Commit 6063fb75 authored by Andrey Filippov's avatar Andrey Filippov

adding ahci_ctrl_stat.v to ahci.top

parent de42947e
...@@ -31,6 +31,7 @@ module ahci_fsm #( ...@@ -31,6 +31,7 @@ module ahci_fsm #(
input was_hba_rst, // last reset was hba reset (not counting system reset) input was_hba_rst, // last reset was hba reset (not counting system reset)
input was_port_rst, // last reset was port reset input was_port_rst, // last reset was port reset
/*
// notification from axi_ahci_regs that software has written data to register // notification from axi_ahci_regs that software has written data to register
input [ADDRESS_BITS-1:0] soft_write_addr, // register address written by software input [ADDRESS_BITS-1:0] soft_write_addr, // register address written by software
input [31:0] soft_write_data, // register data written (after applying wstb and type (RO, RW, RWC, RW1) input [31:0] soft_write_data, // register data written (after applying wstb and type (RO, RW, RWC, RW1)
...@@ -43,13 +44,91 @@ module ahci_fsm #( ...@@ -43,13 +44,91 @@ module ahci_fsm #(
output [1:0] regs_re, // [0] - re, [1] - regen output [1:0] regs_re, // [0] - re, [1] - regen
output [31:0] regs_din, output [31:0] regs_din,
input [31:0] regs_dout, input [31:0] regs_dout,
*/
// direct communication with transposrt, link and phy layers // direct communication with transposrt, link and phy layers
input phy_ready, // goes up after comreset,cominit, align, ... input phy_ready, // goes up after comreset,cominit, align, ...
output syncesc_send, // Send sync escape output syncesc_send, // Send sync escape
// Other signals.... // Other signals....
// Communication with ahci_ctrl_stat (some are not needed)
// update register inputs (will write to register memory current value of the corresponding register)
output update_GHC__IS,
output update_HBA_PORT__PxIS,
output update_HBA_PORT__PxSSTS,
output update_HBA_PORT__PxSERR,
output update_HBA_PORT__PxCMD,
// PxCMD
output pcmd_clear_icc, // clear PxCMD.ICC field
output pcmd_esp, // external SATA port (just forward value)
input pcmd_cr, // command list run - current
output pcmd_cr_set, // command list run set
output pcmd_cr_reset, // command list run reset
output pcmd_fr, // ahci_fis_receive:get_fis_busy
output pcmd_clear_bsy_drq, // == ahci_fis_receive:clear_bsy_drq
input pcmd_clo, //RW1, causes ahci_fis_receive:clear_bsy_drq, that in turn resets this bit
output pcmd_clear_st, // RW clear ST (start) bit
input pcmd_st, // current value
//clear_bsy_drq
// Interrupt inputs
output sirq_TFE, // RWC: Task File Error Status
output sirq_IF, // RWC: Interface Fatal Error Status (sect. 6.1.2)
output sirq_INF, // RWC: Interface Non-Fatal Error Status (sect. 6.1.2)
output sirq_OF, // RWC: Overflow Status
output sirq_PRC, // RO: PhyRdy changed Status
output sirq_PC, // RO: Port Connect Change Status
output sirq_DP, // RWC: Descriptor Processed with "I" bit on
output sirq_UF, // RO: Unknown FIS
output sirq_SDB, // RWC: Set Device Bits Interrupt - Set Device bits FIS with 'I' bit set
output sirq_DS, // RWC: DMA Setup FIS Interrupt - DMA Setup FIS received with 'I' bit set
output sirq_PS, // RWC: PIO Setup FIS Interrupt - PIO Setup FIS received with 'I' bit set
output sirq_DHR, // RWC: D2H Register FIS Interrupt - D2H Register FIS received with 'I' bit set
// SCR1:SError (only inputs that are not available in sirq_* ones
//sirq_PC,
//sirq_UF
output serr_DT, // RWC: Transport state transition error
output serr_DS, // RWC: Link sequence error
output serr_DH, // RWC: Handshake Error (i.e. Device got CRC error)
output serr_DC, // RWC: CRC error in Link layer
output serr_DB, // RWC: 10B to 8B decode error
output serr_DW, // RWC: COMMWAKE signal was detected
output serr_DI, // RWC: PHY Internal Error
// sirq_PRC,
// sirq_IF || // sirq_INF
output serr_EP, // RWC: Protocol Error - a violation of SATA protocol detected
output serr_EC, // RWC: Persistent Communication or Data Integrity Error
output serr_ET, // RWC: Transient Data Integrity Error (error not recovered by the interface)
output serr_EM, // RWC: Communication between the device and host was lost but re-established
output serr_EI, // RWC: Recovered Data integrity Error
// SCR0: SStatus
output ssts_ipm_dnp, // device not present or communication not established
output ssts_ipm_active, // device in active state
output ssts_ipm_part, // device in partial state
output ssts_ipm_slumb, // device in slumber state
output ssts_ipm_devsleep, // device in DevSleep state
output ssts_spd_dnp, // device not present or communication not established
output ssts_spd_gen1, // Gen 1 rate negotiated
output ssts_spd_gen2, // Gen 2 rate negotiated
output ssts_spd_gen3, // Gen 3 rate negotiated
output ssts_det_ndnp, // no device detected, phy communication not established
output ssts_det_dnp, // device detected, but phy communication not established
output ssts_det_dp, // device detected, phy communication established
output ssts_det_offline, // device detected, phy communication established
// SCR2:SControl (written by software only)
input [3:0] sctl_ipm, // Interface power management transitions allowed
input [3:0] sctl_spd, // Interface maximal speed
input [3:0] sctl_det, // Device detection initialization requested
output pxci0_clear, // PxCI clear
input pxci0, // pxCI current value
// inputs from the DMA engine // inputs from the DMA engine
input dma_prd_done, // output (finished next prd) input dma_prd_done, // output (finished next prd)
input dma_prd_irq, // output (finished next prd and prd irq is enabled) input dma_prd_irq, // output (finished next prd and prd irq is enabled)
......
...@@ -145,7 +145,9 @@ module ahci_top#( ...@@ -145,7 +145,9 @@ module ahci_top#(
input phy_ready, input phy_ready,
input syncesc_recv, // These two inputs interrupt transmit input syncesc_recv, // These two inputs interrupt transmit
input xmit_err, // Error during sending of a FIS input xmit_err, // Error during sending of a FIS
output syncesc_send // Send sync escape output syncesc_send, // Send sync escape
output irq // CPU interrupt request
); );
// axi_ahci_regs signals: // axi_ahci_regs signals:
...@@ -157,24 +159,26 @@ module ahci_top#( ...@@ -157,24 +159,26 @@ module ahci_top#(
// wire port_arst; // port0 async reset by software // wire port_arst; // port0 async reset by software
// 2. HBA R/W registers, use hba clock // 2. HBA R/W registers, use hba clock
// wire hba_rst; // wire hba_rst;
wire regs_we_fsm; wire regs_we_acs;
wire [1:0] regs_re_fsm; // wire [1:0] regs_re_fsm;
wire [31:0] regs_din_from_fsm; // from fsm wire [31:0] regs_din_from_acs; // from fsm
wire regs_we_freceive; wire regs_we_freceive;
wire [1:0] regs_re_ftransmit; // [0] - re, [1] - regen wire [1:0] regs_re_ftransmit; // [0] - re, [1] - regen
wire [ADDRESS_BITS-1:0] regs_faddr; // read/write adderss from ahci_fsm wire [ADDRESS_BITS-1:0] regs_saddr; // read/write adderss from ahci_fsm
wire [ADDRESS_BITS-1:0] regs_waddr; wire [ADDRESS_BITS-1:0] regs_waddr;
wire [ADDRESS_BITS-1:0] regs_raddr; wire [ADDRESS_BITS-1:0] regs_raddr;
wire [31:0] regs_din_from_freceive; wire [31:0] regs_din_from_freceive;
wire [31:0] regs_dout; wire [31:0] regs_dout;
wire [ADDRESS_BITS-1:0] regs_addr = ({ADDRESS_BITS{regs_we}} & regs_waddr) | wire [ADDRESS_BITS-1:0] regs_addr = ({ADDRESS_BITS{regs_we}} & regs_waddr) |
({ADDRESS_BITS{regs_re[0]}} & regs_raddr) | ({ADDRESS_BITS{regs_re[0]}} & regs_raddr) |
({ADDRESS_BITS{regs_re_fsm[0] | regs_we_fsm}} & regs_faddr); // ({ADDRESS_BITS{regs_re_fsm[0] | regs_we_acs}} & regs_saddr);
({ADDRESS_BITS{regs_we_acs}} & regs_saddr);
wire [31:0] regs_din = ({32{regs_we_freceive}} & regs_din_from_freceive) | wire [31:0] regs_din = ({32{regs_we_freceive}} & regs_din_from_freceive) |
({32{regs_we_fsm}} & regs_din_from_fsm); ({32{regs_we_acs}} & regs_din_from_acs);
wire [1:0] regs_re = regs_re_ftransmit | regs_re_fsm; // [0] - re, [1] - regen // wire [1:0] regs_re = regs_re_ftransmit | regs_re_fsm; // [0] - re, [1] - regen
wire regs_we = regs_we_freceive | regs_we_fsm; wire [1:0] regs_re = regs_re_ftransmit; // [0] - re, [1] - regen
wire regs_we = regs_we_freceive | regs_we_acs;
//--------------------- //---------------------
...@@ -285,6 +289,86 @@ module ahci_top#( ...@@ -285,6 +289,86 @@ module ahci_top#(
wire was_hba_rst; wire was_hba_rst;
wire was_port_rst; wire was_port_rst;
// signals between ahci_fsm and ahci_ctrl_stat
wire update_GHC__IS;
wire update_HBA_PORT__PxIS;
wire update_HBA_PORT__PxSSTS;
wire update_HBA_PORT__PxSERR;
wire update_HBA_PORT__PxCMD;
// PxCMD
wire pcmd_clear_icc; // clear PxCMD.ICC field
wire pcmd_esp; // external SATA port (just forward value)
wire pcmd_cr; // command list run - current
wire pcmd_cr_set; // command list run set
wire pcmd_cr_reset; // command list run reset
wire pcmd_fr; // ahci_fis_receive:get_fis_busy
wire pcmd_clear_bsy_drq; // == ahci_fis_receive:clear_bsy_drq
wire pcmd_clo; //RW1, causes ahci_fis_receive:clear_bsy_drq, that in turn resets this bit
wire pcmd_clear_st; // RW clear ST (start) bit
wire pcmd_st; // current value
//clear_bsy_drq
// Interrupt inputs
wire sirq_TFE; // RWC: Task File Error Status
wire sirq_IF; // RWC: Interface Fatal Error Status (sect. 6.1.2)
wire sirq_INF; // RWC: Interface Non-Fatal Error Status (sect. 6.1.2)
wire sirq_OF; // RWC: Overflow Status
wire sirq_PRC; // RO: PhyRdy changed Status
wire sirq_PC; // RO: Port Connect Change Status
wire sirq_DP; // RWC: Descriptor Processed with "I" bit on
wire sirq_UF; // RO: Unknown FIS
wire sirq_SDB; // RWC: Set Device Bits Interrupt - Set Device bits FIS with 'I' bit set
wire sirq_DS; // RWC: DMA Setup FIS Interrupt - DMA Setup FIS received with 'I' bit set
wire sirq_PS; // RWC: PIO Setup FIS Interrupt - PIO Setup FIS received with 'I' bit set
wire sirq_DHR; // RWC: D2H Register FIS Interrupt - D2H Register FIS received with 'I' bit set
// SCR1:SError (only inputs that are not available in sirq_* ones
//sirq_PC;
//sirq_UF
wire serr_DT; // RWC: Transport state transition error
wire serr_DS; // RWC: Link sequence error
wire serr_DH; // RWC: Handshake Error (i.e. Device got CRC error)
wire serr_DC; // RWC: CRC error in Link layer
wire serr_DB; // RWC: 10B to 8B decode error
wire serr_DW; // RWC: COMMWAKE signal was detected
wire serr_DI; // RWC: PHY Internal Error
// sirq_PRC;
// sirq_IF || // sirq_INF
wire serr_EP; // RWC: Protocol Error - a violation of SATA protocol detected
wire serr_EC; // RWC: Persistent Communication or Data Integrity Error
wire serr_ET; // RWC: Transient Data Integrity Error (error not recovered by the interface)
wire serr_EM; // RWC: Communication between the device and host was lost but re-established
wire serr_EI; // RWC: Recovered Data integrity Error
// SCR0: SStatus
wire ssts_ipm_dnp; // device not present or communication not established
wire ssts_ipm_active; // device in active state
wire ssts_ipm_part; // device in partial state
wire ssts_ipm_slumb; // device in slumber state
wire ssts_ipm_devsleep; // device in DevSleep state
wire ssts_spd_dnp; // device not present or communication not established
wire ssts_spd_gen1; // Gen 1 rate negotiated
wire ssts_spd_gen2; // Gen 2 rate negotiated
wire ssts_spd_gen3; // Gen 3 rate negotiated
wire ssts_det_ndnp; // no device detected, phy communication not established
wire ssts_det_dnp; // device detected, but phy communication not established
wire ssts_det_dp; // device detected, phy communication established
wire ssts_det_offline; // device detected, phy communication established
// SCR2:SControl (written by software only)
wire [3:0] sctl_ipm; // Interface power management transitions allowed
wire [3:0] sctl_spd; // Interface maximal speed
wire [3:0] sctl_det; // Device detection initialization requested
wire pxci0_clear; // PxCI clear
wire pxci0; // pxCI current value
ahci_fsm #( ahci_fsm #(
.READ_REG_LATENCY(2), .READ_REG_LATENCY(2),
.ADDRESS_BITS(10) .ADDRESS_BITS(10)
...@@ -293,17 +377,68 @@ module ahci_top#( ...@@ -293,17 +377,68 @@ module ahci_top#(
.mclk (mclk), // input .mclk (mclk), // input
.was_hba_rst (was_hba_rst), // input .was_hba_rst (was_hba_rst), // input
.was_port_rst (was_port_rst), // input .was_port_rst (was_port_rst), // input
.soft_write_addr (soft_write_addr), // input[9:0]
.soft_write_data (soft_write_data), // input[31:0]
.soft_write_en (soft_write_en), // input
.regs_addr (regs_faddr), // output[9:0]
.regs_we (regs_we_fsm), // output
.regs_re (regs_re_fsm), // output[1:0]
.regs_din (regs_din_from_fsm), // output[31:0]
.regs_dout (regs_dout), // input[31:0]
.phy_ready (phy_ready), // input .phy_ready (phy_ready), // input
.syncesc_send (syncesc_send), // output Send sync escape .syncesc_send (syncesc_send), // output
.update_GHC__IS (update_GHC__IS), // output
.update_HBA_PORT__PxIS (update_HBA_PORT__PxIS), // output
.update_HBA_PORT__PxSSTS (update_HBA_PORT__PxSSTS), // output
.update_HBA_PORT__PxSERR (update_HBA_PORT__PxSERR), // output
.update_HBA_PORT__PxCMD (update_HBA_PORT__PxCMD), // output
.pcmd_clear_icc (pcmd_clear_icc), // output
.pcmd_esp (pcmd_esp), // output
.pcmd_cr (pcmd_cr), // input
.pcmd_cr_set (pcmd_cr_set), // output
.pcmd_cr_reset (pcmd_cr_reset), // output
.pcmd_fr (pcmd_fr), // output
.pcmd_clear_bsy_drq (pcmd_clear_bsy_drq),// output
.pcmd_clo (pcmd_clo), // input
.pcmd_clear_st (pcmd_clear_st), // output
.pcmd_st (pcmd_st), // input
.sirq_TFE (sirq_TFE), // output
.sirq_IF (sirq_IF), // output
.sirq_INF (sirq_INF), // output
.sirq_OF (sirq_OF), // output
.sirq_PRC (sirq_PRC), // output
.sirq_PC (sirq_PC), // output
.sirq_DP (sirq_DP), // output
.sirq_UF (sirq_UF), // output
.sirq_SDB (sirq_SDB), // output
.sirq_DS (sirq_DS), // output
.sirq_PS (sirq_PS), // output
.sirq_DHR (sirq_DHR), // output
.serr_DT (serr_DT), // output
.serr_DS (serr_DS), // output
.serr_DH (serr_DH), // output
.serr_DC (serr_DC), // output
.serr_DB (serr_DB), // output
.serr_DW (serr_DW), // output
.serr_DI (serr_DI), // output
.serr_EP (serr_EP), // output
.serr_EC (serr_EC), // output
.serr_ET (serr_ET), // output
.serr_EM (serr_EM), // output
.serr_EI (serr_EI), // output
.ssts_ipm_dnp (ssts_ipm_dnp), // output
.ssts_ipm_active (ssts_ipm_active), // output
.ssts_ipm_part (ssts_ipm_part), // output
.ssts_ipm_slumb (ssts_ipm_slumb), // output
.ssts_ipm_devsleep (ssts_ipm_devsleep), // output
.ssts_spd_dnp (ssts_spd_dnp), // output
.ssts_spd_gen1 (ssts_spd_gen1), // output
.ssts_spd_gen2 (ssts_spd_gen2), // output
.ssts_spd_gen3 (ssts_spd_gen3), // output
.ssts_det_ndnp (ssts_det_ndnp), // output
.ssts_det_dnp (ssts_det_dnp), // output
.ssts_det_dp (ssts_det_dp), // output
.ssts_det_offline (ssts_det_offline), // output
.sctl_ipm (sctl_ipm), // input[3:0]
.sctl_spd (sctl_spd), // input[3:0]
.sctl_det (sctl_det), // input[3:0]
.pxci0_clear (pxci0_clear), // output
.pxci0 (pxci0), // input
.dma_prd_done (dma_prd_done), // input .dma_prd_done (dma_prd_done), // input
.dma_prd_irq (dma_prd_irq), // input .dma_prd_irq (dma_prd_irq), // input
...@@ -426,78 +561,77 @@ module ahci_top#( ...@@ -426,78 +561,77 @@ module ahci_top#(
); );
/* Instance template for module ahci_ctrl_stat */
ahci_ctrl_stat #( ahci_ctrl_stat #(
.ADDRESS_BITS (ADDRESS_BITS) .ADDRESS_BITS (ADDRESS_BITS)
) ahci_ctrl_stat_i ( ) ahci_ctrl_stat_i (
.mrst (), // input .mrst (mrst), // input
.mclk (), // input .mclk (mclk), // input
.was_hba_rst (), // input .was_hba_rst (was_hba_rst), // input
.was_port_rst (), // input .was_port_rst (was_port_rst), // input
.soft_write_addr (), // input[9:0] .soft_write_addr (soft_write_addr), // input[9:0]
.soft_write_data (), // input[31:0] .soft_write_data (soft_write_data), // input[31:0]
.soft_write_en (), // input .soft_write_en (soft_write_en), // input
.regs_addr (), // output[9:0] reg .regs_addr (regs_saddr), // output[9:0] reg
.regs_we (), // output reg .regs_we (regs_we_acs), // output reg
.regs_din (), // output[31:0] reg .regs_din (regs_din_from_acs), // output[31:0] reg
.update_GHC__IS (), // input .update_GHC__IS (update_GHC__IS), // input
.update_HBA_PORT__PxIS (), // input .update_HBA_PORT__PxIS (update_HBA_PORT__PxIS), // input
.update_HBA_PORT__PxSSTS (), // input .update_HBA_PORT__PxSSTS (update_HBA_PORT__PxSSTS), // input
.update_HBA_PORT__PxSERR (), // input .update_HBA_PORT__PxSERR (update_HBA_PORT__PxSERR), // input
.update_HBA_PORT__PxCMD (), // input .update_HBA_PORT__PxCMD (update_HBA_PORT__PxCMD), // input
.pcmd_clear_icc (), // input .pcmd_clear_icc (pcmd_clear_icc), // input
.pcmd_esp (), // input .pcmd_esp (pcmd_esp), // input
.pcmd_cr (), // output .pcmd_cr (pcmd_cr), // output
.pcmd_cr_set (), // input .pcmd_cr_set (pcmd_cr_set), // input
.pcmd_cr_reset (), // input .pcmd_cr_reset (pcmd_cr_reset), // input
.pcmd_fr (), // input .pcmd_fr (pcmd_fr), // input
.pcmd_clear_bsy_drq (), // input .pcmd_clear_bsy_drq (pcmd_clear_bsy_drq), // input
.pcmd_clo (), // output .pcmd_clo (pcmd_clo), // output
.pcmd_clear_st (), // input .pcmd_clear_st (pcmd_clear_st), // input
.pcmd_st (), // output .pcmd_st (pcmd_st), // output
.sirq_TFE (), // input .sirq_TFE (sirq_TFE), // input
.sirq_IF (), // input .sirq_IF (sirq_IF), // input
.sirq_INF (), // input .sirq_INF (sirq_INF), // input
.sirq_OF (), // input .sirq_OF (sirq_OF), // input
.sirq_PRC (), // input .sirq_PRC (sirq_PRC), // input
.sirq_PC (), // input .sirq_PC (sirq_PC), // input
.sirq_DP (), // input .sirq_DP (sirq_DP), // input
.sirq_UF (), // input .sirq_UF (sirq_UF), // input
.sirq_SDB (), // input .sirq_SDB (sirq_SDB), // input
.sirq_DS (), // input .sirq_DS (sirq_DS), // input
.sirq_PS (), // input .sirq_PS (sirq_PS), // input
.sirq_DHR (), // input .sirq_DHR (sirq_DHR), // input
.serr_DT (), // input .serr_DT (serr_DT), // input
.serr_DS (), // input .serr_DS (serr_DS), // input
.serr_DH (), // input .serr_DH (serr_DH), // input
.serr_DC (), // input .serr_DC (serr_DC), // input
.serr_DB (), // input .serr_DB (serr_DB), // input
.serr_DW (), // input .serr_DW (serr_DW), // input
.serr_DI (), // input .serr_DI (serr_DI), // input
.serr_EP (), // input .serr_EP (serr_EP), // input
.serr_EC (), // input .serr_EC (serr_EC), // input
.serr_ET (), // input .serr_ET (serr_ET), // input
.serr_EM (), // input .serr_EM (serr_EM), // input
.serr_EI (), // input .serr_EI (serr_EI), // input
.ssts_ipm_dnp (), // input .ssts_ipm_dnp (ssts_ipm_dnp), // input
.ssts_ipm_active (), // input .ssts_ipm_active (ssts_ipm_active), // input
.ssts_ipm_part (), // input .ssts_ipm_part (ssts_ipm_part), // input
.ssts_ipm_slumb (), // input .ssts_ipm_slumb (ssts_ipm_slumb), // input
.ssts_ipm_devsleep (), // input .ssts_ipm_devsleep (ssts_ipm_devsleep), // input
.ssts_spd_dnp (), // input .ssts_spd_dnp (ssts_spd_dnp), // input
.ssts_spd_gen1 (), // input .ssts_spd_gen1 (ssts_spd_gen1), // input
.ssts_spd_gen2 (), // input .ssts_spd_gen2 (ssts_spd_gen2), // input
.ssts_spd_gen3 (), // input .ssts_spd_gen3 (ssts_spd_gen3), // input
.ssts_det_ndnp (), // input .ssts_det_ndnp (ssts_det_ndnp), // input
.ssts_det_dnp (), // input .ssts_det_dnp (ssts_det_dnp), // input
.ssts_det_dp (), // input .ssts_det_dp (ssts_det_dp), // input
.ssts_det_offline (), // input .ssts_det_offline (ssts_det_offline), // input
.sctl_ipm (), // output[3:0] reg .sctl_ipm (sctl_ipm), // output[3:0] reg
.sctl_spd (), // output[3:0] reg .sctl_spd (sctl_spd), // output[3:0] reg
.sctl_det (), // output[3:0] reg .sctl_det (sctl_det), // output[3:0] reg
.pxci0_clear (), // input .pxci0_clear (pxci0_clear), // input
.pxci0 (), // output .pxci0 (pxci0), // output
.irq () // output reg .irq (irq) // output reg
); );
ahci_dma ahci_dma_i ( ahci_dma ahci_dma_i (
......
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