/* * Copyright (c) 2020-2022, Arm Limited. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include "mhu_v2_x.h" #define MHU_V2_X_MAX_CHANNELS 124 #define MHU_V2_1_MAX_CHCOMB_INT 4 #define ENABLE 0x1 #define DISABLE 0x0 #define CLEAR_INTR 0x1 #define CH_PER_CH_COMB 0x20 #define SEND_FRAME(p_mhu) ((struct mhu_v2_x_send_frame_t *)p_mhu) #define RECV_FRAME(p_mhu) ((struct mhu_v2_x_recv_frame_t *)p_mhu) #define MHU_MAJOR_REV_V2 0x1u #define MHU_MINOR_REV_2_0 0x0u #define MHU_MINOR_REV_2_1 0x1u struct mhu_v2_x_send_ch_window_t { /* Offset: 0x00 (R/ ) Channel Status */ volatile uint32_t ch_st; /* Offset: 0x04 (R/ ) Reserved */ volatile uint32_t reserved_0; /* Offset: 0x08 (R/ ) Reserved */ volatile uint32_t reserved_1; /* Offset: 0x0C ( /W) Channel Set */ volatile uint32_t ch_set; /* Offset: 0x10 (R/ ) Channel Interrupt Status (Reserved in 2.0) */ volatile uint32_t ch_int_st; /* Offset: 0x14 ( /W) Channel Interrupt Clear (Reserved in 2.0) */ volatile uint32_t ch_int_clr; /* Offset: 0x18 (R/W) Channel Interrupt Enable (Reserved in 2.0) */ volatile uint32_t ch_int_en; /* Offset: 0x1C (R/ ) Reserved */ volatile uint32_t reserved_2; }; struct mhu_v2_x_send_frame_t { /* Offset: 0x000 ( / ) Sender Channel Window 0 -123 */ struct mhu_v2_x_send_ch_window_t send_ch_window[MHU_V2_X_MAX_CHANNELS]; /* Offset: 0xF80 (R/ ) Message Handling Unit Configuration */ volatile uint32_t mhu_cfg; /* Offset: 0xF84 (R/W) Response Configuration */ volatile uint32_t resp_cfg; /* Offset: 0xF88 (R/W) Access Request */ volatile uint32_t access_request; /* Offset: 0xF8C (R/ ) Access Ready */ volatile uint32_t access_ready; /* Offset: 0xF90 (R/ ) Interrupt Status */ volatile uint32_t int_st; /* Offset: 0xF94 ( /W) Interrupt Clear */ volatile uint32_t int_clr; /* Offset: 0xF98 (R/W) Interrupt Enable */ volatile uint32_t int_en; /* Offset: 0xF9C (R/ ) Reserved */ volatile uint32_t reserved_0; /* Offset: 0xFA0 (R/W) Channel Combined IRQ Stat (Reserved in 2.0) */ volatile uint32_t ch_comb_int_st[MHU_V2_1_MAX_CHCOMB_INT]; /* Offset: 0xFC4 (R/ ) Reserved */ volatile uint32_t reserved_1[6]; /* Offset: 0xFC8 (R/ ) Implementer Identification Register */ volatile uint32_t iidr; /* Offset: 0xFCC (R/ ) Architecture Identification Register */ volatile uint32_t aidr; /* Offset: 0xFD0 (R/ ) */ volatile uint32_t pid_1[4]; /* Offset: 0xFE0 (R/ ) */ volatile uint32_t pid_0[4]; /* Offset: 0xFF0 (R/ ) */ volatile uint32_t cid[4]; }; struct mhu_v2_x_rec_ch_window_t { /* Offset: 0x00 (R/ ) Channel Status */ volatile uint32_t ch_st; /* Offset: 0x04 (R/ ) Channel Status Masked */ volatile uint32_t ch_st_msk; /* Offset: 0x08 ( /W) Channel Clear */ volatile uint32_t ch_clr; /* Offset: 0x0C (R/ ) Reserved */ volatile uint32_t reserved_0; /* Offset: 0x10 (R/ ) Channel Mask Status */ volatile uint32_t ch_msk_st; /* Offset: 0x14 ( /W) Channel Mask Set */ volatile uint32_t ch_msk_set; /* Offset: 0x18 ( /W) Channel Mask Clear */ volatile uint32_t ch_msk_clr; /* Offset: 0x1C (R/ ) Reserved */ volatile uint32_t reserved_1; }; struct mhu_v2_x_recv_frame_t { /* Offset: 0x000 ( / ) Receiver Channel Window 0 -123 */ struct mhu_v2_x_rec_ch_window_t rec_ch_window[MHU_V2_X_MAX_CHANNELS]; /* Offset: 0xF80 (R/ ) Message Handling Unit Configuration */ volatile uint32_t mhu_cfg; /* Offset: 0xF84 (R/ ) Reserved */ volatile uint32_t reserved_0[3]; /* Offset: 0xF90 (R/ ) Interrupt Status (Reserved in 2.0) */ volatile uint32_t int_st; /* Offset: 0xF94 (R/ ) Interrupt Clear (Reserved in 2.0) */ volatile uint32_t int_clr; /* Offset: 0xF98 (R/W) Interrupt Enable (Reserved in 2.0) */ volatile uint32_t int_en; /* Offset: 0xF9C (R/ ) Reserved */ volatile uint32_t reserved_1; /* Offset: 0xFA0 (R/ ) Channel Combined IRQ Stat (Reserved in 2.0) */ volatile uint32_t ch_comb_int_st[MHU_V2_1_MAX_CHCOMB_INT]; /* Offset: 0xFB0 (R/ ) Reserved */ volatile uint32_t reserved_2[6]; /* Offset: 0xFC8 (R/ ) Implementer Identification Register */ volatile uint32_t iidr; /* Offset: 0xFCC (R/ ) Architecture Identification Register */ volatile uint32_t aidr; /* Offset: 0xFD0 (R/ ) */ volatile uint32_t pid_1[4]; /* Offset: 0xFE0 (R/ ) */ volatile uint32_t pid_0[4]; /* Offset: 0xFF0 (R/ ) */ volatile uint32_t cid[4]; }; union mhu_v2_x_frame { struct mhu_v2_x_send_frame_t send_frame; struct mhu_v2_x_recv_frame_t recv_frame; }; enum mhu_v2_x_error_t mhu_v2_x_driver_init(struct mhu_v2_x_dev_t *dev, enum mhu_v2_x_supported_revisions rev) { uint32_t AIDR = 0; union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (dev->is_initialized) { return MHU_V_2_X_ERR_ALREADY_INIT; } if (rev == MHU_REV_READ_FROM_HW) { /* Read revision from HW */ if (dev->frame == MHU_V2_X_RECEIVER_FRAME) { AIDR = p_mhu->recv_frame.aidr; } else { AIDR = p_mhu->send_frame.aidr; } /* Get bits 7:4 to read major revision */ if (((AIDR >> 4) & 0b1111) != MHU_MAJOR_REV_V2) { /* Unsupported MHU version */ return MHU_V_2_X_ERR_UNSUPPORTED_VERSION; } /* No need to save major version, driver only supports MHUv2 */ /* Get bits 3:0 to read minor revision */ dev->subversion = AIDR & 0b1111; if (dev->subversion != MHU_MINOR_REV_2_0 && dev->subversion != MHU_MINOR_REV_2_1) { /* Unsupported subversion */ return MHU_V_2_X_ERR_UNSUPPORTED_VERSION; } } else { /* Revisions were provided by caller */ if (rev == MHU_REV_2_0) { dev->subversion = MHU_MINOR_REV_2_0; } else if (rev == MHU_REV_2_1) { dev->subversion = MHU_MINOR_REV_2_1; } else { /* Unsupported subversion */ return MHU_V_2_X_ERR_UNSUPPORTED_VERSION; } /* No need to save major version, driver only supports MHUv2 */ } dev->is_initialized = true; return MHU_V_2_X_ERR_NONE; } uint32_t mhu_v2_x_get_num_channel_implemented(const struct mhu_v2_x_dev_t *dev) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame == MHU_V2_X_SENDER_FRAME) { return (SEND_FRAME(p_mhu))->mhu_cfg; } else { assert(dev->frame == MHU_V2_X_RECEIVER_FRAME); return (RECV_FRAME(p_mhu))->mhu_cfg; } } enum mhu_v2_x_error_t mhu_v2_x_channel_send(const struct mhu_v2_x_dev_t *dev, uint32_t channel, uint32_t val) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame == MHU_V2_X_SENDER_FRAME) { (SEND_FRAME(p_mhu))->send_ch_window[channel].ch_set = val; return MHU_V_2_X_ERR_NONE; } else { return MHU_V_2_X_ERR_INVALID_ARG; } } enum mhu_v2_x_error_t mhu_v2_x_channel_poll(const struct mhu_v2_x_dev_t *dev, uint32_t channel, uint32_t *value) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame == MHU_V2_X_SENDER_FRAME) { *value = (SEND_FRAME(p_mhu))->send_ch_window[channel].ch_st; return MHU_V_2_X_ERR_NONE; } else { return MHU_V_2_X_ERR_INVALID_ARG; } } enum mhu_v2_x_error_t mhu_v2_x_channel_clear(const struct mhu_v2_x_dev_t *dev, uint32_t channel) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame == MHU_V2_X_RECEIVER_FRAME) { (RECV_FRAME(p_mhu))->rec_ch_window[channel].ch_clr = UINT32_MAX; return MHU_V_2_X_ERR_NONE; } else { return MHU_V_2_X_ERR_INVALID_ARG; } } enum mhu_v2_x_error_t mhu_v2_x_channel_receive( const struct mhu_v2_x_dev_t *dev, uint32_t channel, uint32_t *value) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame == MHU_V2_X_RECEIVER_FRAME) { *value = (RECV_FRAME(p_mhu))->rec_ch_window[channel].ch_st; return MHU_V_2_X_ERR_NONE; } else { return MHU_V_2_X_ERR_INVALID_ARG; } } enum mhu_v2_x_error_t mhu_v2_x_channel_mask_set( const struct mhu_v2_x_dev_t *dev, uint32_t channel, uint32_t mask) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame == MHU_V2_X_RECEIVER_FRAME) { (RECV_FRAME(p_mhu))->rec_ch_window[channel].ch_msk_set = mask; return MHU_V_2_X_ERR_NONE; } else { return MHU_V_2_X_ERR_INVALID_ARG; } } enum mhu_v2_x_error_t mhu_v2_x_channel_mask_clear( const struct mhu_v2_x_dev_t *dev, uint32_t channel, uint32_t mask) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame == MHU_V2_X_RECEIVER_FRAME) { (RECV_FRAME(p_mhu))->rec_ch_window[channel].ch_msk_clr = mask; return MHU_V_2_X_ERR_NONE; } else { return MHU_V_2_X_ERR_INVALID_ARG; } } enum mhu_v2_x_error_t mhu_v2_x_initiate_transfer( const struct mhu_v2_x_dev_t *dev) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame != MHU_V2_X_SENDER_FRAME) { return MHU_V_2_X_ERR_INVALID_ARG; } (SEND_FRAME(p_mhu))->access_request = ENABLE; while (!((SEND_FRAME(p_mhu))->access_ready)) { /* Wait in a loop for access ready signal to be high */ ; } return MHU_V_2_X_ERR_NONE; } enum mhu_v2_x_error_t mhu_v2_x_close_transfer(const struct mhu_v2_x_dev_t *dev) { union mhu_v2_x_frame *p_mhu; assert(dev != NULL); p_mhu = (union mhu_v2_x_frame *)dev->base; if (!(dev->is_initialized)) { return MHU_V_2_X_ERR_NOT_INIT; } if (dev->frame != MHU_V2_X_SENDER_FRAME) { return MHU_V_2_X_ERR_INVALID_ARG; } (SEND_FRAME(p_mhu))->access_request = DISABLE; return MHU_V_2_X_ERR_NONE; }