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86d1c3887f
ledma has 0x20 bytes of registers according to OBP, and at least Solaris9 reads the 5th register which is beyond what we've mapped. So let's setup a flag (inspired by a previous patch from Blue Swirl) to identify ledma from espdma, and map another 16 bytes of registers which return 0. Signed-off-by: Bob Breuer <breuerr@mc.net> Signed-off-by: Blue Swirl <blauwirbel@gmail.com>
301 lines
8.4 KiB
C
301 lines
8.4 KiB
C
/*
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* QEMU Sparc32 DMA controller emulation
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*
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* Copyright (c) 2006 Fabrice Bellard
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*
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* Modifications:
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* 2010-Feb-14 Artyom Tarasenko : reworked irq generation
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include "hw.h"
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#include "sparc32_dma.h"
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#include "sun4m.h"
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#include "sysbus.h"
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#include "trace.h"
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/*
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* This is the DMA controller part of chip STP2000 (Master I/O), also
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* produced as NCR89C100. See
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* http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/NCR89C100.txt
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* and
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* http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/DMA2.txt
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*/
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#define DMA_REGS 4
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#define DMA_SIZE (4 * sizeof(uint32_t))
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/* We need the mask, because one instance of the device is not page
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aligned (ledma, start address 0x0010) */
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#define DMA_MASK (DMA_SIZE - 1)
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/* ledma has more than 4 registers, Solaris reads the 5th one */
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#define DMA_ETH_SIZE (8 * sizeof(uint32_t))
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#define DMA_MAX_REG_OFFSET (2 * DMA_SIZE - 1)
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#define DMA_VER 0xa0000000
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#define DMA_INTR 1
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#define DMA_INTREN 0x10
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#define DMA_WRITE_MEM 0x100
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#define DMA_EN 0x200
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#define DMA_LOADED 0x04000000
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#define DMA_DRAIN_FIFO 0x40
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#define DMA_RESET 0x80
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/* XXX SCSI and ethernet should have different read-only bit masks */
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#define DMA_CSR_RO_MASK 0xfe000007
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typedef struct DMAState DMAState;
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struct DMAState {
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SysBusDevice busdev;
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uint32_t dmaregs[DMA_REGS];
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qemu_irq irq;
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void *iommu;
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qemu_irq gpio[2];
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uint32_t is_ledma;
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};
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enum {
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GPIO_RESET = 0,
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GPIO_DMA,
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};
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/* Note: on sparc, the lance 16 bit bus is swapped */
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void ledma_memory_read(void *opaque, target_phys_addr_t addr,
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uint8_t *buf, int len, int do_bswap)
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{
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DMAState *s = opaque;
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int i;
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addr |= s->dmaregs[3];
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trace_ledma_memory_read(addr);
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if (do_bswap) {
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sparc_iommu_memory_read(s->iommu, addr, buf, len);
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} else {
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addr &= ~1;
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len &= ~1;
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sparc_iommu_memory_read(s->iommu, addr, buf, len);
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for(i = 0; i < len; i += 2) {
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bswap16s((uint16_t *)(buf + i));
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}
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}
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}
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void ledma_memory_write(void *opaque, target_phys_addr_t addr,
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uint8_t *buf, int len, int do_bswap)
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{
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DMAState *s = opaque;
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int l, i;
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uint16_t tmp_buf[32];
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addr |= s->dmaregs[3];
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trace_ledma_memory_write(addr);
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if (do_bswap) {
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sparc_iommu_memory_write(s->iommu, addr, buf, len);
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} else {
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addr &= ~1;
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len &= ~1;
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while (len > 0) {
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l = len;
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if (l > sizeof(tmp_buf))
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l = sizeof(tmp_buf);
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for(i = 0; i < l; i += 2) {
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tmp_buf[i >> 1] = bswap16(*(uint16_t *)(buf + i));
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}
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sparc_iommu_memory_write(s->iommu, addr, (uint8_t *)tmp_buf, l);
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len -= l;
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buf += l;
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addr += l;
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}
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}
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}
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static void dma_set_irq(void *opaque, int irq, int level)
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{
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DMAState *s = opaque;
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if (level) {
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s->dmaregs[0] |= DMA_INTR;
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if (s->dmaregs[0] & DMA_INTREN) {
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trace_sparc32_dma_set_irq_raise();
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qemu_irq_raise(s->irq);
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}
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} else {
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if (s->dmaregs[0] & DMA_INTR) {
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s->dmaregs[0] &= ~DMA_INTR;
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if (s->dmaregs[0] & DMA_INTREN) {
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trace_sparc32_dma_set_irq_lower();
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qemu_irq_lower(s->irq);
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}
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}
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}
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}
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void espdma_memory_read(void *opaque, uint8_t *buf, int len)
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{
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DMAState *s = opaque;
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trace_espdma_memory_read(s->dmaregs[1]);
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sparc_iommu_memory_read(s->iommu, s->dmaregs[1], buf, len);
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s->dmaregs[1] += len;
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}
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void espdma_memory_write(void *opaque, uint8_t *buf, int len)
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{
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DMAState *s = opaque;
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trace_espdma_memory_write(s->dmaregs[1]);
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sparc_iommu_memory_write(s->iommu, s->dmaregs[1], buf, len);
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s->dmaregs[1] += len;
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}
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static uint32_t dma_mem_readl(void *opaque, target_phys_addr_t addr)
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{
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DMAState *s = opaque;
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uint32_t saddr;
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if (s->is_ledma && (addr > DMA_MAX_REG_OFFSET)) {
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return 0; /* extra mystery register(s) */
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}
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saddr = (addr & DMA_MASK) >> 2;
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trace_sparc32_dma_mem_readl(addr, s->dmaregs[saddr]);
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return s->dmaregs[saddr];
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}
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static void dma_mem_writel(void *opaque, target_phys_addr_t addr, uint32_t val)
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{
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DMAState *s = opaque;
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uint32_t saddr;
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if (s->is_ledma && (addr > DMA_MAX_REG_OFFSET)) {
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return; /* extra mystery register(s) */
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}
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saddr = (addr & DMA_MASK) >> 2;
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trace_sparc32_dma_mem_writel(addr, s->dmaregs[saddr], val);
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switch (saddr) {
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case 0:
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if (val & DMA_INTREN) {
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if (s->dmaregs[0] & DMA_INTR) {
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trace_sparc32_dma_set_irq_raise();
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qemu_irq_raise(s->irq);
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}
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} else {
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if (s->dmaregs[0] & (DMA_INTR | DMA_INTREN)) {
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trace_sparc32_dma_set_irq_lower();
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qemu_irq_lower(s->irq);
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}
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}
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if (val & DMA_RESET) {
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qemu_irq_raise(s->gpio[GPIO_RESET]);
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qemu_irq_lower(s->gpio[GPIO_RESET]);
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} else if (val & DMA_DRAIN_FIFO) {
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val &= ~DMA_DRAIN_FIFO;
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} else if (val == 0)
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val = DMA_DRAIN_FIFO;
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if (val & DMA_EN && !(s->dmaregs[0] & DMA_EN)) {
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trace_sparc32_dma_enable_raise();
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qemu_irq_raise(s->gpio[GPIO_DMA]);
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} else if (!(val & DMA_EN) && !!(s->dmaregs[0] & DMA_EN)) {
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trace_sparc32_dma_enable_lower();
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qemu_irq_lower(s->gpio[GPIO_DMA]);
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}
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val &= ~DMA_CSR_RO_MASK;
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val |= DMA_VER;
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s->dmaregs[0] = (s->dmaregs[0] & DMA_CSR_RO_MASK) | val;
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break;
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case 1:
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s->dmaregs[0] |= DMA_LOADED;
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/* fall through */
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default:
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s->dmaregs[saddr] = val;
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break;
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}
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}
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static CPUReadMemoryFunc * const dma_mem_read[3] = {
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NULL,
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NULL,
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dma_mem_readl,
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};
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static CPUWriteMemoryFunc * const dma_mem_write[3] = {
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NULL,
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NULL,
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dma_mem_writel,
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};
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static void dma_reset(DeviceState *d)
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{
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DMAState *s = container_of(d, DMAState, busdev.qdev);
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memset(s->dmaregs, 0, DMA_SIZE);
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s->dmaregs[0] = DMA_VER;
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}
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static const VMStateDescription vmstate_dma = {
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.name ="sparc32_dma",
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.version_id = 2,
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.minimum_version_id = 2,
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.minimum_version_id_old = 2,
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.fields = (VMStateField []) {
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VMSTATE_UINT32_ARRAY(dmaregs, DMAState, DMA_REGS),
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VMSTATE_END_OF_LIST()
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}
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};
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static int sparc32_dma_init1(SysBusDevice *dev)
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{
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DMAState *s = FROM_SYSBUS(DMAState, dev);
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int dma_io_memory;
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int reg_size;
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sysbus_init_irq(dev, &s->irq);
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dma_io_memory = cpu_register_io_memory(dma_mem_read, dma_mem_write, s,
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DEVICE_NATIVE_ENDIAN);
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reg_size = s->is_ledma ? DMA_ETH_SIZE : DMA_SIZE;
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sysbus_init_mmio(dev, reg_size, dma_io_memory);
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qdev_init_gpio_in(&dev->qdev, dma_set_irq, 1);
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qdev_init_gpio_out(&dev->qdev, s->gpio, 2);
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return 0;
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}
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static SysBusDeviceInfo sparc32_dma_info = {
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.init = sparc32_dma_init1,
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.qdev.name = "sparc32_dma",
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.qdev.size = sizeof(DMAState),
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.qdev.vmsd = &vmstate_dma,
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.qdev.reset = dma_reset,
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.qdev.props = (Property[]) {
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DEFINE_PROP_PTR("iommu_opaque", DMAState, iommu),
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DEFINE_PROP_UINT32("is_ledma", DMAState, is_ledma, 0),
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DEFINE_PROP_END_OF_LIST(),
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}
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};
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static void sparc32_dma_register_devices(void)
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{
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sysbus_register_withprop(&sparc32_dma_info);
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}
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device_init(sparc32_dma_register_devices)
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