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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 | /* * Address map functions for Marvell EBU SoCs (Kirkwood, Armada * 370/XP, Dove, Orion5x and MV78xx0) * * This file is licensed under the terms of the GNU General Public * License version 2. This program is licensed "as is" without any * warranty of any kind, whether express or implied. * * The Marvell EBU SoCs have a configurable physical address space: * the physical address at which certain devices (PCIe, NOR, NAND, * etc.) sit can be configured. The configuration takes place through * two sets of registers: * * - One to configure the access of the CPU to the devices. Depending * on the families, there are between 8 and 20 configurable windows, * each can be use to create a physical memory window that maps to a * specific device. Devices are identified by a tuple (target, * attribute). * * - One to configure the access to the CPU to the SDRAM. There are * either 2 (for Dove) or 4 (for other families) windows to map the * SDRAM into the physical address space. * * This driver: * * - Reads out the SDRAM address decoding windows at initialization * time, and fills the mvebu_mbus_dram_info structure with these * informations. The exported function mv_mbus_dram_info() allow * device drivers to get those informations related to the SDRAM * address decoding windows. This is because devices also have their * own windows (configured through registers that are part of each * device register space), and therefore the drivers for Marvell * devices have to configure those device -> SDRAM windows to ensure * that DMA works properly. * * - Provides an API for platform code or device drivers to * dynamically add or remove address decoding windows for the CPU -> * device accesses. This API is mvebu_mbus_add_window_by_id(), * mvebu_mbus_add_window_remap_by_id() and * mvebu_mbus_del_window(). * * - Provides a debugfs interface in /sys/kernel/debug/mvebu-mbus/ to * see the list of CPU -> SDRAM windows and their configuration * (file 'sdram') and the list of CPU -> devices windows and their * configuration (file 'devices'). */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/kernel.h> #include <linux/module.h> #include <linux/init.h> #include <linux/mbus.h> #include <linux/io.h> #include <linux/ioport.h> #include <linux/of.h> #include <linux/of_address.h> #include <linux/debugfs.h> #include <linux/log2.h> #include <linux/memblock.h> #include <linux/syscore_ops.h> /* * DDR target is the same on all platforms. */ #define TARGET_DDR 0 /* * CPU Address Decode Windows registers */ #define WIN_CTRL_OFF 0x0000 #define WIN_CTRL_ENABLE BIT(0) /* Only on HW I/O coherency capable platforms */ #define WIN_CTRL_SYNCBARRIER BIT(1) #define WIN_CTRL_TGT_MASK 0xf0 #define WIN_CTRL_TGT_SHIFT 4 #define WIN_CTRL_ATTR_MASK 0xff00 #define WIN_CTRL_ATTR_SHIFT 8 #define WIN_CTRL_SIZE_MASK 0xffff0000 #define WIN_CTRL_SIZE_SHIFT 16 #define WIN_BASE_OFF 0x0004 #define WIN_BASE_LOW 0xffff0000 #define WIN_BASE_HIGH 0xf #define WIN_REMAP_LO_OFF 0x0008 #define WIN_REMAP_LOW 0xffff0000 #define WIN_REMAP_HI_OFF 0x000c #define UNIT_SYNC_BARRIER_OFF 0x84 #define UNIT_SYNC_BARRIER_ALL 0xFFFF #define ATTR_HW_COHERENCY (0x1 << 4) #define DDR_BASE_CS_OFF(n) (0x0000 + ((n) << 3)) #define DDR_BASE_CS_HIGH_MASK 0xf #define DDR_BASE_CS_LOW_MASK 0xff000000 #define DDR_SIZE_CS_OFF(n) (0x0004 + ((n) << 3)) #define DDR_SIZE_ENABLED BIT(0) #define DDR_SIZE_CS_MASK 0x1c #define DDR_SIZE_CS_SHIFT 2 #define DDR_SIZE_MASK 0xff000000 #define DOVE_DDR_BASE_CS_OFF(n) ((n) << 4) /* Relative to mbusbridge_base */ #define MBUS_BRIDGE_CTRL_OFF 0x0 #define MBUS_BRIDGE_BASE_OFF 0x4 /* Maximum number of windows, for all known platforms */ #define MBUS_WINS_MAX 20 struct mvebu_mbus_state; struct mvebu_mbus_soc_data { unsigned int num_wins; bool has_mbus_bridge; unsigned int (*win_cfg_offset)(const int win); unsigned int (*win_remap_offset)(const int win); void (*setup_cpu_target)(struct mvebu_mbus_state *s); int (*save_cpu_target)(struct mvebu_mbus_state *s, u32 __iomem *store_addr); int (*show_cpu_target)(struct mvebu_mbus_state *s, struct seq_file *seq, void *v); }; /* * Used to store the state of one MBus window accross suspend/resume. */ struct mvebu_mbus_win_data { u32 ctrl; u32 base; u32 remap_lo; u32 remap_hi; }; struct mvebu_mbus_state { void __iomem *mbuswins_base; void __iomem *sdramwins_base; void __iomem *mbusbridge_base; phys_addr_t sdramwins_phys_base; struct dentry *debugfs_root; struct dentry *debugfs_sdram; struct dentry *debugfs_devs; struct resource pcie_mem_aperture; struct resource pcie_io_aperture; const struct mvebu_mbus_soc_data *soc; int hw_io_coherency; /* Used during suspend/resume */ u32 mbus_bridge_ctrl; u32 mbus_bridge_base; struct mvebu_mbus_win_data wins[MBUS_WINS_MAX]; }; static struct mvebu_mbus_state mbus_state; /* * We provide two variants of the mv_mbus_dram_info() function: * * - The normal one, where the described DRAM ranges may overlap with * the I/O windows, but for which the DRAM ranges are guaranteed to * have a power of two size. Such ranges are suitable for the DMA * masters that only DMA between the RAM and the device, which is * actually all devices except the crypto engines. * * - The 'nooverlap' one, where the described DRAM ranges are * guaranteed to not overlap with the I/O windows, but for which the * DRAM ranges will not have power of two sizes. They will only be * aligned on a 64 KB boundary, and have a size multiple of 64 * KB. Such ranges are suitable for the DMA masters that DMA between * the crypto SRAM (which is mapped through an I/O window) and a * device. This is the case for the crypto engines. */ static struct mbus_dram_target_info mvebu_mbus_dram_info; static struct mbus_dram_target_info mvebu_mbus_dram_info_nooverlap; const struct mbus_dram_target_info *mv_mbus_dram_info(void) { return &mvebu_mbus_dram_info; } EXPORT_SYMBOL_GPL(mv_mbus_dram_info); const struct mbus_dram_target_info *mv_mbus_dram_info_nooverlap(void) { return &mvebu_mbus_dram_info_nooverlap; } EXPORT_SYMBOL_GPL(mv_mbus_dram_info_nooverlap); /* Checks whether the given window has remap capability */ static bool mvebu_mbus_window_is_remappable(struct mvebu_mbus_state *mbus, const int win) { return mbus->soc->win_remap_offset(win) != MVEBU_MBUS_NO_REMAP; } /* * Functions to manipulate the address decoding windows */ static void mvebu_mbus_read_window(struct mvebu_mbus_state *mbus, int win, int *enabled, u64 *base, u32 *size, u8 *target, u8 *attr, u64 *remap) { void __iomem *addr = mbus->mbuswins_base + mbus->soc->win_cfg_offset(win); u32 basereg = readl(addr + WIN_BASE_OFF); u32 ctrlreg = readl(addr + WIN_CTRL_OFF); if (!(ctrlreg & WIN_CTRL_ENABLE)) { *enabled = 0; return; } *enabled = 1; *base = ((u64)basereg & WIN_BASE_HIGH) << 32; *base |= (basereg & WIN_BASE_LOW); *size = (ctrlreg | ~WIN_CTRL_SIZE_MASK) + 1; if (target) *target = (ctrlreg & WIN_CTRL_TGT_MASK) >> WIN_CTRL_TGT_SHIFT; if (attr) *attr = (ctrlreg & WIN_CTRL_ATTR_MASK) >> WIN_CTRL_ATTR_SHIFT; if (remap) { if (mvebu_mbus_window_is_remappable(mbus, win)) { u32 remap_low, remap_hi; void __iomem *addr_rmp = mbus->mbuswins_base + mbus->soc->win_remap_offset(win); remap_low = readl(addr_rmp + WIN_REMAP_LO_OFF); remap_hi = readl(addr_rmp + WIN_REMAP_HI_OFF); *remap = ((u64)remap_hi << 32) | remap_low; } else *remap = 0; } } static void mvebu_mbus_disable_window(struct mvebu_mbus_state *mbus, int win) { void __iomem *addr; addr = mbus->mbuswins_base + mbus->soc->win_cfg_offset(win); writel(0, addr + WIN_BASE_OFF); writel(0, addr + WIN_CTRL_OFF); if (mvebu_mbus_window_is_remappable(mbus, win)) { addr = mbus->mbuswins_base + mbus->soc->win_remap_offset(win); writel(0, addr + WIN_REMAP_LO_OFF); writel(0, addr + WIN_REMAP_HI_OFF); } } /* Checks whether the given window number is available */ static int mvebu_mbus_window_is_free(struct mvebu_mbus_state *mbus, const int win) { void __iomem *addr = mbus->mbuswins_base + mbus->soc->win_cfg_offset(win); u32 ctrl = readl(addr + WIN_CTRL_OFF); return !(ctrl & WIN_CTRL_ENABLE); } /* * Checks whether the given (base, base+size) area doesn't overlap an * existing region */ static int mvebu_mbus_window_conflicts(struct mvebu_mbus_state *mbus, phys_addr_t base, size_t size, u8 target, u8 attr) { u64 end = (u64)base + size; int win; for (win = 0; win < mbus->soc->num_wins; win++) { u64 wbase, wend; u32 wsize; u8 wtarget, wattr; int enabled; mvebu_mbus_read_window(mbus, win, &enabled, &wbase, &wsize, &wtarget, &wattr, NULL); if (!enabled) continue; wend = wbase + wsize; /* * Check if the current window overlaps with the * proposed physical range */ if ((u64)base < wend && end > wbase) return 0; } return 1; } static int mvebu_mbus_find_window(struct mvebu_mbus_state *mbus, phys_addr_t base, size_t size) { int win; for (win = 0; win < mbus->soc->num_wins; win++) { u64 wbase; u32 wsize; int enabled; mvebu_mbus_read_window(mbus, win, &enabled, &wbase, &wsize, NULL, NULL, NULL); if (!enabled) continue; if (base == wbase && size == wsize) return win; } return -ENODEV; } static int mvebu_mbus_setup_window(struct mvebu_mbus_state *mbus, int win, phys_addr_t base, size_t size, phys_addr_t remap, u8 target, u8 attr) { void __iomem *addr = mbus->mbuswins_base + mbus->soc->win_cfg_offset(win); u32 ctrl, remap_addr; if (!is_power_of_2(size)) { WARN(true, "Invalid MBus window size: 0x%zx\n", size); return -EINVAL; } if ((base & (phys_addr_t)(size - 1)) != 0) { WARN(true, "Invalid MBus base/size: %pa len 0x%zx\n", &base, size); return -EINVAL; } ctrl = ((size - 1) & WIN_CTRL_SIZE_MASK) | (attr << WIN_CTRL_ATTR_SHIFT) | (target << WIN_CTRL_TGT_SHIFT) | WIN_CTRL_ENABLE; if (mbus->hw_io_coherency) ctrl |= WIN_CTRL_SYNCBARRIER; writel(base & WIN_BASE_LOW, addr + WIN_BASE_OFF); writel(ctrl, addr + WIN_CTRL_OFF); if (mvebu_mbus_window_is_remappable(mbus, win)) { void __iomem *addr_rmp = mbus->mbuswins_base + mbus->soc->win_remap_offset(win); if (remap == MVEBU_MBUS_NO_REMAP) remap_addr = base; else remap_addr = remap; writel(remap_addr & WIN_REMAP_LOW, addr_rmp + WIN_REMAP_LO_OFF); writel(0, addr_rmp + WIN_REMAP_HI_OFF); } return 0; } static int mvebu_mbus_alloc_window(struct mvebu_mbus_state *mbus, phys_addr_t base, size_t size, phys_addr_t remap, u8 target, u8 attr) { int win; if (remap == MVEBU_MBUS_NO_REMAP) { for (win = 0; win < mbus->soc->num_wins; win++) { if (mvebu_mbus_window_is_remappable(mbus, win)) continue; if (mvebu_mbus_window_is_free(mbus, win)) return mvebu_mbus_setup_window(mbus, win, base, size, remap, target, attr); } } for (win = 0; win < mbus->soc->num_wins; win++) { /* Skip window if need remap but is not supported */ if ((remap != MVEBU_MBUS_NO_REMAP) && !mvebu_mbus_window_is_remappable(mbus, win)) continue; if (mvebu_mbus_window_is_free(mbus, win)) return mvebu_mbus_setup_window(mbus, win, base, size, remap, target, attr); } return -ENOMEM; } /* * Debugfs debugging */ /* Common function used for Dove, Kirkwood, Armada 370/XP and Orion 5x */ static int mvebu_sdram_debug_show_orion(struct mvebu_mbus_state *mbus, struct seq_file *seq, void *v) { int i; for (i = 0; i < 4; i++) { u32 basereg = readl(mbus->sdramwins_base + DDR_BASE_CS_OFF(i)); u32 sizereg = readl(mbus->sdramwins_base + DDR_SIZE_CS_OFF(i)); u64 base; u32 size; if (!(sizereg & DDR_SIZE_ENABLED)) { seq_printf(seq, "[%d] disabled\n", i); continue; } base = ((u64)basereg & DDR_BASE_CS_HIGH_MASK) << 32; base |= basereg & DDR_BASE_CS_LOW_MASK; size = (sizereg | ~DDR_SIZE_MASK); seq_printf(seq, "[%d] %016llx - %016llx : cs%d\n", i, (unsigned long long)base, (unsigned long long)base + size + 1, (sizereg & DDR_SIZE_CS_MASK) >> DDR_SIZE_CS_SHIFT); } return 0; } /* Special function for Dove */ static int mvebu_sdram_debug_show_dove(struct mvebu_mbus_state *mbus, struct seq_file *seq, void *v) { int i; for (i = 0; i < 2; i++) { u32 map = readl(mbus->sdramwins_base + DOVE_DDR_BASE_CS_OFF(i)); u64 base; u32 size; if (!(map & 1)) { seq_printf(seq, "[%d] disabled\n", i); continue; } base = map & 0xff800000; size = 0x100000 << (((map & 0x000f0000) >> 16) - 4); seq_printf(seq, "[%d] %016llx - %016llx : cs%d\n", i, (unsigned long long)base, (unsigned long long)base + size, i); } return 0; } static int mvebu_sdram_debug_show(struct seq_file *seq, void *v) { struct mvebu_mbus_state *mbus = &mbus_state; return mbus->soc->show_cpu_target(mbus, seq, v); } static int mvebu_sdram_debug_open(struct inode *inode, struct file *file) { return single_open(file, mvebu_sdram_debug_show, inode->i_private); } static const struct file_operations mvebu_sdram_debug_fops = { .open = mvebu_sdram_debug_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; static int mvebu_devs_debug_show(struct seq_file *seq, void *v) { struct mvebu_mbus_state *mbus = &mbus_state; int win; for (win = 0; win < mbus->soc->num_wins; win++) { u64 wbase, wremap; u32 wsize; u8 wtarget, wattr; int enabled; mvebu_mbus_read_window(mbus, win, &enabled, &wbase, &wsize, &wtarget, &wattr, &wremap); if (!enabled) { seq_printf(seq, "[%02d] disabled\n", win); continue; } seq_printf(seq, "[%02d] %016llx - %016llx : %04x:%04x", win, (unsigned long long)wbase, (unsigned long long)(wbase + wsize), wtarget, wattr); if (!is_power_of_2(wsize) || ((wbase & (u64)(wsize - 1)) != 0)) seq_puts(seq, " (Invalid base/size!!)"); if (mvebu_mbus_window_is_remappable(mbus, win)) { seq_printf(seq, " (remap %016llx)\n", (unsigned long long)wremap); } else seq_printf(seq, "\n"); } return 0; } static int mvebu_devs_debug_open(struct inode *inode, struct file *file) { return single_open(file, mvebu_devs_debug_show, inode->i_private); } static const struct file_operations mvebu_devs_debug_fops = { .open = mvebu_devs_debug_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, }; /* * SoC-specific functions and definitions */ static unsigned int generic_mbus_win_cfg_offset(int win) { return win << 4; } static unsigned int armada_370_xp_mbus_win_cfg_offset(int win) { /* The register layout is a bit annoying and the below code * tries to cope with it. * - At offset 0x0, there are the registers for the first 8 * windows, with 4 registers of 32 bits per window (ctrl, * base, remap low, remap high) * - Then at offset 0x80, there is a hole of 0x10 bytes for * the internal registers base address and internal units * sync barrier register. * - Then at offset 0x90, there the registers for 12 * windows, with only 2 registers of 32 bits per window * (ctrl, base). */ if (win < 8) return win << 4; else return 0x90 + ((win - 8) << 3); } static unsigned int mv78xx0_mbus_win_cfg_offset(int win) { if (win < 8) return win << 4; else return 0x900 + ((win - 8) << 4); } static unsigned int generic_mbus_win_remap_2_offset(int win) { if (win < 2) return generic_mbus_win_cfg_offset(win); else return MVEBU_MBUS_NO_REMAP; } static unsigned int generic_mbus_win_remap_4_offset(int win) { if (win < 4) return generic_mbus_win_cfg_offset(win); else return MVEBU_MBUS_NO_REMAP; } static unsigned int generic_mbus_win_remap_8_offset(int win) { if (win < 8) return generic_mbus_win_cfg_offset(win); else return MVEBU_MBUS_NO_REMAP; } static unsigned int armada_xp_mbus_win_remap_offset(int win) { if (win < 8) return generic_mbus_win_cfg_offset(win); else if (win == 13) return 0xF0 - WIN_REMAP_LO_OFF; else return MVEBU_MBUS_NO_REMAP; } /* * Use the memblock information to find the MBus bridge hole in the * physical address space. */ static void __init mvebu_mbus_find_bridge_hole(uint64_t *start, uint64_t *end) { struct memblock_region *r; uint64_t s = 0; for_each_memblock(memory, r) { /* * This part of the memory is above 4 GB, so we don't * care for the MBus bridge hole. */ if (r->base >= 0x100000000ULL) continue; /* * The MBus bridge hole is at the end of the RAM under * the 4 GB limit. */ if (r->base + r->size > s) s = r->base + r->size; } *start = s; *end = 0x100000000ULL; } /* * This function fills in the mvebu_mbus_dram_info_nooverlap data * structure, by looking at the mvebu_mbus_dram_info data, and * removing the parts of it that overlap with I/O windows. */ static void __init mvebu_mbus_setup_cpu_target_nooverlap(struct mvebu_mbus_state *mbus) { uint64_t mbus_bridge_base, mbus_bridge_end; int cs_nooverlap = 0; int i; mvebu_mbus_find_bridge_hole(&mbus_bridge_base, &mbus_bridge_end); for (i = 0; i < mvebu_mbus_dram_info.num_cs; i++) { struct mbus_dram_window *w; u64 base, size, end; w = &mvebu_mbus_dram_info.cs[i]; base = w->base; size = w->size; end = base + size; /* * The CS is fully enclosed inside the MBus bridge * area, so ignore it. */ if (base >= mbus_bridge_base && end <= mbus_bridge_end) continue; /* * Beginning of CS overlaps with end of MBus, raise CS * base address, and shrink its size. */ if (base >= mbus_bridge_base && end > mbus_bridge_end) { size -= mbus_bridge_end - base; base = mbus_bridge_end; } /* * End of CS overlaps with beginning of MBus, shrink * CS size. */ if (base < mbus_bridge_base && end > mbus_bridge_base) size -= end - mbus_bridge_base; w = &mvebu_mbus_dram_info_nooverlap.cs[cs_nooverlap++]; w->cs_index = i; w->mbus_attr = 0xf & ~(1 << i); if (mbus->hw_io_coherency) w->mbus_attr |= ATTR_HW_COHERENCY; w->base = base; w->size = size; } mvebu_mbus_dram_info_nooverlap.mbus_dram_target_id = TARGET_DDR; mvebu_mbus_dram_info_nooverlap.num_cs = cs_nooverlap; } static void __init mvebu_mbus_default_setup_cpu_target(struct mvebu_mbus_state *mbus) { int i; int cs; mvebu_mbus_dram_info.mbus_dram_target_id = TARGET_DDR; for (i = 0, cs = 0; i < 4; i++) { u32 base = readl(mbus->sdramwins_base + DDR_BASE_CS_OFF(i)); u32 size = readl(mbus->sdramwins_base + DDR_SIZE_CS_OFF(i)); /* * We only take care of entries for which the chip * select is enabled, and that don't have high base * address bits set (devices can only access the first * 32 bits of the memory). */ if ((size & DDR_SIZE_ENABLED) && !(base & DDR_BASE_CS_HIGH_MASK)) { struct mbus_dram_window *w; w = &mvebu_mbus_dram_info.cs[cs++]; w->cs_index = i; w->mbus_attr = 0xf & ~(1 << i); if (mbus->hw_io_coherency) w->mbus_attr |= ATTR_HW_COHERENCY; w->base = base & DDR_BASE_CS_LOW_MASK; w->size = (u64)(size | ~DDR_SIZE_MASK) + 1; } } mvebu_mbus_dram_info.num_cs = cs; } static int mvebu_mbus_default_save_cpu_target(struct mvebu_mbus_state *mbus, u32 __iomem *store_addr) { int i; for (i = 0; i < 4; i++) { u32 base = readl(mbus->sdramwins_base + DDR_BASE_CS_OFF(i)); u32 size = readl(mbus->sdramwins_base + DDR_SIZE_CS_OFF(i)); writel(mbus->sdramwins_phys_base + DDR_BASE_CS_OFF(i), store_addr++); writel(base, store_addr++); writel(mbus->sdramwins_phys_base + DDR_SIZE_CS_OFF(i), store_addr++); writel(size, store_addr++); } /* We've written 16 words to the store address */ return 16; } static void __init mvebu_mbus_dove_setup_cpu_target(struct mvebu_mbus_state *mbus) { int i; int cs; mvebu_mbus_dram_info.mbus_dram_target_id = TARGET_DDR; for (i = 0, cs = 0; i < 2; i++) { u32 map = readl(mbus->sdramwins_base + DOVE_DDR_BASE_CS_OFF(i)); /* * Chip select enabled? */ if (map & 1) { struct mbus_dram_window *w; w = &mvebu_mbus_dram_info.cs[cs++]; w->cs_index = i; w->mbus_attr = 0; /* CS address decoding done inside */ /* the DDR controller, no need to */ /* provide attributes */ w->base = map & 0xff800000; w->size = 0x100000 << (((map & 0x000f0000) >> 16) - 4); } } mvebu_mbus_dram_info.num_cs = cs; } static int mvebu_mbus_dove_save_cpu_target(struct mvebu_mbus_state *mbus, u32 __iomem *store_addr) { int i; for (i = 0; i < 2; i++) { u32 map = readl(mbus->sdramwins_base + DOVE_DDR_BASE_CS_OFF(i)); writel(mbus->sdramwins_phys_base + DOVE_DDR_BASE_CS_OFF(i), store_addr++); writel(map, store_addr++); } /* We've written 4 words to the store address */ return 4; } int mvebu_mbus_save_cpu_target(u32 __iomem *store_addr) { return mbus_state.soc->save_cpu_target(&mbus_state, store_addr); } static const struct mvebu_mbus_soc_data armada_370_mbus_data = { .num_wins = 20, .has_mbus_bridge = true, .win_cfg_offset = armada_370_xp_mbus_win_cfg_offset, .win_remap_offset = generic_mbus_win_remap_8_offset, .setup_cpu_target = mvebu_mbus_default_setup_cpu_target, .show_cpu_target = mvebu_sdram_debug_show_orion, .save_cpu_target = mvebu_mbus_default_save_cpu_target, }; static const struct mvebu_mbus_soc_data armada_xp_mbus_data = { .num_wins = 20, .has_mbus_bridge = true, .win_cfg_offset = armada_370_xp_mbus_win_cfg_offset, .win_remap_offset = armada_xp_mbus_win_remap_offset, .setup_cpu_target = mvebu_mbus_default_setup_cpu_target, .show_cpu_target = mvebu_sdram_debug_show_orion, .save_cpu_target = mvebu_mbus_default_save_cpu_target, }; static const struct mvebu_mbus_soc_data kirkwood_mbus_data = { .num_wins = 8, .win_cfg_offset = generic_mbus_win_cfg_offset, .save_cpu_target = mvebu_mbus_default_save_cpu_target, .win_remap_offset = generic_mbus_win_remap_4_offset, .setup_cpu_target = mvebu_mbus_default_setup_cpu_target, .show_cpu_target = mvebu_sdram_debug_show_orion, }; static const struct mvebu_mbus_soc_data dove_mbus_data = { .num_wins = 8, .win_cfg_offset = generic_mbus_win_cfg_offset, .save_cpu_target = mvebu_mbus_dove_save_cpu_target, .win_remap_offset = generic_mbus_win_remap_4_offset, .setup_cpu_target = mvebu_mbus_dove_setup_cpu_target, .show_cpu_target = mvebu_sdram_debug_show_dove, }; /* * Some variants of Orion5x have 4 remappable windows, some other have * only two of them. */ static const struct mvebu_mbus_soc_data orion5x_4win_mbus_data = { .num_wins = 8, .win_cfg_offset = generic_mbus_win_cfg_offset, .save_cpu_target = mvebu_mbus_default_save_cpu_target, .win_remap_offset = generic_mbus_win_remap_4_offset, .setup_cpu_target = mvebu_mbus_default_setup_cpu_target, .show_cpu_target = mvebu_sdram_debug_show_orion, }; static const struct mvebu_mbus_soc_data orion5x_2win_mbus_data = { .num_wins = 8, .win_cfg_offset = generic_mbus_win_cfg_offset, .save_cpu_target = mvebu_mbus_default_save_cpu_target, .win_remap_offset = generic_mbus_win_remap_2_offset, .setup_cpu_target = mvebu_mbus_default_setup_cpu_target, .show_cpu_target = mvebu_sdram_debug_show_orion, }; static const struct mvebu_mbus_soc_data mv78xx0_mbus_data = { .num_wins = 14, .win_cfg_offset = mv78xx0_mbus_win_cfg_offset, .save_cpu_target = mvebu_mbus_default_save_cpu_target, .win_remap_offset = generic_mbus_win_remap_8_offset, .setup_cpu_target = mvebu_mbus_default_setup_cpu_target, .show_cpu_target = mvebu_sdram_debug_show_orion, }; static const struct of_device_id of_mvebu_mbus_ids[] = { { .compatible = "marvell,armada370-mbus", .data = &armada_370_mbus_data, }, { .compatible = "marvell,armada375-mbus", .data = &armada_xp_mbus_data, }, { .compatible = "marvell,armada380-mbus", .data = &armada_xp_mbus_data, }, { .compatible = "marvell,armadaxp-mbus", .data = &armada_xp_mbus_data, }, { .compatible = "marvell,kirkwood-mbus", .data = &kirkwood_mbus_data, }, { .compatible = "marvell,dove-mbus", .data = &dove_mbus_data, }, { .compatible = "marvell,orion5x-88f5281-mbus", .data = &orion5x_4win_mbus_data, }, { .compatible = "marvell,orion5x-88f5182-mbus", .data = &orion5x_2win_mbus_data, }, { .compatible = "marvell,orion5x-88f5181-mbus", .data = &orion5x_2win_mbus_data, }, { .compatible = "marvell,orion5x-88f6183-mbus", .data = &orion5x_4win_mbus_data, }, { .compatible = "marvell,mv78xx0-mbus", .data = &mv78xx0_mbus_data, }, { }, }; /* * Public API of the driver */ int mvebu_mbus_add_window_remap_by_id(unsigned int target, unsigned int attribute, phys_addr_t base, size_t size, phys_addr_t remap) { struct mvebu_mbus_state *s = &mbus_state; if (!mvebu_mbus_window_conflicts(s, base, size, target, attribute)) { pr_err("cannot add window '%x:%x', conflicts with another window\n", target, attribute); return -EINVAL; } return mvebu_mbus_alloc_window(s, base, size, remap, target, attribute); } int mvebu_mbus_add_window_by_id(unsigned int target, unsigned int attribute, phys_addr_t base, size_t size) { return mvebu_mbus_add_window_remap_by_id(target, attribute, base, size, MVEBU_MBUS_NO_REMAP); } int mvebu_mbus_del_window(phys_addr_t base, size_t size) { int win; win = mvebu_mbus_find_window(&mbus_state, base, size); if (win < 0) return win; mvebu_mbus_disable_window(&mbus_state, win); return 0; } void mvebu_mbus_get_pcie_mem_aperture(struct resource *res) { if (!res) return; *res = mbus_state.pcie_mem_aperture; } void mvebu_mbus_get_pcie_io_aperture(struct resource *res) { if (!res) return; *res = mbus_state.pcie_io_aperture; } int mvebu_mbus_get_dram_win_info(phys_addr_t phyaddr, u8 *target, u8 *attr) { const struct mbus_dram_target_info *dram; int i; /* Get dram info */ dram = mv_mbus_dram_info(); if (!dram) { pr_err("missing DRAM information\n"); return -ENODEV; } /* Try to find matching DRAM window for phyaddr */ for (i = 0; i < dram->num_cs; i++) { const struct mbus_dram_window *cs = dram->cs + i; if (cs->base <= phyaddr && phyaddr <= (cs->base + cs->size - 1)) { *target = dram->mbus_dram_target_id; *attr = cs->mbus_attr; return 0; } } pr_err("invalid dram address %pa\n", &phyaddr); return -EINVAL; } EXPORT_SYMBOL_GPL(mvebu_mbus_get_dram_win_info); int mvebu_mbus_get_io_win_info(phys_addr_t phyaddr, u32 *size, u8 *target, u8 *attr) { int win; for (win = 0; win < mbus_state.soc->num_wins; win++) { u64 wbase; int enabled; mvebu_mbus_read_window(&mbus_state, win, &enabled, &wbase, size, target, attr, NULL); if (!enabled) continue; if (wbase <= phyaddr && phyaddr <= wbase + *size) return win; } return -EINVAL; } EXPORT_SYMBOL_GPL(mvebu_mbus_get_io_win_info); static __init int mvebu_mbus_debugfs_init(void) { struct mvebu_mbus_state *s = &mbus_state; /* * If no base has been initialized, doesn't make sense to * register the debugfs entries. We may be on a multiplatform * kernel that isn't running a Marvell EBU SoC. */ if (!s->mbuswins_base) return 0; s->debugfs_root = debugfs_create_dir("mvebu-mbus", NULL); if (s->debugfs_root) { s->debugfs_sdram = debugfs_create_file("sdram", S_IRUGO, s->debugfs_root, NULL, &mvebu_sdram_debug_fops); s->debugfs_devs = debugfs_create_file("devices", S_IRUGO, s->debugfs_root, NULL, &mvebu_devs_debug_fops); } return 0; } fs_initcall(mvebu_mbus_debugfs_init); static int mvebu_mbus_suspend(void) { struct mvebu_mbus_state *s = &mbus_state; int win; if (!s->mbusbridge_base) return -ENODEV; for (win = 0; win < s->soc->num_wins; win++) { void __iomem *addr = s->mbuswins_base + s->soc->win_cfg_offset(win); void __iomem *addr_rmp; s->wins[win].base = readl(addr + WIN_BASE_OFF); s->wins[win].ctrl = readl(addr + WIN_CTRL_OFF); if (!mvebu_mbus_window_is_remappable(s, win)) continue; addr_rmp = s->mbuswins_base + s->soc->win_remap_offset(win); s->wins[win].remap_lo = readl(addr_rmp + WIN_REMAP_LO_OFF); s->wins[win].remap_hi = readl(addr_rmp + WIN_REMAP_HI_OFF); } s->mbus_bridge_ctrl = readl(s->mbusbridge_base + MBUS_BRIDGE_CTRL_OFF); s->mbus_bridge_base = readl(s->mbusbridge_base + MBUS_BRIDGE_BASE_OFF); return 0; } static void mvebu_mbus_resume(void) { struct mvebu_mbus_state *s = &mbus_state; int win; writel(s->mbus_bridge_ctrl, s->mbusbridge_base + MBUS_BRIDGE_CTRL_OFF); writel(s->mbus_bridge_base, s->mbusbridge_base + MBUS_BRIDGE_BASE_OFF); for (win = 0; win < s->soc->num_wins; win++) { void __iomem *addr = s->mbuswins_base + s->soc->win_cfg_offset(win); void __iomem *addr_rmp; writel(s->wins[win].base, addr + WIN_BASE_OFF); writel(s->wins[win].ctrl, addr + WIN_CTRL_OFF); if (!mvebu_mbus_window_is_remappable(s, win)) continue; addr_rmp = s->mbuswins_base + s->soc->win_remap_offset(win); writel(s->wins[win].remap_lo, addr_rmp + WIN_REMAP_LO_OFF); writel(s->wins[win].remap_hi, addr_rmp + WIN_REMAP_HI_OFF); } } static struct syscore_ops mvebu_mbus_syscore_ops = { .suspend = mvebu_mbus_suspend, .resume = mvebu_mbus_resume, }; static int __init mvebu_mbus_common_init(struct mvebu_mbus_state *mbus, phys_addr_t mbuswins_phys_base, size_t mbuswins_size, phys_addr_t sdramwins_phys_base, size_t sdramwins_size, phys_addr_t mbusbridge_phys_base, size_t mbusbridge_size, bool is_coherent) { int win; mbus->mbuswins_base = ioremap(mbuswins_phys_base, mbuswins_size); if (!mbus->mbuswins_base) return -ENOMEM; mbus->sdramwins_base = ioremap(sdramwins_phys_base, sdramwins_size); if (!mbus->sdramwins_base) { iounmap(mbus_state.mbuswins_base); return -ENOMEM; } mbus->sdramwins_phys_base = sdramwins_phys_base; if (mbusbridge_phys_base) { mbus->mbusbridge_base = ioremap(mbusbridge_phys_base, mbusbridge_size); if (!mbus->mbusbridge_base) { iounmap(mbus->sdramwins_base); iounmap(mbus->mbuswins_base); return -ENOMEM; } } else mbus->mbusbridge_base = NULL; for (win = 0; win < mbus->soc->num_wins; win++) mvebu_mbus_disable_window(mbus, win); mbus->soc->setup_cpu_target(mbus); mvebu_mbus_setup_cpu_target_nooverlap(mbus); if (is_coherent) writel(UNIT_SYNC_BARRIER_ALL, mbus->mbuswins_base + UNIT_SYNC_BARRIER_OFF); register_syscore_ops(&mvebu_mbus_syscore_ops); return 0; } int __init mvebu_mbus_init(const char *soc, phys_addr_t mbuswins_phys_base, size_t mbuswins_size, phys_addr_t sdramwins_phys_base, size_t sdramwins_size) { const struct of_device_id *of_id; for (of_id = of_mvebu_mbus_ids; of_id->compatible[0]; of_id++) if (!strcmp(of_id->compatible, soc)) break; if (!of_id->compatible[0]) { pr_err("could not find a matching SoC family\n"); return -ENODEV; } mbus_state.soc = of_id->data; return mvebu_mbus_common_init(&mbus_state, mbuswins_phys_base, mbuswins_size, sdramwins_phys_base, sdramwins_size, 0, 0, false); } #ifdef CONFIG_OF /* * The window IDs in the ranges DT property have the following format: * - bits 28 to 31: MBus custom field * - bits 24 to 27: window target ID * - bits 16 to 23: window attribute ID * - bits 0 to 15: unused */ #define CUSTOM(id) (((id) & 0xF0000000) >> 24) #define TARGET(id) (((id) & 0x0F000000) >> 24) #define ATTR(id) (((id) & 0x00FF0000) >> 16) static int __init mbus_dt_setup_win(struct mvebu_mbus_state *mbus, u32 base, u32 size, u8 target, u8 attr) { if (!mvebu_mbus_window_conflicts(mbus, base, size, target, attr)) { pr_err("cannot add window '%04x:%04x', conflicts with another window\n", target, attr); return -EBUSY; } if (mvebu_mbus_alloc_window(mbus, base, size, MVEBU_MBUS_NO_REMAP, target, attr)) { pr_err("cannot add window '%04x:%04x', too many windows\n", target, attr); return -ENOMEM; } return 0; } static int __init mbus_parse_ranges(struct device_node *node, int *addr_cells, int *c_addr_cells, int *c_size_cells, int *cell_count, const __be32 **ranges_start, const __be32 **ranges_end) { const __be32 *prop; int ranges_len, tuple_len; /* Allow a node with no 'ranges' property */ *ranges_start = of_get_property(node, "ranges", &ranges_len); if (*ranges_start == NULL) { *addr_cells = *c_addr_cells = *c_size_cells = *cell_count = 0; *ranges_start = *ranges_end = NULL; return 0; } *ranges_end = *ranges_start + ranges_len / sizeof(__be32); *addr_cells = of_n_addr_cells(node); prop = of_get_property(node, "#address-cells", NULL); *c_addr_cells = be32_to_cpup(prop); prop = of_get_property(node, "#size-cells", NULL); *c_size_cells = be32_to_cpup(prop); *cell_count = *addr_cells + *c_addr_cells + *c_size_cells; tuple_len = (*cell_count) * sizeof(__be32); if (ranges_len % tuple_len) { pr_warn("malformed ranges entry '%s'\n", node->name); return -EINVAL; } return 0; } static int __init mbus_dt_setup(struct mvebu_mbus_state *mbus, struct device_node *np) { int addr_cells, c_addr_cells, c_size_cells; int i, ret, cell_count; const __be32 *r, *ranges_start, *ranges_end; ret = mbus_parse_ranges(np, &addr_cells, &c_addr_cells, &c_size_cells, &cell_count, &ranges_start, &ranges_end); if (ret < 0) return ret; for (i = 0, r = ranges_start; r < ranges_end; r += cell_count, i++) { u32 windowid, base, size; u8 target, attr; /* * An entry with a non-zero custom field do not * correspond to a static window, so skip it. */ windowid = of_read_number(r, 1); if (CUSTOM(windowid)) continue; target = TARGET(windowid); attr = ATTR(windowid); base = of_read_number(r + c_addr_cells, addr_cells); size = of_read_number(r + c_addr_cells + addr_cells, c_size_cells); ret = mbus_dt_setup_win(mbus, base, size, target, attr); if (ret < 0) return ret; } return 0; } static void __init mvebu_mbus_get_pcie_resources(struct device_node *np, struct resource *mem, struct resource *io) { u32 reg[2]; int ret; /* * These are optional, so we make sure that resource_size(x) will * return 0. */ memset(mem, 0, sizeof(struct resource)); mem->end = -1; memset(io, 0, sizeof(struct resource)); io->end = -1; ret = of_property_read_u32_array(np, "pcie-mem-aperture", reg, ARRAY_SIZE(reg)); if (!ret) { mem->start = reg[0]; mem->end = mem->start + reg[1] - 1; mem->flags = IORESOURCE_MEM; } ret = of_property_read_u32_array(np, "pcie-io-aperture", reg, ARRAY_SIZE(reg)); if (!ret) { io->start = reg[0]; io->end = io->start + reg[1] - 1; io->flags = IORESOURCE_IO; } } int __init mvebu_mbus_dt_init(bool is_coherent) { struct resource mbuswins_res, sdramwins_res, mbusbridge_res; struct device_node *np, *controller; const struct of_device_id *of_id; const __be32 *prop; int ret; np = of_find_matching_node_and_match(NULL, of_mvebu_mbus_ids, &of_id); if (!np) { pr_err("could not find a matching SoC family\n"); return -ENODEV; } mbus_state.soc = of_id->data; prop = of_get_property(np, "controller", NULL); if (!prop) { pr_err("required 'controller' property missing\n"); return -EINVAL; } controller = of_find_node_by_phandle(be32_to_cpup(prop)); if (!controller) { pr_err("could not find an 'mbus-controller' node\n"); return -ENODEV; } if (of_address_to_resource(controller, 0, &mbuswins_res)) { pr_err("cannot get MBUS register address\n"); return -EINVAL; } if (of_address_to_resource(controller, 1, &sdramwins_res)) { pr_err("cannot get SDRAM register address\n"); return -EINVAL; } /* * Set the resource to 0 so that it can be left unmapped by * mvebu_mbus_common_init() if the DT doesn't carry the * necessary information. This is needed to preserve backward * compatibility. */ memset(&mbusbridge_res, 0, sizeof(mbusbridge_res)); if (mbus_state.soc->has_mbus_bridge) { if (of_address_to_resource(controller, 2, &mbusbridge_res)) pr_warn(FW_WARN "deprecated mbus-mvebu Device Tree, suspend/resume will not work\n"); } mbus_state.hw_io_coherency = is_coherent; /* Get optional pcie-{mem,io}-aperture properties */ mvebu_mbus_get_pcie_resources(np, &mbus_state.pcie_mem_aperture, &mbus_state.pcie_io_aperture); ret = mvebu_mbus_common_init(&mbus_state, mbuswins_res.start, resource_size(&mbuswins_res), sdramwins_res.start, resource_size(&sdramwins_res), mbusbridge_res.start, resource_size(&mbusbridge_res), is_coherent); if (ret) return ret; /* Setup statically declared windows in the DT */ return mbus_dt_setup(&mbus_state, np); } #endif |