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src/state.c@df40e6668a46 (annotated)

src/state.c

Mon, 14 Jan 2013 09:50:37 +0000

author

Philip Pemberton <philpem@philpem.me.uk>

date

Mon, 14 Jan 2013 09:50:37 +0000

changeset 120

df40e6668a46

parent 112

a392eb8f9806

child 138

d744db15cdf7

permissions

-rw-r--r--

Max out system memory by default

Set the system memory to 2MiB base, 2MiB ext. This is a fully loaded 3B1
motherboard with a RAM expansion board. 512KiB base/no ext is the minimum
which can be specified (e.g. kernel memory map area only) but does not leave
any room for userspace. The kernel doesn't like that and doesn't handle it
gracefully...!

philpem@18	1	#define _STATE_C
philpem@18	2	#include <stddef.h>
philpem@18	3	#include <malloc.h>
philpem@18	4	#include <stdio.h>
philpem@52	5	#include "wd279x.h"
philpem@112	6	#include "wd2010.h"
philpem@80	7	#include "keyboard.h"
philpem@18	8	#include "state.h"
philpem@18	9
philpem@62	10	int state_init(size_t base_ram_size, size_t exp_ram_size)
philpem@18	11	{
philpem@18	12	// Free RAM if it's allocated
philpem@60	13	if (state.base_ram != NULL)
philpem@60	14	free(state.base_ram);
philpem@62	15	if (state.exp_ram != NULL)
philpem@62	16	free(state.exp_ram);
philpem@18	17
philpem@18	18	// Initialise hardware registers
philpem@18	19	state.romlmap = false;
philpem@75	20	state.idmarw = state.dmaen = state.dmaenb = false;
philpem@75	21	state.dma_count = state.dma_address = 0;
philpem@75	22	state.pie = 0;
philpem@101	23	state.ee = 0;
philpem@75	24	state.leds = 0;
philpem@75	25	state.genstat = 0; // FIXME: check this
philpem@75	26	state.bsr0 = state.bsr1 = 0; // FIXME: check this
philpem@97	27	state.timer_enabled = state.timer_asserted = false;
philpem@62	28	// Allocate Base RAM, making sure the user has specified a valid RAM amount first
philpem@62	29	// Basically: 512KiB minimum, 2MiB maximum, in increments of 512KiB.
philpem@62	30	if ((base_ram_size < 512*1024) || (base_ram_size > 2048*1024) || ((base_ram_size % (512*1024)) != 0))
philpem@18	31	return -1;
philpem@62	32	state.base_ram = malloc(base_ram_size);
philpem@60	33	if (state.base_ram == NULL)
philpem@18	34	return -2;
philpem@62	35	state.base_ram_size = base_ram_size;
philpem@62	36
philpem@62	37	// Now allocate expansion RAM
philpem@62	38	// The difference here is that we can have zero bytes of Expansion RAM; we're not limited to having a minimum of 512KiB.
philpem@62	39	if ((exp_ram_size > 2048*1024) || ((exp_ram_size % (512*1024)) != 0))
philpem@62	40	return -1;
philpem@62	41	state.exp_ram = malloc(exp_ram_size);
philpem@62	42	if (state.exp_ram == NULL)
philpem@62	43	return -2;
philpem@62	44	state.exp_ram_size = exp_ram_size;
philpem@18	45
philpem@18	46	// Load ROMs
philpem@18	47	FILE *r14c, *r15c;
philpem@18	48	r14c = fopen("roms/14c.bin", "rb");
philpem@55	49	if (r14c == NULL) {
philpem@55	50	fprintf(stderr, "[state] Error loading roms/14c.bin.\n");
philpem@55	51	return -3;
philpem@55	52	}
philpem@18	53	r15c = fopen("roms/15c.bin", "rb");
philpem@55	54	if (r15c == NULL) {
philpem@55	55	fprintf(stderr, "[state] Error loading roms/15c.bin.\n");
philpem@55	56	return -3;
philpem@55	57	}
philpem@18	58
philpem@18	59	// get ROM file size
philpem@18	60	fseek(r14c, 0, SEEK_END);
philpem@18	61	size_t romlen = ftell(r14c);
philpem@18	62	fseek(r14c, 0, SEEK_SET);
philpem@18	63	fseek(r15c, 0, SEEK_END);
philpem@18	64	size_t romlen2 = ftell(r15c);
philpem@18	65	fseek(r15c, 0, SEEK_SET);
philpem@55	66	if (romlen2 != romlen) {
philpem@55	67	fprintf(stderr, "[state] ROMs are not the same size!\n");
philpem@55	68	return -3;
philpem@55	69	}
philpem@55	70	if ((romlen + romlen2) > ROM_SIZE) {
philpem@55	71	fprintf(stderr, "[state] ROM files are too large!\n");
philpem@55	72	return -3;
philpem@55	73	}
philpem@18	74
philpem@18	75	// sanity checks completed; load the ROMs!
philpem@18	76	uint8_t *romdat1, *romdat2;
philpem@18	77	romdat1 = malloc(romlen);
philpem@18	78	romdat2 = malloc(romlen2);
philpem@18	79	fread(romdat1, 1, romlen, r15c);
philpem@18	80	fread(romdat2, 1, romlen2, r14c);
philpem@18	81
philpem@18	82	// convert the ROM data
philpem@18	83	for (size_t i=0; i<(romlen + romlen2); i+=2) {
philpem@18	84	state.rom[i+0] = romdat1[i/2];
philpem@18	85	state.rom[i+1] = romdat2[i/2];
philpem@18	86	}
philpem@18	87
philpem@18	88	// TODO: if ROM buffer not filled, repeat the ROM data we read until it is (wraparound emulation)
philpem@18	89
philpem@18	90	// free the data arrays and close the files
philpem@18	91	free(romdat1);
philpem@18	92	free(romdat2);
philpem@18	93	fclose(r14c);
philpem@18	94	fclose(r15c);
philpem@18	95
philpem@52	96	// Initialise the disc controller
philpem@52	97	wd2797_init(&state.fdc_ctx);
philpem@80	98	// Initialise the keyboard controller
philpem@80	99	keyboard_init(&state.kbd);
philpem@52	100
philpem@18	101	return 0;
philpem@18	102	}
philpem@18	103
philpem@18	104	void state_done()
philpem@18	105	{
philpem@60	106	if (state.base_ram != NULL) {
philpem@60	107	free(state.base_ram);
philpem@60	108	state.base_ram = NULL;
philpem@18	109	}
philpem@62	110
philpem@62	111	if (state.exp_ram != NULL) {
philpem@62	112	free(state.exp_ram);
philpem@62	113	state.exp_ram = NULL;
philpem@62	114	}
philpem@62	115
philpem@52	116	// Deinitialise the disc controller
philpem@52	117	wd2797_done(&state.fdc_ctx);
philpem@112	118	wd2010_done(&state.hdc_ctx);
philpem@18	119	}
philpem@18	120
philpem@18	121