Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ming Qian | 1231 | 100.00% | 3 | 100.00% |
Total | 1231 | 3 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright 2020-2021 NXP */ #include <linux/init.h> #include <linux/interconnect.h> #include <linux/ioctl.h> #include <linux/list.h> #include <linux/kernel.h> #include <linux/module.h> #include <linux/platform_device.h> #include <linux/firmware/imx/ipc.h> #include <linux/firmware/imx/svc/misc.h> #include "vpu.h" #include "vpu_rpc.h" #include "vpu_imx8q.h" #include "vpu_windsor.h" #include "vpu_malone.h" int vpu_iface_check_memory_region(struct vpu_core *core, dma_addr_t addr, u32 size) { struct vpu_iface_ops *ops = vpu_core_get_iface(core); if (!ops || !ops->check_memory_region) return VPU_CORE_MEMORY_INVALID; return ops->check_memory_region(core->fw.phys, addr, size); } static u32 vpu_rpc_check_buffer_space(struct vpu_rpc_buffer_desc *desc, bool write) { u32 ptr1; u32 ptr2; u32 size; size = desc->end - desc->start; if (write) { ptr1 = desc->wptr; ptr2 = desc->rptr; } else { ptr1 = desc->rptr; ptr2 = desc->wptr; } if (ptr1 == ptr2) { if (!write) return 0; else return size; } return (ptr2 + size - ptr1) % size; } static int vpu_rpc_send_cmd_buf(struct vpu_shared_addr *shared, struct vpu_rpc_event *cmd) { struct vpu_rpc_buffer_desc *desc; u32 space = 0; u32 *data; u32 wptr; u32 i; if (cmd->hdr.num > 0xff || cmd->hdr.num >= ARRAY_SIZE(cmd->data)) return -EINVAL; desc = shared->cmd_desc; space = vpu_rpc_check_buffer_space(desc, true); if (space < (((cmd->hdr.num + 1) << 2) + 16)) return -EINVAL; wptr = desc->wptr; data = (u32 *)(shared->cmd_mem_vir + desc->wptr - desc->start); *data = 0; *data |= ((cmd->hdr.index & 0xff) << 24); *data |= ((cmd->hdr.num & 0xff) << 16); *data |= (cmd->hdr.id & 0x3fff); wptr += 4; data++; if (wptr >= desc->end) { wptr = desc->start; data = shared->cmd_mem_vir; } for (i = 0; i < cmd->hdr.num; i++) { *data = cmd->data[i]; wptr += 4; data++; if (wptr >= desc->end) { wptr = desc->start; data = shared->cmd_mem_vir; } } /*update wptr after data is written*/ mb(); desc->wptr = wptr; return 0; } static bool vpu_rpc_check_msg(struct vpu_shared_addr *shared) { struct vpu_rpc_buffer_desc *desc; u32 space = 0; u32 msgword; u32 msgnum; desc = shared->msg_desc; space = vpu_rpc_check_buffer_space(desc, 0); space = (space >> 2); if (space) { msgword = *(u32 *)(shared->msg_mem_vir + desc->rptr - desc->start); msgnum = (msgword & 0xff0000) >> 16; if (msgnum <= space) return true; } return false; } static int vpu_rpc_receive_msg_buf(struct vpu_shared_addr *shared, struct vpu_rpc_event *msg) { struct vpu_rpc_buffer_desc *desc; u32 *data; u32 msgword; u32 rptr; u32 i; if (!vpu_rpc_check_msg(shared)) return -EINVAL; desc = shared->msg_desc; data = (u32 *)(shared->msg_mem_vir + desc->rptr - desc->start); rptr = desc->rptr; msgword = *data; data++; rptr += 4; if (rptr >= desc->end) { rptr = desc->start; data = shared->msg_mem_vir; } msg->hdr.index = (msgword >> 24) & 0xff; msg->hdr.num = (msgword >> 16) & 0xff; msg->hdr.id = msgword & 0x3fff; if (msg->hdr.num > ARRAY_SIZE(msg->data)) return -EINVAL; for (i = 0; i < msg->hdr.num; i++) { msg->data[i] = *data; data++; rptr += 4; if (rptr >= desc->end) { rptr = desc->start; data = shared->msg_mem_vir; } } /*update rptr after data is read*/ mb(); desc->rptr = rptr; return 0; } static struct vpu_iface_ops imx8q_rpc_ops[] = { [VPU_CORE_TYPE_ENC] = { .check_codec = vpu_imx8q_check_codec, .check_fmt = vpu_imx8q_check_fmt, .boot_core = vpu_imx8q_boot_core, .get_power_state = vpu_imx8q_get_power_state, .on_firmware_loaded = vpu_imx8q_on_firmware_loaded, .get_data_size = vpu_windsor_get_data_size, .check_memory_region = vpu_imx8q_check_memory_region, .init_rpc = vpu_windsor_init_rpc, .set_log_buf = vpu_windsor_set_log_buf, .set_system_cfg = vpu_windsor_set_system_cfg, .get_version = vpu_windsor_get_version, .send_cmd_buf = vpu_rpc_send_cmd_buf, .receive_msg_buf = vpu_rpc_receive_msg_buf, .pack_cmd = vpu_windsor_pack_cmd, .convert_msg_id = vpu_windsor_convert_msg_id, .unpack_msg_data = vpu_windsor_unpack_msg_data, .config_memory_resource = vpu_windsor_config_memory_resource, .get_stream_buffer_size = vpu_windsor_get_stream_buffer_size, .config_stream_buffer = vpu_windsor_config_stream_buffer, .get_stream_buffer_desc = vpu_windsor_get_stream_buffer_desc, .update_stream_buffer = vpu_windsor_update_stream_buffer, .set_encode_params = vpu_windsor_set_encode_params, .input_frame = vpu_windsor_input_frame, .get_max_instance_count = vpu_windsor_get_max_instance_count, }, [VPU_CORE_TYPE_DEC] = { .check_codec = vpu_imx8q_check_codec, .check_fmt = vpu_malone_check_fmt, .boot_core = vpu_imx8q_boot_core, .get_power_state = vpu_imx8q_get_power_state, .on_firmware_loaded = vpu_imx8q_on_firmware_loaded, .get_data_size = vpu_malone_get_data_size, .check_memory_region = vpu_imx8q_check_memory_region, .init_rpc = vpu_malone_init_rpc, .set_log_buf = vpu_malone_set_log_buf, .set_system_cfg = vpu_malone_set_system_cfg, .get_version = vpu_malone_get_version, .send_cmd_buf = vpu_rpc_send_cmd_buf, .receive_msg_buf = vpu_rpc_receive_msg_buf, .get_stream_buffer_size = vpu_malone_get_stream_buffer_size, .config_stream_buffer = vpu_malone_config_stream_buffer, .set_decode_params = vpu_malone_set_decode_params, .pack_cmd = vpu_malone_pack_cmd, .convert_msg_id = vpu_malone_convert_msg_id, .unpack_msg_data = vpu_malone_unpack_msg_data, .get_stream_buffer_desc = vpu_malone_get_stream_buffer_desc, .update_stream_buffer = vpu_malone_update_stream_buffer, .add_scode = vpu_malone_add_scode, .input_frame = vpu_malone_input_frame, .pre_send_cmd = vpu_malone_pre_cmd, .post_send_cmd = vpu_malone_post_cmd, .init_instance = vpu_malone_init_instance, .get_max_instance_count = vpu_malone_get_max_instance_count, }, }; static struct vpu_iface_ops *vpu_get_iface(struct vpu_dev *vpu, enum vpu_core_type type) { struct vpu_iface_ops *rpc_ops = NULL; u32 size = 0; switch (vpu->res->plat_type) { case IMX8QXP: case IMX8QM: rpc_ops = imx8q_rpc_ops; size = ARRAY_SIZE(imx8q_rpc_ops); break; default: return NULL; } if (type >= size) return NULL; return &rpc_ops[type]; } struct vpu_iface_ops *vpu_core_get_iface(struct vpu_core *core) { return vpu_get_iface(core->vpu, core->type); } struct vpu_iface_ops *vpu_inst_get_iface(struct vpu_inst *inst) { if (inst->core) return vpu_core_get_iface(inst->core); return vpu_get_iface(inst->vpu, inst->type); }
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