For accessing MMIO registers, we must not rely on the compiler to realise every access to a struct which we made point to some MMIO base address. From a compiler's point of view, those writes could be considered pointless, since no code consumes them later on: the compiler would actually be free to optimise them away.
So we need at least the "volatile" attribute in the pointer declaration, but a better fix is of course to use the proper MMIO accessors (writel), as we do everywhere else. Since MMIO writes are already ordered within themselves (courtesy of the "device nGnRnE" memory attribures), and we don't do any DMA operation which would requrire synchronising with normal memory accesses, we can use the cheaper writel_relaxed() accessor, which have the additional advantange of saving one instruction, for each call.
Signed-off-by: Andre Przywara andre.przywara@arm.com --- arch/arm/mach-sunxi/dram_sun50i_h6.c | 69 ++++++++++++++++------------ 1 file changed, 39 insertions(+), 30 deletions(-)
diff --git a/arch/arm/mach-sunxi/dram_sun50i_h6.c b/arch/arm/mach-sunxi/dram_sun50i_h6.c index 8e959f4c600..89e855c1a7d 100644 --- a/arch/arm/mach-sunxi/dram_sun50i_h6.c +++ b/arch/arm/mach-sunxi/dram_sun50i_h6.c @@ -192,77 +192,86 @@ static void mctl_set_addrmap(const struct dram_config *config)
/* Ranks */ if (ranks == 2) - mctl_ctl->addrmap[0] = rows + cols - 3; + writel_relaxed(rows + cols - 3, &mctl_ctl->addrmap[0]); else - mctl_ctl->addrmap[0] = 0x1F; + writel_relaxed(0x1f, &mctl_ctl->addrmap[0]);
/* Banks, hardcoded to 8 banks now */ - mctl_ctl->addrmap[1] = (cols - 2) | (cols - 2) << 8 | (cols - 2) << 16; + writel_relaxed((cols - 2) | (cols - 2) << 8 | (cols - 2) << 16, + &mctl_ctl->addrmap[1]);
/* Columns */ - mctl_ctl->addrmap[2] = 0; + writel_relaxed(0, &mctl_ctl->addrmap[2]); switch (cols) { case 7: - mctl_ctl->addrmap[3] = 0x1F1F1F00; - mctl_ctl->addrmap[4] = 0x1F1F; + writel_relaxed(0x1f1f1f00, &mctl_ctl->addrmap[3]); + writel_relaxed(0x1f1f, &mctl_ctl->addrmap[4]); break; case 8: - mctl_ctl->addrmap[3] = 0x1F1F0000; - mctl_ctl->addrmap[4] = 0x1F1F; + writel_relaxed(0x1f1f0000, &mctl_ctl->addrmap[3]); + writel_relaxed(0x1f1f, &mctl_ctl->addrmap[4]); break; case 9: - mctl_ctl->addrmap[3] = 0x1F000000; - mctl_ctl->addrmap[4] = 0x1F1F; + writel_relaxed(0x1f000000, &mctl_ctl->addrmap[3]); + writel_relaxed(0x1f1f, &mctl_ctl->addrmap[4]); break; case 10: - mctl_ctl->addrmap[3] = 0; - mctl_ctl->addrmap[4] = 0x1F1F; + writel_relaxed(0, &mctl_ctl->addrmap[3]); + writel_relaxed(0x1f1f, &mctl_ctl->addrmap[4]); break; case 11: - mctl_ctl->addrmap[3] = 0; - mctl_ctl->addrmap[4] = 0x1F00; + writel_relaxed(0, &mctl_ctl->addrmap[3]); + writel_relaxed(0x1f00, &mctl_ctl->addrmap[4]); break; case 12: - mctl_ctl->addrmap[3] = 0; - mctl_ctl->addrmap[4] = 0; + writel_relaxed(0, &mctl_ctl->addrmap[3]); + writel_relaxed(0, &mctl_ctl->addrmap[4]); break; default: panic("Unsupported DRAM configuration: column number invalid\n"); }
/* Rows */ - mctl_ctl->addrmap[5] = (cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24); + writel_relaxed((cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24), + &mctl_ctl->addrmap[5]); switch (rows) { case 13: - mctl_ctl->addrmap[6] = (cols - 3) | 0x0F0F0F00; - mctl_ctl->addrmap[7] = 0x0F0F; + writel_relaxed((cols - 3) | 0x0f0f0f00, &mctl_ctl->addrmap[6]); + writel_relaxed(0x0f0f, &mctl_ctl->addrmap[7]); break; case 14: - mctl_ctl->addrmap[6] = (cols - 3) | ((cols - 3) << 8) | 0x0F0F0000; - mctl_ctl->addrmap[7] = 0x0F0F; + writel_relaxed((cols - 3) | ((cols - 3) << 8) | 0x0f0f0000, + &mctl_ctl->addrmap[6]); + writel_relaxed(0x0f0f, &mctl_ctl->addrmap[7]); break; case 15: - mctl_ctl->addrmap[6] = (cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | 0x0F000000; - mctl_ctl->addrmap[7] = 0x0F0F; + writel_relaxed((cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | 0x0f000000, + &mctl_ctl->addrmap[6]); + writel_relaxed(0x0f0f, &mctl_ctl->addrmap[7]); break; case 16: - mctl_ctl->addrmap[6] = (cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24); - mctl_ctl->addrmap[7] = 0x0F0F; + writel_relaxed((cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24), + &mctl_ctl->addrmap[6]); + writel_relaxed(0x0f0f, &mctl_ctl->addrmap[7]); break; case 17: - mctl_ctl->addrmap[6] = (cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24); - mctl_ctl->addrmap[7] = (cols - 3) | 0x0F00; + writel_relaxed((cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24), + &mctl_ctl->addrmap[6]); + writel_relaxed((cols - 3) | 0x0f00, &mctl_ctl->addrmap[7]); break; case 18: - mctl_ctl->addrmap[6] = (cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24); - mctl_ctl->addrmap[7] = (cols - 3) | ((cols - 3) << 8); + writel_relaxed((cols - 3) | ((cols - 3) << 8) | ((cols - 3) << 16) | ((cols - 3) << 24), + &mctl_ctl->addrmap[6]); + writel_relaxed((cols - 3) | ((cols - 3) << 8), + &mctl_ctl->addrmap[7]); break; default: panic("Unsupported DRAM configuration: row number invalid\n"); }
/* Bank groups, DDR4 only */ - mctl_ctl->addrmap[8] = 0x3F3F; + writel_relaxed(0x3f3f, &mctl_ctl->addrmap[8]); + dsb(); }
static void mctl_com_init(const struct dram_para *para,