From 8f8a51cded3338327059dc9e87e4e8a3519793f2 Mon Sep 17 00:00:00 2001 From: Myles Watson Date: Thu, 9 Sep 2010 16:00:20 +0000 Subject: Make huge macros inline functions for readability. Remove warnings. Trivial. Signed-off-by: Myles Watson Acked-by: Myles Watson git-svn-id: svn://svn.coreboot.org/coreboot/trunk@5797 2b7e53f0-3cfb-0310-b3e9-8179ed1497e1 --- src/devices/oprom/yabel/mem.c | 320 +++++++++++++++++++++--------------------- src/devices/oprom/yabel/vbe.c | 10 +- 2 files changed, 165 insertions(+), 165 deletions(-) (limited to 'src/devices/oprom') diff --git a/src/devices/oprom/yabel/mem.c b/src/devices/oprom/yabel/mem.c index 8bcc9e12c2..d55ae05445 100644 --- a/src/devices/oprom/yabel/mem.c +++ b/src/devices/oprom/yabel/mem.c @@ -19,149 +19,177 @@ #include "mem.h" #include "compat/time.h" +#if !defined(CONFIG_YABEL_DIRECTHW) || (!CONFIG_YABEL_DIRECTHW) + // define a check for access to certain (virtual) memory regions (interrupt handlers, BIOS Data Area, ...) #if CONFIG_X86EMU_DEBUG static u8 in_check = 0; // to avoid recursion... -u16 ebda_segment; -u32 ebda_size; -//TODO: these macros have grown so large, that they should be changed to an inline function, -//just for the sake of readability... +static inline void DEBUG_CHECK_VMEM_READ(u32 _addr, u32 _rval) +{ + u16 ebda_segment; + u32 ebda_size; + if (!((debug_flags & DEBUG_CHECK_VMEM_ACCESS) && (in_check == 0))) + return; + in_check = 1; + /* determine ebda_segment and size + * since we are using my_rdx calls, make sure, this is after setting in_check! */ + /* offset 03 in BDA is EBDA segment */ + ebda_segment = my_rdw(0x40e); + /* first value in ebda is size in KB */ + ebda_size = my_rdb(ebda_segment << 4) * 1024; + /* check Interrupt Vector Access (0000:0000h - 0000:0400h) */ + if (_addr < 0x400) { + DEBUG_PRINTF_CS_IP("%s: read from Interrupt Vector %x --> %x\n", + __func__, _addr / 4, _rval); + } + /* access to BIOS Data Area (0000:0400h - 0000:0500h)*/ + else if ((_addr >= 0x400) && (_addr < 0x500)) { + DEBUG_PRINTF_CS_IP("%s: read from BIOS Data Area: addr: %x --> %x\n", + __func__, _addr, _rval); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* access to first 64k of memory... */ + else if (_addr < 0x10000) { + DEBUG_PRINTF_CS_IP("%s: read from segment 0000h: addr: %x --> %x\n", + __func__, _addr, _rval); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* read from PMM_CONV_SEGMENT */ + else if ((_addr <= ((PMM_CONV_SEGMENT << 4) | 0xffff)) && (_addr >= (PMM_CONV_SEGMENT << 4))) { + DEBUG_PRINTF_CS_IP("%s: read from PMM Segment %04xh: addr: %x --> %x\n", + __func__, PMM_CONV_SEGMENT, _addr, _rval); + /* HALT_SYS(); */ + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* read from PNP_DATA_SEGMENT */ + else if ((_addr <= ((PNP_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (PNP_DATA_SEGMENT << 4))) { + DEBUG_PRINTF_CS_IP("%s: read from PnP Data Segment %04xh: addr: %x --> %x\n", + __func__, PNP_DATA_SEGMENT, _addr, _rval); + /* HALT_SYS(); */ + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* read from EBDA Segment */ + else if ((_addr <= ((ebda_segment << 4) | (ebda_size - 1))) && (_addr >= (ebda_segment << 4))) { + DEBUG_PRINTF_CS_IP("%s: read from Extended BIOS Data Area %04xh, size: %04x: addr: %x --> %x\n", + __func__, ebda_segment, ebda_size, _addr, _rval); + } + /* read from BIOS_DATA_SEGMENT */ + else if ((_addr <= ((BIOS_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (BIOS_DATA_SEGMENT << 4))) { + DEBUG_PRINTF_CS_IP("%s: read from BIOS Data Segment %04xh: addr: %x --> %x\n", + __func__, BIOS_DATA_SEGMENT, _addr, _rval); + /* for PMM debugging */ + /*if (_addr == BIOS_DATA_SEGMENT << 4) { + X86EMU_trace_on(); + M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; + }*/ + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + in_check = 0; +} -#define DEBUG_CHECK_VMEM_READ(_addr, _rval) \ - if ((debug_flags & DEBUG_CHECK_VMEM_ACCESS) && (in_check == 0)) { \ - in_check = 1; \ - /* determine ebda_segment and size \ - * since we are using my_rdx calls, make sure, this is after setting in_check! */ \ - /* offset 03 in BDA is EBDA segment */ \ - ebda_segment = my_rdw(0x40e); \ - /* first value in ebda is size in KB */ \ - ebda_size = my_rdb(ebda_segment << 4) * 1024; \ - /* check Interrupt Vector Access (0000:0000h - 0000:0400h) */ \ - if (_addr < 0x400) { \ - DEBUG_PRINTF_CS_IP("%s: read from Interrupt Vector %x --> %x\n", \ - __func__, _addr / 4, _rval); \ - } \ - /* access to BIOS Data Area (0000:0400h - 0000:0500h)*/ \ - else if ((_addr >= 0x400) && (addr < 0x500)) { \ - DEBUG_PRINTF_CS_IP("%s: read from BIOS Data Area: addr: %x --> %x\n", \ - __func__, _addr, _rval); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* access to first 64k of memory... */ \ - else if (_addr < 0x10000) { \ - DEBUG_PRINTF_CS_IP("%s: read from segment 0000h: addr: %x --> %x\n", \ - __func__, _addr, _rval); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* read from PMM_CONV_SEGMENT */ \ - else if ((_addr <= ((PMM_CONV_SEGMENT << 4) | 0xffff)) && (_addr >= (PMM_CONV_SEGMENT << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: read from PMM Segment %04xh: addr: %x --> %x\n", \ - __func__, PMM_CONV_SEGMENT, _addr, _rval); \ - /* HALT_SYS(); */ \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* read from PNP_DATA_SEGMENT */ \ - else if ((_addr <= ((PNP_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (PNP_DATA_SEGMENT << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: read from PnP Data Segment %04xh: addr: %x --> %x\n", \ - __func__, PNP_DATA_SEGMENT, _addr, _rval); \ - /* HALT_SYS(); */ \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* read from EBDA Segment */ \ - else if ((_addr <= ((ebda_segment << 4) | (ebda_size - 1))) && (_addr >= (ebda_segment << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: read from Extended BIOS Data Area %04xh, size: %04x: addr: %x --> %x\n", \ - __func__, ebda_segment, ebda_size, _addr, _rval); \ - } \ - /* read from BIOS_DATA_SEGMENT */ \ - else if ((_addr <= ((BIOS_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (BIOS_DATA_SEGMENT << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: read from BIOS Data Segment %04xh: addr: %x --> %x\n", \ - __func__, BIOS_DATA_SEGMENT, _addr, _rval); \ - /* for PMM debugging */ \ - /*if (_addr == BIOS_DATA_SEGMENT << 4) { \ - X86EMU_trace_on(); \ - M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; \ - }*/ \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - in_check = 0; \ - } -#define DEBUG_CHECK_VMEM_WRITE(_addr, _val) \ - if ((debug_flags & DEBUG_CHECK_VMEM_ACCESS) && (in_check == 0)) { \ - in_check = 1; \ - /* determine ebda_segment and size \ - * since we are using my_rdx calls, make sure, this is after setting in_check! */ \ - /* offset 03 in BDA is EBDA segment */ \ - ebda_segment = my_rdw(0x40e); \ - /* first value in ebda is size in KB */ \ - ebda_size = my_rdb(ebda_segment << 4) * 1024; \ - /* check Interrupt Vector Access (0000:0000h - 0000:0400h) */ \ - if (_addr < 0x400) { \ - DEBUG_PRINTF_CS_IP("%s: write to Interrupt Vector %x <-- %x\n", \ - __func__, _addr / 4, _val); \ - } \ - /* access to BIOS Data Area (0000:0400h - 0000:0500h)*/ \ - else if ((_addr >= 0x400) && (addr < 0x500)) { \ - DEBUG_PRINTF_CS_IP("%s: write to BIOS Data Area: addr: %x <-- %x\n", \ - __func__, _addr, _val); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* access to first 64k of memory...*/ \ - else if (_addr < 0x10000) { \ - DEBUG_PRINTF_CS_IP("%s: write to segment 0000h: addr: %x <-- %x\n", \ - __func__, _addr, _val); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* write to PMM_CONV_SEGMENT... */ \ - else if ((_addr <= ((PMM_CONV_SEGMENT << 4) | 0xffff)) && (_addr >= (PMM_CONV_SEGMENT << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: write to PMM Segment %04xh: addr: %x <-- %x\n", \ - __func__, PMM_CONV_SEGMENT, _addr, _val); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* write to PNP_DATA_SEGMENT... */ \ - else if ((_addr <= ((PNP_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (PNP_DATA_SEGMENT << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: write to PnP Data Segment %04xh: addr: %x <-- %x\n", \ - __func__, PNP_DATA_SEGMENT, _addr, _val); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* write to EBDA Segment... */ \ - else if ((_addr <= ((ebda_segment << 4) | (ebda_size - 1))) && (_addr >= (ebda_segment << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: write to Extended BIOS Data Area %04xh, size: %04x: addr: %x <-- %x\n", \ - __func__, ebda_segment, ebda_size, _addr, _val); \ - } \ - /* write to BIOS_DATA_SEGMENT... */ \ - else if ((_addr <= ((BIOS_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (BIOS_DATA_SEGMENT << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: write to BIOS Data Segment %04xh: addr: %x <-- %x\n", \ - __func__, BIOS_DATA_SEGMENT, _addr, _val); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - /* write to current CS segment... */ \ - else if ((_addr < ((M.x86.R_CS << 4) | 0xffff)) && (_addr > (M.x86.R_CS << 4))) { \ - DEBUG_PRINTF_CS_IP("%s: write to CS segment %04xh: addr: %x <-- %x\n", \ - __func__, M.x86.R_CS, _addr, _val); \ - /* dump registers */ \ - /* x86emu_dump_xregs(); */ \ - } \ - in_check = 0; \ - } +static inline void DEBUG_CHECK_VMEM_WRITE(u32 _addr, u32 _val) +{ + u16 ebda_segment; + u32 ebda_size; + if (!((debug_flags & DEBUG_CHECK_VMEM_ACCESS) && (in_check == 0))) + return; + in_check = 1; + /* determine ebda_segment and size + * since we are using my_rdx calls, make sure that this is after + * setting in_check! */ + /* offset 03 in BDA is EBDA segment */ + ebda_segment = my_rdw(0x40e); + /* first value in ebda is size in KB */ + ebda_size = my_rdb(ebda_segment << 4) * 1024; + /* check Interrupt Vector Access (0000:0000h - 0000:0400h) */ + if (_addr < 0x400) { + DEBUG_PRINTF_CS_IP("%s: write to Interrupt Vector %x <-- %x\n", + __func__, _addr / 4, _val); + } + /* access to BIOS Data Area (0000:0400h - 0000:0500h)*/ + else if ((_addr >= 0x400) && (_addr < 0x500)) { + DEBUG_PRINTF_CS_IP("%s: write to BIOS Data Area: addr: %x <-- %x\n", + __func__, _addr, _val); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* access to first 64k of memory...*/ + else if (_addr < 0x10000) { + DEBUG_PRINTF_CS_IP("%s: write to segment 0000h: addr: %x <-- %x\n", + __func__, _addr, _val); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* write to PMM_CONV_SEGMENT... */ + else if ((_addr <= ((PMM_CONV_SEGMENT << 4) | 0xffff)) && (_addr >= (PMM_CONV_SEGMENT << 4))) { + DEBUG_PRINTF_CS_IP("%s: write to PMM Segment %04xh: addr: %x <-- %x\n", + __func__, PMM_CONV_SEGMENT, _addr, _val); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* write to PNP_DATA_SEGMENT... */ + else if ((_addr <= ((PNP_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (PNP_DATA_SEGMENT << 4))) { + DEBUG_PRINTF_CS_IP("%s: write to PnP Data Segment %04xh: addr: %x <-- %x\n", + __func__, PNP_DATA_SEGMENT, _addr, _val); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* write to EBDA Segment... */ + else if ((_addr <= ((ebda_segment << 4) | (ebda_size - 1))) && (_addr >= (ebda_segment << 4))) { + DEBUG_PRINTF_CS_IP("%s: write to Extended BIOS Data Area %04xh, size: %04x: addr: %x <-- %x\n", + __func__, ebda_segment, ebda_size, _addr, _val); + } + /* write to BIOS_DATA_SEGMENT... */ + else if ((_addr <= ((BIOS_DATA_SEGMENT << 4) | 0xffff)) && (_addr >= (BIOS_DATA_SEGMENT << 4))) { + DEBUG_PRINTF_CS_IP("%s: write to BIOS Data Segment %04xh: addr: %x <-- %x\n", + __func__, BIOS_DATA_SEGMENT, _addr, _val); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + /* write to current CS segment... */ + else if ((_addr < ((M.x86.R_CS << 4) | 0xffff)) && (_addr > (M.x86.R_CS << 4))) { + DEBUG_PRINTF_CS_IP("%s: write to CS segment %04xh: addr: %x <-- %x\n", + __func__, M.x86.R_CS, _addr, _val); + /* dump registers */ + /* x86emu_dump_xregs(); */ + } + in_check = 0; +} #else -#define DEBUG_CHECK_VMEM_READ(_addr, _rval) -#define DEBUG_CHECK_VMEM_WRITE(_addr, _val) +static inline void DEBUG_CHECK_VMEM_READ(u32 _addr, u32 _rval) {}; +static inline void DEBUG_CHECK_VMEM_WRITE(u32 _addr, u32 _val) {}; #endif -void update_time(u32); +//update time in BIOS Data Area +//DWord at offset 0x6c is the timer ticks since midnight, timer is running at 18Hz +//byte at 0x70 is timer overflow (set if midnight passed since last call to interrupt 1a function 00 +//cur_val is the current value, of offset 6c... +static void +update_time(u32 cur_val) +{ + //for convenience, we let the start of timebase be at midnight, we currently dont support + //real daytime anyway... + u64 ticks_per_day = tb_freq * 60 * 24; + // at 18Hz a period is ~55ms, converted to ticks (tb_freq is ticks/second) + u32 period_ticks = (55 * tb_freq) / 1000; + u64 curr_time = get_time(); + u64 ticks_since_midnight = curr_time % ticks_per_day; + u32 periods_since_midnight = ticks_since_midnight / period_ticks; + // if periods since midnight is smaller than last value, set overflow + // at BDA Offset 0x70 + if (periods_since_midnight < cur_val) { + my_wrb(0x470, 1); + } + // store periods since midnight at BDA offset 0x6c + my_wrl(0x46c, periods_since_midnight); +} -#if !defined(CONFIG_YABEL_DIRECTHW) || (!CONFIG_YABEL_DIRECTHW) // read byte from memory u8 my_rdb(u32 addr) @@ -467,27 +495,3 @@ my_wrl(u32 addr, u32 val) wrl(addr, val); } #endif - -//update time in BIOS Data Area -//DWord at offset 0x6c is the timer ticks since midnight, timer is running at 18Hz -//byte at 0x70 is timer overflow (set if midnight passed since last call to interrupt 1a function 00 -//cur_val is the current value, of offset 6c... -void -update_time(u32 cur_val) -{ - //for convenience, we let the start of timebase be at midnight, we currently dont support - //real daytime anyway... - u64 ticks_per_day = tb_freq * 60 * 24; - // at 18Hz a period is ~55ms, converted to ticks (tb_freq is ticks/second) - u32 period_ticks = (55 * tb_freq) / 1000; - u64 curr_time = get_time(); - u64 ticks_since_midnight = curr_time % ticks_per_day; - u32 periods_since_midnight = ticks_since_midnight / period_ticks; - // if periods since midnight is smaller than last value, set overflow - // at BDA Offset 0x70 - if (periods_since_midnight < cur_val) { - my_wrb(0x470, 1); - } - // store periods since midnight at BDA offset 0x6c - my_wrl(0x46c, periods_since_midnight); -} diff --git a/src/devices/oprom/yabel/vbe.c b/src/devices/oprom/yabel/vbe.c index 6ddeba613b..c0fd645ff9 100644 --- a/src/devices/oprom/yabel/vbe.c +++ b/src/devices/oprom/yabel/vbe.c @@ -154,7 +154,7 @@ vbe_prepare(void) return 0; // successfull init } -#if CONFIG_BOOTSPLASH || CONFIG_EXPERT +#if CONFIG_BOOTSPLASH // VBE Function 00h static u8 vbe_info(vbe_info_t * info) @@ -301,9 +301,7 @@ vbe_set_mode(vbe_mode_info_t * mode_info) } return 0; } -#endif -#if CONFIG_EXPERT //VBE Function 08h static u8 vbe_set_palette_format(u8 format) @@ -766,9 +764,7 @@ vbe_get_info(void) } return 0; } -#endif -#if CONFIG_BOOTSPLASH vbe_mode_info_t mode_info; void vbe_set_graphics(void) @@ -798,7 +794,7 @@ void vbe_set_graphics(void) vbe_get_mode_info(&mode_info); unsigned char *framebuffer = (unsigned char *) le32_to_cpu(mode_info.vesa.phys_base_ptr); - DEBUG_PRINTF_VBE("FRAMEBUFFER: 0x%08x\n", framebuffer); + DEBUG_PRINTF_VBE("FRAMEBUFFER: 0x%p\n", framebuffer); vbe_set_mode(&mode_info); struct jpeg_decdata *decdata; @@ -813,7 +809,7 @@ void vbe_set_graphics(void) DEBUG_PRINTF_VBE("Could not find bootsplash.jpg\n"); return; } - DEBUG_PRINTF_VBE("Splash at %08x ...\n", jpeg); + DEBUG_PRINTF_VBE("Splash at %p ...\n", jpeg); dump(jpeg, 64); int ret = 0; -- cgit v1.2.3