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erc-c/tests/apple2.dd.c

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#include <criterion/criterion.h>
#include "apple2.dd.h"
static apple2dd *drive;
static void
setup()
{
drive = apple2_dd_create();
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}
static void
teardown()
{
apple2_dd_free(drive);
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}
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TestSuite(apple2_dd, .init = setup, .fini = teardown);
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Test(apple2_dd, create)
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{
cr_assert_eq(drive->data, NULL);
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cr_assert_eq(drive->image, NULL);
cr_assert_eq(drive->image_type, DD_NOTYPE);
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cr_assert_eq(drive->track_pos, 0);
cr_assert_eq(drive->sector_pos, 0);
cr_assert_eq(drive->online, false);
cr_assert_eq(drive->write_protect, true);
cr_assert_eq(drive->mode, DD_READ);
}
/* Test(apple2_dd, free) */
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Test(apple2_dd, insert)
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{
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FILE *stream;
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// In a successful drive open, we would also reset the track and
// sector pos.
drive->track_pos = 123;
drive->sector_pos = 33;
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stream = fopen("../data/zero.img", "r");
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cr_assert_eq(apple2_dd_insert(drive, stream, DD_DOS33), OK);
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cr_assert_eq(drive->track_pos, 0);
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cr_assert_eq(drive->sector_pos, 0);
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cr_assert_eq(drive->image_type, DD_DOS33);
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fclose(stream);
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stream = fopen("../data/bad.img", "r");
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cr_assert_eq(apple2_dd_insert(drive, stream, DD_DOS33), ERR_BADFILE);
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fclose(stream);
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}
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Test(apple2_dd, position)
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{
// Without any data, the drive should return a null position
// regardless of track position
drive->track_pos = 3;
drive->sector_pos = 44;
cr_assert_eq(apple2_dd_position(drive), 0);
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// FIXME: we need some dummy data for the drive...
}
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Test(apple2_dd, read)
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{
drive->data = vm_segment_create(_140K_);
vm_segment_set(drive->data, 0, 123);
vm_segment_set(drive->data, 1, 234);
cr_assert_eq(apple2_dd_read(drive), 123);
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cr_assert_eq(drive->track_pos, 0);
cr_assert_eq(drive->sector_pos, 1);
cr_assert_eq(apple2_dd_read(drive), 234);
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cr_assert_eq(drive->track_pos, 0);
cr_assert_eq(drive->sector_pos, 2);
}
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Test(apple2_dd, eject)
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{
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drive->image = vm_segment_create(1000);
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drive->data = vm_segment_create(1000);
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drive->image_type = DD_NIBBLE;
drive->stream = NULL;
apple2_dd_eject(drive);
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cr_assert_eq(drive->data, NULL);
}
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Test(apple2_dd, set_mode)
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{
apple2_dd_set_mode(drive, DD_WRITE);
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cr_assert_eq(drive->mode, DD_WRITE);
apple2_dd_set_mode(drive, DD_READ);
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cr_assert_eq(drive->mode, DD_READ);
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// let's try shenanigans
apple2_dd_set_mode(drive, 111111111);
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cr_assert_eq(drive->mode, DD_READ);
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}
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Test(apple2_dd, shift)
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{
apple2_dd_shift(drive, 5);
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cr_assert_eq(drive->sector_pos, 5);
// Push it beyond the sector boundary; see if the track position
// updates as it should.
apple2_dd_shift(drive, MAX_SECTOR_POS + 3);
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cr_assert_eq(drive->track_pos, 2);
// this should be the mod of sector_pos and MAX_SECTOR_POS
cr_assert_eq(drive->sector_pos, 7);
}
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Test(apple2_dd, step)
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{
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// Does step work at all?
apple2_dd_step(drive, 5);
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cr_assert_eq(drive->track_pos, 5);
apple2_dd_step(drive, 3);
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cr_assert_eq(drive->track_pos, 8);
apple2_dd_step(drive, -2);
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cr_assert_eq(drive->track_pos, 6);
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// Do we handle going over the maximum track position properly?
apple2_dd_step(drive, 100);
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cr_assert_eq(drive->track_pos, MAX_DRIVE_STEPS);
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// Do we handle going to the 0 track properly if we get a radically
// high number of negative track shifts?
apple2_dd_step(drive, -1000);
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cr_assert_eq(drive->track_pos, 0);
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}
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Test(apple2_dd, turn_on)
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{
apple2_dd_turn_on(drive, true);
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cr_assert(drive->online);
apple2_dd_turn_on(drive, false);
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cr_assert(!drive->online);
// I mean, ok
apple2_dd_turn_on(drive, 1111333);
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cr_assert(drive->online);
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}
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Test(apple2_dd, write)
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{
drive->data = vm_segment_create(_140K_);
drive->latch = 123;
apple2_dd_write(drive);
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cr_assert_eq(vm_segment_get(drive->data, 0), 123);
cr_assert_eq(drive->track_pos, 0);
cr_assert_eq(drive->sector_pos, 1);
drive->latch = 234;
apple2_dd_write(drive);
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cr_assert_eq(vm_segment_get(drive->data, 1), 234);
cr_assert_eq(drive->track_pos, 0);
cr_assert_eq(drive->sector_pos, 2);
}
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Test(apple2_dd, write_protect)
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{
apple2_dd_write_protect(drive, true);
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cr_assert(drive->write_protect);
apple2_dd_write_protect(drive, false);
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cr_assert(!drive->write_protect);
apple2_dd_write_protect(drive, 2222);
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cr_assert(drive->write_protect);
}
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Test(apple2_dd, encode)
{
// Mostly we want to test if this handles the image types correct.
// The encode function won't actually try to encode anything if the
// image segment is NULL.
drive->image_type = DD_NIBBLE; cr_assert_eq(apple2_dd_encode(drive), OK);
drive->image_type = DD_DOS33; cr_assert_eq(apple2_dd_encode(drive), OK);
drive->image_type = DD_PRODOS; cr_assert_eq(apple2_dd_encode(drive), OK);
drive->image_type = -1; cr_assert_neq(apple2_dd_encode(drive), OK);
}
Test(apple2_dd, decode)
{
// Same drill as for the encode test
drive->image_type = DD_NIBBLE; cr_assert_eq(apple2_dd_encode(drive), OK);
drive->image_type = DD_DOS33; cr_assert_eq(apple2_dd_encode(drive), OK);
drive->image_type = DD_PRODOS; cr_assert_eq(apple2_dd_encode(drive), OK);
drive->image_type = -1; cr_assert_neq(apple2_dd_encode(drive), OK);
}
// Skipping this test because most everything it does is already tested
// in some other capacity
/* Test(apple2_dd, save) */
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Test(apple2_dd, phaser)
{
drive->phase_state = 1;
drive->last_phase = 0;
apple2_dd_phaser(drive);
cr_assert_eq(drive->track_pos, 1);
cr_assert_eq(drive->last_phase, 1);
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// This shouldn't work--we should stay at the track_pos we begin
// with
drive->phase_state = 0x4;
apple2_dd_phaser(drive);
cr_assert_eq(drive->track_pos, 1);
// And test that we can go backward
drive->phase_state = 0;
apple2_dd_phaser(drive);
cr_assert_eq(drive->track_pos, 0);
}
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Test(apple2_dd, switch_phase)
{
apple2_dd_switch_phase(drive, 0x1);
cr_assert_eq(drive->phase_state, 0x1);
apple2_dd_switch_phase(drive, 0x0);
cr_assert_eq(drive->phase_state, 0x0);
apple2_dd_switch_phase(drive, 0x3);
cr_assert_eq(drive->phase_state, 0x2);
apple2_dd_switch_phase(drive, 0x2);
cr_assert_eq(drive->phase_state, 0x0);
apple2_dd_switch_phase(drive, 0x5);
cr_assert_eq(drive->phase_state, 0x4);
apple2_dd_switch_phase(drive, 0x4);
cr_assert_eq(drive->phase_state, 0x0);
apple2_dd_switch_phase(drive, 0x7);
cr_assert_eq(drive->phase_state, 0x8);
apple2_dd_switch_phase(drive, 0x6);
cr_assert_eq(drive->phase_state, 0x0);
}
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Test(apple2_dd, switch_drive)
{
apple2 *mach = apple2_create(100, 100);
apple2_dd_switch_drive(mach, 0xB);
cr_assert_eq(mach->selected_drive, mach->drive2);
apple2_dd_switch_drive(mach, 0xA);
cr_assert_eq(mach->selected_drive, mach->drive1);
apple2_dd_switch_drive(mach, 0x8);
cr_assert_eq(mach->drive1->online, false);
cr_assert_eq(mach->drive2->online, false);
apple2_dd_switch_drive(mach, 0x9);
cr_assert_eq(mach->drive1->online, true);
cr_assert_eq(mach->drive2->online, false);
apple2_dd_switch_drive(mach, 0xE);
cr_assert_eq(mach->selected_drive->mode, DD_READ);
apple2_dd_switch_drive(mach, 0xF);
cr_assert_eq(mach->selected_drive->mode, DD_WRITE);
apple2_free(mach);
}
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Test(apple2_dd, switch_latch)
{
drive->latch = 0;
drive->mode = DD_READ;
apple2_dd_switch_latch(drive, 3);
cr_assert_eq(drive->latch, 0);
drive->mode = DD_WRITE;
apple2_dd_switch_latch(drive, 5);
cr_assert_eq(drive->latch, 5);
}
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Test(apple2_dd, switch_rw)
{
drive->data = vm_segment_create(_140K_);
vm_segment_set(drive->data, 0, 123);
vm_segment_set(drive->data, 1, 234);
drive->mode = DD_READ;
cr_assert_eq(apple2_dd_switch_rw(drive), 123);
drive->mode = DD_WRITE;
drive->write_protect = true;
cr_assert_eq(apple2_dd_switch_rw(drive), 234);
drive->write_protect = false;
drive->latch = 111;
cr_assert_eq(apple2_dd_switch_rw(drive), 0);
cr_assert_eq(vm_segment_get(drive->data, drive->sector_pos - 1), 111);
}
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// Ignoring these right now, as they are calling the other switch_*
// functions that we do have tests for
/* Test(apple2_dd, switch_read) */
/* Test(apple2_dd, switch_write) */
Test(apple2_dd, map)
{
vm_segment *seg = vm_segment_create(MOS6502_MEMSIZE);
size_t addr;
apple2_dd_map(seg);
for (addr = 0xC0E0; addr < 0xC100; addr++) {
cr_assert_eq(seg->read_table[addr], apple2_dd_switch_read);
cr_assert_eq(seg->write_table[addr], apple2_dd_switch_write);
}
vm_segment_free(seg);
}