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Miller" , Eric Dumazet , Jakub Kicinski , Krzysztof Kozlowski , Paolo Abeni , Rob Herring , Hector Martin , Alyssa Rosenzweig , asahi@lists.linux.dev, netdev@vger.kernel.org, devicetree@vger.kernel.org, linux-arm-kernel@lists.infradead.org, linux-bluetooth@vger.kernel.org, linux-kernel@vger.kernel.org Subject: [PATCH v3 7/7] Bluetooth: hci_bcm4377: Add new driver for BCM4377 PCIe boards Date: Mon, 19 Sep 2022 18:48:34 +0200 Message-Id: <20220919164834.62739-8-sven@svenpeter.dev> X-Mailer: git-send-email 2.30.1 (Apple Git-130) In-Reply-To: <20220919164834.62739-1-sven@svenpeter.dev> References: <20220919164834.62739-1-sven@svenpeter.dev> MIME-Version: 1.0 X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20220919_094950_155765_6D201150 X-CRM114-Status: GOOD ( 24.01 ) X-BeenThere: linux-arm-kernel@lists.infradead.org X-Mailman-Version: 2.1.34 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Sender: "linux-arm-kernel" Errors-To: linux-arm-kernel-bounces+linux-arm-kernel=archiver.kernel.org@lists.infradead.org Broadcom BCM4377/4378/4387 are dual WiFi/Bluetooth boards found in Apple machines. This driver adds support for the Bluetooth function which exposes a shared memory IPC protocol over PCIe to tunnel HCI traffic. Signed-off-by: Sven Peter --- no changes since v2 changes from v1: - fixed suspend/resume on some of these chips - use DMI matching for the 4377 Apple machines instead of just hardcoding apple,formosa in case we ever see more variants of this chip. MAINTAINERS | 1 + drivers/bluetooth/Kconfig | 12 + drivers/bluetooth/Makefile | 1 + drivers/bluetooth/hci_bcm4377.c | 2513 +++++++++++++++++++++++++++++++ 4 files changed, 2527 insertions(+) create mode 100644 drivers/bluetooth/hci_bcm4377.c diff --git a/MAINTAINERS b/MAINTAINERS index 74463bc5e1cb..315f27f72bc5 100644 --- a/MAINTAINERS +++ b/MAINTAINERS @@ -1883,6 +1883,7 @@ F: Documentation/devicetree/bindings/pinctrl/apple,pinctrl.yaml F: Documentation/devicetree/bindings/power/apple* F: Documentation/devicetree/bindings/watchdog/apple,wdt.yaml F: arch/arm64/boot/dts/apple/ +F: drivers/bluetooth/hci_bcm4377.c F: drivers/clk/clk-apple-nco.c F: drivers/dma/apple-admac.c F: drivers/i2c/busses/i2c-pasemi-core.c diff --git a/drivers/bluetooth/Kconfig b/drivers/bluetooth/Kconfig index e30707405455..71732e51516f 100644 --- a/drivers/bluetooth/Kconfig +++ b/drivers/bluetooth/Kconfig @@ -274,6 +274,18 @@ config BT_HCIBCM203X Say Y here to compile support for HCI BCM203x devices into the kernel or say M to compile it as module (bcm203x). + +config BT_HCIBCM4377 + tristate "HCI BCM4377/4378/4387 PCIe driver" + depends on PCI + select FW_LOADER + help + Support for Broadcom BCM4377/4378/4387 Bluetooth chipsets attached via + PCIe. These are usually found in Apple machines. + + Say Y here to compile support for HCI BCM4377 family devices into the + kernel or say M to compile it as module (hci_bcm4377). + config BT_HCIBPA10X tristate "HCI BPA10x USB driver" depends on USB diff --git a/drivers/bluetooth/Makefile b/drivers/bluetooth/Makefile index 3321a8aea4a0..e0b261f24fc9 100644 --- a/drivers/bluetooth/Makefile +++ b/drivers/bluetooth/Makefile @@ -6,6 +6,7 @@ obj-$(CONFIG_BT_HCIVHCI) += hci_vhci.o obj-$(CONFIG_BT_HCIUART) += hci_uart.o obj-$(CONFIG_BT_HCIBCM203X) += bcm203x.o +obj-$(CONFIG_BT_HCIBCM4377) += hci_bcm4377.o obj-$(CONFIG_BT_HCIBPA10X) += bpa10x.o obj-$(CONFIG_BT_HCIBFUSB) += bfusb.o obj-$(CONFIG_BT_HCIDTL1) += dtl1_cs.o diff --git a/drivers/bluetooth/hci_bcm4377.c b/drivers/bluetooth/hci_bcm4377.c new file mode 100644 index 000000000000..8dd564642aef --- /dev/null +++ b/drivers/bluetooth/hci_bcm4377.c @@ -0,0 +1,2513 @@ +// SPDX-License-Identifier: GPL-2.0-only OR MIT +/* + * Bluetooth HCI driver for Broadcom 4377/4378/4387 devices attached via PCIe + * + * Copyright (C) The Asahi Linux Contributors + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include + +#include +#include + +enum bcm4377_chip { + BCM4377 = 0, + BCM4378, + BCM4387, +}; + +#define BCM4377_DEVICE_ID 0x5fa0 +#define BCM4378_DEVICE_ID 0x5f69 +#define BCM4387_DEVICE_ID 0x5f71 + +#define BCM4377_TIMEOUT 1000 + +/* + * These devices only support DMA transactions inside a 32bit window + * (possibly to avoid 64 bit arithmetic). The window size cannot exceed + * 0xffffffff but is always aligned down to the previous 0x200 byte boundary + * which effectively limits the window to [start, start+0xfffffe00]. + * We just limit the DMA window to [0, 0xfffffe00] to make sure we don't + * run into this limitation. + */ +#define BCM4377_DMA_MASK 0xfffffe00 + +#define BCM4377_PCIECFG_BAR0_WINDOW1 0x80 +#define BCM4377_PCIECFG_BAR0_WINDOW2 0x70 +#define BCM4377_PCIECFG_BAR0_CORE2_WINDOW1 0x74 +#define BCM4377_PCIECFG_BAR0_CORE2_WINDOW2 0x78 +#define BCM4377_PCIECFG_BAR2_WINDOW 0x84 + +#define BCM4377_PCIECFG_BAR0_CORE2_WINDOW1_DEFAULT 0x18011000 +#define BCM4377_PCIECFG_BAR2_WINDOW_DEFAULT 0x19000000 + +#define BCM4377_PCIECFG_SUBSYSTEM_CTRL 0x88 + +#define BCM4377_BAR0_FW_DOORBELL 0x140 +#define BCM4377_BAR0_RTI_CONTROL 0x144 + +#define BCM4377_BAR0_SLEEP_CONTROL 0x150 +#define BCM4377_BAR0_SLEEP_CONTROL_UNQUIESCE 0 +#define BCM4377_BAR0_SLEEP_CONTROL_AWAKE 2 +#define BCM4377_BAR0_SLEEP_CONTROL_QUIESCE 3 + +#define BCM4377_BAR0_DOORBELL 0x174 +#define BCM4377_BAR0_DOORBELL_VALUE GENMASK(31, 16) +#define BCM4377_BAR0_DOORBELL_IDX GENMASK(15, 8) +#define BCM4377_BAR0_DOORBELL_RING BIT(5) + +#define BCM4377_BAR0_HOST_WINDOW_LO 0x590 +#define BCM4377_BAR0_HOST_WINDOW_HI 0x594 +#define BCM4377_BAR0_HOST_WINDOW_SIZE 0x598 + +#define BCM4377_BAR2_BOOTSTAGE 0x200454 + +#define BCM4377_BAR2_FW_LO 0x200478 +#define BCM4377_BAR2_FW_HI 0x20047c +#define BCM4377_BAR2_FW_SIZE 0x200480 + +#define BCM4377_BAR2_CONTEXT_ADDR_LO 0x20048c +#define BCM4377_BAR2_CONTEXT_ADDR_HI 0x200450 + +#define BCM4377_BAR2_RTI_STATUS 0x20045c +#define BCM4377_BAR2_RTI_WINDOW_LO 0x200494 +#define BCM4377_BAR2_RTI_WINDOW_HI 0x200498 +#define BCM4377_BAR2_RTI_WINDOW_SIZE 0x20049c + +#define BCM4377_OTP_SIZE 0xe0 +#define BCM4377_OTP_SYS_VENDOR 0x15 +#define BCM4377_OTP_CIS 0x80 +#define BCM4377_OTP_VENDOR_HDR 0x00000008 +#define BCM4377_OTP_MAX_PARAM_LEN 16 + +#define BCM4377_N_TRANSFER_RINGS 9 +#define BCM4377_N_COMPLETION_RINGS 6 + +#define BCM4377_MAX_RING_SIZE 256 + +#define BCM4377_MSGID_GENERATION GENMASK(15, 8) +#define BCM4377_MSGID_ID GENMASK(7, 0) + +#define BCM4377_RING_N_ENTRIES 128 + +#define BCM4377_CONTROL_MSG_SIZE 0x34 +#define BCM4377_XFER_RING_MAX_INPLACE_PAYLOAD_SIZE (4 * 0xff) + +#define MAX_ACL_PAYLOAD_SIZE (HCI_MAX_FRAME_SIZE + HCI_ACL_HDR_SIZE) +#define MAX_SCO_PAYLOAD_SIZE (HCI_MAX_SCO_SIZE + HCI_SCO_HDR_SIZE) +#define MAX_EVENT_PAYLOAD_SIZE (HCI_MAX_EVENT_SIZE + HCI_EVENT_HDR_SIZE) + +enum bcm4377_otp_params_type { + BCM4377_OTP_BOARD_PARAMS, + BCM4377_OTP_CHIP_PARAMS +}; + +enum bcm4377_transfer_ring_id { + BCM4377_XFER_RING_CONTROL = 0, + BCM4377_XFER_RING_HCI_H2D = 1, + BCM4377_XFER_RING_HCI_D2H = 2, + BCM4377_XFER_RING_SCO_H2D = 3, + BCM4377_XFER_RING_SCO_D2H = 4, + BCM4377_XFER_RING_ACL_H2D = 5, + BCM4377_XFER_RING_ACL_D2H = 6, +}; + +enum bcm4377_completion_ring_id { + BCM4377_ACK_RING_CONTROL = 0, + BCM4377_ACK_RING_HCI_ACL = 1, + BCM4377_EVENT_RING_HCI_ACL = 2, + BCM4377_ACK_RING_SCO = 3, + BCM4377_EVENT_RING_SCO = 4, +}; + +enum bcm4377_doorbell { + BCM4377_DOORBELL_CONTROL = 0, + BCM4377_DOORBELL_HCI_H2D = 1, + BCM4377_DOORBELL_HCI_D2H = 2, + BCM4377_DOORBELL_ACL_H2D = 3, + BCM4377_DOORBELL_ACL_D2H = 4, + BCM4377_DOORBELL_SCO = 6, +}; + +/* + * Transfer ring entry + * + * flags: Flags to indicate if the payload is appended or mapped + * len: Payload length + * payload: Optional payload DMA address + * id: Message id to recognize the answer in the completion ring entry + */ +struct bcm4377_xfer_ring_entry { +#define BCM4377_XFER_RING_FLAG_PAYLOAD_MAPPED BIT(0) +#define BCM4377_XFER_RING_FLAG_PAYLOAD_IN_FOOTER BIT(1) + u8 flags; + __le16 len; + u8 _unk0; + __le64 payload; + __le16 id; + u8 _unk1[2]; +} __packed; +static_assert(sizeof(struct bcm4377_xfer_ring_entry) == 0x10); + +/* + * Completion ring entry + * + * flags: Flags to indicate if the payload is appended or mapped. If the payload + * is mapped it can be found in the buffer of the corresponding transfer + * ring message. + * ring_id: Transfer ring ID which required this message + * msg_id: Message ID specified in transfer ring entry + * len: Payload length + */ +struct bcm4377_completion_ring_entry { + u8 flags; + u8 _unk0; + __le16 ring_id; + __le16 msg_id; + __le32 len; + u8 _unk1[6]; +} __packed; +static_assert(sizeof(struct bcm4377_completion_ring_entry) == 0x10); + +enum bcm4377_control_message_type { + BCM4377_CONTROL_MSG_CREATE_XFER_RING = 1, + BCM4377_CONTROL_MSG_CREATE_COMPLETION_RING = 2, + BCM4377_CONTROL_MSG_DESTROY_XFER_RING = 3, + BCM4377_CONTROL_MSG_DESTROY_COMPLETION_RING = 4, +}; + +/* + * Control message used to create a completion ring + * + * msg_type: Must be BCM4377_CONTROL_MSG_CREATE_COMPLETION_RING + * header_size: Unknown, but probably reserved space in front of the entry + * footer_size: Number of 32 bit words reserved for payloads after the entry + * id/id_again: Completion ring index + * ring_iova: DMA address of the ring buffer + * n_elements: Number of elements inside the ring buffer + * msi: MSI index, doesn't work for all rings though and should be zero + * intmod_delay: Unknown delay + * intmod_bytes: Unknown + */ +struct bcm4377_create_completion_ring_msg { + u8 msg_type; + u8 header_size; + u8 footer_size; + u8 _unk0; + __le16 id; + __le16 id_again; + __le64 ring_iova; + __le16 n_elements; + __le32 unk; + u8 _unk1[6]; + __le16 msi; + __le16 intmod_delay; + __le32 intmod_bytes; + __le16 _unk2; + __le32 _unk3; + u8 _unk4[10]; +} __packed; +static_assert(sizeof(struct bcm4377_create_completion_ring_msg) == + BCM4377_CONTROL_MSG_SIZE); + +/* + * Control ring message used to destroy a completion ring + * + * msg_type: Must be BCM4377_CONTROL_MSG_DESTROY_COMPLETION_RING + * ring_id: Completion ring to be destroyed + */ +struct bcm4377_destroy_completion_ring_msg { + u8 msg_type; + u8 _pad0; + __le16 ring_id; + u8 _pad1[48]; +} __packed; +static_assert(sizeof(struct bcm4377_destroy_completion_ring_msg) == + BCM4377_CONTROL_MSG_SIZE); + +/* + * Control message used to create a transfer ring + * + * msg_type: Must be BCM4377_CONTROL_MSG_CREATE_XFER_RING + * header_size: Number of 32 bit words reserved for unknown content before the + * entry + * footer_size: Number of 32 bit words reserved for payloads after the entry + * ring_id/ring_id_again: Transfer ring index + * ring_iova: DMA address of the ring buffer + * n_elements: Number of elements inside the ring buffer + * completion_ring_id: Completion ring index for acknowledgements and events + * doorbell: Doorbell index used to notify device of new entries + * flags: Transfer ring flags + * - virtual: set if there is no associated shared memory and only the + * corresponding completion ring is used + * - sync: only set for the SCO rings + */ +struct bcm4377_create_transfer_ring_msg { + u8 msg_type; + u8 header_size; + u8 footer_size; + u8 _unk0; + __le16 ring_id; + __le16 ring_id_again; + __le64 ring_iova; + u8 _unk1[8]; + __le16 n_elements; + __le16 completion_ring_id; + __le16 doorbell; +#define BCM4377_XFER_RING_FLAG_VIRTUAL BIT(7) +#define BCM4377_XFER_RING_FLAG_SYNC BIT(8) + __le16 flags; + u8 _unk2[20]; +} __packed; +static_assert(sizeof(struct bcm4377_create_transfer_ring_msg) == + BCM4377_CONTROL_MSG_SIZE); + +/* + * Control ring message used to destroy a transfer ring + * + * msg_type: Must be BCM4377_CONTROL_MSG_DESTROY_XFER_RING + * ring_id: Transfer ring to be destroyed + */ +struct bcm4377_destroy_transfer_ring_msg { + u8 msg_type; + u8 _pad0; + __le16 ring_id; + u8 _pad1[48]; +} __packed; +static_assert(sizeof(struct bcm4377_destroy_transfer_ring_msg) == + BCM4377_CONTROL_MSG_SIZE); + +/* + * "Converged IPC" context struct used to make the device aware of all other + * shared memory structures. A pointer to this structure is configured inside a + * MMIO register. + * + * version: Protocol version, must be 2. + * size: Size of this structure, must be 0x68. + * enabled_caps: Enabled capabilities. Unknown bitfield but should be 2. + * peripheral_info_addr: DMA address for a 0x20 buffer to which the device will + * write unknown contents + * {completion,xfer}_ring_{tails,heads}_addr: DMA pointers to ring heads/tails + * n_completion_rings: Number of completion rings, the firmware only works if + * this is set to BCM4377_N_COMPLETION_RINGS. + * n_xfer_rings: Number of transfer rings, the firmware only works if + * this is set to BCM4377_N_TRANSFER_RINGS. + * control_completion_ring_addr: Control completion ring buffer DMA address + * control_xfer_ring_addr: Control transfer ring buffer DMA address + * control_xfer_ring_n_entries: Number of control transfer ring entries + * control_completion_ring_n_entries: Number of control completion ring entries + * control_xfer_ring_doorbell: Control transfer ring doorbell + * control_completion_ring_doorbell: Control completion ring doorbell, + * must be set to 0xffff + * control_xfer_ring_msi: Control completion ring MSI index, must be 0 + * control_completion_ring_msi: Control completion ring MSI index, must be 0. + * control_xfer_ring_header_size: Number of 32 bit words reserved in front of + * every control transfer ring entry + * control_xfer_ring_footer_size: Number of 32 bit words reserved after every + * control transfer ring entry + * control_completion_ring_header_size: Number of 32 bit words reserved in front + * of every control completion ring entry + * control_completion_ring_footer_size: Number of 32 bit words reserved after + * every control completion ring entry + * scratch_pad: Optional scratch pad DMA address + * scratch_pad_size: Scratch pad size + */ +struct bcm4377_context { + __le16 version; + __le16 size; + __le32 enabled_caps; + + __le64 peripheral_info_addr; + + /* ring heads and tails */ + __le64 completion_ring_heads_addr; + __le64 xfer_ring_tails_addr; + __le64 completion_ring_tails_addr; + __le64 xfer_ring_heads_addr; + __le16 n_completion_rings; + __le16 n_xfer_rings; + + /* control ring configuration */ + __le64 control_completion_ring_addr; + __le64 control_xfer_ring_addr; + __le16 control_xfer_ring_n_entries; + __le16 control_completion_ring_n_entries; + __le16 control_xfer_ring_doorbell; + __le16 control_completion_ring_doorbell; + __le16 control_xfer_ring_msi; + __le16 control_completion_ring_msi; + u8 control_xfer_ring_header_size; + u8 control_xfer_ring_footer_size; + u8 control_completion_ring_header_size; + u8 control_completion_ring_footer_size; + + __le16 _unk0; + __le16 _unk1; + + __le64 scratch_pad; + __le32 scratch_pad_size; + + __le32 _unk3; +} __packed; +static_assert(sizeof(struct bcm4377_context) == 0x68); + +#define BCM4378_CALIBRATION_CHUNK_SIZE 0xe6 +struct bcm4378_hci_send_calibration_cmd { + u8 unk; + __le16 blocks_left; + u8 data[BCM4378_CALIBRATION_CHUNK_SIZE]; +} __packed; + +#define BCM4378_PTB_CHUNK_SIZE 0xcf +struct bcm4378_hci_send_ptb_cmd { + __le16 blocks_left; + u8 data[BCM4378_PTB_CHUNK_SIZE]; +} __packed; + +/* + * Shared memory structure used to store the ring head and tail pointers. + */ +struct bcm4377_ring_state { + __le16 completion_ring_head[BCM4377_N_COMPLETION_RINGS]; + __le16 completion_ring_tail[BCM4377_N_COMPLETION_RINGS]; + __le16 xfer_ring_head[BCM4377_N_TRANSFER_RINGS]; + __le16 xfer_ring_tail[BCM4377_N_TRANSFER_RINGS]; +}; + +/* + * A transfer ring can be used in two configurations: + * 1) Send control or HCI messages to the device which are then acknowledged + * in the corresponding completion ring + * 2) Receiving HCI frames from the devices. In this case the transfer ring + * itself contains empty messages that are acknowledged once data is + * available from the device. If the payloads fit inside the footers + * of the completion ring the transfer ring can be configured to be + * virtual such that it has no ring buffer. + * + * ring_id: ring index hardcoded in the firmware + * doorbell: doorbell index to notify device of new entries + * payload_size: optional in-place payload size + * mapped_payload_size: optional out-of-place payload size + * completion_ring: index of corresponding completion ring + * n_entries: number of entries inside this ring + * generation: ring generation; incremented on hci_open to detect stale messages + * sync: set to true for SCO rings + * virtual: set to true if this ring has no entries and is just required to + * setup a corresponding completion ring for device->host messages + * d2h_buffers_only: set to true if this ring is only used to provide large + * buffers used by device->host messages in the completion + * ring + * allow_wait: allow to wait for messages to be acknowledged + * enabled: true once the ring has been created and can be used + * ring: ring buffer for entries (struct bcm4377_xfer_ring_entry) + * ring_dma: DMA address for ring entry buffer + * payloads: payload buffer for mapped_payload_size payloads + * payloads_dma:DMA address for payload buffer + * events: pointer to array of completions if waiting is allowed + * msgids: bitmap to keep track of used message ids + * lock: Spinlock to protect access to ring structurs used in the irq handler + */ +struct bcm4377_transfer_ring { + enum bcm4377_transfer_ring_id ring_id; + enum bcm4377_doorbell doorbell; + size_t payload_size; + size_t mapped_payload_size; + u8 completion_ring; + u16 n_entries; + u8 generation; + + bool sync; + bool virtual; + bool d2h_buffers_only; + bool allow_wait; + bool enabled; + + void *ring; + dma_addr_t ring_dma; + + void *payloads; + dma_addr_t payloads_dma; + + struct completion **events; + DECLARE_BITMAP(msgids, BCM4377_MAX_RING_SIZE); + spinlock_t lock; +}; + +/* + * A completion ring can be either used to either acknowledge messages sent in + * the corresponding transfer ring or to receive messages associated with the + * transfer ring. When used to receive messages the transfer ring either + * has no ring buffer and is only advanced ("virtual transfer ring") or it + * only contains empty DMA buffers to be used for the payloads. + * + * ring_id: completion ring id, hardcoded in firmware + * payload_size: optional payload size after each entry + * delay: unknown delay + * n_entries: number of entries in this ring + * enabled: true once the ring has been created and can be used + * ring: ring buffer for entries (struct bcm4377_completion_ring_entry) + * ring_dma: DMA address of ring buffer + * transfer_rings: bitmap of corresponding transfer ring ids + */ +struct bcm4377_completion_ring { + enum bcm4377_completion_ring_id ring_id; + u16 payload_size; + u16 delay; + u16 n_entries; + bool enabled; + + void *ring; + dma_addr_t ring_dma; + + unsigned long transfer_rings; +}; + +struct bcm4377_data; + +/* + * Chip-specific configuration struct + * + * id: Chip id (e.g. 0x4377 for BCM4377) + * otp_offset: Offset to the start of the OTP inside BAR0 + * bar0_window1: Backplane address mapped to the first window in BAR0 + * bar0_window2: Backplane address mapped to the second window in BAR0 + * bar0_core2_window2: Optional backplane address mapped to the second core's + * second window in BAR0 + * has_bar0_core2_window2: Set to true if this chip requires the second core's + * second window to be configured + * clear_pciecfg_subsystem_ctrl_bit19: Set to true if bit 19 in the + * vendor-specific subsystem control + * register has to be cleared + * disable_aspm: Set to true if ASPM must be disabled due to hardware errata + * broken_ext_scan: Set to true if the chip erroneously claims to support + * extended scanning + * broken_mws_transport_config: Set to true if the chip erroneously claims to + * support MWS Transport Configuration + * send_calibration: Optional callback to send calibration data + * send_ptb: Callback to send "PTB" regulatory/calibration data + */ +struct bcm4377_hw { + unsigned int id; + + u32 otp_offset; + + u32 bar0_window1; + u32 bar0_window2; + u32 bar0_core2_window2; + + unsigned long has_bar0_core2_window2 : 1; + unsigned long clear_pciecfg_subsystem_ctrl_bit19 : 1; + unsigned long disable_aspm : 1; + unsigned long broken_ext_scan : 1; + unsigned long broken_mws_transport_config : 1; + + int (*send_calibration)(struct bcm4377_data *bcm4377); + int (*send_ptb)(struct bcm4377_data *bcm4377, + const struct firmware *fw); +}; + +static const struct bcm4377_hw bcm4377_hw_variants[]; +static const struct dmi_system_id bcm4377_dmi_board_table[]; + +/* + * Private struct associated with each device containing global state + * + * pdev: Pointer to associated struct pci_dev + * hdev: Pointer to associated strucy hci_dev + * bar0: iomem pointing to BAR0 + * bar1: iomem pointing to BAR2 + * bootstage: Current value of the bootstage + * rti_status: Current "RTI" status value + * hw: Pointer to chip-specific struct bcm4377_hw + * taurus_cal_blob: "Taurus" calibration blob used for some chips + * taurus_cal_size: "Taurus" calibration blob size + * taurus_beamforming_cal_blob: "Taurus" beamforming calibration blob used for + * some chips + * taurus_beamforming_cal_size: "Taurus" beamforming calibration blob size + * stepping: Chip stepping read from OTP; used for firmware selection + * vendor: Antenna vendor read from OTP; used for firmware selection + * board_type: Board type from FDT or DMI match; used for firmware selection + * event: Event for changed bootstage or rti_status; used for booting firmware + * ctx: "Converged IPC" context + * ctx_dma: "Converged IPC" context DMA address + * ring_state: Shared memory buffer containing ring head and tail indexes + * ring_state_dma: DMA address for ring_state + * {control,hci_acl,sco}_ack_ring: Completion rings used to acknowledge messages + * {hci_acl,sco}_event_ring: Completion rings used for device->host messages + * control_h2d_ring: Transfer ring used for control messages + * {hci,sco,acl}_h2d_ring: Transfer ring used to transfer HCI frames + * {hci,sco,acl}_d2h_ring: Transfer ring used to receive HCI frames in the + * corresponding completion ring + */ +struct bcm4377_data { + struct pci_dev *pdev; + struct hci_dev *hdev; + + void __iomem *bar0; + void __iomem *bar2; + + u32 bootstage; + u32 rti_status; + + const struct bcm4377_hw *hw; + + const void *taurus_cal_blob; + int taurus_cal_size; + const void *taurus_beamforming_cal_blob; + int taurus_beamforming_cal_size; + + char stepping[BCM4377_OTP_MAX_PARAM_LEN]; + char vendor[BCM4377_OTP_MAX_PARAM_LEN]; + const char *board_type; + + struct completion event; + + struct bcm4377_context *ctx; + dma_addr_t ctx_dma; + + struct bcm4377_ring_state *ring_state; + dma_addr_t ring_state_dma; + + /* + * The HCI and ACL rings have to be merged because this structure is + * hardcoded in the firmware. + */ + struct bcm4377_completion_ring control_ack_ring; + struct bcm4377_completion_ring hci_acl_ack_ring; + struct bcm4377_completion_ring hci_acl_event_ring; + struct bcm4377_completion_ring sco_ack_ring; + struct bcm4377_completion_ring sco_event_ring; + + struct bcm4377_transfer_ring control_h2d_ring; + struct bcm4377_transfer_ring hci_h2d_ring; + struct bcm4377_transfer_ring hci_d2h_ring; + struct bcm4377_transfer_ring sco_h2d_ring; + struct bcm4377_transfer_ring sco_d2h_ring; + struct bcm4377_transfer_ring acl_h2d_ring; + struct bcm4377_transfer_ring acl_d2h_ring; +}; + +static void bcm4377_ring_doorbell(struct bcm4377_data *bcm4377, u8 doorbell, + u16 val) +{ + u32 db = 0; + + db |= FIELD_PREP(BCM4377_BAR0_DOORBELL_VALUE, val); + db |= FIELD_PREP(BCM4377_BAR0_DOORBELL_IDX, doorbell); + db |= BCM4377_BAR0_DOORBELL_RING; + + dev_dbg(&bcm4377->pdev->dev, "write %d to doorbell #%d (0x%x)\n", val, + doorbell, db); + iowrite32(db, bcm4377->bar0 + BCM4377_BAR0_DOORBELL); +} + +static int bcm4377_extract_msgid(struct bcm4377_data *bcm4377, + struct bcm4377_transfer_ring *ring, + u16 raw_msgid, u8 *msgid) +{ + u8 generation = FIELD_GET(BCM4377_MSGID_GENERATION, raw_msgid); + *msgid = FIELD_GET(BCM4377_MSGID_ID, raw_msgid); + + if (generation != ring->generation) { + dev_warn( + &bcm4377->pdev->dev, + "invalid message generation %d should be %d in entry for ring %d\n", + generation, ring->generation, ring->ring_id); + return -EINVAL; + } + + if (*msgid >= ring->n_entries) { + dev_warn(&bcm4377->pdev->dev, + "invalid message id in entry for ring %d: %d > %d\n", + ring->ring_id, *msgid, ring->n_entries); + return -EINVAL; + } + + return 0; +} + +static void bcm4377_handle_event(struct bcm4377_data *bcm4377, + struct bcm4377_transfer_ring *ring, + u16 raw_msgid, u8 entry_flags, u8 type, + void *payload, size_t len) +{ + struct sk_buff *skb; + u16 head; + u8 msgid; + unsigned long flags; + + spin_lock_irqsave(&ring->lock, flags); + if (!ring->enabled) { + dev_warn(&bcm4377->pdev->dev, + "event for disabled transfer ring %d\n", + ring->ring_id); + goto out; + } + + if (ring->d2h_buffers_only && + entry_flags & BCM4377_XFER_RING_FLAG_PAYLOAD_MAPPED) { + if (bcm4377_extract_msgid(bcm4377, ring, raw_msgid, &msgid)) + goto out; + + if (len > ring->mapped_payload_size) { + dev_warn( + &bcm4377->pdev->dev, + "invalid payload len in event for ring %d: %zu > %zu\n", + ring->ring_id, len, ring->mapped_payload_size); + goto out; + } + + payload = ring->payloads + msgid * ring->mapped_payload_size; + } + + skb = bt_skb_alloc(len, GFP_ATOMIC); + if (!skb) + goto out; + + memcpy(skb_put(skb, len), payload, len); + hci_skb_pkt_type(skb) = type; + hci_recv_frame(bcm4377->hdev, skb); + +out: + head = le16_to_cpu(bcm4377->ring_state->xfer_ring_head[ring->ring_id]); + head = (head + 1) % ring->n_entries; + bcm4377->ring_state->xfer_ring_head[ring->ring_id] = cpu_to_le16(head); + + bcm4377_ring_doorbell(bcm4377, ring->doorbell, head); + + spin_unlock_irqrestore(&ring->lock, flags); +} + +static void bcm4377_handle_ack(struct bcm4377_data *bcm4377, + struct bcm4377_transfer_ring *ring, + u16 raw_msgid) +{ + unsigned long flags; + u8 msgid; + + spin_lock_irqsave(&ring->lock, flags); + + if (bcm4377_extract_msgid(bcm4377, ring, raw_msgid, &msgid)) + goto unlock; + + if (!test_bit(msgid, ring->msgids)) { + dev_warn( + &bcm4377->pdev->dev, + "invalid message id in ack for ring %d: %d is not used\n", + ring->ring_id, msgid); + goto unlock; + } + + if (ring->allow_wait && ring->events[msgid]) { + complete(ring->events[msgid]); + ring->events[msgid] = NULL; + } + + bitmap_release_region(ring->msgids, msgid, ring->n_entries); + +unlock: + spin_unlock_irqrestore(&ring->lock, flags); +} + +static void bcm4377_handle_completion(struct bcm4377_data *bcm4377, + struct bcm4377_completion_ring *ring, + u16 pos) +{ + struct bcm4377_completion_ring_entry *entry; + u16 msg_id, transfer_ring; + size_t entry_size, data_len; + void *data; + + if (pos >= ring->n_entries) { + dev_warn(&bcm4377->pdev->dev, + "invalid offset %d for completion ring %d\n", pos, + ring->ring_id); + return; + } + + entry_size = sizeof(*entry) + ring->payload_size; + entry = ring->ring + pos * entry_size; + data = ring->ring + pos * entry_size + sizeof(*entry); + data_len = le32_to_cpu(entry->len); + msg_id = le16_to_cpu(entry->msg_id); + transfer_ring = le16_to_cpu(entry->ring_id); + + if ((ring->transfer_rings & BIT(transfer_ring)) == 0) { + dev_warn( + &bcm4377->pdev->dev, + "invalid entry at offset %d for transfer ring %d in completion ring %d\n", + pos, transfer_ring, ring->ring_id); + return; + } + + dev_dbg(&bcm4377->pdev->dev, + "entry in completion ring %d for transfer ring %d with msg_id %d\n", + ring->ring_id, transfer_ring, msg_id); + + switch (transfer_ring) { + case BCM4377_XFER_RING_CONTROL: + bcm4377_handle_ack(bcm4377, &bcm4377->control_h2d_ring, msg_id); + break; + case BCM4377_XFER_RING_HCI_H2D: + bcm4377_handle_ack(bcm4377, &bcm4377->hci_h2d_ring, msg_id); + break; + case BCM4377_XFER_RING_SCO_H2D: + bcm4377_handle_ack(bcm4377, &bcm4377->sco_h2d_ring, msg_id); + break; + case BCM4377_XFER_RING_ACL_H2D: + bcm4377_handle_ack(bcm4377, &bcm4377->acl_h2d_ring, msg_id); + break; + + case BCM4377_XFER_RING_HCI_D2H: + bcm4377_handle_event(bcm4377, &bcm4377->hci_d2h_ring, msg_id, + entry->flags, HCI_EVENT_PKT, data, + data_len); + break; + case BCM4377_XFER_RING_SCO_D2H: + bcm4377_handle_event(bcm4377, &bcm4377->sco_d2h_ring, msg_id, + entry->flags, HCI_SCODATA_PKT, data, + data_len); + break; + case BCM4377_XFER_RING_ACL_D2H: + bcm4377_handle_event(bcm4377, &bcm4377->acl_d2h_ring, msg_id, + entry->flags, HCI_ACLDATA_PKT, data, + data_len); + break; + + default: + dev_warn( + &bcm4377->pdev->dev, + "entry in completion ring %d for unknown transfer ring %d with msg_id %d\n", + ring->ring_id, transfer_ring, msg_id); + } +} + +static void bcm4377_poll_completion_ring(struct bcm4377_data *bcm4377, + struct bcm4377_completion_ring *ring) +{ + u16 tail; + __le16 *heads = bcm4377->ring_state->completion_ring_head; + __le16 *tails = bcm4377->ring_state->completion_ring_tail; + + if (!ring->enabled) + return; + + tail = le16_to_cpu(tails[ring->ring_id]); + dev_dbg(&bcm4377->pdev->dev, + "completion ring #%d: head: %d, tail: %d\n", ring->ring_id, + le16_to_cpu(heads[ring->ring_id]), tail); + + while (tail != le16_to_cpu(READ_ONCE(heads[ring->ring_id]))) { + /* + * ensure the CPU doesn't speculate through the comparison. + * otherwise it might already read the (empty) queue entry + * before the updated head has been loaded and checked. + */ + dma_rmb(); + + bcm4377_handle_completion(bcm4377, ring, tail); + + tail = (tail + 1) % ring->n_entries; + tails[ring->ring_id] = cpu_to_le16(tail); + } +} + +static irqreturn_t bcm4377_irq(int irq, void *data) +{ + struct bcm4377_data *bcm4377 = data; + u32 bootstage, rti_status; + + bootstage = ioread32(bcm4377->bar2 + BCM4377_BAR2_BOOTSTAGE); + rti_status = ioread32(bcm4377->bar2 + BCM4377_BAR2_RTI_STATUS); + + if (bootstage != bcm4377->bootstage || + rti_status != bcm4377->rti_status) { + dev_dbg(&bcm4377->pdev->dev, + "bootstage = %d -> %d, rti state = %d -> %d\n", + bcm4377->bootstage, bootstage, bcm4377->rti_status, + rti_status); + complete(&bcm4377->event); + bcm4377->bootstage = bootstage; + bcm4377->rti_status = rti_status; + } + + if (rti_status > 2) + dev_err(&bcm4377->pdev->dev, "RTI status is %d\n", rti_status); + + bcm4377_poll_completion_ring(bcm4377, &bcm4377->control_ack_ring); + bcm4377_poll_completion_ring(bcm4377, &bcm4377->hci_acl_event_ring); + bcm4377_poll_completion_ring(bcm4377, &bcm4377->hci_acl_ack_ring); + bcm4377_poll_completion_ring(bcm4377, &bcm4377->sco_ack_ring); + bcm4377_poll_completion_ring(bcm4377, &bcm4377->sco_event_ring); + + return IRQ_HANDLED; +} + +static int bcm4377_enqueue(struct bcm4377_data *bcm4377, + struct bcm4377_transfer_ring *ring, void *data, + size_t len, bool wait) +{ + unsigned long flags; + struct bcm4377_xfer_ring_entry *entry; + void *payload; + size_t offset; + u16 head, tail, new_head; + u16 raw_msgid; + int ret, msgid; + DECLARE_COMPLETION_ONSTACK(event); + + if (len > ring->payload_size && len > ring->mapped_payload_size) { + dev_warn( + &bcm4377->pdev->dev, + "payload len %zu is too large for ring %d (max is %zu or %zu)\n", + len, ring->ring_id, ring->payload_size, + ring->mapped_payload_size); + return -EINVAL; + } + if (wait && !ring->allow_wait) + return -EINVAL; + if (ring->virtual) + return -EINVAL; + + spin_lock_irqsave(&ring->lock, flags); + + head = le16_to_cpu(bcm4377->ring_state->xfer_ring_head[ring->ring_id]); + tail = le16_to_cpu(bcm4377->ring_state->xfer_ring_tail[ring->ring_id]); + + new_head = (head + 1) % ring->n_entries; + + if (new_head == tail) { + dev_warn(&bcm4377->pdev->dev, + "can't send message because ring %d is full\n", + ring->ring_id); + ret = -EINVAL; + goto out; + } + + msgid = bitmap_find_free_region(ring->msgids, ring->n_entries, 0); + if (msgid < 0) { + dev_warn(&bcm4377->pdev->dev, + "can't find message id for ring %d\n", ring->ring_id); + ret = -EINVAL; + goto out; + } + + raw_msgid = FIELD_PREP(BCM4377_MSGID_GENERATION, ring->generation); + raw_msgid |= FIELD_PREP(BCM4377_MSGID_ID, msgid); + + offset = head * (sizeof(*entry) + ring->payload_size); + entry = ring->ring + offset; + + memset(entry, 0, sizeof(*entry)); + entry->id = cpu_to_le16(raw_msgid); + entry->len = cpu_to_le16(len); + + if (len <= ring->payload_size) { + entry->flags = BCM4377_XFER_RING_FLAG_PAYLOAD_IN_FOOTER; + payload = ring->ring + offset + sizeof(*entry); + } else { + entry->flags = BCM4377_XFER_RING_FLAG_PAYLOAD_MAPPED; + entry->payload = cpu_to_le64(ring->payloads_dma + + msgid * ring->mapped_payload_size); + payload = ring->payloads + msgid * ring->mapped_payload_size; + } + + memcpy(payload, data, len); + + if (wait) + ring->events[msgid] = &event; + + /* + * The 4377 chips stop responding to any commands as soon as they + * have been idle for a while. Poking the sleep control register here + * makes them come alive again. + */ + iowrite32(BCM4377_BAR0_SLEEP_CONTROL_AWAKE, + bcm4377->bar0 + BCM4377_BAR0_SLEEP_CONTROL); + + dev_dbg(&bcm4377->pdev->dev, + "updating head for transfer queue #%d to %d\n", ring->ring_id, + new_head); + bcm4377->ring_state->xfer_ring_head[ring->ring_id] = + cpu_to_le16(new_head); + + if (!ring->sync) + bcm4377_ring_doorbell(bcm4377, ring->doorbell, new_head); + ret = 0; + +out: + spin_unlock_irqrestore(&ring->lock, flags); + + if (ret == 0 && wait) { + ret = wait_for_completion_interruptible_timeout( + &event, BCM4377_TIMEOUT); + if (ret == 0) + ret = -ETIMEDOUT; + else if (ret > 0) + ret = 0; + + spin_lock_irqsave(&ring->lock, flags); + ring->events[msgid] = NULL; + spin_unlock_irqrestore(&ring->lock, flags); + } + + return ret; +} + +static int bcm4377_create_completion_ring(struct bcm4377_data *bcm4377, + struct bcm4377_completion_ring *ring) +{ + struct bcm4377_create_completion_ring_msg msg; + int ret; + + if (ring->enabled) { + dev_warn(&bcm4377->pdev->dev, + "completion ring %d already enabled\n", ring->ring_id); + return 0; + } + + memset(ring->ring, 0, + ring->n_entries * (sizeof(struct bcm4377_completion_ring_entry) + + ring->payload_size)); + memset(&msg, 0, sizeof(msg)); + msg.msg_type = BCM4377_CONTROL_MSG_CREATE_COMPLETION_RING; + msg.id = cpu_to_le16(ring->ring_id); + msg.id_again = cpu_to_le16(ring->ring_id); + msg.ring_iova = cpu_to_le64(ring->ring_dma); + msg.n_elements = cpu_to_le16(ring->n_entries); + msg.intmod_bytes = cpu_to_le32(0xffffffff); + msg.unk = cpu_to_le32(0xffffffff); + msg.intmod_delay = cpu_to_le16(ring->delay); + msg.footer_size = ring->payload_size / 4; + + ret = bcm4377_enqueue(bcm4377, &bcm4377->control_h2d_ring, &msg, + sizeof(msg), true); + if (!ret) + ring->enabled = true; + + return ret; +} + +static int bcm4377_destroy_completion_ring(struct bcm4377_data *bcm4377, + struct bcm4377_completion_ring *ring) +{ + struct bcm4377_destroy_completion_ring_msg msg; + int ret; + + memset(&msg, 0, sizeof(msg)); + msg.msg_type = BCM4377_CONTROL_MSG_DESTROY_COMPLETION_RING; + msg.ring_id = cpu_to_le16(ring->ring_id); + + ret = bcm4377_enqueue(bcm4377, &bcm4377->control_h2d_ring, &msg, + sizeof(msg), true); + if (ret) + dev_warn(&bcm4377->pdev->dev, + "failed to destroy completion ring %d\n", + ring->ring_id); + + ring->enabled = false; + return ret; +} + +static int bcm4377_create_transfer_ring(struct bcm4377_data *bcm4377, + struct bcm4377_transfer_ring *ring) +{ + struct bcm4377_create_transfer_ring_msg msg; + u16 flags = 0; + int ret, i; + unsigned long spinlock_flags; + + if (ring->virtual) + flags |= BCM4377_XFER_RING_FLAG_VIRTUAL; + if (ring->sync) + flags |= BCM4377_XFER_RING_FLAG_SYNC; + + spin_lock_irqsave(&ring->lock, spinlock_flags); + memset(&msg, 0, sizeof(msg)); + msg.msg_type = BCM4377_CONTROL_MSG_CREATE_XFER_RING; + msg.ring_id = cpu_to_le16(ring->ring_id); + msg.ring_id_again = cpu_to_le16(ring->ring_id); + msg.ring_iova = cpu_to_le64(ring->ring_dma); + msg.n_elements = cpu_to_le16(ring->n_entries); + msg.completion_ring_id = cpu_to_le16(ring->completion_ring); + msg.doorbell = cpu_to_le16(ring->doorbell); + msg.flags = cpu_to_le16(flags); + msg.footer_size = ring->payload_size / 4; + + bcm4377->ring_state->xfer_ring_head[ring->ring_id] = 0; + bcm4377->ring_state->xfer_ring_tail[ring->ring_id] = 0; + ring->generation++; + spin_unlock_irqrestore(&ring->lock, spinlock_flags); + + ret = bcm4377_enqueue(bcm4377, &bcm4377->control_h2d_ring, &msg, + sizeof(msg), true); + + spin_lock_irqsave(&ring->lock, spinlock_flags); + + if (ring->d2h_buffers_only) { + for (i = 0; i < ring->n_entries; ++i) { + struct bcm4377_xfer_ring_entry *entry = + ring->ring + i * sizeof(*entry); + u16 raw_msgid = FIELD_PREP(BCM4377_MSGID_GENERATION, + ring->generation); + raw_msgid |= FIELD_PREP(BCM4377_MSGID_ID, i); + + memset(entry, 0, sizeof(*entry)); + entry->id = cpu_to_le16(raw_msgid); + entry->len = cpu_to_le16(ring->mapped_payload_size); + entry->flags = BCM4377_XFER_RING_FLAG_PAYLOAD_MAPPED; + entry->payload = + cpu_to_le64(ring->payloads_dma + + i * ring->mapped_payload_size); + } + } + + /* + * send some messages if this is a device->host ring to allow the device + * to reply by acknowledging them in the completion ring + */ + if (ring->virtual || ring->d2h_buffers_only) { + bcm4377->ring_state->xfer_ring_head[ring->ring_id] = + cpu_to_le16(0xf); + bcm4377_ring_doorbell(bcm4377, ring->doorbell, 0xf); + } + + ring->enabled = true; + spin_unlock_irqrestore(&ring->lock, spinlock_flags); + + return ret; +} + +static int bcm4377_destroy_transfer_ring(struct bcm4377_data *bcm4377, + struct bcm4377_transfer_ring *ring) +{ + struct bcm4377_destroy_transfer_ring_msg msg; + int ret; + + memset(&msg, 0, sizeof(msg)); + msg.msg_type = BCM4377_CONTROL_MSG_DESTROY_XFER_RING; + msg.ring_id = cpu_to_le16(ring->ring_id); + + ret = bcm4377_enqueue(bcm4377, &bcm4377->control_h2d_ring, &msg, + sizeof(msg), true); + if (ret) + dev_warn(&bcm4377->pdev->dev, + "failed to destroy transfer ring %d\n", ring->ring_id); + + ring->enabled = false; + return ret; +} + +static int __bcm4378_send_calibration_chunk(struct bcm4377_data *bcm4377, + const void *data, size_t data_len, + u16 blocks_left) +{ + struct bcm4378_hci_send_calibration_cmd cmd; + struct sk_buff *skb; + + if (data_len > sizeof(cmd.data)) + return -EINVAL; + + memset(&cmd, 0, sizeof(cmd)); + cmd.unk = 0x03; + cmd.blocks_left = cpu_to_le16(blocks_left); + memcpy(cmd.data, data, data_len); + + skb = __hci_cmd_sync(bcm4377->hdev, 0xfd97, sizeof(cmd), &cmd, + HCI_INIT_TIMEOUT); + if (IS_ERR(skb)) + return PTR_ERR(skb); + + kfree_skb(skb); + return 0; +} + +static int __bcm4378_send_calibration(struct bcm4377_data *bcm4377, + const void *data, size_t data_size) +{ + int ret; + size_t i, left, transfer_len; + size_t blocks = + DIV_ROUND_UP(data_size, (size_t)BCM4378_CALIBRATION_CHUNK_SIZE); + + if (!data) { + dev_err(&bcm4377->pdev->dev, + "no calibration data available.\n"); + return -ENOENT; + } + + for (i = 0, left = data_size; i < blocks; ++i, left -= transfer_len) { + transfer_len = + min_t(size_t, left, BCM4378_CALIBRATION_CHUNK_SIZE); + + ret = __bcm4378_send_calibration_chunk( + bcm4377, data + i * BCM4378_CALIBRATION_CHUNK_SIZE, + transfer_len, blocks - i - 1); + if (ret) { + dev_err(&bcm4377->pdev->dev, + "send calibration chunk failed with %d\n", ret); + return ret; + } + } + + return 0; +} + +static int bcm4378_send_calibration(struct bcm4377_data *bcm4377) +{ + if ((strcmp(bcm4377->stepping, "b1") == 0) || + strcmp(bcm4377->stepping, "b3") == 0) + return __bcm4378_send_calibration( + bcm4377, bcm4377->taurus_beamforming_cal_blob, + bcm4377->taurus_beamforming_cal_size); + else + return __bcm4378_send_calibration(bcm4377, + bcm4377->taurus_cal_blob, + bcm4377->taurus_cal_size); +} + +static int bcm4387_send_calibration(struct bcm4377_data *bcm4377) +{ + if (strcmp(bcm4377->stepping, "c2") == 0) + return __bcm4378_send_calibration( + bcm4377, bcm4377->taurus_beamforming_cal_blob, + bcm4377->taurus_beamforming_cal_size); + else + return __bcm4378_send_calibration(bcm4377, + bcm4377->taurus_cal_blob, + bcm4377->taurus_cal_size); +} + +static const struct firmware *bcm4377_request_blob(struct bcm4377_data *bcm4377, + const char *suffix) +{ + const struct firmware *fw; + char name0[64], name1[64]; + int ret; + + snprintf(name0, sizeof(name0), "brcm/brcmbt%04x%s-%s-%s.%s", + bcm4377->hw->id, bcm4377->stepping, bcm4377->board_type, + bcm4377->vendor, suffix); + snprintf(name1, sizeof(name1), "brcm/brcmbt%04x%s-%s.%s", + bcm4377->hw->id, bcm4377->stepping, bcm4377->board_type, + suffix); + dev_dbg(&bcm4377->pdev->dev, "Trying to load firmware: '%s' or '%s'\n", + name0, name1); + + ret = firmware_request_nowarn(&fw, name0, &bcm4377->pdev->dev); + if (!ret) + return fw; + ret = firmware_request_nowarn(&fw, name1, &bcm4377->pdev->dev); + if (!ret) + return fw; + + dev_err(&bcm4377->pdev->dev, + "Unable to load firmware; tried '%s' and '%s'\n", name0, name1); + return NULL; +} + +static int bcm4377_send_ptb(struct bcm4377_data *bcm4377, + const struct firmware *fw) +{ + struct sk_buff *skb; + int ret = 0; + + skb = __hci_cmd_sync(bcm4377->hdev, 0xfd98, fw->size, fw->data, + HCI_INIT_TIMEOUT); + if (IS_ERR(skb)) { + ret = PTR_ERR(skb); + dev_err(&bcm4377->pdev->dev, "sending ptb failed (%d)", ret); + return ret; + } + + kfree_skb(skb); + return ret; +} + +static int bcm4378_send_ptb_chunk(struct bcm4377_data *bcm4377, + const void *data, size_t data_len, + u16 blocks_left) +{ + struct bcm4378_hci_send_ptb_cmd cmd; + struct sk_buff *skb; + + if (data_len > BCM4378_PTB_CHUNK_SIZE) + return -EINVAL; + + memset(&cmd, 0, sizeof(cmd)); + cmd.blocks_left = cpu_to_le16(blocks_left); + memcpy(cmd.data, data, data_len); + + skb = __hci_cmd_sync(bcm4377->hdev, 0xfe0d, sizeof(cmd), &cmd, + HCI_INIT_TIMEOUT); + if (IS_ERR(skb)) + return PTR_ERR(skb); + + kfree_skb(skb); + return 0; +} + +static int bcm4378_send_ptb(struct bcm4377_data *bcm4377, + const struct firmware *fw) +{ + size_t chunks = DIV_ROUND_UP(fw->size, (size_t)BCM4378_PTB_CHUNK_SIZE); + size_t i, left, transfer_len; + int ret; + + for (i = 0, left = fw->size; i < chunks; ++i, left -= transfer_len) { + transfer_len = min_t(size_t, left, BCM4378_PTB_CHUNK_SIZE); + + dev_dbg(&bcm4377->pdev->dev, "sending ptb chunk %zu/%zu\n", + i + 1, chunks); + ret = bcm4378_send_ptb_chunk( + bcm4377, fw->data + i * BCM4378_PTB_CHUNK_SIZE, + transfer_len, chunks - i - 1); + if (ret) { + dev_err(&bcm4377->pdev->dev, + "sending ptb chunk %zu failed (%d)", i, ret); + return ret; + } + } + + return 0; +} + +static int bcm4377_hci_open(struct hci_dev *hdev) +{ + struct bcm4377_data *bcm4377 = hci_get_drvdata(hdev); + int ret; + + dev_dbg(&bcm4377->pdev->dev, "creating rings\n"); + + ret = bcm4377_create_completion_ring(bcm4377, + &bcm4377->hci_acl_ack_ring); + if (ret) + return ret; + ret = bcm4377_create_completion_ring(bcm4377, + &bcm4377->hci_acl_event_ring); + if (ret) + goto destroy_hci_acl_ack; + ret = bcm4377_create_completion_ring(bcm4377, &bcm4377->sco_ack_ring); + if (ret) + goto destroy_hci_acl_event; + ret = bcm4377_create_completion_ring(bcm4377, &bcm4377->sco_event_ring); + if (ret) + goto destroy_sco_ack; + dev_dbg(&bcm4377->pdev->dev, + "all completion rings successfully created!\n"); + + ret = bcm4377_create_transfer_ring(bcm4377, &bcm4377->hci_h2d_ring); + if (ret) + goto destroy_sco_event; + ret = bcm4377_create_transfer_ring(bcm4377, &bcm4377->hci_d2h_ring); + if (ret) + goto destroy_hci_h2d; + ret = bcm4377_create_transfer_ring(bcm4377, &bcm4377->sco_h2d_ring); + if (ret) + goto destroy_hci_d2h; + ret = bcm4377_create_transfer_ring(bcm4377, &bcm4377->sco_d2h_ring); + if (ret) + goto destroy_sco_h2d; + ret = bcm4377_create_transfer_ring(bcm4377, &bcm4377->acl_h2d_ring); + if (ret) + goto destroy_sco_d2h; + ret = bcm4377_create_transfer_ring(bcm4377, &bcm4377->acl_d2h_ring); + if (ret) + goto destroy_acl_h2d; + dev_dbg(&bcm4377->pdev->dev, + "all transfer rings successfully created!\n"); + + return 0; + +destroy_acl_h2d: + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->acl_h2d_ring); +destroy_sco_d2h: + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->sco_d2h_ring); +destroy_sco_h2d: + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->sco_h2d_ring); +destroy_hci_d2h: + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->hci_h2d_ring); +destroy_hci_h2d: + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->hci_d2h_ring); +destroy_sco_event: + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->sco_event_ring); +destroy_sco_ack: + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->sco_ack_ring); +destroy_hci_acl_event: + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->hci_acl_event_ring); +destroy_hci_acl_ack: + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->hci_acl_ack_ring); + + dev_err(&bcm4377->pdev->dev, "Creating rings failed with %d\n", ret); + return ret; +} + +static int bcm4377_hci_close(struct hci_dev *hdev) +{ + struct bcm4377_data *bcm4377 = hci_get_drvdata(hdev); + + dev_dbg(&bcm4377->pdev->dev, "destroying rings in hci_close\n"); + + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->acl_d2h_ring); + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->acl_h2d_ring); + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->sco_d2h_ring); + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->sco_h2d_ring); + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->hci_d2h_ring); + bcm4377_destroy_transfer_ring(bcm4377, &bcm4377->hci_h2d_ring); + + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->sco_event_ring); + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->sco_ack_ring); + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->hci_acl_event_ring); + bcm4377_destroy_completion_ring(bcm4377, &bcm4377->hci_acl_ack_ring); + + return 0; +} + +static bool bcm4377_is_valid_bdaddr(struct bcm4377_data *bcm4377, + bdaddr_t *addr) +{ + if (addr->b[0] != 0x93) + return true; + if (addr->b[1] != 0x76) + return true; + if (addr->b[2] != 0x00) + return true; + if (addr->b[4] != (bcm4377->hw->id & 0xff)) + return true; + if (addr->b[5] != (bcm4377->hw->id >> 8)) + return true; + return false; +} + +static int bcm4377_check_bdaddr(struct bcm4377_data *bcm4377) +{ + struct hci_rp_read_bd_addr *bda; + struct sk_buff *skb; + + skb = __hci_cmd_sync(bcm4377->hdev, HCI_OP_READ_BD_ADDR, 0, NULL, + HCI_INIT_TIMEOUT); + if (IS_ERR(skb)) { + int err = PTR_ERR(skb); + + dev_err(&bcm4377->pdev->dev, "HCI_OP_READ_BD_ADDR failed (%d)", + err); + return err; + } + + if (skb->len != sizeof(*bda)) { + dev_err(&bcm4377->pdev->dev, + "HCI_OP_READ_BD_ADDR reply length invalid"); + kfree_skb(skb); + return -EIO; + } + + bda = (struct hci_rp_read_bd_addr *)skb->data; + if (!bcm4377_is_valid_bdaddr(bcm4377, &bda->bdaddr)) + set_bit(HCI_QUIRK_INVALID_BDADDR, &bcm4377->hdev->quirks); + + kfree_skb(skb); + return 0; +} + +static int bcm4377_hci_setup(struct hci_dev *hdev) +{ + struct bcm4377_data *bcm4377 = hci_get_drvdata(hdev); + const struct firmware *fw; + int ret; + + if (bcm4377->hw->send_calibration) { + ret = bcm4377->hw->send_calibration(bcm4377); + if (ret) + return ret; + } + + fw = bcm4377_request_blob(bcm4377, "ptb"); + if (!fw) { + dev_err(&bcm4377->pdev->dev, "failed to load PTB data"); + return -ENOENT; + } + + ret = bcm4377->hw->send_ptb(bcm4377, fw); + release_firmware(fw); + if (ret) + return ret; + + return bcm4377_check_bdaddr(bcm4377); +} + +static int bcm4377_hci_send_frame(struct hci_dev *hdev, struct sk_buff *skb) +{ + struct bcm4377_data *bcm4377 = hci_get_drvdata(hdev); + struct bcm4377_transfer_ring *ring; + int ret; + + switch (hci_skb_pkt_type(skb)) { + case HCI_COMMAND_PKT: + hdev->stat.cmd_tx++; + ring = &bcm4377->hci_h2d_ring; + break; + + case HCI_ACLDATA_PKT: + hdev->stat.acl_tx++; + ring = &bcm4377->acl_h2d_ring; + break; + + case HCI_SCODATA_PKT: + hdev->stat.sco_tx++; + ring = &bcm4377->sco_h2d_ring; + break; + + default: + return -EILSEQ; + } + + ret = bcm4377_enqueue(bcm4377, ring, skb->data, skb->len, false); + if (ret < 0) { + hdev->stat.err_tx++; + return ret; + } + + hdev->stat.byte_tx += skb->len; + kfree_skb(skb); + return ret; +} + +static int bcm4377_hci_set_bdaddr(struct hci_dev *hdev, const bdaddr_t *bdaddr) +{ + struct bcm4377_data *bcm4377 = hci_get_drvdata(hdev); + struct sk_buff *skb; + int err; + + skb = __hci_cmd_sync(hdev, 0xfc01, 6, bdaddr, HCI_INIT_TIMEOUT); + if (IS_ERR(skb)) { + err = PTR_ERR(skb); + dev_err(&bcm4377->pdev->dev, + "Change address command failed (%d)", err); + return err; + } + kfree_skb(skb); + + return 0; +} + +static int bcm4377_alloc_transfer_ring(struct bcm4377_data *bcm4377, + struct bcm4377_transfer_ring *ring) +{ + size_t entry_size; + + spin_lock_init(&ring->lock); + ring->payload_size = ALIGN(ring->payload_size, 4); + ring->mapped_payload_size = ALIGN(ring->mapped_payload_size, 4); + + if (ring->payload_size > BCM4377_XFER_RING_MAX_INPLACE_PAYLOAD_SIZE) + return -EINVAL; + if (ring->n_entries > BCM4377_MAX_RING_SIZE) + return -EINVAL; + if (ring->virtual && ring->allow_wait) + return -EINVAL; + + if (ring->d2h_buffers_only) { + if (ring->virtual) + return -EINVAL; + if (ring->payload_size) + return -EINVAL; + if (!ring->mapped_payload_size) + return -EINVAL; + } + if (ring->virtual) + return 0; + + entry_size = + ring->payload_size + sizeof(struct bcm4377_xfer_ring_entry); + ring->ring = dmam_alloc_coherent(&bcm4377->pdev->dev, + ring->n_entries * entry_size, + &ring->ring_dma, GFP_KERNEL); + if (!ring->ring) + return -ENOMEM; + + if (ring->allow_wait) { + ring->events = devm_kcalloc(&bcm4377->pdev->dev, + ring->n_entries, + sizeof(*ring->events), GFP_KERNEL); + if (!ring->events) + return -ENOMEM; + } + + if (ring->mapped_payload_size) { + ring->payloads = dmam_alloc_coherent( + &bcm4377->pdev->dev, + ring->n_entries * ring->mapped_payload_size, + &ring->payloads_dma, GFP_KERNEL); + if (!ring->payloads) + return -ENOMEM; + } + + return 0; +} + +static int bcm4377_alloc_completion_ring(struct bcm4377_data *bcm4377, + struct bcm4377_completion_ring *ring) +{ + size_t entry_size; + + ring->payload_size = ALIGN(ring->payload_size, 4); + if (ring->payload_size > BCM4377_XFER_RING_MAX_INPLACE_PAYLOAD_SIZE) + return -EINVAL; + if (ring->n_entries > BCM4377_MAX_RING_SIZE) + return -EINVAL; + + entry_size = ring->payload_size + + sizeof(struct bcm4377_completion_ring_entry); + + ring->ring = dmam_alloc_coherent(&bcm4377->pdev->dev, + ring->n_entries * entry_size, + &ring->ring_dma, GFP_KERNEL); + if (!ring->ring) + return -ENOMEM; + return 0; +} + +static int bcm4377_init_context(struct bcm4377_data *bcm4377) +{ + struct device *dev = &bcm4377->pdev->dev; + dma_addr_t peripheral_info_dma; + + bcm4377->ctx = dmam_alloc_coherent(dev, sizeof(*bcm4377->ctx), + &bcm4377->ctx_dma, GFP_KERNEL); + if (!bcm4377->ctx) + return -ENOMEM; + memset(bcm4377->ctx, 0, sizeof(*bcm4377->ctx)); + + bcm4377->ring_state = + dmam_alloc_coherent(dev, sizeof(*bcm4377->ring_state), + &bcm4377->ring_state_dma, GFP_KERNEL); + if (!bcm4377->ring_state) + return -ENOMEM; + memset(bcm4377->ring_state, 0, sizeof(*bcm4377->ring_state)); + + bcm4377->ctx->version = cpu_to_le16(1); + bcm4377->ctx->size = cpu_to_le16(sizeof(*bcm4377->ctx)); + bcm4377->ctx->enabled_caps = cpu_to_le32(2); + + /* + * The BT device will write 0x20 bytes of data to this buffer but + * the exact contents are unknown. It only needs to exist for BT + * to work such that we can just allocate and then ignore it. + */ + if (!dmam_alloc_coherent(&bcm4377->pdev->dev, 0x20, + &peripheral_info_dma, GFP_KERNEL)) + return -ENOMEM; + bcm4377->ctx->peripheral_info_addr = cpu_to_le64(peripheral_info_dma); + + bcm4377->ctx->xfer_ring_heads_addr = cpu_to_le64( + bcm4377->ring_state_dma + + offsetof(struct bcm4377_ring_state, xfer_ring_head)); + bcm4377->ctx->xfer_ring_tails_addr = cpu_to_le64( + bcm4377->ring_state_dma + + offsetof(struct bcm4377_ring_state, xfer_ring_tail)); + bcm4377->ctx->completion_ring_heads_addr = cpu_to_le64( + bcm4377->ring_state_dma + + offsetof(struct bcm4377_ring_state, completion_ring_head)); + bcm4377->ctx->completion_ring_tails_addr = cpu_to_le64( + bcm4377->ring_state_dma + + offsetof(struct bcm4377_ring_state, completion_ring_tail)); + + bcm4377->ctx->n_completion_rings = + cpu_to_le16(BCM4377_N_COMPLETION_RINGS); + bcm4377->ctx->n_xfer_rings = cpu_to_le16(BCM4377_N_TRANSFER_RINGS); + + bcm4377->ctx->control_completion_ring_addr = + cpu_to_le64(bcm4377->control_ack_ring.ring_dma); + bcm4377->ctx->control_completion_ring_n_entries = + cpu_to_le16(bcm4377->control_ack_ring.n_entries); + bcm4377->ctx->control_completion_ring_doorbell = cpu_to_le16(0xffff); + bcm4377->ctx->control_completion_ring_msi = 0; + bcm4377->ctx->control_completion_ring_header_size = 0; + bcm4377->ctx->control_completion_ring_footer_size = 0; + + bcm4377->ctx->control_xfer_ring_addr = + cpu_to_le64(bcm4377->control_h2d_ring.ring_dma); + bcm4377->ctx->control_xfer_ring_n_entries = + cpu_to_le16(bcm4377->control_h2d_ring.n_entries); + bcm4377->ctx->control_xfer_ring_doorbell = + cpu_to_le16(bcm4377->control_h2d_ring.doorbell); + bcm4377->ctx->control_xfer_ring_msi = 0; + bcm4377->ctx->control_xfer_ring_header_size = 0; + bcm4377->ctx->control_xfer_ring_footer_size = + bcm4377->control_h2d_ring.payload_size / 4; + + dev_dbg(&bcm4377->pdev->dev, "context initialized at IOVA %pad", + &bcm4377->ctx_dma); + + return 0; +} + +static int bcm4377_prepare_rings(struct bcm4377_data *bcm4377) +{ + int ret; + + /* + * Even though many of these settings appear to be configurable + * when sending the "create ring" messages most of these are + * actually hardcoded in some (and quite possibly all) firmware versions + * and changing them on the host has no effect. + * Specifically, this applies to at least the doorbells, the transfer + * and completion ring ids and their mapping (e.g. both HCI and ACL + * entries will always be queued in completion rings 1 and 2 no matter + * what we configure here). + */ + bcm4377->control_ack_ring.ring_id = BCM4377_ACK_RING_CONTROL; + bcm4377->control_ack_ring.n_entries = 32; + bcm4377->control_ack_ring.transfer_rings = + BIT(BCM4377_XFER_RING_CONTROL); + + bcm4377->hci_acl_ack_ring.ring_id = BCM4377_ACK_RING_HCI_ACL; + bcm4377->hci_acl_ack_ring.n_entries = 2 * BCM4377_RING_N_ENTRIES; + bcm4377->hci_acl_ack_ring.transfer_rings = + BIT(BCM4377_XFER_RING_HCI_H2D) | BIT(BCM4377_XFER_RING_ACL_H2D); + bcm4377->hci_acl_ack_ring.delay = 1000; + + /* + * A payload size of MAX_EVENT_PAYLOAD_SIZE is enough here since large + * ACL packets will be transmitted inside buffers mapped via + * acl_d2h_ring anyway. + */ + bcm4377->hci_acl_event_ring.ring_id = BCM4377_EVENT_RING_HCI_ACL; + bcm4377->hci_acl_event_ring.payload_size = MAX_EVENT_PAYLOAD_SIZE; + bcm4377->hci_acl_event_ring.n_entries = 2 * BCM4377_RING_N_ENTRIES; + bcm4377->hci_acl_event_ring.transfer_rings = + BIT(BCM4377_XFER_RING_HCI_D2H) | BIT(BCM4377_XFER_RING_ACL_D2H); + bcm4377->hci_acl_event_ring.delay = 1000; + + bcm4377->sco_ack_ring.ring_id = BCM4377_ACK_RING_SCO; + bcm4377->sco_ack_ring.n_entries = BCM4377_RING_N_ENTRIES; + bcm4377->sco_ack_ring.transfer_rings = BIT(BCM4377_XFER_RING_SCO_H2D); + + bcm4377->sco_event_ring.ring_id = BCM4377_EVENT_RING_SCO; + bcm4377->sco_event_ring.payload_size = MAX_SCO_PAYLOAD_SIZE; + bcm4377->sco_event_ring.n_entries = BCM4377_RING_N_ENTRIES; + bcm4377->sco_event_ring.transfer_rings = BIT(BCM4377_XFER_RING_SCO_D2H); + + bcm4377->control_h2d_ring.ring_id = BCM4377_XFER_RING_CONTROL; + bcm4377->control_h2d_ring.doorbell = BCM4377_DOORBELL_CONTROL; + bcm4377->control_h2d_ring.payload_size = BCM4377_CONTROL_MSG_SIZE; + bcm4377->control_h2d_ring.completion_ring = BCM4377_ACK_RING_CONTROL; + bcm4377->control_h2d_ring.allow_wait = true; + bcm4377->control_h2d_ring.n_entries = BCM4377_RING_N_ENTRIES; + + bcm4377->hci_h2d_ring.ring_id = BCM4377_XFER_RING_HCI_H2D; + bcm4377->hci_h2d_ring.doorbell = BCM4377_DOORBELL_HCI_H2D; + bcm4377->hci_h2d_ring.payload_size = MAX_EVENT_PAYLOAD_SIZE; + bcm4377->hci_h2d_ring.completion_ring = BCM4377_ACK_RING_HCI_ACL; + bcm4377->hci_h2d_ring.n_entries = BCM4377_RING_N_ENTRIES; + + bcm4377->hci_d2h_ring.ring_id = BCM4377_XFER_RING_HCI_D2H; + bcm4377->hci_d2h_ring.doorbell = BCM4377_DOORBELL_HCI_D2H; + bcm4377->hci_d2h_ring.completion_ring = BCM4377_EVENT_RING_HCI_ACL; + bcm4377->hci_d2h_ring.virtual = true; + bcm4377->hci_d2h_ring.n_entries = BCM4377_RING_N_ENTRIES; + + bcm4377->sco_h2d_ring.ring_id = BCM4377_XFER_RING_SCO_H2D; + bcm4377->sco_h2d_ring.doorbell = BCM4377_DOORBELL_SCO; + bcm4377->sco_h2d_ring.payload_size = MAX_SCO_PAYLOAD_SIZE; + bcm4377->sco_h2d_ring.completion_ring = BCM4377_ACK_RING_SCO; + bcm4377->sco_h2d_ring.sync = true; + bcm4377->sco_h2d_ring.n_entries = BCM4377_RING_N_ENTRIES; + + bcm4377->sco_d2h_ring.ring_id = BCM4377_XFER_RING_SCO_D2H; + bcm4377->sco_d2h_ring.doorbell = BCM4377_DOORBELL_SCO; + bcm4377->sco_d2h_ring.completion_ring = BCM4377_EVENT_RING_SCO; + bcm4377->sco_d2h_ring.virtual = true; + bcm4377->sco_d2h_ring.sync = true; + bcm4377->sco_d2h_ring.n_entries = BCM4377_RING_N_ENTRIES; + + /* + * This ring has to use mapped_payload_size because the largest ACL + * packet doesn't fit inside the largest possible footer + */ + bcm4377->acl_h2d_ring.ring_id = BCM4377_XFER_RING_ACL_H2D; + bcm4377->acl_h2d_ring.doorbell = BCM4377_DOORBELL_ACL_H2D; + bcm4377->acl_h2d_ring.mapped_payload_size = MAX_ACL_PAYLOAD_SIZE; + bcm4377->acl_h2d_ring.completion_ring = BCM4377_ACK_RING_HCI_ACL; + bcm4377->acl_h2d_ring.n_entries = BCM4377_RING_N_ENTRIES; + + /* + * This ring only contains empty buffers to be used by incoming + * ACL packets that do not fit inside the footer of hci_acl_event_ring + */ + bcm4377->acl_d2h_ring.ring_id = BCM4377_XFER_RING_ACL_D2H; + bcm4377->acl_d2h_ring.doorbell = BCM4377_DOORBELL_ACL_D2H; + bcm4377->acl_d2h_ring.completion_ring = BCM4377_EVENT_RING_HCI_ACL; + bcm4377->acl_d2h_ring.d2h_buffers_only = true; + bcm4377->acl_d2h_ring.mapped_payload_size = MAX_ACL_PAYLOAD_SIZE; + bcm4377->acl_d2h_ring.n_entries = BCM4377_RING_N_ENTRIES; + + /* + * no need for any cleanup since this is only called from _probe + * and only devres-managed allocations are used + */ + ret = bcm4377_alloc_transfer_ring(bcm4377, &bcm4377->control_h2d_ring); + if (ret) + return ret; + ret = bcm4377_alloc_transfer_ring(bcm4377, &bcm4377->hci_h2d_ring); + if (ret) + return ret; + ret = bcm4377_alloc_transfer_ring(bcm4377, &bcm4377->hci_d2h_ring); + if (ret) + return ret; + ret = bcm4377_alloc_transfer_ring(bcm4377, &bcm4377->sco_h2d_ring); + if (ret) + return ret; + ret = bcm4377_alloc_transfer_ring(bcm4377, &bcm4377->sco_d2h_ring); + if (ret) + return ret; + ret = bcm4377_alloc_transfer_ring(bcm4377, &bcm4377->acl_h2d_ring); + if (ret) + return ret; + ret = bcm4377_alloc_transfer_ring(bcm4377, &bcm4377->acl_d2h_ring); + if (ret) + return ret; + + ret = bcm4377_alloc_completion_ring(bcm4377, + &bcm4377->control_ack_ring); + if (ret) + return ret; + ret = bcm4377_alloc_completion_ring(bcm4377, + &bcm4377->hci_acl_ack_ring); + if (ret) + return ret; + ret = bcm4377_alloc_completion_ring(bcm4377, + &bcm4377->hci_acl_event_ring); + if (ret) + return ret; + ret = bcm4377_alloc_completion_ring(bcm4377, &bcm4377->sco_ack_ring); + if (ret) + return ret; + ret = bcm4377_alloc_completion_ring(bcm4377, &bcm4377->sco_event_ring); + if (ret) + return ret; + + dev_dbg(&bcm4377->pdev->dev, "all rings allocated and prepared\n"); + + return 0; +} + +static int bcm4377_boot(struct bcm4377_data *bcm4377) +{ + const struct firmware *fw; + void *bfr; + dma_addr_t fw_dma; + int ret = 0; + u32 bootstage, rti_status; + + bootstage = ioread32(bcm4377->bar2 + BCM4377_BAR2_BOOTSTAGE); + rti_status = ioread32(bcm4377->bar2 + BCM4377_BAR2_RTI_STATUS); + + if (bootstage != 0) { + dev_err(&bcm4377->pdev->dev, "bootstage is %d and not 0\n", + bootstage); + return -EINVAL; + } + + if (rti_status != 0) { + dev_err(&bcm4377->pdev->dev, "RTI status is %d and not 0\n", + rti_status); + return -EINVAL; + } + + fw = bcm4377_request_blob(bcm4377, "bin"); + if (!fw) { + dev_err(&bcm4377->pdev->dev, "Failed to load firmware\n"); + return -ENOENT; + } + + bfr = dma_alloc_coherent(&bcm4377->pdev->dev, fw->size, &fw_dma, + GFP_KERNEL); + if (!bfr) { + ret = -ENOMEM; + goto out_release_fw; + } + + memcpy(bfr, fw->data, fw->size); + + iowrite32(0, bcm4377->bar0 + BCM4377_BAR0_HOST_WINDOW_LO); + iowrite32(0, bcm4377->bar0 + BCM4377_BAR0_HOST_WINDOW_HI); + iowrite32(BCM4377_DMA_MASK, + bcm4377->bar0 + BCM4377_BAR0_HOST_WINDOW_SIZE); + + iowrite32(lower_32_bits(fw_dma), bcm4377->bar2 + BCM4377_BAR2_FW_LO); + iowrite32(upper_32_bits(fw_dma), bcm4377->bar2 + BCM4377_BAR2_FW_HI); + iowrite32(fw->size, bcm4377->bar2 + BCM4377_BAR2_FW_SIZE); + iowrite32(0, bcm4377->bar0 + BCM4377_BAR0_FW_DOORBELL); + + dev_dbg(&bcm4377->pdev->dev, "waiting for firmware to boot\n"); + + ret = wait_for_completion_interruptible_timeout(&bcm4377->event, + BCM4377_TIMEOUT); + if (ret == 0) { + ret = -ETIMEDOUT; + goto out_dma_free; + } else if (ret < 0) { + goto out_dma_free; + } + + if (bcm4377->bootstage != 2) { + dev_err(&bcm4377->pdev->dev, "boostage %d != 2\n", + bcm4377->bootstage); + ret = -ENXIO; + goto out_dma_free; + } + + dev_dbg(&bcm4377->pdev->dev, "firmware has booted (stage = %x)\n", + bcm4377->bootstage); + ret = 0; + +out_dma_free: + dma_free_coherent(&bcm4377->pdev->dev, fw->size, bfr, fw_dma); +out_release_fw: + release_firmware(fw); + return ret; +} + +static int bcm4377_setup_rti(struct bcm4377_data *bcm4377) +{ + int ret; + + dev_dbg(&bcm4377->pdev->dev, "starting RTI\n"); + iowrite32(1, bcm4377->bar0 + BCM4377_BAR0_RTI_CONTROL); + + ret = wait_for_completion_interruptible_timeout(&bcm4377->event, + BCM4377_TIMEOUT); + if (ret == 0) { + dev_err(&bcm4377->pdev->dev, + "timed out while waiting for RTI to transition to state 1"); + return -ETIMEDOUT; + } else if (ret < 0) { + return ret; + } + + if (bcm4377->rti_status != 1) { + dev_err(&bcm4377->pdev->dev, "RTI did not ack state 1 (%d)\n", + bcm4377->rti_status); + return -ENODEV; + } + dev_dbg(&bcm4377->pdev->dev, "RTI is in state 1\n"); + + /* allow access to the entire IOVA space again */ + iowrite32(0, bcm4377->bar2 + BCM4377_BAR2_RTI_WINDOW_LO); + iowrite32(0, bcm4377->bar2 + BCM4377_BAR2_RTI_WINDOW_HI); + iowrite32(BCM4377_DMA_MASK, + bcm4377->bar2 + BCM4377_BAR2_RTI_WINDOW_SIZE); + + /* setup "Converged IPC" context */ + iowrite32(lower_32_bits(bcm4377->ctx_dma), + bcm4377->bar2 + BCM4377_BAR2_CONTEXT_ADDR_LO); + iowrite32(upper_32_bits(bcm4377->ctx_dma), + bcm4377->bar2 + BCM4377_BAR2_CONTEXT_ADDR_HI); + iowrite32(2, bcm4377->bar0 + BCM4377_BAR0_RTI_CONTROL); + + ret = wait_for_completion_interruptible_timeout(&bcm4377->event, + BCM4377_TIMEOUT); + if (ret == 0) { + dev_err(&bcm4377->pdev->dev, + "timed out while waiting for RTI to transition to state 2"); + return -ETIMEDOUT; + } else if (ret < 0) { + return ret; + } + + if (bcm4377->rti_status != 2) { + dev_err(&bcm4377->pdev->dev, "RTI did not ack state 2 (%d)\n", + bcm4377->rti_status); + return -ENODEV; + } + + dev_dbg(&bcm4377->pdev->dev, + "RTI is in state 2; control ring is ready\n"); + bcm4377->control_ack_ring.enabled = true; + + return 0; +} + +static int bcm4377_parse_otp_board_params(struct bcm4377_data *bcm4377, + char tag, const char *val, size_t len) +{ + if (tag != 'V') + return 0; + if (len >= sizeof(bcm4377->vendor)) + return -EINVAL; + + strscpy(bcm4377->vendor, val, len + 1); + return 0; +} + +static int bcm4377_parse_otp_chip_params(struct bcm4377_data *bcm4377, char tag, + const char *val, size_t len) +{ + size_t idx = 0; + + if (tag != 's') + return 0; + if (len >= sizeof(bcm4377->stepping)) + return -EINVAL; + + while (len != 0) { + bcm4377->stepping[idx] = tolower(val[idx]); + if (val[idx] == '\0') + return 0; + + idx++; + len--; + } + + bcm4377->stepping[idx] = '\0'; + return 0; +} + +static int bcm4377_parse_otp_str(struct bcm4377_data *bcm4377, const u8 *str, + enum bcm4377_otp_params_type type) +{ + const char *p; + int ret; + + p = skip_spaces(str); + while (*p) { + char tag = *p++; + const char *end; + size_t len; + + if (*p++ != '=') /* implicit NUL check */ + return -EINVAL; + + /* *p might be NUL here, if so end == p and len == 0 */ + end = strchrnul(p, ' '); + len = end - p; + + /* leave 1 byte for NUL in destination string */ + if (len > (BCM4377_OTP_MAX_PARAM_LEN - 1)) + return -EINVAL; + + switch (type) { + case BCM4377_OTP_BOARD_PARAMS: + ret = bcm4377_parse_otp_board_params(bcm4377, tag, p, + len); + break; + case BCM4377_OTP_CHIP_PARAMS: + ret = bcm4377_parse_otp_chip_params(bcm4377, tag, p, + len); + break; + default: + ret = -EINVAL; + break; + } + + if (ret) + return ret; + + /* Skip to next arg, if any */ + p = skip_spaces(end); + } + + return 0; +} + +static int bcm4377_parse_otp_sys_vendor(struct bcm4377_data *bcm4377, u8 *otp, + size_t size) +{ + int idx = 4; + const char *chip_params; + const char *board_params; + int ret; + + /* 4-byte header and two empty strings */ + if (size < 6) + return -EINVAL; + + if (get_unaligned_le32(otp) != BCM4377_OTP_VENDOR_HDR) + return -EINVAL; + + chip_params = &otp[idx]; + + /* Skip first string, including terminator */ + idx += strnlen(chip_params, size - idx) + 1; + if (idx >= size) + return -EINVAL; + + board_params = &otp[idx]; + + /* Skip to terminator of second string */ + idx += strnlen(board_params, size - idx); + if (idx >= size) + return -EINVAL; + + /* At this point both strings are guaranteed NUL-terminated */ + dev_dbg(&bcm4377->pdev->dev, + "OTP: chip_params='%s' board_params='%s'\n", chip_params, + board_params); + + ret = bcm4377_parse_otp_str(bcm4377, chip_params, + BCM4377_OTP_CHIP_PARAMS); + if (ret) + return ret; + + ret = bcm4377_parse_otp_str(bcm4377, board_params, + BCM4377_OTP_BOARD_PARAMS); + if (ret) + return ret; + + if (!bcm4377->stepping[0] || !bcm4377->vendor[0]) + return -EINVAL; + + dev_dbg(&bcm4377->pdev->dev, "OTP: stepping=%s, vendor=%s\n", + bcm4377->stepping, bcm4377->vendor); + return 0; +} + +static int bcm4377_parse_otp(struct bcm4377_data *bcm4377) +{ + u8 *otp; + int i; + int ret = -ENOENT; + + otp = kzalloc(BCM4377_OTP_SIZE, GFP_KERNEL); + if (!otp) + return -ENOMEM; + + for (i = 0; i < BCM4377_OTP_SIZE; ++i) + otp[i] = ioread8(bcm4377->bar0 + bcm4377->hw->otp_offset + i); + + i = 0; + while (i < (BCM4377_OTP_SIZE - 1)) { + u8 type = otp[i]; + u8 length = otp[i + 1]; + + if (type == 0) + break; + + if ((i + 2 + length) > BCM4377_OTP_SIZE) + break; + + switch (type) { + case BCM4377_OTP_SYS_VENDOR: + dev_dbg(&bcm4377->pdev->dev, + "OTP @ 0x%x (%d): SYS_VENDOR", i, length); + ret = bcm4377_parse_otp_sys_vendor(bcm4377, &otp[i + 2], + length); + break; + case BCM4377_OTP_CIS: + dev_dbg(&bcm4377->pdev->dev, "OTP @ 0x%x (%d): CIS", i, + length); + break; + default: + dev_dbg(&bcm4377->pdev->dev, "OTP @ 0x%x (%d): unknown", + i, length); + break; + } + + i += 2 + length; + } + + kfree(otp); + return ret; +} + +static int bcm4377_init_cfg(struct bcm4377_data *bcm4377) +{ + int ret; + u32 ctrl; + + ret = pci_write_config_dword(bcm4377->pdev, + BCM4377_PCIECFG_BAR0_WINDOW1, + bcm4377->hw->bar0_window1); + if (ret) + return ret; + + ret = pci_write_config_dword(bcm4377->pdev, + BCM4377_PCIECFG_BAR0_WINDOW2, + bcm4377->hw->bar0_window2); + if (ret) + return ret; + + ret = pci_write_config_dword( + bcm4377->pdev, BCM4377_PCIECFG_BAR0_CORE2_WINDOW1, + BCM4377_PCIECFG_BAR0_CORE2_WINDOW1_DEFAULT); + if (ret) + return ret; + + if (bcm4377->hw->has_bar0_core2_window2) { + ret = pci_write_config_dword(bcm4377->pdev, + BCM4377_PCIECFG_BAR0_CORE2_WINDOW2, + bcm4377->hw->bar0_core2_window2); + if (ret) + return ret; + } + + ret = pci_write_config_dword(bcm4377->pdev, BCM4377_PCIECFG_BAR2_WINDOW, + BCM4377_PCIECFG_BAR2_WINDOW_DEFAULT); + if (ret) + return ret; + + ret = pci_read_config_dword(bcm4377->pdev, + BCM4377_PCIECFG_SUBSYSTEM_CTRL, &ctrl); + if (ret) + return ret; + + if (bcm4377->hw->clear_pciecfg_subsystem_ctrl_bit19) + ctrl &= ~BIT(19); + ctrl |= BIT(16); + + return pci_write_config_dword(bcm4377->pdev, + BCM4377_PCIECFG_SUBSYSTEM_CTRL, ctrl); +} + +static int bcm4377_probe_dmi(struct bcm4377_data *bcm4377) +{ + const struct dmi_system_id *board_type_dmi_id; + + board_type_dmi_id = dmi_first_match(bcm4377_dmi_board_table); + if (board_type_dmi_id && board_type_dmi_id->driver_data) { + bcm4377->board_type = board_type_dmi_id->driver_data; + dev_dbg(&bcm4377->pdev->dev, + "found board type via DMI match: %s\n", + bcm4377->board_type); + } + + return 0; +} + +static int bcm4377_probe_of(struct bcm4377_data *bcm4377) +{ + struct device_node *np = bcm4377->pdev->dev.of_node; + int ret; + + if (!np) + return 0; + + ret = of_property_read_string(np, "brcm,board-type", + &bcm4377->board_type); + if (ret) { + dev_err(&bcm4377->pdev->dev, "no brcm,board-type property\n"); + return ret; + } + + bcm4377->taurus_beamforming_cal_blob = + of_get_property(np, "brcm,taurus-bf-cal-blob", + &bcm4377->taurus_beamforming_cal_size); + if (!bcm4377->taurus_beamforming_cal_blob) { + dev_err(&bcm4377->pdev->dev, + "no brcm,taurus-bf-cal-blob property\n"); + return -ENOENT; + } + bcm4377->taurus_cal_blob = of_get_property(np, "brcm,taurus-cal-blob", + &bcm4377->taurus_cal_size); + if (!bcm4377->taurus_cal_blob) { + dev_err(&bcm4377->pdev->dev, + "no brcm,taurus-cal-blob property\n"); + return -ENOENT; + } + + return 0; +} + +static void bcm4377_disable_aspm(struct bcm4377_data *bcm4377) +{ + pci_disable_link_state(bcm4377->pdev, + PCIE_LINK_STATE_L0S | PCIE_LINK_STATE_L1); + + /* + * pci_disable_link_state can fail if either CONFIG_PCIEASPM is disabled + * or if the BIOS hasn't handed over control to us. We must *always* + * disable ASPM for this device due to hardware errata though. + */ + pcie_capability_clear_word(bcm4377->pdev, PCI_EXP_LNKCTL, + PCI_EXP_LNKCTL_ASPMC); +} + +static void bcm4377_pci_free_irq_vectors(void *data) +{ + pci_free_irq_vectors(data); +} + +static void bcm4377_hci_free_dev(void *data) +{ + hci_free_dev(data); +} + +static void bcm4377_hci_unregister_dev(void *data) +{ + hci_unregister_dev(data); +} + +static int bcm4377_probe(struct pci_dev *pdev, const struct pci_device_id *id) +{ + struct bcm4377_data *bcm4377; + struct hci_dev *hdev; + int ret, irq; + + ret = dma_set_mask_and_coherent(&pdev->dev, BCM4377_DMA_MASK); + if (ret) + return ret; + + bcm4377 = devm_kzalloc(&pdev->dev, sizeof(*bcm4377), GFP_KERNEL); + if (!bcm4377) + return -ENOMEM; + + bcm4377->pdev = pdev; + bcm4377->hw = &bcm4377_hw_variants[id->driver_data]; + init_completion(&bcm4377->event); + + ret = bcm4377_prepare_rings(bcm4377); + if (ret) + return ret; + + ret = bcm4377_init_context(bcm4377); + if (ret) + return ret; + + ret = bcm4377_probe_dmi(bcm4377); + if (ret) + return ret; + ret = bcm4377_probe_of(bcm4377); + if (ret) + return ret; + if (!bcm4377->board_type) { + dev_err(&pdev->dev, "unable to determine board type\n"); + return -ENODEV; + } + + if (bcm4377->hw->disable_aspm) + bcm4377_disable_aspm(bcm4377); + + ret = pci_reset_function_locked(pdev); + if (ret) + dev_warn( + &pdev->dev, + "function level reset failed with %d; trying to continue anyway\n", + ret); + + /* + * If this number is too low and we try to access any BAR too + * early the device will crash. Experiments have shown that + * approximately 50 msec is the minimum amount we have to wait. + * Let's double that to be safe. + */ + msleep(100); + + ret = pci_enable_device(pdev); + if (ret) + return ret; + pci_set_master(pdev); + + ret = bcm4377_init_cfg(bcm4377); + if (ret) + return ret; + + bcm4377->bar0 = pcim_iomap(pdev, 0, 0); + if (!bcm4377->bar0) + return -EBUSY; + bcm4377->bar2 = pcim_iomap(pdev, 2, 0); + if (!bcm4377->bar2) + return -EBUSY; + + ret = bcm4377_parse_otp(bcm4377); + if (ret) { + dev_err(&pdev->dev, "Reading OTP failed with %d\n", ret); + return ret; + } + + /* + * Legacy interrupts result in an IRQ storm because we don't know where + * the interrupt mask and status registers for these chips are. + * MSIs are acked automatically instead. + */ + ret = pci_alloc_irq_vectors(pdev, 1, 1, PCI_IRQ_MSI); + if (ret < 0) + return -ENODEV; + ret = devm_add_action_or_reset(&pdev->dev, bcm4377_pci_free_irq_vectors, + pdev); + if (ret) + return ret; + + irq = pci_irq_vector(pdev, 0); + if (irq <= 0) + return -ENODEV; + + ret = devm_request_irq(&pdev->dev, irq, bcm4377_irq, 0, "bcm4377", + bcm4377); + if (ret) + return ret; + + hdev = hci_alloc_dev(); + if (!hdev) + return -ENOMEM; + ret = devm_add_action_or_reset(&pdev->dev, bcm4377_hci_free_dev, hdev); + if (ret) + return ret; + + bcm4377->hdev = hdev; + + hdev->bus = HCI_PCI; + hdev->dev_type = HCI_PRIMARY; + hdev->open = bcm4377_hci_open; + hdev->close = bcm4377_hci_close; + hdev->send = bcm4377_hci_send_frame; + hdev->set_bdaddr = bcm4377_hci_set_bdaddr; + hdev->setup = bcm4377_hci_setup; + + set_bit(HCI_QUIRK_USE_BDADDR_PROPERTY, &hdev->quirks); + if (bcm4377->hw->broken_mws_transport_config) + set_bit(HCI_QUIRK_BROKEN_MWS_TRANSPORT_CONFIG, &hdev->quirks); + if (bcm4377->hw->broken_ext_scan) + set_bit(HCI_QUIRK_BROKEN_EXT_SCAN, &hdev->quirks); + + pci_set_drvdata(pdev, bcm4377); + hci_set_drvdata(hdev, bcm4377); + SET_HCIDEV_DEV(hdev, &pdev->dev); + + ret = bcm4377_boot(bcm4377); + if (ret) + return ret; + + ret = bcm4377_setup_rti(bcm4377); + if (ret) + return ret; + + ret = hci_register_dev(hdev); + if (ret) + return ret; + return devm_add_action_or_reset(&pdev->dev, bcm4377_hci_unregister_dev, + hdev); +} + +static int bcm4377_suspend(struct pci_dev *pdev, pm_message_t state) +{ + struct bcm4377_data *bcm4377 = pci_get_drvdata(pdev); + int ret; + + ret = hci_suspend_dev(bcm4377->hdev); + if (ret) + return ret; + + iowrite32(BCM4377_BAR0_SLEEP_CONTROL_QUIESCE, + bcm4377->bar0 + BCM4377_BAR0_SLEEP_CONTROL); + + return 0; +} + +static int bcm4377_resume(struct pci_dev *pdev) +{ + struct bcm4377_data *bcm4377 = pci_get_drvdata(pdev); + + iowrite32(BCM4377_BAR0_SLEEP_CONTROL_UNQUIESCE, + bcm4377->bar0 + BCM4377_BAR0_SLEEP_CONTROL); + + return hci_resume_dev(bcm4377->hdev); +} + +static const struct dmi_system_id bcm4377_dmi_board_table[] = { + { + .matches = { + DMI_MATCH(DMI_BOARD_VENDOR, "Apple Inc."), + DMI_MATCH(DMI_PRODUCT_NAME, "MacBookAir9,1"), + }, + .driver_data = "apple,formosa", + }, + { + .matches = { + DMI_MATCH(DMI_BOARD_VENDOR, "Apple Inc."), + DMI_MATCH(DMI_PRODUCT_NAME, "MacBookPro15,4"), + }, + .driver_data = "apple,formosa", + }, + { + .matches = { + DMI_MATCH(DMI_BOARD_VENDOR, "Apple Inc."), + DMI_MATCH(DMI_PRODUCT_NAME, "MacBookPro16,3"), + }, + .driver_data = "apple,formosa", + }, + {} +}; + +static const struct bcm4377_hw bcm4377_hw_variants[] = { + [BCM4377] = { + .id = 0x4377, + .otp_offset = 0x4120, + .bar0_window1 = 0x1800b000, + .bar0_window2 = 0x1810c000, + .disable_aspm = true, + .broken_ext_scan = true, + .send_ptb = bcm4377_send_ptb, + }, + + [BCM4378] = { + .id = 0x4378, + .otp_offset = 0x4120, + .bar0_window1 = 0x18002000, + .bar0_window2 = 0x1810a000, + .bar0_core2_window2 = 0x18107000, + .has_bar0_core2_window2 = true, + .broken_mws_transport_config = true, + .send_calibration = bcm4378_send_calibration, + .send_ptb = bcm4378_send_ptb, + }, + + [BCM4387] = { + .id = 0x4387, + .otp_offset = 0x413c, + .bar0_window1 = 0x18002000, + .bar0_window2 = 0x18109000, + .bar0_core2_window2 = 0x18106000, + .has_bar0_core2_window2 = true, + .clear_pciecfg_subsystem_ctrl_bit19 = true, + .broken_mws_transport_config = true, + .send_calibration = bcm4387_send_calibration, + .send_ptb = bcm4378_send_ptb, + }, +}; + +#define BCM4377_DEVID_ENTRY(id) \ + { \ + PCI_VENDOR_ID_BROADCOM, BCM##id##_DEVICE_ID, PCI_ANY_ID, \ + PCI_ANY_ID, PCI_CLASS_NETWORK_OTHER << 8, 0xffff00, \ + BCM##id \ + } + +static const struct pci_device_id bcm4377_devid_table[] = { + BCM4377_DEVID_ENTRY(4377), + BCM4377_DEVID_ENTRY(4378), + BCM4377_DEVID_ENTRY(4387), + {}, +}; +MODULE_DEVICE_TABLE(pci, bcm4377_devid_table); + +static struct pci_driver bcm4377_pci_driver = { + .name = "hci_bcm4377", + .id_table = bcm4377_devid_table, + .probe = bcm4377_probe, + .suspend = bcm4377_suspend, + .resume = bcm4377_resume, +}; +module_pci_driver(bcm4377_pci_driver); + +MODULE_AUTHOR("Sven Peter "); +MODULE_DESCRIPTION("Bluetooth support for Broadcom 4377/4378/4387 devices"); +MODULE_LICENSE("Dual MIT/GPL"); +MODULE_FIRMWARE("brcm/brcmbt4377*.bin"); +MODULE_FIRMWARE("brcm/brcmbt4377*.ptb"); +MODULE_FIRMWARE("brcm/brcmbt4378*.bin"); +MODULE_FIRMWARE("brcm/brcmbt4378*.ptb"); +MODULE_FIRMWARE("brcm/brcmbt4387*.bin"); +MODULE_FIRMWARE("brcm/brcmbt4387*.ptb");