/**************************************************************************** * Copyright (C) 2003-2006 by XGI Technology, Taiwan. * * * All Rights Reserved. * * * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation on the rights to use, copy, modify, merge, * publish, distribute, sublicense, and/or sell copies of the Software, * and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * * The above copyright notice and this permission notice (including the * next paragraph) shall be included in all copies or substantial * portions of the Software. * * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NON-INFRINGEMENT. IN NO EVENT SHALL XGI AND/OR * ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. ***************************************************************************/ #include "xgi_drv.h" #include "xgi_regs.h" #include "xgi_misc.h" #include "xgi_cmdlist.h" static void addFlush2D(struct xgi_info * info); static unsigned int get_batch_command(enum xgi_batch_type type); static void triggerHWCommandList(struct xgi_info * info); static void xgi_cmdlist_reset(struct xgi_info * info); int xgi_cmdlist_initialize(struct xgi_info * info, size_t size) { struct xgi_mem_alloc mem_alloc = { .size = size, .owner = PCIE_2D, }; int err; err = xgi_pcie_alloc(info, &mem_alloc, 0); if (err) { return err; } info->cmdring.ptr = xgi_find_pcie_virt(info, mem_alloc.offset); info->cmdring.size = mem_alloc.size; info->cmdring.ring_hw_base = mem_alloc.hw_addr; info->cmdring.ring_gart_base = mem_alloc.offset; info->cmdring.last_ptr = NULL; info->cmdring.ring_offset = 0; return 0; } /** * get_batch_command - Get the command ID for the current begin type. * @type: Type of the current batch * * See section 3.2.2 "Begin" (page 15) of the 3D SPG. * * This function assumes that @type is on the range [0,3]. */ unsigned int get_batch_command(enum xgi_batch_type type) { static const unsigned int ports[4] = { 0x30 >> 2, 0x40 >> 2, 0x50 >> 2, 0x20 >> 2 }; return ports[type]; } static void xgi_submit_cmdlist(struct xgi_info * info, const struct xgi_cmd_info * pCmdInfo) { const unsigned int cmd = get_batch_command(pCmdInfo->type); u32 begin[4]; begin[0] = (cmd << 24) | BEGIN_VALID_MASK | (BEGIN_BEGIN_IDENTIFICATION_MASK & pCmdInfo->id); begin[1] = BEGIN_LINK_ENABLE_MASK | pCmdInfo->size; begin[2] = pCmdInfo->hw_addr >> 4; begin[3] = 0; if (info->cmdring.last_ptr == NULL) { const unsigned int portOffset = BASE_3D_ENG + (cmd << 2); /* Enable PCI Trigger Mode */ DRM_INFO("Enable PCI Trigger Mode \n"); dwWriteReg(info->mmio_map, BASE_3D_ENG + M2REG_AUTO_LINK_SETTING_ADDRESS, (M2REG_AUTO_LINK_SETTING_ADDRESS << 22) | M2REG_CLEAR_COUNTERS_MASK | 0x08 | M2REG_PCI_TRIGGER_MODE_MASK); dwWriteReg(info->mmio_map, BASE_3D_ENG + M2REG_AUTO_LINK_SETTING_ADDRESS, (M2REG_AUTO_LINK_SETTING_ADDRESS << 22) | 0x08 | M2REG_PCI_TRIGGER_MODE_MASK); /* Send PCI begin command */ DRM_INFO("portOffset=%d, beginPort=%d\n", portOffset, cmd << 2); dwWriteReg(info->mmio_map, portOffset, begin[0]); dwWriteReg(info->mmio_map, portOffset + 4, begin[1]); dwWriteReg(info->mmio_map, portOffset + 8, begin[2]); dwWriteReg(info->mmio_map, portOffset + 12, begin[3]); } else { DRM_INFO("info->cmdring.last_ptr != NULL\n"); if (pCmdInfo->type == BTYPE_3D) { addFlush2D(info); } info->cmdring.last_ptr[1] = begin[1]; info->cmdring.last_ptr[2] = begin[2]; info->cmdring.last_ptr[3] = begin[3]; wmb(); info->cmdring.last_ptr[0] = begin[0]; triggerHWCommandList(info); } info->cmdring.last_ptr = xgi_find_pcie_virt(info, pCmdInfo->hw_addr); DRM_INFO("%s: exit\n", __func__); } int xgi_submit_cmdlist_ioctl(DRM_IOCTL_ARGS) { DRM_DEVICE; struct xgi_cmd_info cmd_list; struct xgi_info *info = dev->dev_private; DRM_COPY_FROM_USER_IOCTL(cmd_list, (struct xgi_cmd_info __user *) data, sizeof(cmd_list)); if (cmd_list.type > BTYPE_CTRL) { return DRM_ERR(EINVAL); } xgi_submit_cmdlist(info, &cmd_list); return 0; } /* state: 0 - console 1 - graphic 2 - fb 3 - logout */ int xgi_state_change(struct xgi_info * info, unsigned int to, unsigned int from) { #define STATE_CONSOLE 0 #define STATE_GRAPHIC 1 #define STATE_FBTERM 2 #define STATE_LOGOUT 3 #define STATE_REBOOT 4 #define STATE_SHUTDOWN 5 if ((from == STATE_GRAPHIC) && (to == STATE_CONSOLE)) { DRM_INFO("[kd] I see, now is to leaveVT\n"); // stop to received batch } else if ((from == STATE_CONSOLE) && (to == STATE_GRAPHIC)) { DRM_INFO("[kd] I see, now is to enterVT\n"); xgi_cmdlist_reset(info); } else if ((from == STATE_GRAPHIC) && ((to == STATE_LOGOUT) || (to == STATE_REBOOT) || (to == STATE_SHUTDOWN))) { DRM_INFO("[kd] I see, not is to exit from X\n"); // stop to received batch } else { DRM_ERROR("[kd] Should not happen\n"); return DRM_ERR(EINVAL); } return 0; } int xgi_state_change_ioctl(DRM_IOCTL_ARGS) { DRM_DEVICE; struct xgi_state_info state; struct xgi_info *info = dev->dev_private; DRM_COPY_FROM_USER_IOCTL(state, (struct xgi_state_info __user *) data, sizeof(state)); return xgi_state_change(info, state._toState, state._fromState); } void xgi_cmdlist_reset(struct xgi_info * info) { info->cmdring.last_ptr = NULL; info->cmdring.ring_offset = 0; } void xgi_cmdlist_cleanup(struct xgi_info * info) { if (info->cmdring.ring_hw_base != 0) { xgi_pcie_free(info, info->cmdring.ring_gart_base, NULL); info->cmdring.ring_hw_base = 0; info->cmdring.ring_offset = 0; info->cmdring.size = 0; } } static void triggerHWCommandList(struct xgi_info * info) { static unsigned int s_triggerID = 1; dwWriteReg(info->mmio_map, BASE_3D_ENG + M2REG_PCI_TRIGGER_REGISTER_ADDRESS, 0x05000000 + (0x0ffff & s_triggerID++)); } static void addFlush2D(struct xgi_info * info) { u32 *flushBatchVirtAddr; u32 flushBatchHWAddr; /* check buf is large enough to contain a new flush batch */ if ((info->cmdring.ring_offset + 0x20) >= info->cmdring.size) { info->cmdring.ring_offset = 0; } flushBatchHWAddr = info->cmdring.ring_hw_base + info->cmdring.ring_offset; flushBatchVirtAddr = info->cmdring.ptr + (info->cmdring.ring_offset / 4); /* not using memcpy for I assume the address is discrete */ *(flushBatchVirtAddr + 0) = 0x10000000; *(flushBatchVirtAddr + 1) = 0x80000004; /* size = 0x04 dwords */ *(flushBatchVirtAddr + 2) = 0x00000000; *(flushBatchVirtAddr + 3) = 0x00000000; *(flushBatchVirtAddr + 4) = FLUSH_2D; *(flushBatchVirtAddr + 5) = FLUSH_2D; *(flushBatchVirtAddr + 6) = FLUSH_2D; *(flushBatchVirtAddr + 7) = FLUSH_2D; info->cmdring.last_ptr[1] = BEGIN_LINK_ENABLE_MASK + 0x08; info->cmdring.last_ptr[2] = flushBatchHWAddr >> 4; info->cmdring.last_ptr[3] = 0; wmb(); info->cmdring.last_ptr[0] = (get_batch_command(BTYPE_CTRL) << 24) | (BEGIN_VALID_MASK); triggerHWCommandList(info); info->cmdring.ring_offset += 0x20; info->cmdring.last_ptr = flushBatchVirtAddr; }