Commit c726558b authored by Petr Vandrovec's avatar Petr Vandrovec Committed by Linus Torvalds

[PATCH] Remove big-endian mode from matroxfb

One of the PowerPC developers, Kostas Georgiou, pointed out to me
discussion back from 2001 that they would prefer little endian mode as
majority of users runs XF4.x and not Xpmac.  And apparently nobody runs
Xpmac now, so we can safely remove big-endian mode from matroxfb
completely.

  So let's simplify matroxfb a bit: 

Accelerator and ILOAD fifo is now always in little endian mode.  This is
what XFree does.  Due to this change all #ifdefs based on endianness was
removed from driver - except one which selects framebuffer endinaness (but
there is no code in matroxfb which writes to framebuffer directly).

It seems that while I was not looking m68k got ioremap, and all
architectures now offer ioremap and ioremap_nocache.  Let's kill code which
mapped ioremap_nocache to ioremap, and ioremap to bus_to_virt for
architectures which did not provide them.

And this also fixes small typo - M_C2CTL should be 0x3C10 and not 0x3E10.
Apparently Matrox notes about need to program this register during
initialization are not so important...
Signed-off-by: default avatarPetr Vandrovec <vandrove@vc.cvut.cz>
Signed-off-by: default avatarAndrew Morton <akpm@osdl.org>
Signed-off-by: default avatarLinus Torvalds <torvalds@osdl.org>
parent da18b2a3
......@@ -411,12 +411,7 @@ static void matroxfb_1bpp_imageblit(WPMINFO u_int32_t fgx, u_int32_t bgx,
CRITBEGIN
#ifdef __BIG_ENDIAN
WaitTillIdle();
mga_outl(M_OPMODE, M_OPMODE_8BPP);
#else
mga_fifo(3);
#endif
if (easy)
mga_outl(M_DWGCTL, M_DWG_ILOAD | M_DWG_SGNZERO | M_DWG_SHIFTZERO | M_DWG_BMONOWF | M_DWG_LINEAR | M_DWG_REPLACE);
else
......@@ -432,32 +427,24 @@ static void matroxfb_1bpp_imageblit(WPMINFO u_int32_t fgx, u_int32_t bgx,
mga_writel(mmio, M_AR3, 0);
if (easy) {
mga_writel(mmio, M_YDSTLEN | M_EXEC, ydstlen);
mga_memcpy_toio(mmio, 0, chardata, xlen);
mga_memcpy_toio(mmio, chardata, xlen);
} else {
mga_writel(mmio, M_AR5, 0);
mga_writel(mmio, M_YDSTLEN | M_EXEC, ydstlen);
if ((step & 3) == 0) {
/* Great. Source has 32bit aligned lines, so we can feed them
directly to the accelerator. */
mga_memcpy_toio(mmio, 0, chardata, charcell);
mga_memcpy_toio(mmio, chardata, charcell);
} else if (step == 1) {
/* Special case for 1..8bit widths */
while (height--) {
#ifdef __LITTLE_ENDIAN
mga_writel(mmio, 0, *chardata);
#else
mga_writel(mmio, 0, (*chardata) << 24);
#endif
chardata++;
}
} else if (step == 2) {
/* Special case for 9..15bit widths */
while (height--) {
#ifdef __LITTLE_ENDIAN
mga_writel(mmio, 0, *(u_int16_t*)chardata);
#else
mga_writel(mmio, 0, (*(u_int16_t*)chardata) << 16);
#endif
chardata += 2;
}
} else {
......@@ -474,9 +461,6 @@ static void matroxfb_1bpp_imageblit(WPMINFO u_int32_t fgx, u_int32_t bgx,
}
}
WaitTillIdle();
#ifdef __BIG_ENDIAN
mga_outl(M_OPMODE, ACCESS_FBINFO(accel.m_opmode));
#endif
CRITEND
}
......
......@@ -93,29 +93,6 @@
#endif /* MATROXFB_DEBUG */
#if !defined(__i386__) && !defined(__x86_64__)
#ifndef ioremap_nocache
#define ioremap_nocache(X,Y) ioremap(X,Y)
#endif
#endif
#if defined(__alpha__) || defined(__mc68000__) || defined(__i386__) || defined(__x86_64__)
#define READx_WORKS
#define MEMCPYTOIO_WORKS
#else
/* ppc/ppc64 must use __raw_{read,write}[bwl] as we drive adapter
in big-endian mode for compatibility with XFree mga driver, and
so we do not want little-endian {read,write}[bwl] */
#define READx_FAILS
#define MEMCPYTOIO_WRITEL
#endif
#if defined(__mc68000__)
#define MAP_BUSTOVIRT
#else
#define MAP_IOREMAP
#endif
#ifdef DEBUG
#define dprintk(X...) printk(X)
#else
......@@ -155,22 +132,13 @@
#endif
typedef struct {
u_int8_t __iomem* vaddr;
void __iomem* vaddr;
} vaddr_t;
#ifdef READx_WORKS
static inline unsigned int mga_readb(vaddr_t va, unsigned int offs) {
return readb(va.vaddr + offs);
}
static inline unsigned int mga_readw(vaddr_t va, unsigned int offs) {
return readw(va.vaddr + offs);
}
static inline u_int32_t mga_readl(vaddr_t va, unsigned int offs) {
return readl(va.vaddr + offs);
}
static inline void mga_writeb(vaddr_t va, unsigned int offs, u_int8_t value) {
writeb(value, va.vaddr + offs);
}
......@@ -179,62 +147,42 @@ static inline void mga_writew(vaddr_t va, unsigned int offs, u_int16_t value) {
writew(value, va.vaddr + offs);
}
static inline void mga_writel(vaddr_t va, unsigned int offs, u_int32_t value) {
writel(value, va.vaddr + offs);
}
#else
static inline unsigned int mga_readb(vaddr_t va, unsigned int offs) {
return __raw_readb(va.vaddr + offs);
}
static inline unsigned int mga_readw(vaddr_t va, unsigned int offs) {
return __raw_readw(va.vaddr + offs);
}
static inline u_int32_t mga_readl(vaddr_t va, unsigned int offs) {
return __raw_readl(va.vaddr + offs);
}
static inline void mga_writeb(vaddr_t va, unsigned int offs, u_int8_t value) {
__raw_writeb(value, va.vaddr + offs);
}
static inline void mga_writew(vaddr_t va, unsigned int offs, u_int16_t value) {
__raw_writew(value, va.vaddr + offs);
return readl(va.vaddr + offs);
}
static inline void mga_writel(vaddr_t va, unsigned int offs, u_int32_t value) {
__raw_writel(value, va.vaddr + offs);
writel(value, va.vaddr + offs);
}
#endif
static inline void mga_memcpy_toio(vaddr_t va, unsigned int offs, const void* src, int len) {
#ifdef MEMCPYTOIO_WORKS
memcpy_toio(va.vaddr + offs, src, len);
#elif defined(MEMCPYTOIO_WRITEL)
if (offs & 3) {
static inline void mga_memcpy_toio(vaddr_t va, const void* src, int len) {
#if defined(__alpha__) || defined(__i386__) || defined(__x86_64__)
/*
* memcpy_toio works for us if:
* (1) Copies data as 32bit quantities, not byte after byte,
* (2) Performs LE ordered stores, and
* (3) It copes with unaligned source (destination is guaranteed to be page
* aligned and length is guaranteed to be multiple of 4).
*/
memcpy_toio(va.vaddr, src, len);
#else
u_int32_t __iomem* addr = va.vaddr;
if ((unsigned long)src & 3) {
while (len >= 4) {
mga_writel(va, offs, get_unaligned((u32 *)src));
offs += 4;
writel(get_unaligned((u32 *)src), addr);
addr++;
len -= 4;
src += 4;
}
} else {
while (len >= 4) {
mga_writel(va, offs, *(u32 *)src);
offs += 4;
writel(*(u32 *)src, addr);
addr++;
len -= 4;
src += 4;
}
}
if (len) {
u_int32_t tmp;
memcpy(&tmp, src, len);
mga_writel(va, offs, tmp);
}
#else
#error "Sorry, do not know how to write block of data to device"
#endif
}
......@@ -252,25 +200,15 @@ static inline void __iomem* vaddr_va(vaddr_t va) {
#define MGA_IOREMAP_FB MGA_IOREMAP_NOCACHE
#define MGA_IOREMAP_MMIO MGA_IOREMAP_NOCACHE
static inline int mga_ioremap(unsigned long phys, unsigned long size, int flags, vaddr_t* virt) {
#ifdef MAP_IOREMAP
if (flags & MGA_IOREMAP_NOCACHE)
virt->vaddr = ioremap_nocache(phys, size);
else
virt->vaddr = ioremap(phys, size);
#else
#ifdef MAP_BUSTOVIRT
virt->vaddr = bus_to_virt(phys);
#else
#error "Your architecture does not have neither ioremap nor bus_to_virt... Giving up"
#endif
#endif
return (virt->vaddr == 0); /* 0, !0... 0, error_code in future */
}
static inline void mga_iounmap(vaddr_t va) {
#ifdef MAP_IOREMAP
iounmap(va.vaddr);
#endif
}
struct my_timming {
......@@ -774,11 +712,11 @@ void matroxfb_unregister_driver(struct matroxfb_driver* drv);
#define DAC_XGENIOCTRL 0x2A
#define DAC_XGENIODATA 0x2B
#define M_C2CTL 0x3E10
#define M_C2CTL 0x3C10
#ifdef __LITTLE_ENDIAN
#define MX_OPTION_BSWAP 0x00000000
#define MX_OPTION_BSWAP 0x00000000
#ifdef __LITTLE_ENDIAN
#define M_OPMODE_4BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_LE | M_OPMODE_DMA_BLIT)
#define M_OPMODE_8BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_LE | M_OPMODE_DMA_BLIT)
#define M_OPMODE_16BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_LE | M_OPMODE_DMA_BLIT)
......@@ -786,29 +724,23 @@ void matroxfb_unregister_driver(struct matroxfb_driver* drv);
#define M_OPMODE_32BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_LE | M_OPMODE_DMA_BLIT)
#else
#ifdef __BIG_ENDIAN
#define MX_OPTION_BSWAP 0x80000000
#define M_OPMODE_4BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_LE | M_OPMODE_DMA_BLIT) /* TODO */
#define M_OPMODE_8BPP (M_OPMODE_DMA_BE_8BPP | M_OPMODE_DIR_BE_8BPP | M_OPMODE_DMA_BLIT)
#define M_OPMODE_16BPP (M_OPMODE_DMA_BE_16BPP | M_OPMODE_DIR_BE_16BPP | M_OPMODE_DMA_BLIT)
#define M_OPMODE_24BPP (M_OPMODE_DMA_BE_8BPP | M_OPMODE_DIR_BE_8BPP | M_OPMODE_DMA_BLIT) /* TODO, ?32 */
#define M_OPMODE_32BPP (M_OPMODE_DMA_BE_32BPP | M_OPMODE_DIR_BE_32BPP | M_OPMODE_DMA_BLIT)
#define M_OPMODE_4BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_LE | M_OPMODE_DMA_BLIT) /* TODO */
#define M_OPMODE_8BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_BE_8BPP | M_OPMODE_DMA_BLIT)
#define M_OPMODE_16BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_BE_16BPP | M_OPMODE_DMA_BLIT)
#define M_OPMODE_24BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_BE_8BPP | M_OPMODE_DMA_BLIT) /* TODO, ?32 */
#define M_OPMODE_32BPP (M_OPMODE_DMA_LE | M_OPMODE_DIR_BE_32BPP | M_OPMODE_DMA_BLIT)
#else
#error "Byte ordering have to be defined. Cannot continue."
#endif
#endif
#define mga_inb(addr) mga_readb(ACCESS_FBINFO(mmio.vbase), (addr))
#define mga_inl(addr) mga_readl(ACCESS_FBINFO(mmio.vbase), (addr))
#define mga_outb(addr,val) mga_writeb(ACCESS_FBINFO(mmio.vbase), (addr), (val))
#define mga_outw(addr,val) mga_writew(ACCESS_FBINFO(mmio.vbase), (addr), (val))
#define mga_outl(addr,val) mga_writel(ACCESS_FBINFO(mmio.vbase), (addr), (val))
#define mga_readr(port,idx) (mga_outb((port),(idx)), mga_inb((port)+1))
#ifdef __LITTLE_ENDIAN
#define mga_setr(addr,port,val) mga_outw(addr, ((val)<<8) | (port))
#else
#define mga_setr(addr,port,val) do { mga_outb(addr, port); mga_outb((addr)+1, val); } while (0)
#endif
#define mga_inb(addr) mga_readb(ACCESS_FBINFO(mmio.vbase), (addr))
#define mga_inl(addr) mga_readl(ACCESS_FBINFO(mmio.vbase), (addr))
#define mga_outb(addr,val) mga_writeb(ACCESS_FBINFO(mmio.vbase), (addr), (val))
#define mga_outw(addr,val) mga_writew(ACCESS_FBINFO(mmio.vbase), (addr), (val))
#define mga_outl(addr,val) mga_writel(ACCESS_FBINFO(mmio.vbase), (addr), (val))
#define mga_readr(port,idx) (mga_outb((port),(idx)), mga_inb((port)+1))
#define mga_setr(addr,port,val) mga_outw(addr, ((val)<<8) | (port))
#define mga_fifo(n) do {} while ((mga_inl(M_FIFOSTATUS) & 0xFF) < (n))
......
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