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https://github.com/xemu-project/xemu.git
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8167ee8839
Signed-off-by: Blue Swirl <blauwirbel@gmail.com>
366 lines
12 KiB
C
366 lines
12 KiB
C
/*
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* On-chip DMA controller framework.
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*
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* Copyright (C) 2008 Nokia Corporation
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* Written by Andrzej Zaborowski <andrew@openedhand.com>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 or
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* (at your option) version 3 of the License.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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#include "qemu-common.h"
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#include "qemu-timer.h"
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#include "soc_dma.h"
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static void transfer_mem2mem(struct soc_dma_ch_s *ch)
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{
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memcpy(ch->paddr[0], ch->paddr[1], ch->bytes);
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ch->paddr[0] += ch->bytes;
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ch->paddr[1] += ch->bytes;
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}
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static void transfer_mem2fifo(struct soc_dma_ch_s *ch)
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{
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ch->io_fn[1](ch->io_opaque[1], ch->paddr[0], ch->bytes);
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ch->paddr[0] += ch->bytes;
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}
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static void transfer_fifo2mem(struct soc_dma_ch_s *ch)
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{
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ch->io_fn[0](ch->io_opaque[0], ch->paddr[1], ch->bytes);
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ch->paddr[1] += ch->bytes;
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}
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/* This is further optimisable but isn't very important because often
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* DMA peripherals forbid this kind of transfers and even when they don't,
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* oprating systems may not need to use them. */
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static void *fifo_buf;
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static int fifo_size;
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static void transfer_fifo2fifo(struct soc_dma_ch_s *ch)
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{
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if (ch->bytes > fifo_size)
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fifo_buf = qemu_realloc(fifo_buf, fifo_size = ch->bytes);
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/* Implement as transfer_fifo2linear + transfer_linear2fifo. */
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ch->io_fn[0](ch->io_opaque[0], fifo_buf, ch->bytes);
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ch->io_fn[1](ch->io_opaque[1], fifo_buf, ch->bytes);
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}
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struct dma_s {
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struct soc_dma_s soc;
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int chnum;
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uint64_t ch_enable_mask;
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int64_t channel_freq;
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int enabled_count;
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struct memmap_entry_s {
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enum soc_dma_port_type type;
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target_phys_addr_t addr;
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union {
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struct {
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void *opaque;
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soc_dma_io_t fn;
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int out;
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} fifo;
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struct {
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void *base;
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size_t size;
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} mem;
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} u;
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} *memmap;
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int memmap_size;
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struct soc_dma_ch_s ch[0];
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};
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static void soc_dma_ch_schedule(struct soc_dma_ch_s *ch, int delay_bytes)
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{
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int64_t now = qemu_get_clock(vm_clock);
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struct dma_s *dma = (struct dma_s *) ch->dma;
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qemu_mod_timer(ch->timer, now + delay_bytes / dma->channel_freq);
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}
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static void soc_dma_ch_run(void *opaque)
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{
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struct soc_dma_ch_s *ch = (struct soc_dma_ch_s *) opaque;
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ch->running = 1;
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ch->dma->setup_fn(ch);
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ch->transfer_fn(ch);
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ch->running = 0;
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if (ch->enable)
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soc_dma_ch_schedule(ch, ch->bytes);
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ch->bytes = 0;
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}
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static inline struct memmap_entry_s *soc_dma_lookup(struct dma_s *dma,
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target_phys_addr_t addr)
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{
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struct memmap_entry_s *lo;
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int hi;
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lo = dma->memmap;
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hi = dma->memmap_size;
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while (hi > 1) {
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hi /= 2;
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if (lo[hi].addr <= addr)
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lo += hi;
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}
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return lo;
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}
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static inline enum soc_dma_port_type soc_dma_ch_update_type(
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struct soc_dma_ch_s *ch, int port)
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{
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struct dma_s *dma = (struct dma_s *) ch->dma;
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struct memmap_entry_s *entry = soc_dma_lookup(dma, ch->vaddr[port]);
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if (entry->type == soc_dma_port_fifo) {
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while (entry < dma->memmap + dma->memmap_size &&
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entry->u.fifo.out != port)
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entry ++;
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if (entry->addr != ch->vaddr[port] || entry->u.fifo.out != port)
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return soc_dma_port_other;
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if (ch->type[port] != soc_dma_access_const)
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return soc_dma_port_other;
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ch->io_fn[port] = entry->u.fifo.fn;
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ch->io_opaque[port] = entry->u.fifo.opaque;
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return soc_dma_port_fifo;
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} else if (entry->type == soc_dma_port_mem) {
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if (entry->addr > ch->vaddr[port] ||
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entry->addr + entry->u.mem.size <= ch->vaddr[port])
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return soc_dma_port_other;
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/* TODO: support constant memory address for source port as used for
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* drawing solid rectangles by PalmOS(R). */
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if (ch->type[port] != soc_dma_access_const)
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return soc_dma_port_other;
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ch->paddr[port] = (uint8_t *) entry->u.mem.base +
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(ch->vaddr[port] - entry->addr);
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/* TODO: save bytes left to the end of the mapping somewhere so we
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* can check we're not reading beyond it. */
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return soc_dma_port_mem;
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} else
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return soc_dma_port_other;
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}
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void soc_dma_ch_update(struct soc_dma_ch_s *ch)
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{
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enum soc_dma_port_type src, dst;
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src = soc_dma_ch_update_type(ch, 0);
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if (src == soc_dma_port_other) {
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ch->update = 0;
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ch->transfer_fn = ch->dma->transfer_fn;
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return;
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}
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dst = soc_dma_ch_update_type(ch, 1);
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/* TODO: use src and dst as array indices. */
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if (src == soc_dma_port_mem && dst == soc_dma_port_mem)
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ch->transfer_fn = transfer_mem2mem;
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else if (src == soc_dma_port_mem && dst == soc_dma_port_fifo)
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ch->transfer_fn = transfer_mem2fifo;
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else if (src == soc_dma_port_fifo && dst == soc_dma_port_mem)
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ch->transfer_fn = transfer_fifo2mem;
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else if (src == soc_dma_port_fifo && dst == soc_dma_port_fifo)
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ch->transfer_fn = transfer_fifo2fifo;
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else
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ch->transfer_fn = ch->dma->transfer_fn;
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ch->update = (dst != soc_dma_port_other);
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}
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static void soc_dma_ch_freq_update(struct dma_s *s)
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{
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if (s->enabled_count)
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/* We completely ignore channel priorities and stuff */
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s->channel_freq = s->soc.freq / s->enabled_count;
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else
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/* TODO: Signal that we want to disable the functional clock and let
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* the platform code decide what to do with it, i.e. check that
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* auto-idle is enabled in the clock controller and if we are stopping
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* the clock, do the same with any parent clocks that had only one
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* user keeping them on and auto-idle enabled. */;
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}
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void soc_dma_set_request(struct soc_dma_ch_s *ch, int level)
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{
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struct dma_s *dma = (struct dma_s *) ch->dma;
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dma->enabled_count += level - ch->enable;
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if (level)
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dma->ch_enable_mask |= 1 << ch->num;
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else
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dma->ch_enable_mask &= ~(1 << ch->num);
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if (level != ch->enable) {
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soc_dma_ch_freq_update(dma);
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ch->enable = level;
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if (!ch->enable)
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qemu_del_timer(ch->timer);
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else if (!ch->running)
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soc_dma_ch_run(ch);
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else
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soc_dma_ch_schedule(ch, 1);
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}
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}
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void soc_dma_reset(struct soc_dma_s *soc)
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{
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struct dma_s *s = (struct dma_s *) soc;
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s->soc.drqbmp = 0;
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s->ch_enable_mask = 0;
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s->enabled_count = 0;
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soc_dma_ch_freq_update(s);
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}
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/* TODO: take a functional-clock argument */
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struct soc_dma_s *soc_dma_init(int n)
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{
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int i;
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struct dma_s *s = qemu_mallocz(sizeof(*s) + n * sizeof(*s->ch));
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s->chnum = n;
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s->soc.ch = s->ch;
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for (i = 0; i < n; i ++) {
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s->ch[i].dma = &s->soc;
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s->ch[i].num = i;
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s->ch[i].timer = qemu_new_timer(vm_clock, soc_dma_ch_run, &s->ch[i]);
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}
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soc_dma_reset(&s->soc);
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fifo_size = 0;
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return &s->soc;
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}
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void soc_dma_port_add_fifo(struct soc_dma_s *soc, target_phys_addr_t virt_base,
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soc_dma_io_t fn, void *opaque, int out)
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{
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struct memmap_entry_s *entry;
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struct dma_s *dma = (struct dma_s *) soc;
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dma->memmap = qemu_realloc(dma->memmap, sizeof(*entry) *
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(dma->memmap_size + 1));
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entry = soc_dma_lookup(dma, virt_base);
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if (dma->memmap_size) {
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if (entry->type == soc_dma_port_mem) {
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if (entry->addr <= virt_base &&
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entry->addr + entry->u.mem.size > virt_base) {
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fprintf(stderr, "%s: FIFO at " TARGET_FMT_lx
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" collides with RAM region at " TARGET_FMT_lx
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"-" TARGET_FMT_lx "\n", __FUNCTION__,
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(target_ulong) virt_base,
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(target_ulong) entry->addr, (target_ulong)
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(entry->addr + entry->u.mem.size));
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exit(-1);
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}
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if (entry->addr <= virt_base)
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entry ++;
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} else
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while (entry < dma->memmap + dma->memmap_size &&
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entry->addr <= virt_base) {
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if (entry->addr == virt_base && entry->u.fifo.out == out) {
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fprintf(stderr, "%s: FIFO at " TARGET_FMT_lx
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" collides FIFO at " TARGET_FMT_lx "\n",
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__FUNCTION__, (target_ulong) virt_base,
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(target_ulong) entry->addr);
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exit(-1);
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}
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entry ++;
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}
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memmove(entry + 1, entry,
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(uint8_t *) (dma->memmap + dma->memmap_size ++) -
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(uint8_t *) entry);
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} else
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dma->memmap_size ++;
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entry->addr = virt_base;
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entry->type = soc_dma_port_fifo;
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entry->u.fifo.fn = fn;
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entry->u.fifo.opaque = opaque;
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entry->u.fifo.out = out;
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}
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void soc_dma_port_add_mem(struct soc_dma_s *soc, uint8_t *phys_base,
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target_phys_addr_t virt_base, size_t size)
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{
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struct memmap_entry_s *entry;
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struct dma_s *dma = (struct dma_s *) soc;
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dma->memmap = qemu_realloc(dma->memmap, sizeof(*entry) *
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(dma->memmap_size + 1));
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entry = soc_dma_lookup(dma, virt_base);
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if (dma->memmap_size) {
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if (entry->type == soc_dma_port_mem) {
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if ((entry->addr >= virt_base && entry->addr < virt_base + size) ||
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(entry->addr <= virt_base &&
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entry->addr + entry->u.mem.size > virt_base)) {
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fprintf(stderr, "%s: RAM at " TARGET_FMT_lx "-" TARGET_FMT_lx
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" collides with RAM region at " TARGET_FMT_lx
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"-" TARGET_FMT_lx "\n", __FUNCTION__,
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(target_ulong) virt_base,
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(target_ulong) (virt_base + size),
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(target_ulong) entry->addr, (target_ulong)
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(entry->addr + entry->u.mem.size));
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exit(-1);
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}
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if (entry->addr <= virt_base)
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entry ++;
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} else {
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if (entry->addr >= virt_base &&
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entry->addr < virt_base + size) {
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fprintf(stderr, "%s: RAM at " TARGET_FMT_lx "-" TARGET_FMT_lx
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" collides with FIFO at " TARGET_FMT_lx
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"\n", __FUNCTION__,
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(target_ulong) virt_base,
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(target_ulong) (virt_base + size),
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(target_ulong) entry->addr);
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exit(-1);
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}
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while (entry < dma->memmap + dma->memmap_size &&
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entry->addr <= virt_base)
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entry ++;
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}
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memmove(entry + 1, entry,
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(uint8_t *) (dma->memmap + dma->memmap_size ++) -
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(uint8_t *) entry);
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} else
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dma->memmap_size ++;
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entry->addr = virt_base;
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entry->type = soc_dma_port_mem;
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entry->u.mem.base = phys_base;
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entry->u.mem.size = size;
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}
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/* TODO: port removal for ports like PCMCIA memory */
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