src/state.c

Sat, 17 Nov 2012 19:18:29 +0000

author
Philip Pemberton <philpem@philpem.me.uk>
date
Sat, 17 Nov 2012 19:18:29 +0000
changeset 112
a392eb8f9806
parent 101
e20f02519835
child 138
d744db15cdf7
permissions
-rw-r--r--

add HDD support + fixes

Patch-Author: Andrew Warkentin <andreww591!gmail>
Patch-Message-ID: <50A772FC.8020009@gmail.com>

I have added floppy write support, full hard disk emulation, and proper handling of DMA page faults to FreeBee. I also fixed the floppy step commands, changed the "force interrupt" floppy command to generate a type 1 status, and changed the DMA address counter to reset to 3fff when a transfer completes (which is what Unix seems to expect - without it, the kernel says that the floppy isn't ready). The floppy, hard disk, and DMA page fault tests all pass. Initializing hard disks and floppies also works (the geometry for both is still fixed by the size of the image, though, and format commands only appear to succeed, but they don't modify the image). Unix still doesn't run, though (it hangs after reading some sectors from the floppy).

     1 #define _STATE_C
     2 #include <stddef.h>
     3 #include <malloc.h>
     4 #include <stdio.h>
     5 #include "wd279x.h"
     6 #include "wd2010.h"
     7 #include "keyboard.h"
     8 #include "state.h"
    10 int state_init(size_t base_ram_size, size_t exp_ram_size)
    11 {
    12 	// Free RAM if it's allocated
    13 	if (state.base_ram != NULL)
    14 		free(state.base_ram);
    15 	if (state.exp_ram != NULL)
    16 		free(state.exp_ram);
    18 	// Initialise hardware registers
    19 	state.romlmap = false;
    20 	state.idmarw = state.dmaen = state.dmaenb = false;
    21 	state.dma_count = state.dma_address = 0;
    22 	state.pie = 0;
    23 	state.ee = 0;
    24 	state.leds = 0;
    25 	state.genstat = 0;				// FIXME: check this
    26 	state.bsr0 = state.bsr1 = 0;	// FIXME: check this
    27 	state.timer_enabled = state.timer_asserted = false;
    28 	// Allocate Base RAM, making sure the user has specified a valid RAM amount first
    29 	// Basically: 512KiB minimum, 2MiB maximum, in increments of 512KiB.
    30 	if ((base_ram_size < 512*1024) || (base_ram_size > 2048*1024) || ((base_ram_size % (512*1024)) != 0))
    31 		return -1;
    32 	state.base_ram = malloc(base_ram_size);
    33 	if (state.base_ram == NULL)
    34 		return -2;
    35 	state.base_ram_size = base_ram_size;
    37 	// Now allocate expansion RAM
    38 	// The difference here is that we can have zero bytes of Expansion RAM; we're not limited to having a minimum of 512KiB.
    39 	if ((exp_ram_size > 2048*1024) || ((exp_ram_size % (512*1024)) != 0))
    40 		return -1;
    41 	state.exp_ram = malloc(exp_ram_size);
    42 	if (state.exp_ram == NULL)
    43 		return -2;
    44 	state.exp_ram_size = exp_ram_size;
    46 	// Load ROMs
    47 	FILE *r14c, *r15c;
    48 	r14c = fopen("roms/14c.bin", "rb");
    49 	if (r14c == NULL) {
    50 		fprintf(stderr, "[state] Error loading roms/14c.bin.\n");
    51 		return -3;
    52 	}
    53 	r15c = fopen("roms/15c.bin", "rb");
    54 	if (r15c == NULL) {
    55 		fprintf(stderr, "[state] Error loading roms/15c.bin.\n");
    56 		return -3;
    57 	}
    59 	// get ROM file size
    60 	fseek(r14c, 0, SEEK_END);
    61 	size_t romlen = ftell(r14c);
    62 	fseek(r14c, 0, SEEK_SET);
    63 	fseek(r15c, 0, SEEK_END);
    64 	size_t romlen2 = ftell(r15c);
    65 	fseek(r15c, 0, SEEK_SET);
    66 	if (romlen2 != romlen) {
    67 		fprintf(stderr, "[state] ROMs are not the same size!\n");
    68 		return -3;
    69 	}
    70 	if ((romlen + romlen2) > ROM_SIZE) {
    71 		fprintf(stderr, "[state] ROM files are too large!\n");
    72 		return -3;
    73 	}
    75 	// sanity checks completed; load the ROMs!
    76 	uint8_t *romdat1, *romdat2;
    77 	romdat1 = malloc(romlen);
    78 	romdat2 = malloc(romlen2);
    79 	fread(romdat1, 1, romlen, r15c);
    80 	fread(romdat2, 1, romlen2, r14c);
    82 	// convert the ROM data
    83 	for (size_t i=0; i<(romlen + romlen2); i+=2) {
    84 		state.rom[i+0] = romdat1[i/2];
    85 		state.rom[i+1] = romdat2[i/2];
    86 	}
    88 	// TODO: if ROM buffer not filled, repeat the ROM data we read until it is (wraparound emulation)
    90 	// free the data arrays and close the files
    91 	free(romdat1);
    92 	free(romdat2);
    93 	fclose(r14c);
    94 	fclose(r15c);
    96 	// Initialise the disc controller
    97 	wd2797_init(&state.fdc_ctx);
    98 	// Initialise the keyboard controller
    99 	keyboard_init(&state.kbd);
   101 	return 0;
   102 }
   104 void state_done()
   105 {
   106 	if (state.base_ram != NULL) {
   107 		free(state.base_ram);
   108 		state.base_ram = NULL;
   109 	}
   111 	if (state.exp_ram != NULL) {
   112 		free(state.exp_ram);
   113 		state.exp_ram = NULL;
   114 	}
   116 	// Deinitialise the disc controller
   117 	wd2797_done(&state.fdc_ctx);
   118 	wd2010_done(&state.hdc_ctx);
   119 }