X-Git-Url: https://git.librecmc.org/?a=blobdiff_plain;f=cpu%2Fat32ap%2Fhsdramc.c;h=f74121cd46239aa3d9335a481b72a1e0b72254cd;hb=6c70049bd14e8e81764570732be7f34a89831f09;hp=f36da354528daaa6fae939341cecc3126898105b;hpb=72a087e04705c26cad982879ebd06b5281bf825a;p=oweals%2Fu-boot.git diff --git a/cpu/at32ap/hsdramc.c b/cpu/at32ap/hsdramc.c index f36da35452..f74121cd46 100644 --- a/cpu/at32ap/hsdramc.c +++ b/cpu/at32ap/hsdramc.c @@ -21,60 +21,41 @@ */ #include -#ifdef CFG_HSDRAMC +#ifdef CONFIG_SYS_HSDRAMC #include #include -#include +#include +#include #include "hsdramc1.h" -struct hsdramc { - const struct device *hebi; - void *regs; -}; - -static struct hsdramc hsdramc; - -unsigned long sdram_init(const struct sdram_info *info) +unsigned long sdram_init(void *sdram_base, const struct sdram_config *config) { - unsigned long *sdram = (unsigned long *)uncached(info->phys_addr); unsigned long sdram_size; - unsigned long tmp; - unsigned long bus_hz; + uint32_t cfgreg; unsigned int i; - hsdramc.hebi = get_device(DEVICE_HEBI); - if (!hsdramc.hebi) - return 0; - - /* FIXME: Both of these lines are complete hacks */ - hsdramc.regs = hsdramc.hebi->regs + 0x400; - bus_hz = pm_get_clock_freq(hsdramc.hebi->resource[0].u.clock.id); - - cpu_enable_sdram(); - - tmp = (HSDRAMC1_BF(NC, info->col_bits - 8) - | HSDRAMC1_BF(NR, info->row_bits - 11) - | HSDRAMC1_BF(NB, info->bank_bits - 1) - | HSDRAMC1_BF(CAS, info->cas) - | HSDRAMC1_BF(TWR, info->twr) - | HSDRAMC1_BF(TRC, info->trc) - | HSDRAMC1_BF(TRP, info->trp) - | HSDRAMC1_BF(TRCD, info->trcd) - | HSDRAMC1_BF(TRAS, info->tras) - | HSDRAMC1_BF(TXSR, info->txsr)); - -#ifdef CFG_SDRAM_16BIT - tmp |= HSDRAMC1_BIT(DBW); - sdram_size = 1 << (info->row_bits + info->col_bits - + info->bank_bits + 1); -#else - sdram_size = 1 << (info->row_bits + info->col_bits - + info->bank_bits + 2); -#endif - - hsdramc1_writel(&hsdramc, CR, tmp); + cfgreg = (HSDRAMC1_BF(NC, config->col_bits - 8) + | HSDRAMC1_BF(NR, config->row_bits - 11) + | HSDRAMC1_BF(NB, config->bank_bits - 1) + | HSDRAMC1_BF(CAS, config->cas) + | HSDRAMC1_BF(TWR, config->twr) + | HSDRAMC1_BF(TRC, config->trc) + | HSDRAMC1_BF(TRP, config->trp) + | HSDRAMC1_BF(TRCD, config->trcd) + | HSDRAMC1_BF(TRAS, config->tras) + | HSDRAMC1_BF(TXSR, config->txsr)); + + if (config->data_bits == SDRAM_DATA_16BIT) + cfgreg |= HSDRAMC1_BIT(DBW); + + hsdramc1_writel(CR, cfgreg); + + /* Send a NOP to turn on the clock (necessary on some chips) */ + hsdramc1_writel(MR, HSDRAMC1_MODE_NOP); + hsdramc1_readl(MR); + writel(0, sdram_base); /* * Initialization sequence for SDRAM, from the data sheet: @@ -87,69 +68,53 @@ unsigned long sdram_init(const struct sdram_info *info) /* * 2. A Precharge All command is issued to the SDRAM */ - hsdramc1_writel(&hsdramc, MR, HSDRAMC1_MODE_BANKS_PRECHARGE); - hsdramc1_readl(&hsdramc, MR); - writel(0, sdram); + hsdramc1_writel(MR, HSDRAMC1_MODE_BANKS_PRECHARGE); + hsdramc1_readl(MR); + writel(0, sdram_base); /* * 3. Eight auto-refresh (CBR) cycles are provided */ - hsdramc1_writel(&hsdramc, MR, HSDRAMC1_MODE_AUTO_REFRESH); - hsdramc1_readl(&hsdramc, MR); + hsdramc1_writel(MR, HSDRAMC1_MODE_AUTO_REFRESH); + hsdramc1_readl(MR); for (i = 0; i < 8; i++) - writel(0, sdram); + writel(0, sdram_base); /* * 4. A mode register set (MRS) cycle is issued to program * SDRAM parameters, in particular CAS latency and burst * length. * - * CAS from info struct, burst length 1, serial burst type + * The address will be chosen by the SDRAMC automatically; we + * just have to make sure BA[1:0] are set to 0. */ - hsdramc1_writel(&hsdramc, MR, HSDRAMC1_MODE_LOAD_MODE); - hsdramc1_readl(&hsdramc, MR); - writel(0, sdram + (info->cas << 4)); + hsdramc1_writel(MR, HSDRAMC1_MODE_LOAD_MODE); + hsdramc1_readl(MR); + writel(0, sdram_base); /* - * 5. A Normal Mode command is provided, 3 clocks after tMRD - * is met. - * - * From the timing diagram, it looks like tMRD is 3 - * cycles...try a dummy read from the peripheral bus. + * 5. The application must go into Normal Mode, setting Mode + * to 0 in the Mode Register and performing a write access + * at any location in the SDRAM. */ - hsdramc1_readl(&hsdramc, MR); - hsdramc1_writel(&hsdramc, MR, HSDRAMC1_MODE_NORMAL); - hsdramc1_readl(&hsdramc, MR); - writel(0, sdram); + hsdramc1_writel(MR, HSDRAMC1_MODE_NORMAL); + hsdramc1_readl(MR); + writel(0, sdram_base); /* * 6. Write refresh rate into SDRAMC refresh timer count * register (refresh rate = timing between refresh cycles). - * - * 15.6 us is a typical value for a burst of length one */ - hsdramc1_writel(&hsdramc, TR, (156 * (bus_hz / 1000)) / 10000); - - printf("SDRAM: %u MB at address 0x%08lx\n", - sdram_size >> 20, info->phys_addr); - - printf("Testing SDRAM..."); - for (i = 0; i < sdram_size / 4; i++) - sdram[i] = i; - - for (i = 0; i < sdram_size / 4; i++) { - tmp = sdram[i]; - if (tmp != i) { - printf("FAILED at address 0x%08lx\n", - info->phys_addr + i * 4); - printf("SDRAM: read 0x%lx, expected 0x%lx\n", tmp, i); - return 0; - } - } + hsdramc1_writel(TR, config->refresh_period); - puts("OK\n"); + if (config->data_bits == SDRAM_DATA_16BIT) + sdram_size = 1 << (config->row_bits + config->col_bits + + config->bank_bits + 1); + else + sdram_size = 1 << (config->row_bits + config->col_bits + + config->bank_bits + 2); return sdram_size; } -#endif /* CFG_HSDRAMC */ +#endif /* CONFIG_SYS_HSDRAMC */