev_id; unsigned int irq; void __iomem *regs; unsigned int rev; }; #define MHZ (1000 * 1000) #ifdef DEBUG static const unsigned int div_tab[] = { [0] = 1, [1] = 2, [2] = 4, [3] = 8, [4] = 16, [5] = 32, [6] = 64, [7] = 128, [8] = 3, [9] = 6, [10] = 12, [11] = 24, [12] = 48, [13] = 96, [14] = 192, [15] = 384, [16] = 5, [17] = 10, [18] = 20, [19] = 40, [20] = 80, [21] = 160, [22] = 320, [23] = 604, }; static unsigned long decode_div(unsigned long pll2, unsigned long val, unsigned int lshft, unsigned int selbit, unsigned long mask) { if (val & selbit) pll2 = 288 * MHZ; return pll2 / div_tab[(val >> lshft) & mask]; } #define fmt_freq(x) ((x) / MHZ), ((x) % MHZ), (x) /* sm501_dump_clk * * Print out the current clock configuration for the device */ static void sm501_dump_clk(struct sm501_devdata *sm) { unsigned long misct = readl(sm->regs + SM501_MISC_TIMING); unsigned long pm0 = readl(sm->regs + SM501_POWER_MODE_0_CLOCK); unsigned long pm1 = readl(sm->regs + SM501_POWER_MODE_1_CLOCK); unsigned long pmc = readl(sm->regs + SM501_POWER_MODE_CONTROL); unsigned long sdclk0, sdclk1; unsigned long pll2 = 0; switch (misct & 0x30) { case 0x00: pll2 = 336 * MHZ; break; case 0x10: pll2 = 288 * MHZ; break; case 0x20: pll2 = 240 * MHZ; break; case 0x30: pll2 = 192 * MHZ; break; } sdclk0 = (misct & (1<<12)) ? pll2 : 288 * MHZ; sdclk0 /= div_tab[((misct >> 8) & 0xf)]; sdclk1 = (misct & (1<<20)) ? pll2 : 288 * MHZ; sdclk1 /= div_tab[((misct >> 16) & 0xf)]; dev_dbg(sm->dev, "MISCT=%08lx, PM0=%08lx, PM1=%08lx\n", misct, pm0, pm1); dev_dbg(sm->dev, "PLL2 = %ld.%ld MHz (%ld), SDCLK0=%08lx, SDCLK1=%08lx\n", fmt_freq(pll2), sdclk0, sdclk1); dev_dbg(sm->dev, "SDRAM: PM0=%ld, PM1=%ld\n", sdclk0, sdclk1); dev_dbg(sm->dev, "PM0[%c]: " "P2 %ld.%ld MHz (%ld), V2 %ld.%ld (%ld), " "M %ld.%ld (%ld), MX1 %ld.%ld (%ld)\n", (pmc & 3 ) == 0 ? '*' : '-', fmt_freq(decode_div(pll2, pm0, 24, 1<<29, 31)), fmt_freq(decode_div(pll2, pm0, 16, 1<<20, 15)), fmt_freq(decode_div(pll2, pm0, 8, 1<<12, 15)), fmt_freq(decode_div(pll2, pm0, 0, 1<<4, 15))); dev_dbg(sm->dev, "PM1[%c]: " "P2 %ld.%ld MHz (%ld), V2 %ld.%ld (%ld), " "M %ld.%ld (%ld), MX1 %ld.%ld (%ld)\n", (pmc & 3 ) == 1 ? '*' : '-', fmt_freq(decode_div(pll2, pm1, 24, 1<<29, 31)), fmt_freq(decode_div(pll2, pm1, 16, 1<<20, 15)), fmt_freq(decode_div(pll2, pm1, 8, 1<<12, 15)), fmt_freq(decode_div(pll2, pm1, 0, 1<<4, 15))); } static void sm501_dump_regs(struct sm501_devdata *sm) { void __iomem *regs = sm->regs; dev_info(sm->dev, "System Control %08x\n", readl(regs + SM501_SYSTEM_CONTROL)); dev_info(sm->dev, "Misc Control %08x\n", readl(regs + SM501_MISC_CONTROL)); dev_info(sm->dev, "GPIO Control Low %08x\n", readl(regs + SM501_GPIO31_0_CONTROL)); dev_info(sm->dev, "GPIO Control Hi %08x\n", readl(regs + SM501_GPIO63_32_CONTROL)); dev_info(sm->dev, "DRAM Control %08x\n", readl(regs + SM501_DRAM_CONTROL)); dev_info(sm->dev, "Arbitration Ctrl %08x\n", readl(regs + SM501_ARBTRTN_CONTROL)); dev_info(sm->dev, "Misc Timing %08x\n", readl(regs + SM501_MISC_TIMING)); } static void sm501_dump_gate(struct sm501_devdata *sm) { dev_info(sm->dev, "CurrentGate %08x\n", readl(sm->regs + SM501_CURRENT_GATE)); dev_info(sm->dev, "CurrentClock %08x\n", readl(sm->regs + SM501_CURRENT_CLOCK)); dev_info(sm->dev, "PowerModeControl %08x\n", readl(sm->regs + SM501_POWER_MODE_CONTROL)); } #else static inline void sm501_dump_gate(struct sm501_devdata *sm) { } static inline void sm501_dump_regs(struct sm501_devdata *sm) { } static inline void sm501_dump_clk(struct sm501_devdata *sm) { } #endif /* sm501_sync_regs * * ensure the */ static void sm501_sync_regs(struct sm501_devdata *sm) { readl(sm->regs); } static inline void sm501_mdelay(struct sm501_devdata *sm, unsigned int delay) { /* during suspend/resume, we are currently not allowed to sleep, * so change to using mdelay() instead of msleep() if we * are in one of these paths */ if (sm->in_suspend) mdelay(delay); else msleep(delay); } /* sm501_misc_control * * alters the miscellaneous control parameters */ int sm501_misc_control(struct device *dev, unsigned long set, unsigned long clear) { struct sm501_devdata *sm = dev_get_drvdata(dev); unsigned long misc; unsigned long save; unsigned long to; spin_lock_irqsave(&sm->reg_lock, save); misc = readl(sm->regs + SM501_MISC_CONTROL); to = (misc & ~clear) | set; if (to != misc) { writel(to, sm->regs + SM501_MISC_CONTROL); sm501_sync_regs(sm); dev_dbg(sm->dev, "MISC_CONTROL %08lx\n", misc); } spin_unlock_irqrestore(&sm->reg_lock, save); return to; } EXPORT_SYMBOL_GPL(sm501_misc_control); /* sm501_modify_reg * * Modify a register in the SM501 which may be shared with other * drivers. */ unsigned long sm501_modify_reg(struct device *dev, unsigned long reg, unsigned long set, unsigned long clear) { struct sm501_devdata *sm = dev_get_drvdata(dev); unsigned long data; unsigned long save; spin_lock_irqsave(&sm->reg_lock, save); data = readl(sm->regs + reg); data |= set; data &= ~clear; writel(data, sm->regs + reg); sm501_sync_regs(sm); spin_unlock_irqrestore(&sm->reg_lock, save); return data; } EXPORT_SYMBOL_GPL(sm501_modify_reg); unsigned long sm501_gpio_get(struct device *dev, unsigned long gpio) { struct sm501_devdata *sm = dev_get_drvdata(dev); unsigned long result; unsigned long reg; reg = (gpio > 32) ? SM501_GPIO_DATA_HIGH : SM501_GPIO_DATA_LOW; result = readl(sm->regs + reg); result >>= (gpio & 31); return result & 1UL; } EXPORT_SYMBOL_GPL(sm501_gpio_get); void sm501_gpio_set(struct device *dev, unsigned long gpio, unsigned int to, unsigned int dir) { struct sm501_devdata *sm = dev_get_drvdata(dev); unsigned long bit = 1 << (gpio & 31); unsigned long base; unsigned long save; unsigned long val; base = (gpio > 32) ? SM501_GPIO_DATA_HIGH : SM501_GPIO_DATA_LOW; base += SM501_GPIO; spin_lock_irqsave(&sm->reg_lock, save); val = readl(sm->regs + base) & ~bit; if (to) val |= bit; writel(val, sm->regs + base); val = readl(sm->regs + SM501_GPIO_DDR_LOW) & ~bit; if (dir) val |= bit; writel(val, sm->regs + SM501_GPIO_DDR_LOW); sm501_sync_regs(sm); spin_unlock_irqrestore(&sm->reg_lock, save); } EXPORT_SYMBOL_GPL(sm501_gpio_set); /* sm501_unit_power * * alters the power active gate to set specific units on or off */ int sm501_unit_power(struct device *dev, unsigned int unit, unsigned int to) { struct sm501_devdata *sm = dev_get_drvdata(dev); unsigned long mode; unsigned long gate; unsigned long clock; mutex_lock(&sm->clock_lock); mode = readl(sm->regs + SM501_POWER_MODE_CONTROL); gate = readl(sm->regs + SM501_CURRENT_GATE); clock = readl(sm->regs + SM501_CURRENT_CLOCK); mode &= 3; /* get current power mode */ if (unit >= ARRAY_SIZE(sm->unit_power)) { dev_err(dev, "%s: bad unit %d\n", __func__, unit); goto already; } dev_dbg(sm->dev, "%s: unit %d, cur %d, to %d\n", __func__, unit, sm->unit_power[unit], to); if (to == 0 && sm->unit_power[unit] == 0) { dev_err(sm->dev, "unit %d is already shutdown\n", unit); goto already; } sm->unit_power[unit] += to ? 1 : -1; to = sm->unit_power[unit] ? 1 : 0; if (to) { if (gate & (1 << unit)) goto already; gate |= (1 << unit); } else { if (!(gate & (1 << unit))) goto already; gate &= ~(1 << unit); } switch (mode) { case 1: writel(gate, sm->regs + SM501_POWER_MODE_0_GATE); writel(clock, sm->regs + SM501_POWER_MODE_0_CLOCK); mode = 0; break; case 2: case 0: writel(gate, sm->regs + SM501_POWER_MODE_1_GATE); writel(clock, sm->regs + SM501_POWER_MODE_1_CLOCK); mode = 1; break; default: return -1; } writel(mode, sm->regs + SM501_POWER_MODE_CONTROL); sm501_sync_regs(sm); dev_dbg(sm->dev, "gate %08lx, clock %08lx, mode %08lx\n", gate, clock, mode); sm501_mdelay(sm, 16); already: mutex_unlock(&sm->clock_lock); return gate; } EXPORT_SYMBOL_GPL(sm501_unit_power); /* Perform a rounded division. */ static long sm501fb_round_div(long num, long denom) { /* n / d + 1 / 2 = (2n + d) / 2d */ return (2 * num + denom) / (2 * denom); } /* clock value structure. */ struct sm501_clock { unsigned long mclk; int divider; int shift; unsigned int m, n, k; }; /* sm501_calc_clock * * Calculates the nearest discrete clock frequency that * can be achieved with the specified input clock. * the maximum divisor is 3 or 5 */ static int sm501_calc_clock(unsigned long freq, struct sm501_clock *clock, int max_div, unsigned long mclk, long *best_diff) { int ret = 0; int divider; int shift; long diff; /* try dividers 1 and 3 for CRT and for panel, try divider 5 for panel only.*/ for (divider = 1; divider <= max_div; divider += 2) { /* try all 8 shift values.*/ for (shift = 0; shift < 8; shift++) { /* Calculate difference to requested clock */ diff = sm501fb_round_div(mclk, divider << shift) - freq; if (diff < 0) diff = -diff; /* If it is less than the current, use it */ if (diff < *best_diff) { *best_diff = diff; clock->mclk = mclk; clock->divider = divider; clock->shift = shift; ret = 1; } } } return ret; } /* sm501_calc_pll * * Calculates the nearest discrete clock frequency that can be * achieved using the programmable PLL. * the maximum divisor is 3 or 5 */ static unsigned long sm501_calc_pll(unsigned long freq, struct sm501_clock *clock, int max_div) { unsigned long mclk; unsigned int m, n, k; long best_diff = 999999999; /* * The SM502 datasheet doesn't specify the min/max values for M and N. * N = 1 at least doesn't work in practice. */ for (m = 2; m <= 255; m++) { for (n = 2; n <= 127; n++) { for (k = 0; k <= 1; k++) { mclk = (24000000UL * m / n) >> k; if (sm501_calc_clock(freq, clock, max_div, mclk, &best_diff)) { clock->m = m; clock->n = n; clock->k = k; } } } } /* Return best clock. */ return clock->mclk / (clock->divider << clock->shift); } /* sm501_select_clock * * Calculates the nearest discrete clock frequency that can be * achieved using the 288MHz and 336MHz PLLs. * the maximum divisor is 3 or 5 */ static unsigned long sm501_select_clock(unsigned long freq, struct sm501_clock *clock, int max_div) { unsigned long mclk; long best_diff = 999999999; /* Try 288MHz and 336MHz clocks. */ for (mclk = 288000000; mclk <= 336000000; mclk += 48000000) { sm501_calc_clock(freq, clock, max_div, mclk, &best_diff); } /* Return best clock. */ return clock->mclk / (clock->divider << clock->shift); } /* sm501_set_clock * * set one of the four clock sources to the closest available frequency to * the one specified */ unsigned long sm501_set_clock(struct device *dev, int clksrc, unsigned long req_freq) { struct sm501_devdata *sm = dev_get_drvdata(dev); unsigned long mode = readl(sm->regs + SM501_POWER_MODE_CONTROL); unsigned long gate = readl(sm->regs + SM501_CURRENT_GATE); unsigned long clock = readl(sm->regs + SM501_CURRENT_CLOCK); unsigned char reg; unsigned int pll_reg = 0; unsigned long sm501_freq; /* the actual frequency acheived */ struct sm501_clock to; /* find achivable discrete frequency and setup register value * accordingly, V2XCLK, MCLK and M1XCLK are the same P2XCLK * has an extra bit for the divider */ switch (clksrc) { case SM501_CLOCK_P2XCLK: /* This clock is divided in half so to achive the * requested frequency the value must be multiplied by * 2. This clock also has an additional pre divisor */ if (sm->rev >= 0xC0) { /* SM502 -> use the programmable PLL */ sm501_freq = (sm501_calc_pll(2 * req_freq, &to, 5) / 2); reg = to.shift & 0x07;/* bottom 3 bits are shift */ if (to.divider == 3) reg |= 0x08; /* /3 divider required */ else if (to.divider == 5) reg |= 0x10; /* /5 divider required */ reg |= 0x40; /* select the programmable PLL */ pll_reg = 0x20000 | (to.k << 15) | (to.n << 8) | to.m; } else { sm501_freq = (sm501_select_clock(2 * req_freq, &to, 5) / 2); reg = to.shift & 0x07;/* bottom 3 bits are shift */ if (to.divider == 3) reg |= 0x08; /* /3 divider required */ else if (to.divider == 5) reg |= 0x10; /* /5 divider required */ if (to.mclk != 288000000) reg |= 0x20; /* which mclk pll is source */ } break; case SM501_CLOCK_V2XCLK: /* This clock is divided in half so to achive the * requested frequency the value must be multiplied by 2. */ sm501_freq = (sm501_select_clock(2 * req_freq, &to, 3) / 2); reg=to.shift & 0x07; /* bottom 3 bits are shift */ if (to.divider == 3) reg |= 0x08; /* /3 divider required */ if (to.mclk != 288000000) reg |= 0x10; /* which mclk pll is source */ break; case SM501_CLOCK_MCLK: case SM501_CLOCK_M1XCLK: /* These clocks are the same and not further divided */ sm501_freq = sm501_select_clock( req_freq, &to, 3); reg=to.shift & 0x07; /* bottom 3 bits are shift */ if (to.divider == 3) reg |= 0x08; /* /3 divider required */ if (to.mclk != 288000000) reg |= 0x10; /* which mclk pll is source */ break; default: return 0; /* this is bad */ } mutex_lock(&sm->clock_lock); mode = readl(sm->regs + SM501_POWER_MODE_CONTROL); gate = readl(sm->regs + SM501_CURRENT_GATE); clock = readl(sm->regs + SM501_CURRENT_CLOCK); clock = clock & ~(0xFF << clksrc); clock |= reg<<clksrc; mode &= 3; /* find current mode */ switch (mode) { case 1: writel(gate, sm->regs + SM501_POWER_MODE_0_GATE); writel(clock, sm->regs + SM501_POWER_MODE_0_CLOCK); mode = 0; break; case 2: case 0: writel(gate, sm->regs + SM501_POWER_MODE_1_GATE); writel(clock, sm->regs + SM501_POWER_MODE_1_CLOCK); mode = 1; break; default: mutex_unlock(&sm->clock_lock); return -1; } writel(mode, sm->regs + SM501_POWER_MODE_CONTROL); if (pll_reg) writel(pll_reg, sm->regs + SM501_PROGRAMMABLE_PLL_CONTROL); sm501_sync_regs(sm); dev_info(sm->dev, "gate %08lx, clock %08lx, mode %08lx\n", gate, clock, mode); sm501_mdelay(sm, 16); mutex_unlock(&sm->clock_lock); sm501_dump_clk(sm); return sm501_freq; } EXPORT_SYMBOL_GPL(sm501_set_clock); /* sm501_find_clock * * finds the closest available frequency for a given clock */ unsigned long sm501_find_clock(struct device *dev, int clksrc, unsigned long req_freq) { struct sm501_devdata *sm = dev_get_drvdata(dev); unsigned long sm501_freq; /* the frequency achiveable by the 501 */ struct sm501_clock to; switch (clksrc) { case SM501_CLOCK_P2XCLK: if (sm->rev >= 0xC0) { /* SM502 -> use the programmable PLL */ sm501_freq = (sm501_calc_pll(2 * req_freq, &to, 5) / 2); } else { sm501_freq = (sm501_select_clock(2 * req_freq, &to, 5) / 2); } break; case SM501_CLOCK_V2XCLK: sm501_freq = (sm501_select_clock(2 * req_freq, &to, 3) / 2); break; case SM501_CLOCK_MCLK: case SM501_CLOCK_M1XCLK: sm501_freq = sm501_select_clock(req_freq, &to, 3); break; default: sm501_freq = 0; /* error */ } return sm501_freq; } EXPORT_SYMBOL_GPL(sm501_find_clock); static struct sm501_device *to_sm_device(struct platform_device *pdev) { return container_of(pdev, struct sm501_device, pdev); } /* sm501_device_release * * A release function for the platform devices we create to allow us to * free any items we allocated */ static void sm501_device_release(struct device *dev) { kfree(to_sm_device(to_platform_device(dev))); } /* sm501_create_subdev * * Create a skeleton platform device with resources for passing to a * sub-driver */ static struct platform_device * sm501_create_subdev(struct sm501_devdata *sm, char *name, unsigned int res_count, unsigned int platform_data_size) { struct sm501_device *smdev; smdev = kzalloc(sizeof(struct sm501_device) + (sizeof(struct resource) * res_count) + platform_data_size, GFP_KERNEL); if (!smdev) return NULL; smdev->pdev.dev.release = sm501_device_release; smdev->pdev.name = name; smdev->pdev.id = sm->pdev_id; smdev->pdev.dev.parent = sm->dev; if (res_count) { smdev->pdev.resource = (struct resource *)(smdev+1); smdev->pdev.num_resources = res_count; } if (platform_data_size) smdev->pdev.dev.platform_data = (void *)(smdev+1); return &smdev->pdev; } /* sm501_register_device * * Register a platform device created with sm501_create_subdev() */ static int sm501_register_device(struct sm501_devdata *sm, struct platform_device *pdev) { struct sm501_device *smdev = to_sm_device(pdev); int ptr; int ret; for (ptr = 0; ptr < pdev->num_resources; ptr++) { printk("%s[%d] flags %08lx: %08llx..%08llx\n", pdev->name, ptr, pdev->resource[ptr].flags, (unsigned long long)pdev->resource[ptr].start, (unsigned long long)pdev->resource[ptr].end); } ret = platform_device_register(pdev); if (ret >= 0) { dev_dbg(sm->dev, "registered %s\n", pdev->name); list_add_tail(&smdev->list, &sm->devices); } else dev_err(sm->dev, "error registering %s (%d)\n", pdev->name, ret); return ret; } /* sm501_create_subio * * Fill in an IO resource for a sub device */ static void sm501_create_subio(struct sm501_devdata *sm, struct resource *res, resource_size_t offs, resource_size_t size) { res->flags = IORESOURCE_MEM; res->parent = sm->io_res; res->start = sm->io_res->start + offs; res->end = res->start + size - 1; } /* sm501_create_mem * * Fill in an MEM resource for a sub device */ static void sm501_create_mem(struct sm501_devdata *sm, struct resource *res, resource_size_t *offs, resource_size_t size) { *offs -= size; /* adjust memory size */ res->flags = IORESOURCE_MEM; res->parent = sm->mem_res; res->start = sm->mem_res->start + *offs; res->end = res->start + size - 1; } /* sm501_create_irq * * Fill in an IRQ resource for a sub device */ static void sm501_create_irq(struct sm501_devdata *sm, struct resource *res) { res->flags = IORESOURCE_IRQ; res->parent = NULL; res->start = res->end = sm->irq; } static int sm501_register_usbhost(struct sm501_devdata *sm, resource_size_t *mem_avail) { struct platform_device *pdev; pdev = sm501_create_subdev(sm, "sm501-usb", 3, 0); if (!pdev) return -ENOMEM; sm501_create_subio(sm, &pdev->resource[0], 0x40000, 0x20000); sm501_create_mem(sm, &pdev->resource[1], mem_avail, 256*1024); sm501_create_irq(sm, &pdev->resource[2]); return sm501_register_device(sm, pdev); } static void sm501_setup_uart_data(struct sm501_devdata *sm, struct plat_serial8250_port *uart_data, unsigned int offset) { uart_data->membase = sm->regs + offset; uart_data->mapbase = sm->io_res->start + offset; uart_data->iotype = UPIO_MEM; uart_data->irq = sm->irq; uart_data->flags = UPF_BOOT_AUTOCONF | UPF_SKIP_TEST | UPF_SHARE_IRQ; uart_data->regshift = 2; uart_data->uartclk = (9600 * 16); } static int sm501_register_uart(struct sm501_devdata *sm, int devices) { struct platform_device *pdev; struct plat_serial8250_port *uart_data; pdev = sm501_create_subdev(sm, "serial8250", 0, sizeof(struct plat_serial8250_port) * 3); if (!pdev) return -ENOMEM; uart_data = pdev->dev.platform_data; if (devices & SM501_USE_UART0) { sm501_setup_uart_data(sm, uart_data++, 0x30000); sm501_unit_power(sm->dev, SM501_GATE_UART0, 1); sm501_modify_reg(sm->dev, SM501_IRQ_MASK, 1 << 12, 0); sm501_modify_reg(sm->dev, SM501_GPIO63_32_CONTROL, 0x01e0, 0); } if (devices & SM501_USE_UART1) { sm501_setup_uart_data(sm, uart_data++, 0x30020); sm501_unit_power(sm->dev, SM501_GATE_UART1, 1); sm501_modify_reg(sm->dev, SM501_IRQ_MASK, 1 << 13, 0); sm501_modify_reg(sm->dev, SM501_GPIO63_32_CONTROL, 0x1e00, 0); } pdev->id = PLAT8250_DEV_SM501; return sm501_register_device(sm, pdev); } static int sm501_register_display(struct sm501_devdata *sm, resource_size_t *mem_avail) { struct platform_device *pdev; pdev = sm501_create_subdev(sm, "sm501-fb", 4, 0); if (!pdev) return -ENOMEM; sm501_create_subio(sm, &pdev->resource[0], 0x80000, 0x10000); sm501_create_subio(sm, &pdev->resource[1], 0x100000, 0x50000); sm501_create_mem(sm, &pdev->resource[2], mem_avail, *mem_avail); sm501_create_irq(sm, &pdev->resource[3]); return sm501_register_device(sm, pdev); } /* sm501_dbg_regs * * Debug attribute to attach to parent device to show core registers */ static ssize_t sm501_dbg_regs(struct device *dev, struct device_attribute *attr, char *buff) { struct sm501_devdata *sm = dev_get_drvdata(dev) ; unsigned int reg; char *ptr = buff; int ret; for (reg = 0x00; reg < 0x70; reg += 4) { ret = sprintf(ptr, "%08x = %08x\n", reg, readl(sm->regs + reg)); ptr += ret; } return ptr - buff; } static DEVICE_ATTR(dbg_regs, 0666, sm501_dbg_regs, NULL); /* sm501_init_reg * * Helper function for the init code to setup a register * * clear the bits which are set in r->mask, and then set * the bits set in r->set. */ static inline void sm501_init_reg(struct sm501_devdata *sm, unsigned long reg, struct sm501_reg_init *r) { unsigned long tmp; tmp = readl(sm->regs + reg); tmp &= ~r->mask; tmp |= r->set; writel(tmp, sm->regs + reg); } /* sm501_init_regs * * Setup core register values */ static void sm501_init_regs(struct sm501_devdata *sm, struct sm501_initdata *init) { sm501_misc_control(sm->dev, init->misc_control.set, init->misc_control.mask); sm501_init_reg(sm, SM501_MISC_TIMING, &init->misc_timing); sm501_init_reg(sm, SM501_GPIO31_0_CONTROL, &init->gpio_low); sm501_init_reg(sm, SM501_GPIO63_32_CONTROL, &init->gpio_high); if (init->m1xclk) { dev_info(sm->dev, "setting M1XCLK to %ld\n", init->m1xclk); sm501_set_clock(sm->dev, SM501_CLOCK_M1XCLK, init->m1xclk); } if (init->mclk) { dev_info(sm->dev, "setting MCLK to %ld\n", init->mclk); sm501_set_clock(sm->dev, SM501_CLOCK_MCLK, init->mclk); } } /* Check the PLL sources for the M1CLK and M1XCLK * * If the M1CLK and M1XCLKs are not sourced from the same PLL, then * there is a risk (see errata AB-5) that the SM501 will cease proper * function. If this happens, then it is likely the SM501 will * hang the system. */ static int sm501_check_clocks(struct sm501_devdata *sm) { unsigned long pwrmode = readl(sm->regs + SM501_CURRENT_CLOCK); unsigned long msrc = (pwrmode & SM501_POWERMODE_M_SRC); unsigned long m1src = (pwrmode & SM501_POWERMODE_M1_SRC); return ((msrc == 0 && m1src != 0) || (msrc != 0 && m1src == 0)); } static unsigned int sm501_mem_local[] = { [0] = 4*1024*1024, [1] = 8*1024*1024, [2] = 16*1024*1024, [3] = 32*1024*1024, [4] = 64*1024*1024, [5] = 2*1024*1024, }; /* sm501_init_dev * * Common init code for an SM501 */ static int sm501_init_dev(struct sm501_devdata *sm) { struct sm501_initdata *idata; resource_size_t mem_avail; unsigned long dramctrl; unsigned long devid; int ret; mutex_init(&sm->clock_lock); spin_lock_init(&sm->reg_lock); INIT_LIST_HEAD(&sm->devices); devid = readl(sm->regs + SM501_DEVICEID); if ((devid & SM501_DEVICEID_IDMASK) != SM501_DEVICEID_SM501) { dev_err(sm->dev, "incorrect device id %08lx\n", devid); return -EINVAL; } /* disable irqs */ writel(0, sm->regs + SM501_IRQ_MASK); dramctrl = readl(sm->regs + SM501_DRAM_CONTROL); mem_avail = sm501_mem_local[(dramctrl >> 13) & 0x7]; dev_info(sm->dev, "SM501 At %p: Version %08lx, %ld Mb, IRQ %d\n", sm->regs, devid, (unsigned long)mem_avail >> 20, sm->irq); sm->rev = devid & SM501_DEVICEID_REVMASK; sm501_dump_gate(sm); ret = device_create_file(sm->dev, &dev_attr_dbg_regs); if (ret) dev_err(sm->dev, "failed to create debug regs file\n"); sm501_dump_clk(sm); /* check to see if we have some device initialisation */ idata = sm->platdata ? sm->platdata->init : NULL; if (idata) { sm501_init_regs(sm, idata); if (idata->devices & SM501_USE_USB_HOST) sm501_register_usbhost(sm, &mem_avail); if (idata->devices & (SM501_USE_UART0 | SM501_USE_UART1)) sm501_register_uart(sm, idata->devices); } ret = sm501_check_clocks(sm); if (ret) { dev_err(sm->dev, "M1X and M clocks sourced from different " "PLLs\n"); return -EINVAL; } /* always create a framebuffer */ sm501_register_display(sm, &mem_avail); return 0; } static int sm501_plat_probe(struct platform_device *dev) { struct sm501_devdata *sm; int err; sm = kzalloc(sizeof(struct sm501_devdata), GFP_KERNEL); if (sm == NULL) { dev_err(&dev->dev, "no memory for device data\n"); err = -ENOMEM; goto err1; } sm->dev = &dev->dev; sm->pdev_id = dev->id; sm->irq = platform_get_irq(dev, 0); sm->io_res = platform_get_resource(dev, IORESOURCE_MEM, 1); sm->mem_res = platform_get_resource(dev, IORESOURCE_MEM, 0); sm->platdata = dev->dev.platform_data; if (sm->irq < 0) { dev_err(&dev->dev, "failed to get irq resource\n"); err = sm->irq; goto err_res; } if (sm->io_res == NULL || sm->mem_res == NULL) { dev_err(&dev->dev, "failed to get IO resource\n"); err = -ENOENT; goto err_res; } sm->regs_claim = request_mem_region(sm->io_res->start, 0x100, "sm501"); if (sm->regs_claim == NULL) { dev_err(&dev->dev, "cannot claim registers\n"); err= -EBUSY; goto err_res; } platform_set_drvdata(dev, sm); sm->regs = ioremap(sm->io_res->start, (sm->io_res->end - sm->io_res->start) - 1); if (sm->regs == NULL) { dev_err(&dev->dev, "cannot remap registers\n"); err = -EIO; goto err_claim; } return sm501_init_dev(sm); err_claim: release_resource(sm->regs_claim); kfree(sm->regs_claim); err_res: kfree(sm); err1: return err; } #ifdef CONFIG_PM /* power management support */ static int sm501_plat_suspend(struct platform_device *pdev, pm_message_t state) { struct sm501_devdata *sm = platform_get_drvdata(pdev); sm->in_suspend = 1; sm->pm_misc = readl(sm->regs + SM501_MISC_CONTROL); sm501_dump_regs(sm); return 0; } static int sm501_plat_resume(struct platform_device *pdev) { struct sm501_devdata *sm = platform_get_drvdata(pdev); sm501_dump_regs(sm); sm501_dump_gate(sm); sm501_dump_clk(sm); /* check to see if we are in the same state as when suspended */ if (readl(sm->regs + SM501_MISC_CONTROL) != sm->pm_misc) { dev_info(sm->dev, "SM501_MISC_CONTROL changed over sleep\n"); writel(sm->pm_misc, sm->regs + SM501_MISC_CONTROL); /* our suspend causes the controller state to change, * either by something attempting setup, power loss, * or an external reset event on power change */ if (sm->platdata && sm->platdata->init) { sm501_init_regs(sm, sm->platdata->init); } } /* dump our state from resume */ sm501_dump_regs(sm); sm501_dump_clk(sm); sm->in_suspend = 0; return 0; } #else #define sm501_plat_suspend NULL #define sm501_plat_resume NULL #endif /* Initialisation data for PCI devices */ static struct sm501_initdata sm501_pci_initdata = { .gpio_high = { .set = 0x3F000000, /* 24bit panel */ .mask = 0x0, }, .misc_timing = { .set = 0x010100, /* SDRAM timing */ .mask = 0x1F1F00, }, .misc_control = { .set = SM501_MISC_PNL_24BIT, .mask = 0, }, .devices = SM501_USE_ALL, /* Errata AB-3 says that 72MHz is the fastest available * for 33MHZ PCI with proper bus-mastering operation */ .mclk = 72 * MHZ, .m1xclk = 144 * MHZ, }; static struct sm501_platdata_fbsub sm501_pdata_fbsub = { .flags = (SM501FB_FLAG_USE_INIT_MODE | SM501FB_FLAG_USE_HWCURSOR | SM501FB_FLAG_USE_HWACCEL | SM501FB_FLAG_DISABLE_AT_EXIT), }; static struct sm501_platdata_fb sm501_fb_pdata = { .fb_route = SM501_FB_OWN, .fb_crt = &sm501_pdata_fbsub, .fb_pnl = &sm501_pdata_fbsub, }; static struct sm501_platdata sm501_pci_platdata = { .init = &sm501_pci_initdata, .fb = &sm501_fb_pdata, }; static int sm501_pci_probe(struct pci_dev *dev, const struct pci_device_id *id) { struct sm501_devdata *sm; int err; sm = kzalloc(sizeof(struct sm501_devdata), GFP_KERNEL); if (sm == NULL) { dev_err(&dev->dev, "no memory for device data\n"); err = -ENOMEM; goto err1; } /* set a default set of platform data */ dev->dev.platform_data = sm->platdata = &sm501_pci_platdata; /* set a hopefully unique id for our child platform devices */ sm->pdev_id = 32 + dev->devfn; pci_set_drvdata(dev, sm); err = pci_enable_device(dev); if (err) { dev_err(&dev->dev, "cannot enable device\n"); goto err2; } sm->dev = &dev->dev; sm->irq = dev->irq; #ifdef __BIG_ENDIAN /* if the system is big-endian, we most probably have a * translation in the IO layer making the PCI bus little endian * so make the framebuffer swapped pixels */ sm501_fb_pdata.flags |= SM501_FBPD_SWAP_FB_ENDIAN; #endif /* check our resources */ if (!(pci_resource_flags(dev, 0) & IORESOURCE_MEM)) { dev_err(&dev->dev, "region #0 is not memory?\n"); err = -EINVAL; goto err3; } if (!(pci_resource_flags(dev, 1) & IORESOURCE_MEM)) { dev_err(&dev->dev, "region #1 is not memory?\n"); err = -EINVAL; goto err3; } /* make our resources ready for sharing */ sm->io_res = &dev->resource[1]; sm->mem_res = &dev->resource[0]; sm->regs_claim = request_mem_region(sm->io_res->start, 0x100, "sm501"); if (sm->regs_claim == NULL) { dev_err(&dev->dev, "cannot claim registers\n"); err= -EBUSY; goto err3; } sm->regs = ioremap(pci_resource_start(dev, 1), pci_resource_len(dev, 1)); if (sm->regs == NULL) { dev_err(&dev->dev, "cannot remap registers\n"); err = -EIO; goto err4; } sm501_init_dev(sm); return 0; err4: release_resource(sm->regs_claim); kfree(sm->regs_claim); err3: pci_disable_device(dev); err2: pci_set_drvdata(dev, NULL); kfree(sm); err1: return err; } static void sm501_remove_sub(struct sm501_devdata *sm, struct sm501_device *smdev) { list_del(&smdev->list); platform_device_unregister(&smdev->pdev); } static void sm501_dev_remove(struct sm501_devdata *sm) { struct sm501_device *smdev, *tmp; list_for_each_entry_safe(smdev, tmp, &sm->devices, list) sm501_remove_sub(sm, smdev); device_remove_file(sm->dev, &dev_attr_dbg_regs); } static void sm501_pci_remove(struct pci_dev *dev) { struct sm501_devdata *sm = pci_get_drvdata(dev); sm501_dev_remove(sm); iounmap(sm->regs); release_resource(sm->regs_claim); kfree(sm->regs_claim); pci_set_drvdata(dev, NULL); pci_disable_device(dev); } static int sm501_plat_remove(struct platform_device *dev) { struct sm501_devdata *sm = platform_get_drvdata(dev); sm501_dev_remove(sm); iounmap(sm->regs); release_resource(sm->regs_claim); kfree(sm->regs_claim); return 0; } static struct pci_device_id sm501_pci_tbl[] = { { 0x126f, 0x0501, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 }, { 0, }, }; MODULE_DEVICE_TABLE(pci, sm501_pci_tbl); static struct pci_driver sm501_pci_drv = { .name = "sm501", .id_table = sm501_pci_tbl, .probe = sm501_pci_probe, .remove = sm501_pci_remove, }; static struct platform_driver sm501_plat_drv = { .driver = { .name = "sm501", .owner = THIS_MODULE, }, .probe = sm501_plat_probe, .remove = sm501_plat_remove, .suspend = sm501_plat_suspend, .resume = sm501_plat_resume, }; static int __init sm501_base_init(void) { platform_driver_register(&sm501_plat_drv); return pci_register_driver(&sm501_pci_drv); } static void __exit sm501_base_exit(void) { platform_driver_unregister(&sm501_plat_drv); pci_unregister_driver(&sm501_pci_drv); } module_init(sm501_base_init); module_exit(sm501_base_exit); MODULE_DESCRIPTION("SM501 Core Driver"); MODULE_AUTHOR("Ben Dooks <ben@simtec.co.uk>, Vincent Sanders"); MODULE_LICENSE("GPL v2"); |